TOSHIBA

LOCAL/
REMOTE
H9 Adjustable Speed Drive

H9

H9 ASD
Installation and Operation Manual

Document Number: 58682-003

Date: March, 2011
H9 ASD Installation and Operation
Manual

Document Number: 58682-003

Date: March, 2011
Introduction
Congratulations on the purchase of the new H9 Adjustable Speed Drive!

The H9 Adjustable Speed Drive (ASD) is a solid-state AC drive that features Toshiba International
Corporation’s (TIC) Vector Control Algorithm enables the motor to develop high starting torque and
provide compensation for motor slip, which results in smooth, quick starts and highly efficient operation.
The H9 ASD uses digitally-controlled pulse width modulation. The programmable functions may be
accessed via the easy-to-use menu or via the Direct Access Numbers (see page 76). This feature,
combined with TIC’s high-performance software, delivers unparalleled motor control and reliability.

The H9 ASD is a very powerful tool, yet surprisingly simple to operate. The user-friendly Electronic
Operator Interface (EOI) of the H9 ASD has an easy-to-read LCD screen. There is also a read-only LED
screen with enhanced visibility that can be read from a greater distance. The EOI provides easy access to
the many monitoring and programming features of the H9 ASD.

The motor control software is menu-driven, which allows for easy access to the motor control parameters
and quick changes when required.

To maximize the abilities of your new H9 ASD, a working familiarity with this manual will be required.
This manual has been prepared for the ASD installer, user, and maintenance personnel. This manual may
also be used as a reference guide or for training. With this in mind, use this manual to develop a system
familiarity before attempting to install or operate the device.

Important Notice
The instructions contained in this manual are not intended to cover all details or variations in equipment
types, nor may it provide contingency concerning the installation, operations, or maintenance of this
equipment. Should additional information be required contact your TIC Sales Representative.

The contents of this manual shall not become a part of or modify any prior or existing agreement,
commitment, or relationship. The sales contract contains the entire obligation of Toshiba International
Corporation. The warranty contained in the contract between the parties is the sole warranty of Toshiba
International Corporation and any statements contained herein do not create new warranties or modify the
existing warranty.

Any electrical or mechanical modifications to this equipment without prior written consent of
Toshiba International Corporation may void all warranties and may void the UL/CSA listing or
other safety certifications. Unauthorized modifications may also result in a safety hazard or
equipment damage.

Misuse of this equipment could result in injury and equipment damage. In no event will Toshiba
International Corporation be responsible or liable for direct, indirect, special, or consequential
damage or injury that may result from the misuse of this equipment.
About This Manual
This manual was written by the TIC Technical Publications Group. This group is tasked with providing
technical documentation for the H9 Adjustable Speed Drive. Every effort has been made to provide
accurate and concise information to you, our customer.

At Toshiba International Corporation we are continuously striving for better ways to meet the constantly
changing needs of our customers. E-mail your comments, questions, or concerns about this publication
to Technical-Publications-Dept@tic.toshiba.com.

Manual’s Purpose and Scope

This manual provides information on how to safely install, operate, maintain, and dispose of your
H9 Adjustable Speed Drive. The information provided in this manual is applicable to the
H9 Adjustable Speed Drive only.

This manual provides information on the various features and functions of this powerful cost-saving
device, including

• Installation,

• System operation,

• Configuration and menu options, and

• Mechanical and electrical specifications.

Included is a section on general safety instructions that describe the warning labels and symbols that are
used throughout the manual. Read the manual completely before installing, operating, performing
maintenance, or disposing of this equipment.

This manual and the accompanying drawings should be considered a permanent part of the equipment
and should be readily available for reference and review. Dimensions shown in the manual are in metric
and/or the English equivalent.

Because of our commitment to continuous improvement, Toshiba International Corporation reserves the
right, without prior notice, to update information, make product changes, or to discontinue any product
or service identified in this publication.

Toshiba International Corporation (TIC) shall not be liable for direct, indirect, special, or
consequential damages resulting from the use of the information contained within this manual.

This manual is copyrighted. No part of this manual may be photocopied or reproduced in any form
without the prior written consent of Toshiba International Corporation.

© Copyright 2011 Toshiba International Corporation.

TOSHIBA® is a registered trademark of Toshiba Corporation. All other product or trade references
appearing in this manual are registered trademarks of their respective owners.

All rights reserved.

Printed in the U.S.A.

Contacting TIC’s Customer Support
Center
TIC’s Customer Support Center can be contacted to obtain help in resolving any Adjustable Speed
Drive system problem that you may experience or to provide application information.

The Support Center is open from 8 a.m. to 5 p.m. (CST), Monday through Friday. The Center’s toll free
number is US (800) 231-1412/Fax (713) 937-9349 CAN (800) 872-2192 MEX 01 (800) 527-1204.
For after-hours support follow the directions in the outgoing message when calling.

You may also contact Toshiba International Corporation by writing to:

Toshiba International Corporation

13131 West Little York Road

Houston, Texas 77041-9990

Attn: ASD Product Manager.

For further information on TIC’s products and services, please visit our website at www.toshiba.com/
ind/.

TOSHIBA INTERNATIONAL CORPORATION

H9 Adjustable Speed Drive
Please complete the Warranty Card supplied with the H9 ASD and return it to Toshiba International Corporation
by prepaid mail. This will activate the 12 month warranty from the date of installation; but, shall not exceed 18
months from the shipping date.

Complete the following information and retain for your records.

Model Number: ______________________________________________________________________

Serial Number: ______________________________________________________________________

Project Number (if applicable): __________________________________________________________

Date of Installation: __________________________________________________________________

Inspected By: ______________________________________________________________________

Name of Application: ______________________________________________________________

Table of Contents

General Safety Information ....................................................................................................1

Safety Alert Symbol ...........................................................................................................1
Signal Words ......................................................................................................................1
Special Symbols .................................................................................................................2
Equipment Warning Labels ................................................................................................2
Qualified Personnel ............................................................................................................2
Equipment Inspection .........................................................................................................3
Handling and Storage .........................................................................................................3
Disposal ..............................................................................................................................3
Installation Precautions ...........................................................................................................4
Location and Ambient Requirements .................................................................................4
Mounting Requirements .....................................................................................................4
Conductor Routing and Grounding ....................................................................................5
Power Connections .............................................................................................................6
Protection ............................................................................................................................6
System Integration Precautions ..............................................................................................7
Personnel Protection ...........................................................................................................7
System Setup Requirements ...............................................................................................8
Operational and Maintenance Precautions ...........................................................................9
Motor Characteristics ............................................................................................................10
Motor Autotuning .............................................................................................................10
Pulse Width Modulation Operation ..................................................................................10
Low-Speed Operation .......................................................................................................10
Overload Protection Adjustment ......................................................................................10
Operation Above 60 Hz ....................................................................................................10
Power Factor Correction ...................................................................................................11
Light Load Conditions ......................................................................................................11
Motor/Load Combinations ...............................................................................................11
Load-Produced Negative Torque ......................................................................................12
Motor Braking ..................................................................................................................12
ASD Characteristics ..............................................................................................................13
Over-Current Protection ...................................................................................................13
ASD Capacity ...................................................................................................................13
Using Vector Control ........................................................................................................13
Installation and Connections ................................................................................................14
Installation Notes ..............................................................................................................14
Mounting the ASD ............................................................................................................15

H9 ASD Installation and Operation Manual i

 Connecting the ASD .........................................................................................................16
Lead Length Specifications ..............................................................................................20
I/O and Control .................................................................................................................21
Electronic Operator Interface ..............................................................................................28
EOI Operation ...................................................................................................................28
Battery Backup .................................................................................................................28
EOI Remote Mounting .....................................................................................................29
EOI Features .....................................................................................................................30
EOI Remote Mounting .....................................................................................................33
Command Mode and Frequency Mode Control .................................................................36
Command Control (F003) ................................................................................................36
Frequency Control (F004) ................................................................................................37
Override Operation ...........................................................................................................38
System Configuration and Menu Options ...........................................................................41
Root Menus .......................................................................................................................41
System Operation ...................................................................................................................70
Initial Setup .......................................................................................................................70
Startup Wizard Parameters ...............................................................................................70
Operation (Local) ..............................................................................................................73
Default Setting Changes ...................................................................................................74
Save User Settings ............................................................................................................75
Direct Access Parameter Information .................................................................................76
Direct Access Parameters/Numbers .................................................................................76
Alarms, Trips, and Troubleshooting ..................................................................................244
Alarms and Trips ............................................................................................................244
User Notification Codes .................................................................................................245
Alarms .............................................................................................................................246
Trips/Faults .....................................................................................................................248
Enclosure and Conduit Plate Dimensions .........................................................................254
Enclosure Dimensions ....................................................................................................254
Conduit Plate Dimensions ..............................................................................................259
Current/Voltage Specifications ...........................................................................................262
Cable/Terminal/Torque Specifications ..............................................................................264
Dynamic Braking System Specifications ...........................................................................266
Short Circuit Protection Recommendations .....................................................................268
H9 ASD Optional Devices ...................................................................................................269

ii H9 ASD Installation and Operation Manual

General Safety Information
DO NOT attempt to install, operate, maintain, or dispose of this equipment until you have read and
understood all of the product safety information and directions that are contained in this manual.

Safety Alert Symbol

The Safety Alert Symbol is comprised of an equilateral triangle enclosing an exclamation mark. This
indicates that a potential personal injury hazard exists.

Signal Words
Listed below are the signal words that are used throughout this manual followed by their descriptions
and associated symbols. When the words DANGER, WARNING, and CAUTION are used in this
manual they will be followed by important safety information that must be carefully followed.

The word DANGER preceded by the safety alert symbol indicates that an imminently hazardous
situation exists that, if not avoided or if instructions are not followed precisely, will result in serious
injury to personnel or loss of life.

DANGER
The word WARNING preceded by the safety alert symbol indicates that a potentially hazardous
situation exists that, if not avoided or if instructions are not followed precisely, could result in serious
injury to personnel or loss of life.

WARNING
The word CAUTION preceded by the safety alert symbol indicates that a potentially hazardous
situation exists that, if not avoided or if instructions are not followed precisely, may result in minor or
moderate injury.

CAUTION
The word CAUTION without the safety alert symbol indicates a potentially hazardous situation exists
that, if not avoided or if instructions are not followed precisely, may result in equipment and property
damage.

CAUTION

H9 ASD Installation and Operation Manual 1

 Special Symbols
To identify special hazards, other symbols may appear in conjunction with the DANGER, WARNING,
and CAUTION signal words. These symbols indicate areas that require special and/or strict adherence
to the procedures to prevent serious injury to personnel or loss of life.

Electrical Hazard Symbol

A symbol that is comprised of an equilateral triangle enclosing
a lightning bolt indicates a hazard of injury from electrical
shock or burn.

Explosion Hazard Symbol

A symbol that is comprised of an equilateral triangle enclosing
an explosion indicates a hazard of injury from exploding parts.

Equipment Warning Labels

DO NOT attempt to install, operate, perform maintenance, or dispose of this equipment until you have
read and understood all of the product labels and user directions that are contained in this manual.
Warning labels that are attached to the equipment will include the exclamation mark within a triangle.
DO NOT remove or cover any of these labels. If the labels are damaged or if additional labels are
required, contact your TIC Sales Representative.
Labels attached to the equipment are there to provide useful information or to indicate an imminently
hazardous situation that may result in serious injury, severe property and equipment damage, or loss of
life if safe procedures or methods are not followed as outlined in this manual.

Qualified Personnel
Installation, operation, and maintenance shall be performed by Qualified Personnel Only. A Qualified
Person is one that has the skills and knowledge relating to the construction, installation, operation, and
maintenance of the electrical equipment and has received safety training on the hazards involved (Refer
to the latest edition of NFPA 70E for additional safety requirements).
Qualified Personnel shall:
• Have carefully read the entire manual.
• Be familiar with the construction and function of the ASD, the equipment being driven, and the
hazards involved.
• Be able to recognize and properly address hazards associated with the application of motor-driven
equipment.
• Be trained and authorized to safely energize, de-energize, ground, lock out/tag out circuits and
equipment, and clear faults in accordance with established safety practices.
• Be trained in the proper care and use of protective equipment such as safety shoes, rubber gloves,
hard hats, safety glasses, face shields, flash clothing, etc., in accordance with established safety
practices.

For further information on workplace safety visit www.osha.gov.

2 H9 ASD Installation and Operation Manual

 Equipment Inspection
• Upon receipt of the equipment inspect the packaging and equipment for shipping damage.
• Carefully unpack the equipment and check for parts that may have been damaged during shipping,
missing parts, or concealed damage. If any discrepancies are discovered, it should be noted with the
carrier prior to accepting the shipment, if possible. File a claim with the carrier if necessary and
immediately notify your TIC Sales Representative.
• DO NOT install the ASD if it is damaged or if it is missing any component(s).
• Ensure that the rated capacity and the model number specified on the nameplate conform to the
order specifications.
• Modification of this equipment is dangerous and is to be performed by factory trained personnel.
When modifications are required contact your TIC Sales Representative.
• Inspections may be required after moving equipment.
• Contact your TIC Sales Representative to report discrepancies or for assistance if required.

Handling and Storage

• Use proper lifting techniques when moving the ASD; including properly sizing up the load, getting
assistance, and using a forklift if required.
• Store in a well-ventilated location and preferably in the original carton if the equipment will not be
used upon receipt.
• Store in a cool, clean, and dry location. Avoid storage locations with extreme temperatures, rapid
temperature changes, high humidity, moisture, dust, corrosive gases, or metal particles.
• The storage temperature range of the H9 ASD is -13° to 149° F (-25° to 65° C).
• Do not store the unit in places that are exposed to outside weather conditions (i.e., wind, rain, snow,
etc.).
• Store in an upright position.

Disposal
Never dispose of electrical components via incineration. Contact your state environmental agency for
details on disposal of electrical components and packaging in your area.

H9 ASD Installation and Operation Manual 3

Installation Precautions
Location and Ambient Requirements
• The TIC ASD is intended for permanent installations only.
• Installation should conform to the National Electrical Code — Article 110 (Requirements For
Electrical Installations), all regulations of the Occupational Safety and Health Administration,
and any other applicable national, regional, or industry codes and standards.

Note: For ALL references to the National Electrical Code (NEC), see the latest release of
the National Electrical Code.
• Select a mounting location that is easily accessible, has adequate personnel working space, and
adequate illumination for adjustment, inspection, and maintenance of the equipment (refer to NEC
Article 110-13).
• DO NOT mount the ASD in a location that would produce catastrophic results if it were to fall
from its mounting location (equipment damage or injury).
• DO NOT mount the ASD in a location that would allow it to be exposed to flammable chemicals or
gases, water, solvents, or other fluids.
• Avoid installation in areas where vibration, heat, humidity, dust, fibers, metal particles, explosive/
corrosive mists or gases, or sources of electrical noise are present.
• The installation location shall not be exposed to direct sunlight.
• Allow proper clearance spaces for installation. Do not obstruct the ventilation openings. Refer to
the section titled Installation and Connections on pg. 14 for further information on ventilation
requirements.
• The ambient operating temperature range of the H9 ASD is 14° to 104° F (-10 to 40° C).

Mounting Requirements
• Only Qualified Personnel should install this equipment.
• Install the unit in a secure and upright position in a well-ventilated area.
• As a minimum, the installation of the equipment should conform to the NEC — Article 110,
OSHA, as well as any other applicable national, regional, or industry codes and standards.
• Installation practices should conform to the latest revision of NFPA 70E Electrical Safety
Requirements for Employee Workplaces.
• It is the responsibility of the ASD installer/maintenance personnel to ensure that the unit is installed
into an enclosure that will protect personnel against electric shock.

4 H9 ASD Installation and Operation Manual

 Conductor Routing and Grounding
WARNING
• Use separate metal conduits for routing the input power, output power, and control circuits.
• A separate ground cable should be run inside the conduit with the input power, output power, and
control circuits.
• DO NOT connect CC to earth ground.
• Use IICC terminal as the return for the V/I input.
• Always ground the unit to prevent electrical shock and to help reduce electrical noise.
• It is the responsibility of the ASD installer/maintenance personnel to provide proper grounding and
branch circuit protection in accordance with the NEC and any applicable local codes.

— The Metal Of Conduit Is Not An Acceptable Ground —

Grounding Capacitor Switch

The ASD is equipped with noise reduction capacitors which are used to reduce the EMI leakage via the
3-phase power-input circuit and for compliance with the Electromagnetic Compatibility Directive
(EMC).
The effective value of the capacitor may be increased, reduced, or removed entirely via the Selector
Switch, Switching Bar, or the Switching Screw — the type used is typeform-specific.
The Grounding Capacitor Switch allows the user to quickly change the value of the capacitance of the
3-phase input circuit without the use of tools.
See the section titled System Grounding on pg. 18 for more on the Grounding Capacitor.
See figures 4, 5, 6, and 7 on pg. 19 for an electrical depiction of the leakage-reduction functionality of
the Grounding Capacitor and the methods used to set the capacitance value.

H9 ASD Installation and Operation Manual 5

 Power Connections
DANGER
Contact With Energized Wiring Will Cause Severe
Injury Or Loss Of Life.
• Turn off, lock out, and tag out all power sources before proceeding to connect the power wiring to
the equipment.
• After ensuring that all power sources are turned off and isolated in accordance with established
lock out/tag out procedures, connect the 3-phase power source wiring of the correct voltage to the
correct input terminals and connect the output terminals to a motor of the correct voltage and type
for the application (refer to the NEC Article 300 – Wiring Methods and Article 310 – Conductors
For General Wiring). Size the branch circuit conductors in accordance with the NEC Table 310.16.
• Ensure that the 3-phase input power is NOT connected to the output of the ASD. This will damage
the ASD and may cause injury to personnel.
• DO NOT connect resistors across terminals PA – PC or PO – PC. This may cause a fire.
• Ensure the correct phase sequence and the desired direction of motor rotation in the Bypass mode
(if applicable).

Protection
• Ensure that primary protection exists for the input wiring to the equipment. This protection must be
able to interrupt the available fault current from the power line. The equipment may or may not be
equipped with an input disconnect (option).
• All cable entry openings must be sealed to reduce the risk of entry by vermin and to allow for
maximum cooling efficiency.
• External dynamic braking resistors must be thermally protected.
• It is the responsibility of the ASD installer/maintenance personnel to setup the Emergency Off
braking system of the ASD. The function of the Emergency Off braking function is to remove
output power from the drive in the event of an emergency. A supplemental braking system may also
be engaged in the event of an emergency. For further information on braking systems, see
parameters F250 and F304.

Note: A supplemental emergency stopping system should be used with the ASD. Emergency
stopping should not be a task of the ASD alone.

• Follow all warnings and precautions and do not exceed equipment ratings.

6 H9 ASD Installation and Operation Manual

System Integration Precautions
The following precautions are provided as general guidelines for the setup of the ASD within the
system.

• The TIC ASD is a general-purpose product. It is a system component only and the system design
should take this into consideration. Please contact your TIC Sales Representative for application-
specific information or for training support.

• The TIC ASD is part of a larger system and the safe operation of the ASD will depend upon
observing certain precautions and performing proper system integration.

• Improperly designed or improperly installed system interlocks may render the motor unable to start
or stop on command.

• The failure of external or ancillary components may cause intermittent system operation (i.e., the
system may start the motor without warning).

• A detailed system analysis and job safety analysis should be performed by the systems designer
and/or systems integrator before the installation of the ASD component. Contact your TIC Sales
Representative for options availability and for application-specific system integration information
if required.

Personnel Protection
• Installation, operation, and maintenance shall be performed by Qualified Personnel Only.

• A thorough understanding of the ASD will be required before the installation, operation, or
maintenance of the ASD.

WARNING
• Rotating machinery and live conductors can be hazardous and shall not come into contact with
personnel. Personnel should be protected from all rotating machinery and electrical hazards at all
times.

• Insulators, machine guards, and electrical safeguards may fail or be defeated by the purposeful or
inadvertent actions of workers. Insulators, machine guards, and electrical safeguards are to be
inspected (and tested where possible) at installation and periodically after installation for potential
hazardous conditions.

• DO NOT allow personnel near rotating machinery. Warning signs to this effect shall be posted at or
near the machinery.

• DO NOT allow personnel near electrical conductors. Contact with electrical conductors can be
fatal. Warning signs to this effect shall be posted at or near the hazard.

• Personal protection equipment shall be provided and used to protect employees from any hazards
inherent to system operation.

H9 ASD Installation and Operation Manual 7

 System Setup Requirements
• When using the ASD as an integral part of a larger system, it is the responsibility of the ASD
installer/maintenance personnel to ensure that there is a fail-safe in place (i.e., an arrangement
designed to switch the system to a safe condition if there is a fault or failure).
• Power factor improvement capacitors or surge absorbers MUST NOT be installed on the output of
the ASD.
• Use of the built-in system protective features is highly recommended (i.e., E-Off, Overload
Protection, etc.).
• The operating controls and system status indicators should be clearly readable and positioned
where the operator can see them without obstruction.
• Additional warnings and notifications shall be posted at the equipment installation location as
deemed required by Qualified Personnel.

CAUTION
• System safety features should be employed and designed into the integrated system in a manner
such that system operation, even in the event of system failure, will not cause harm or result in
system damage or injury to personnel (i.e., E-Off, Auto-Restart settings, System Interlocks, etc.).
• The programming setup and system configuration of the ASD may allow it to start the motor
unexpectedly. A familiarity with the Auto-Restart (F301) settings are a requirement to use this
product.
• There may be thermal or physical properties, or ancillary devices integrated into the overall system
that may allow for the ASD to start the motor without warning. Signs to this effect must be posted
at the equipment installation location.
• If a secondary magnetic contactor (MC) or an ASD output disconnect is used between the ASD and
the load, it should be interlocked to halt the ASD before the secondary contact opens. If the output
contactor is used for bypass operation, it must be interlocked such that commercial power is never
applied to the ASD output terminals (U, V, or W).
• When using an ASD output disconnect, the ASD and the motor must be stopped before the
disconnect is either opened or closed. Closing the output disconnect while the 3-phase output of the
ASD is active may result in equipment damage or injury to personnel.

8 H9 ASD Installation and Operation Manual

Operational and Maintenance
Precautions
WARNING
• Turn off, lock out, and tag out the main power, the control power, and instrumentation connections
before inspecting or servicing the drive, opening the door of the enclosure, or connecting/
disconnecting the power wiring to the equipment.
• The capacitors of the ASD maintain a residual charge for a period of time after turning the ASD off.
The required time for each ASD typeform is indicated with a cabinet label and a Charge LED
(shown for smaller ASDs in Figure 2 on pg. 16; LED is located on the front panel of larger ASDs).
Wait at least the minimum time indicated on the enclosure-mounted label and ensure that the
Charge LED has gone out before opening the door of the ASD once the ASD power has been
turned off.
• Turn the power on only after attaching (or closing) the front cover and DO NOT remove or open
the front cover of the ASD when the power is on.
• DO NOT attempt to disassemble, modify, or repair the ASD. Call your TIC Sales Representative
for repair information.
• DO NOT place any objects inside of the ASD.
• If the ASD should emit smoke, or an unusual odor or sound, turn the power off immediately.
• The heat sink and other components may become extremely hot to the touch. Allow the unit to cool
before coming in contact with these items.
• The Auto-Restart (F301) programmable functions of the ASD may allow for the system to start or
stop unexpectedly. Signs to this effect are to be clearly posted at the installation location.
• Remove power from the ASD during extended periods of non-use.
• The system should be inspected periodically for damaged or improperly functioning parts,
cleanliness, and to ensure that the connectors are tightened securely.

H9 ASD Installation and Operation Manual 9

Motor Characteristics
Listed below are some variable speed AC motor control concepts with which the user of the
ASD should become familiar.

Motor Autotuning
Motor production methods may cause minor differences in the motor operation. The negative effects of
these differences may be minimized by using the Autotune feature of the ASD. Autotuning is a function
of the ASD that measures several parameters of the connected motor and places these readings in a stored
table. The software uses the information in the table to help optimize the response of the ASD to
application-specific load and operational requirements. The Autotuning function may be enabled for
automatic tuning, configured manually at F400, or disabled.

The measured parameters include the rotor resistance, the stator resistance, the required excitation
inductance, rotational inertia values, and leakage inductance values.

Pulse Width Modulation Operation

The ASD uses sinusoidal Pulse Width Modulation (PWM) control. The output current waveform
generated by the ASD approaches that of a perfect sine wave; however, the output waveform is slightly
distorted. For this reason, the motor may produce more heat, noise, and vibration when operated by an
ASD, rather than directly from commercial power.

Low-Speed Operation
Operating a general-purpose motor at lower speeds may cause a decrease in the cooling ability of the
motor. Reducing the torque requirement of the motor at lower speeds will decrease the generated heat at
lower speeds.

When the motor is to be operated at low speed (less than 50% of full speed) and at the rated torque
continuously, a TIC VF motor (designed for use in conjunction with an ASD) is recommended.

Overload Protection Adjustment

The ASD software monitors the output current of the system and determines when an overload condition
occurs. The overload current level is a percentage of the rating of the motor. This function protects the
motor from overload.

The default setting for the overload detection circuit is set to the maximum rated current of the ASD at the
factory. This setting will have to be adjusted to match the rating of the motor with which the ASD is to be
used. To change the overload reference level, see Motor Overload Protection Level 1 on pg. 182.

Operation Above 60 Hz
A motor produces more noise and vibration when it is operated at frequencies above 60 Hz. Also, when
operating a motor above 60 Hz, the rated limit of the motor or its bearings may be exceeded; this may void
the motor warranty.

Contact the motor manufacturer for additional information before operating the motor above 60 Hz.

10 H9 ASD Installation and Operation Manual

 Power Factor Correction
DO NOT connect a power factor correction capacitor or surge absorber to the output of the ASD.
If the ASD is used with a motor that is equipped with a capacitor for power factor correction, remove the
capacitor from the motor.
Connecting either of these devices to the output of the ASD may cause the ASD to malfunction and trip,
or the output device may cause an over-current condition resulting in damage to the device or the ASD.

Light Load Conditions

When a motor is operated under a continuous light load (i.e., at a load of less than 50% of its rated
capacity) or it drives a load which produces a very small amount of inertia, it may become unstable and
produce abnormal vibration or trips because of an over-current condition. In such a case, the carrier
frequency may be lowered to compensate for this undesirable condition (see Program Special 
Carrier Frequency PWM Carrier Frequency).

Note: When operating in the Vector Control mode the carrier frequency should be set to
2.2 kHz or above.

Motor/Load Combinations
When the ASD is used in combination with one of the following motors or loads, it may result in unstable
operation.
• A motor with a rated capacity that exceeds the motor capacity recommended for the ASD.
• An explosion-proof motor.
When using the ASD with an explosion-proof motor or other special motor types, lower the carrier
frequency to stabilize the operation. DO NOT set the carrier frequency below 2.2 kHz if operating the
system in the vector control mode.

Note: When operating in the Vector Control mode the carrier frequency should be set to
2.2 kHz or above.

If the motor being used is coupled to a load that has a large backlash or if coupled to a reciprocating load,
use one of the following procedures to stabilize motor operation.
• Adjust the S-pattern acceleration/deceleration setting,
• If operating in the Vector control mode, adjust the response time, or
• Switch to the Constant Torque control mode.

H9 ASD Installation and Operation Manual 11

 Load-Produced Negative Torque
When the ASD is used with a load that produces negative torque (an overhauling load), the over-voltage
or over-current protective functions of the ASD may cause nuisance tripping.
To minimize the undesirable effects of negative torque the dynamic braking system may be used. The
dynamic braking system converts the regenerated energy into heat that is dissipated using a braking
resistor. The braking resistor must be suitably matched to the load. Dynamic braking is very effective in
reducing the DC bus voltage during a momentary over-voltage condition.

CAUTION
If under extreme conditions the dynamic braking system or a component of this system were to fail, the
dynamic braking resistor may experience an extended over-current condition. The DBR circuit was
designed to dissipate excessive amounts of heat and if the extended over-current condition were allowed
to exceed the circuit parameters, this condition could result in a fire hazard.
To combat this condition, the 3-phase input may be connected using contactors that are configured to open
in the event of an extended DBR over-current condition or an internal circuit failure. Using a thermal
sensor and/or overload protection as the 3-phase input contactor drive signal, the contactors will open and
remove the 3-phase input power in the event of an extended DBR over-current or system over-voltage
condition. See Dynamic Braking System Specifications on pg. 266 for more information on using
Dynamic Braking with the H9 ASD.

Motor Braking
The motor may continue to rotate and coast to a stop after being shut off due to the inertia of the load. If an
immediate stop is required, a braking system should be used. The two most common types of motor
braking systems used with the ASD are DC Injection Braking and Dynamic Braking.
For further information on braking systems, see DC Injection Braking on pg. 124 and Dynamic Braking
on pg. 136.

12 H9 ASD Installation and Operation Manual

ASD Characteristics
Over-Current Protection
Each ASD model is designed for a specified operating power range. The ASD will incur a trip if the
design specifications are exceeded.
However, the ASD may be operated at 100% of the specified output-current range continuously or at
120% for a limited amount of time as indicated in the section titled Current/Voltage Specifications on pg.
262. Also, the Stall Prevention Level may be adjusted to help with nuisance over-current trips (see F601).
When using the ASD for an application to control a motor that is rated significantly less than the
maximum current rating of the ASD, the over-current limit (Thermal Overload Protection) setting will
have to be changed to match the FLA of the motor. For further information on this parameter, see Motor
Overload Protection Level 1 on pg. 182.

ASD Capacity
The ASD must not be used with a motor that has a larger capacity than the ASD, even if the motor is
operated under a small load. An ASD being used in this way will be susceptible to a high-output peak
current which may result in nuisance tripping.
Do not apply a level of input voltage to an ASD that is beyond that which the ASD is rated. The input
voltage may be stepped down when required with the use of a step-down transformer or some other type
of voltage-reduction system.

Using Vector Control

Using Vector Control enables the system to produce very high torque over the entire operating range
even at extremely low speeds. Vector Control may be used with or without feedback. However, using
feedback increases the speed accuracy for applications requiring precise speed control.
See F015 on pg. 81 for further information on using Vector Control.

H9 ASD Installation and Operation Manual 13

Installation and Connections
The H9 Adjustable Speed Drive may be set up initially by performing a few simple configuration
settings. To operate properly, the ASD must be securely mounted and connected to a power source
(3-phase AC input at the R/L1, S/L2, and T/L3 terminals). The control terminals of the ASD may be
used by connecting the terminals of the Terminal Board to the proper sensors or signal input sources
(see the section titled I/O and Control on pg. 21 and Figure 9 on pg. 24).
System performance may be further enhanced by assigning a function to the output terminals of the
Terminal Board and connecting the terminals to the proper indicators or actuators (LEDs, relays,
contactors, etc.).
Note: The optional ASD interface boards may be used to expand the I/O functionality of the
ASD.

Installation Notes
CAUTION
When a brake-equipped motor is connected to the ASD, it is possible that the brake may not release at
startup because of insufficient voltage. To avoid this, DO NOT connect the brake or the brake contactor
to the output of the ASD.
If an output contactor is used for bypass operation, it must be interlocked such that commercial power is
never applied to the output terminals of the ASD (U/T1, V/T2, and W/T3).
DO NOT apply commercial power to the ASD output terminals U/T1, V/T2, and W/T3.
If a secondary magnetic contactor (MC) is used between the output of the ASD and the motor, it should
be interlocked such that the ST – CC connection is disconnected before the output contactor is opened.
DO NOT open and then close a secondary magnetic contactor between the ASD and the motor unless
the ASD is off and the motor is not rotating.
Note: Re-application of power via a secondary contact while the ASD is on or while the
motor is still turning may cause ASD damage.
The ASD input voltage should remain within 10% of the specified input voltage range. Input voltages
approaching the upper or lower-limit settings may require that the over-voltage and under-voltage stall
protection level parameters be adjusted. Voltages outside of the permissible tolerance should be
avoided.
The frequency of the input power should be ±2 Hz of the specified input frequency.
DO NOT use an ASD with a motor that has a current rating higher than the rated current of the ASD.
The H9 ASD is designed to operate NEMA B motors. Consult with your TIC Sales Representative
before using the ASD for special applications such as with an explosion-proof motor or applications
with a piston load.
Disconnect the ASD from the motor before megging or applying a bypass voltage to the motor.
Interface problems may occur when an ASD is used in conjunction with some types of process
controllers. Signal isolation may be required to prevent controller and/or ASD malfunction (contact
your TIC Sales Representative or the process controller manufacturer for additional information about
compatibility and signal isolation).
Use caution when setting the output frequency. Over speeding a motor decreases its ability to deliver
torque and may result in damage to the motor and/or the driven equipment.

14 H9 ASD Installation and Operation Manual

 Not all H9 ASDs are equipped with internal primary power input fuses (HP dependent). When
connecting two or more drives that have no internal fuse to the same power line as shown in Figure 1,
select a circuit-breaking configuration that will ensure that if a short circuit occurs in ASD 1, only
MCCB2 trips, not MCCB1. If it is not feasible to use this configuration, insert a fuse between MCCB2
and ASD 1.

Figure 1. Typical Circuit Breaker Configuration.

Mounting the ASD

CAUTION
— The following thermal specifications apply to the 230-volt and 460-volt ASDs ONLY —

Install the unit securely in a well ventilated area that is out of direct sunlight.

The process of converting AC to DC, and then back to AC produces heat. During normal ASD
operation, up to 5% of the input energy to the ASD may be dissipated as heat. If installing the ASD in a
cabinet, ensure that there is adequate ventilation.

DO NOT operate the ASD with the enclosure door open.

The ambient operating temperature rating of the 3.0 to 20 HP H9 ASD is 14° to 104° F (-10° to 40° C).

When installing adjacent ASDs horizontally TIC recommends at least 5 cm of space between adjacent
units. However, horizontally mounted ASDs may be installed side-by-side with no space in between the
adjacent units — side-by-side installations require that the top cover be removed from each ASD.

For 150 HP and above ASDs, a minimum of 50 cm of space is required above and below adjacent units
and any obstruction.This space is the recommended minimum space requirement for the ASD and
ensures that adequate ventilation is provided for each unit. More space will provide a better
environment for cooling (see the section titled Enclosure and Conduit Plate Dimensions on pg. 254 for
additional information on mounting space requirements).

Note: Ensure that the ventilation openings are not obstructed.

H9 ASD Installation and Operation Manual 15

 Connecting the ASD
DANGER
Refer to the section titled Installation Precautions on pg. 4 and the section titled Lead Length
Specifications on pg. 20 before attempting to connect the ASD and the motor to electrical power.

Power Connections
DANGER
C on tact Wit h 3- P h ase I n p u t/ O u t p u t Te rm i n als Ma y C a us e A n
Electrical Shock Resulting In Injury Or Loss Of Life.

See the Typical Connection Diagram on pg. 26 for a system I/O connectivity schematic.

An inductor (DCL) may be connected across the PO and PA/+ terminals to provide additional filtering.
When not used, a jumper must be connected across these terminals (see Typical Connection Diagram on
pg. 26).

PA/+ and PB are used for the DBR connection if using a braking resistor.

PC/- is the negative terminal of the DC bus.

R/L1, S/L2, and T/L3 are the 3-phase input supply terminals for the ASD.

U/T1, V/T2, and W/T3 are the output terminals of the ASD that connect to the motor.

The location of the Charge LED for the smaller typeform ASD is provided in Figure 2. The Charge
LED is located on the front door of the enclosure of the larger ASDs.

Figure 2. Typical H9 ASD Input/output Terminals and the Grounding Capacitor Switch.

Charge LED

Grounding Capacitor Switch — Pull for Small capacitance/push for Large capacitance.

16 H9 ASD Installation and Operation Manual

 Power Connection Requirements
Connect the 3-phase input power to the input terminals of the ASD at R/L1, S/L2, and T/L3 (see Figure
3 for the typical electrical connection scheme). Connect the output of the ASD to the motor from the
ASD terminals U/T1, V/T2, and W/T3. The input and output conductors and terminal lugs used shall be
in accordance with the requirements listed in the section titled Current/Voltage Specifications on pg.
262.
If multiple conductors are used in parallel for the input or output power and it is necessary to use
separate conduits, each parallel set shall have its own conduit and not share its conduit with other
parallel sets (i.e., place U1, V1, W1, and a ground wire in one conduit and U2, V2, W2 and a ground
wire in another; refer to the NEC Article 300.20 and Article 310.4). National and local electrical codes
should be referenced if three or more power conductors are run in the same conduit (refer to the NEC
Article 310 adjustment factors).
Note: National and local codes should be referenced when running more than three
conductors in the same conduit.
Install a molded case circuit breaker (MCCB) or fuse between the 3-phase power source and the ASD in
accordance with the fault current setting of the ASD and the NEC Article 430.
The ASD is designed and tested to comply with UL Standard 508C. Modifications to the ASD system
or failure to comply with the short circuit protection requirements outlined in this manual may
disqualify the UL rating. See Table 22 on pg. 268 for typeform-specific short circuit protection
recommendations.
As a minimum, the installation of the ASD shall conform to the NEC Article 110, the Occupational
Safety and Health Administration requirements, and to any other local and regional industry codes
and standards.
Note: In the event that the motor rotates in the wrong direction when powered up, reverse
any two of the three ASD output power leads (U, V, or W) connected to the motor.

Figure 3. H9 ASD/Motor Typical Connection Diagram.

H9 ASD Installation and Operation Manual 17

 System Grounding
Proper grounding helps to prevent electrical shock and to reduce electrical noise. The ASD is designed
to be grounded in accordance with Article 250 of the NEC or Section 10/Part One of the Canadian
Electrical Code (CEC).

The grounding conductor shall be sized in accordance with Article 250-122 of the NEC or Part One-
Table 6 of the CEC.

— The Metal Of Conduit Is Not An Acceptable Ground —

The input, output, and control lines of the system shall be run in separate metal conduits and each shall
have its own ground conductor.

ASDs produce high-frequency noise — take steps to avoid the negative effects of noise. Listed below
are some examples of measures that will help to combat noise problems.

• DO NOT install the input power and output power wires in the same duct or in parallel with each
other, and do not bind them together.

• DO NOT install the input/output power wires and the wires of the control circuit in the same duct
or in parallel with each other, and do not bind them together.

• Use shielded wires or twisted wires for the control circuits.

• Ensure that the grounding terminals (G/E) of the ASD are securely connected to ground.

• Connect a surge suppressor to every electromagnetic contactor and every relay installed near the
ASD.

• Install noise filters as required.

Grounding Capacitor
The Grounding Capacitor plays a role in minimizing the effects of leakage current through the ASD
system and through ground paths to other systems. Leakage current may cause the improper operation
of earth-leakage current breakers, leakage-current relays, ground relays, fire alarms, and other sensors
— and it may cause superimposed noise on CRT screens.

The Grounding Capacitor Switch allows the user to quickly change the value of the leakage-reduction
capacitance of the 3-phase input circuit. See figures 4, 5, 6, and 7 on pg. 19 for an electrical depiction of
the leakage-reduction functionality and the methods used to change the capacitance value. The method
used is typeform-specific.

If using a 460-volt 5 HP ASD or a 460-volt ASD that is in the range of 7.5 HP to 25 HP, and the U/T1,
V/T2, and W/T3 connections to the motor are 100 meters or more in length, the ASD Carrier
Frequency must be set to 4 kHz or less when activating or deactivating the Grounding Capacitor
Switch. ASD overheating may occur if the Carrier Frequency is set above 4 kHz when activating or
deactivating the Grounding Capacitor Switch.

See pg. 5 for more information on the Grounding Capacitor Switch and pg. 16 for the location.

18 H9 ASD Installation and Operation Manual

 Figure 4. The Grounding Capacitor
Switch is used on typeforms 230-
volt 0.75 HP to 10 HP and the 25
and 30 HP/460-volt 1.0 HP to 25 HP.
The value may be set to Maximum
(default setting) or to Zero by
pushing or pulling the switch
actuator, respectively.

Figure 5. The Grounding Capacitor

Switch is used on typeforms 230-
volt 15 HP to 20 HP and the 40 HP to
60 HP/460-volt 30 HP to 100 HP.
The value may be set to Large
(default setting) or Small by pushing
or pulling the switch actuator,
respectively.

Figure 6. The Grounding Capacitor

Bar is used on typeforms 230-volt
75 HP and the 100 HP/460-volt 125
HP and the 150 HP.
The value may be set to Large or
Small (default setting) by connecting
or disconnecting the switching bar,
respectively.

Figure 7. The Grounding Capacitor

Screw is used on typeforms 460-volt
200 HP and above.
The value may be set to Large or
Small (default setting) by placing the
screw in the A position or by placing
the screw in the B position,
respectively.

H9 ASD Installation and Operation Manual 19

 Lead Length Specifications
Adhere to the NEC and any local codes during the installation of ASD/motor systems. Excessive lead
lengths may adversely effect the performance of the motor. Special cables are not required. Lead lengths
from the ASD to the motor in excess of those listed in Table 1 may require filters to be added to the output
of the ASD. Table 1 lists the suggested maximum lead lengths for the listed motor voltages.

Table 1. Lead Length Recommendations.

PWM Carrier NEMA MG1 Part 31 NEMA MG1 Part 30

Model
Frequency Compliant Motors Compliant Motors
230-Volt All 1000 feet 450 feet

< 5 kHz 600 feet 200 feet

460-Volt
5 kHz 300 feet 100 feet

Note: Contact the TIC Customer Support Center for application assistance when using lead
lengths in excess of those listed.

Exceeding the peak voltage rating or the allowable thermal rise time of the motor
insulation will reduce the life expectancy of the motor.

When operating in the Vector Control mode the carrier frequency should be set to
2.2 kHz or above.

20 H9 ASD Installation and Operation Manual

 I/O and Control
The H9 ASD can be controlled by several input types and combinations thereof, as well as operate within
a wide range of output frequency and voltage levels. This section discusses the ASD control methods and
supported I/O functions.
The Terminal Board supports discrete and analog I/O functions and is shown in Figure 9 on pg. 24.
Table 2 lists the names, functions, and settings (default settings of programmable terminals) of the input
and output terminals of the Terminal Board.
Note: To use the input lines of the Terminal Board to provide Run commands the Command
Mode setting must be set to Terminal Block.
Typical Connection Diagram on pg. 26 shows the typical connection diagram for the H9 ASD system.
Table 2. Terminal Board Terminal Names and Functions.
Terminal Function (Default Setting If Programmable)
Input/Output Circuit Config.
Name (See Terminal Descriptions on pg. 22)
Standby — Multifunctional programmable discrete input. Activation required
ST
for normal ASD operation.
RES Reset — Multifunctional programmable discrete input. Resets ASD.
F Discrete Input Forward — Multifunctional programmable discrete input.

R Connect to CC Reverse — Multifunctional programmable discrete input. Figure 10 on pg. 25.

S1 to activate Preset Speed 1 — Multifunctional programmable discrete input.
(Sink mode). Preset Speed 2 — Multifunctional programmable discrete input.
S2
S3 Preset Speed 3 — Multifunctional programmable discrete input.
S4 Preset Speed 4 — Multifunctional programmable discrete input.
O1A/B (OUT1) Low Speed — Multifunctional programmable discrete output.
Figure 16 on pg. 25.
O2A/B (OUT2) Reach Frequency — Multifunctional programmable discrete output.
Switched
FLA Fault relay (N.O.).
Output
FLB Fault relay (N.C.). Figure 19 on pg. 25.
FLC Fault relay (common).
Frequency Mode 1 — Multifunction programmable analog input. (0.0 to 10
RR Figure 11 on pg. 25.
VDC input — 0 Hz to Maximum Frequency).
RX Multifunctional programmable analog input (-10 to +10 VDC input). Figure 12 on pg. 25.
Unassigned — V — Multifunctional programmable isolated analog voltage
Analog Input
V/I input (0 to 10 VDC input)
(Select V or I Frequency Mode 2 (default SW301 setting) — I — Multifunctional Figure 13 on pg. 25.
via SW301) programmable isolated analog current input (4 [0] to 20 mADC input — 0 Hz
to Maximum Frequency).
Output Current — Current output that is proportional to the output current of
AM the ASD or to the magnitude of the function assigned to this terminal (see
Table 8 on pg. 239 for assignment listing).
Analog Output Figure 18 on pg. 25
Output Frequency — Current or Voltage output that is proportional to the
FM output frequency of the ASD or to the magnitude of the function assigned to
this terminal (see Table 8 on pg. 239). Select Current or Voltage at F681.
SU+ DC Input Externally-supplied 24 VDC backup control power (1.1 A min.).
P24 24 VDC output (200 mA max.). Figure 14 on pg. 25.
DC Output
PP 10.0 VDC/10 mA voltage source for an external potentiometer. Figure 15 on pg. 25.
Frequency Pulse — Multifunctional programmable output pulse train of a
FP Pulsed Output Figure 17 on pg. 25.
frequency based on the output frequency of the ASD (see Table 6 on pg. 237).
IICC — Return for the V/I input terminal. (see IICC on pg. 105). DO NOT connect to
CCA — Return for the RR, RX, P24, and the PP terminals. Earth Gnd or to
CC — Return for the AM, FM, SU+, and the discrete input terminals. each other.

H9 ASD Installation and Operation Manual 21

 Terminal Descriptions
Note: The programmable terminal assignments may be accessed and changed from the
default settings as mapped on pg. 46 or via the Direct Access method: Program 
Direct Access  Applicable Parameter Number. See the section titled Program
Mode Menu Navigation on pg. 46 for the applicable Direct Access parameter
numbers. For further information on terminal assignments and default setting
changes, see the sections titled Terminal on pg. 47 and Default Setting Changes on
pg. 74.
Note: See the section titled Cable/Terminal/Torque Specifications on pg. 264 for the ASD
conductor and terminal electrical specifications.
ST — The default setting for this terminal is the Standby mode controller. As the default setting, this
terminal must be activated for normal system operation. The ST terminal is activated by connecting CC
to this terminal (Sink mode). When deactivated, OFF is flashed on the LED screen and the Not-Ready-
to-Run icon is displayed on the LCD screen as shown in Figure 22 on pg. 32. This input terminal may
be programmed to any of the functions listed in Table 5 on pg. 234 (see F113).
RES — The default setting for this terminal is Reset. The RES terminal is activated by connecting CC
to this terminal (Sink mode). A momentary connection to CC resets the ASD and any fault indications
from the display. Reset is effective when faulted only. This input terminal may be programmed to any
of the functions listed in Table 5 on pg. 234 (see F114).
F — The default setting for this terminal is the Forward run command. The F terminal is activated by
connecting CC to this terminal (Sink mode). This input terminal may be programmed to any of the
functions listed in Table 5 on pg. 234 (see F111).
R — The default setting for this terminal is the Reverse run command. The R terminal is activated by
connecting CC to this terminal (Sink mode). This input terminal may be programmed to any of the
functions listed in Table 5 on pg. 234 (see F112).
S1 — The default setting for this terminal is the Preset Speed 1 (see Preset Speed 1 on pg. 83). The S1
terminal is activated by connecting CC to this terminal (Sink mode). This input terminal may be
programmed to any of the functions listed in Table 5 on pg. 234 (see F115).
S2 — The default setting for this terminal is the Preset Speed 2 (see Preset Speed 2 on pg. 83). The S2
terminal is activated by connecting CC to this terminal (Sink mode). This input terminal may be
programmed to any of the functions listed in Table 5 on pg. 234 (see F116).
S3 — The default setting for this terminal is the Preset Speed 3 (see Preset Speed 3 on pg. 84). The S3
terminal is activated by connecting CC to this terminal (Sink mode). This input terminal may be
programmed to any of the functions listed in Table 5 on pg. 234 (see F117).
S4 — The default setting for this terminal is the Preset Speed 4 (see Preset Speed 4 on pg. 84). The S4
terminal is activated by connecting CC to this terminal (Sink mode). This input terminal may be
programmed to any of the functions listed in Table 5 on pg. 234 (see F118).
RR — The default function assigned to this terminal is Frequency Mode 1. The RR terminal accepts a
0 – 10 VDC input signal that is used to control the function assigned to this terminal. This input terminal
may be programmed to control the speed or torque of the motor via an amplitude setting or regulate by
setting a limit. The gain and bias of this terminal may be adjusted for application-specific suitability
(see F210 – F215). See pg. 26 for an electrical depiction of the RR terminal.

RX — The default function assigned to this terminal is Torque Command. The RX terminal accepts a
±10 VDC input signal that is used to control the function assigned to this terminal. This input terminal
may be programmed to raise or lower the speed or torque of the motor via an amplitude setting or this
terminal may be used to regulate the speed or torque of a motor by setting a limit. The gain and bias of
this terminal may be adjusted for application-specific suitability (see F216 – F221).

22 H9 ASD Installation and Operation Manual

 V/I — The V/I terminal has the dual function of being able to receive an input voltage or current. The
function as a voltage input is to receive a 0 – 10 VDC input signal. The function as a current input is to
receive a 0 – 20 mA input signal. Using either input type, the function is to control the 0.0 – Maximum
Frequency output or the 0.0 to 250% torque output of the ASD. This is an isolated input terminal. This
terminal may be programmed to control the speed or torque of the motor and cannot process both input
types simultaneously. SW301 must be set to V or I to receive a voltage or current, respectively (see
Figure 9 on pg. 24). Terminal scaling and the selection of speed or torque control is accomplished via
parameters F201 – F206. The gain and bias of this terminal may be adjusted for application-specific
suitability (see F470 and F471).

U+ SU+ — Control Power Supply Backup input terminal. This terminal accepts the user-supplied
24 VDC backup power to the control circuits (only). Backup power is used in the event of an open
MCCB or during a momentary loss of the 3-phase input power. Parameter settings, real-time clock
information, and trip history information are retained with the use of the SU+ backup power. See the
section titled Battery Backup on pg. 28 for more information on system backup features.

P24 — +24 VDC at 200 mA power supply for customer use.

4
PP — The function of output PP is to provide a 10 VDC/10 mADC (max.) output that may be divided
P
using a potentiometer. The tapped voltage is applied to the RR input to provide manual control of the
RR programmed function.

1A/B O1A/B (OUT1A/B) — The default function assigned to this terminal is Output Low-Speed. This
output may be programmed to provide an indication (open or closed) that any of the functions listed in
Table 8 on pg. 239 has occurred or is active. This function may be used to signal external equipment
(e.g., activate the brake) (see F130). The OUT1 terminal is rated at 2 A/120 VAC and 2 A/30 VDC.

2A/B O2A/B (OUT2A/B) — The default function assigned to this terminal is ACC/DEC Complete. This
output may be programmed to provide an indication (open or closed) that any of the functions listed in
Table 8 on pg. 239 has occurred or is active. This function may be used to signal external equipment
(e.g., activate the brake) (see F131). The OUT2 terminal is rated at 2A/120 VAC and 2A/30 VDC.

FP — The default function of this output terminal is to output a series of pulses at a rate that is a
function of the ASD output frequency (50 mA max. at 1.0 kHz to 43.3 kHz). As the output frequency of
the ASD goes up so does the FP output pulse rate. This terminal may be programmed to provide an
output pulse rate that is proportional to the magnitude of the user-selected item from Table 6 on pg. 237.
For further information on this terminal see F676 on pg. 193.

AM — This output terminal produces an output current that is proportional to the output frequency of
the ASD or of the magnitude of the function assigned to this terminal. The available assignments for
this output terminal are listed in Table 6 on pg. 237. For further information on this terminal see F670
on pg. 192.
LA
FM — This output terminal produces an output current or voltage that is proportional to the output
frequency of the ASD or of the magnitude of the function assigned to this terminal. The available
assignments for this output terminal are listed in Table 6 on pg. 237. For further information on this
terminal see F005 on pg. 78. The Voltage/Current output selection is performed at F681.

FLA — One of two normally open contacts that, under user-defined conditions, connect to FLC.
LB
FLB — One of two normally closed contacts that, under user-defined conditions, connect to FLC.

LC FLC — FLC is the common leg of a single-pole double-throw form C relay. The FL relay is the Fault
Relay by default, but may be programmed to any of the selections of Table 8 on pg. 239. For further
information on this terminal see F132 and Figure 8.

Note: The FLA, FLB, and FLC contacts are rated at 2A/120 VAC and 2A/30 VDC.

H9 ASD Installation and Operation Manual 23

 Figure 8. FLA, FLB, and FLC Switching Contacts Shown in the Normal Operating Condition.

Note: The relay is shown in the normal operating condition. During

a faulted condition the relay connection is FLC-to-FLA.

Figure 9. Terminal Board. Sink Source

Ensure that the ground screw is securely in
CAUTION place to prevent arcing, intermittent
operation, or system failure.

J100
1 to 2 = Sink (*)
2 to 3 = Source

J101
(24V)
1 to 2 = Sys. Supplied (*)
SW301 2 to 3 = Ext. Supplied

SW301
V/I Switch (I*)

TB1

TB2

TB3
RES

+SU
CC

ST

FP
CC

S1

S3

S4
S2
R
F

TB4 SW200
Half / Full Duplex (*) Switch
* = Default Setting S4
RS485 4-Wire Communication
See Typical Connection Diagram on pg. 26 for more information on the Terminal

See the section titled Terminal Descriptions on pg. 22 for terminal descriptions.
See the section titled Cable/Terminal/Torque Specifications on pg. 264 for information on the proper
cable/terminal sizes and torque specifications when making Terminal Board connections.

24 H9 ASD Installation and Operation Manual

 I/O Circuit Configurations
Figure 10. Discrete Input. Figure 11. RR Input.

Figure 12. RX Input. Figure 13. V/I Isolated Input.

Figure 14. P24 Output. Figure 15. PP Output.

Figure 16. OUT1/OUT2 Output. Figure 17. FP Output.

Figure 18. AM/FM Output. Figure 19. Fault Relay (shown not faulted).

H9 ASD Installation and Operation Manual 25

 Typical Connection Diagram
Figure 20. The H9 ASD Typical Connection Diagram.
Note: When connecting multiple wires to the PA, PB, PC, or PO terminals, do not
connect a solid wire and a stranded wire to the same terminal.

Note: The AM, FM, and the +SU analog terminals are referenced to CC.
The RR, RX, P24, and the PP analog terminals are referenced to CCA.
The isolated V/I analog terminal references IICC.

26 H9 ASD Installation and Operation Manual

 Startup and Test
DANGER
Before turning on the ASD ensure that:
• R/L1, S/L2, and T/L3 are connected to the 3-phase input power.
• U/T1, V/T2, and W/T3 are connected to the motor.
• The 3-phase input voltage is within the specified tolerance.
• There are no shorts and all grounds are secured.
• All personnel are at a safe distance from the motor and the motor-driven equipment.

H9 ASD Installation and Operation Manual 27

Electronic Operator Interface
The H9 ASD Electronic Operator Interface (EOI) is comprised of an LED screen, an LCD screen, two
LEDs, a rotary encoder, and five keys. These items are shown and described on pg. 30.

EOI Operation
The EOI is the primary input/output device for the user. The EOI may be used to monitor system
functions, input data into the system, perform diagnostics, and view performance data (e.g., motor
frequency, bus voltage, torque, etc.).
The software used with the H9 ASD is menu driven; thus, making it a select and click environment. The
operating parameters of a motor may be selected and viewed or changed using the EOI (or via
communications).

Battery Backup
The EOI is equipped with a battery backup system. The function of the backup system is to retain the EOI
SRAM programming in the event of a power outage, or if an EOI removal and installation from one
system to another is required without the loss of programming.
Listed below are the items retained by the battery backup system:
Trip History,
EOI Contrast,
Real-Time Clock Information,
Monitored Items,
Password and Lock Out Information,
Alarms Information,
Main Monitor Items,
Prohibited Items, and
Save User Settings Information (Parameter settings may be saved by the user).
The battery backup system must be activated by the installer or maintenance personnel to use the backup
function.
To activate the battery backup system, remove the Phillips screw from the front of the LED/LCD display
unit. Remove the LED/LCD display unit from the ASD. From the circuit side of the display unit, remove
the jumper at J1, pins 2 and 3. Place the jumper at J1, pins 1 and 2.
The expected battery life cycle is four and a half years.

Note: The Battery backup system does not supply power to the LED/LCD display

LED/LCD Screen Installation Note

When installing the LED/LCD display unit of the EOI, ensure that the left side of the display is inserted
first with the top and bottom catches (see Phillips screws at underside of display) securely in place. This
ensures the proper alignment and electrical connection of the CNX connector of the LED/LCD display
unit PCB. Gently hold the display in place while securing the Phillips mounting screw.
If improperly seated, the periphery of the LED/LCD display unit will not be flush with the EOI surface
and the unit will not function properly.

28 H9 ASD Installation and Operation Manual

 EOI Remote Mounting
The EOI may be mounted remotely using the optional ASD-MTG-KIT9. The kit contains all of the
hardware required to mount the EOI of the 9-Series ASD remotely.
System operation and EOI operation while using the remotely-mounted EOI are the same as with the
ASD-mounted configuration.
See the section titled EOI Remote Mounting on pg. 33 for more information on mounting the EOI
remotely.

H9 ASD Installation and Operation Manual 29

 EOI Features
Figure 21. The H9 ASD Electronic Operator Interface Features.

LED Screen

Rotary Encoder

LCD Screen
Local/Remote
Key (LED)
Escape Key
Run Key
(LED)
Mode
Key
Stop-Reset Key

LED Screen — Displays the running frequency, active Fault, or active Alarm information.
Rotary Encoder — Used to access the H9 ASD menu selections, change the value of a displayed
parameter, and performs the Enter key function. Turn the Rotary Encoder either clockwise or
counterclockwise to perform the Up or Down functions of the displayed menu selection. Press the Rotary
Encoder to perform the Enter (select) function. Press while turning for times-ten increment/decrement.
LCD Screen — Displays configuration information, performance data (e.g., output frequency, bus
voltage, torque, etc.), diagnostic information, and LED screen information in expanded normal text.
Local/Remote Key — Toggles the system to and from the Local and Remote modes. The Local/
Remote key is disabled while the Fault screen is active. The Local/Remote key LED is on when the
system is in the Local mode. The Local mode allows the Command and Frequency control functions to
be carried out via the EOI.
The Remote mode enables the Command and Frequency control functions to be carried out via the
Terminal Board, RS485, Communication Board, Pulse Input, or the settings of F003/F004. The (F003/
F004) selection may be made via Program  Fundamental  Standard Mode Selection  Command
Mode and Frequency Mode 1, respectively.
The availability of Local mode control (Command and Frequency control) may be disabled via Program
 Utilities Prohibition  Local/Remote Key Command Override and Local/Remote Key Frequency
Override. The availability of the Local mode of operation may be reinstated by changing this setting or
performing a Reset (see F007).
ESC Key — Returns the system to the previous level of the menu tree, toggles between the EOI
Command screen and the Frequency Command screen, or cancels changes made to a field if pressed
while still in the reverse video mode (dark background/light text). The three functions are menu-specific.
Run Key — Issues the Run command while in the Local mode. The Run key LED illuminates green
while stopped or red while running to alert personnel.
Mode Key — Provides a means to access the three root menus. Pressing the Mode key repeatedly loops
the system through the three root menus (see Figure 27 on pg. 41). While looping through the root menus,
the Program menu will display the root menu screen or the Program sub-menu item being accessed prior
to pressing the Mode key.

30 H9 ASD Installation and Operation Manual

 Stop-Reset Key — This key has three functions.
1. Issues the Off command (decelerates to Stop at the programmed rate) if pressed once while in the
Local mode in accordance with the setting of F721.
2. Initiates an Emergency Off Fault if pressed twice quickly from the Local or Remote modes. The
Emergency Off function terminates the H9 ASD output and stops the motor in accordance with the
setting of F603.
3. Resets active Faults and/or active Alarms if pressed twice quickly. The source of the Faults or
Alarms must be determined and corrected before normal ASD operation can resume.

LED/LCD Screen
The LED screen is used to display the output frequency, active alarms and/or active faults.
If there are no active alarms or faults, the output frequency is displayed.
During an active alarm, the display toggles to and from the running frequency and the active alarm.
During an active fault, the fault is displayed.
Loss of the ST-to-CC connection flashes Off.
LED/LCD Screen Information
LED Character/Font LED LCD LED LCD
Information A A 1 1
b b 2 2
Characters displayed on the LED screen will be
of the seven-segment format. Not all alpha- C C 3 3
numeric characters are used with the LED d d 4 4
screen. E E 5 5
Listed are the seven-segment characters used F F 6 6
with the LED screen along with the same G G 7 7
characters as they are displayed on the LCD
H H 8 8
screen.
I I 9 9
J 0
LCD Character/Font J 0
L L
Information M M
All alpha-numeric characters are available. n n
O O
P P
q
b

r r
S S
t t
U U
v v
y y
- -

H9 ASD Installation and Operation Manual 31

 LCD Screen
The LCD screen is the primary user input/output information center. Parameter settings may be viewed or
changed using the LCD display unit of the EOI. To view or change a parameter setting using the LCD
screen, press the Mode key until the Program menu is displayed. Turn the Rotary Encoder until the
desired Primary Menu item (see pg. 46) is within the cursor block. Press the Rotary Encoder to select
the item from the Primary Menu (repeat the press-to-select for submenu items).
See the section titled Default Setting Changes on pg. 74 for more information on changing parameter
settings.
Upon reaching the desired parameter selection, the current setting may be viewed, or selected and changed
by pressing the Rotary Encoder and the setting will take on the reverse video format (dark background/
light text). Turn the Rotary Encoder to change the parameter setting. Press the ESC key while the new
parameter setting is in the reverse video mode to exit the selection without saving the change or press the
Rotary Encoder while the parameter setting is in the reverse video mode to accept the change.
Repeated ESC key entries at any time takes the menu back one level each time the ESC key is pressed
until the Frequency Command screen is reached. Further ESC entries will toggle the system to and from
the Frequency Command screen and the EOI Command menu.
Note: Changes carried out from the EOI Command screen will be effective for EOI-
controlled ASD operation only. See the section titled EOI Command Mode on pg. 42 for
further information on EOI Command Mode operations.

Primary Menus of the LCD Screen

The three primary screens of the LCD screen are displayed while accessing the associated operating
mode: the Frequency Command, Monitor, and the Program Menu screens.

Figure 22. Frequency Command Screen. Not-Ready-to-Run

Indicator (ST-to-CC required)
Speed Reference %
Ready-to-Run Indicator
Speed Reference Hz Appears When ST is Connected
User-Selected to CC
Monitored Parameters (see
Forward Run Active
Main Monitor Selections on pg. 45)

Discrete I/O Terminal Status Or Reverse Run Active

Alarm Condition

Figure 23. Monitor Screen (see pg. 43 for more on the Monitor screen items).
01:43 Item Number 1 of 43
Monitored items
Screen Name Monitor (Only 5 Items Listed)
Freq At Trip: 0.00Hz Speed at Trip (If Applicable)
Active Frequency Freq Ref: 0.00Hz
Command Output Current: 0.00% Active Output Current
Active DC Bus Voltage DC Voltage: 0.00%
Output Voltage: 0.00% ASD Output Voltage

Figure 24. Program Menu Screen (see pg. 46 for more on the Program Menu Screen).
01:15
Item Number 1 of 15
Screen Name Program Program Menu items

{
Startup Wizard... (Only 5 Items Listed)
Fundamental...
Primary Menu Items Terminal...
Direct Access...
Utilities...

32 H9 ASD Installation and Operation Manual

 EOI Remote Mounting
The H9 ASD may be controlled from a remotely-mounted EOI. For safety and application-specific
reasons, some ASD installations will warrant that the operator not be in the vicinity during operation or
that the EOI not be attached to the ASD housing. Remote mounting will also allow for multiple EOI
mountings at one location if controlling and monitoring several ASDs from a central location is required.
The door-mounted EOI of the 230-volt 30-HP and above ASDs and the 460-volt 40 HP and above ASDs
use the remote mounting kit 58333 to allow for the door-mount EOI configuration.
The ease of installation and mounting distance away from the ASD may be increased with the use of the
optional remote mounting kit ASD-MTG-KIT9.
An EOI extender cable is required for remote mounting. The EOI extender cable is available in a 10-ft.
length and may be ordered through your TIC Sales Representative. Remote mounting may be extended up
to the distance supported by standard RS485 communication — typically 4000 feet (1200 meters)
maximum.
The optional dust cover (P/N ASD-BPC) may be used to cover the EOI opening of the ASD housing after
removing the EOI.

Remote EOI Hardware

EOI Mounting Hardware
• EOI Remote-Mount Housing — P/N 58333 (included with the 230-volt 30-HP and above; and with
the 460-volt 40 HP and above)
• 6-32 x 5/16” Pan Head Screw — P/N 50595 (4 ea.)
• #6 Split-Lock Washer — P/N 01884 (4 ea.)
• #6 Flat Washer — P/N 01885 (4 ea.)

Bezel Plate Mounting Hardware

• Bezel Plate — P/N 52291
• 10-32 Hex Nut — P/N 01922 (4 ea.)
• #10 Split-Lock Washer — P/N 01923 (4 ea.)
• #10 Flat Washer — P/N 01924 (4 ea.)
• Dust Cover — P/N ASD-BPC (Optional)

Extender Cable
• ASD-CAB10F: Cable, 10 ft.

H9 ASD Installation and Operation Manual 33

 EOI Installation Precautions
Install the unit securely in a well ventilated area that is out of direct sunlight using the four mounting holes
at the rear of the EOI. The ambient operating temperature rating is 14° to 104° F (-10° to 40° C).

• Select a mounting location that is easily accessible by the user.

• Avoid installation in areas where vibration, heat, humidity, dust, metal particles, or high levels of
electrical noise (EMI) are present.

• DO NOT install the EOI where it may be exposed to flammable chemicals or gases, water, solvents,
or other fluids.

• Turn on the power only after securing the front cover of the ASD.

EOI Remote Mounting w/o the ASD-MTG-KIT9

Note: See Figure 25 for the dimensions and the item locations referenced in steps 1 through 5.

1. At the EOI mounting location, mark the 4.00” by 3.63” hole and the four 3/16” screw holes.

2. Cut the 4.00” by 3.63” rectangular hole.

3. Drill the four 3/16” screw holes.

4. Attach and secure the EOI to the front side of the mounting location using the four 6-32 x 5/16” pan
head screws, the #6 split lock washers, and the #6 flat washers.

5. Connect the extension cable.

EOI Mounting Dimensions

Figure 25. EOI Mounting Dimensions.

34 H9 ASD Installation and Operation Manual

SD-MTG- EOI Remote Mounting Using the ASD-MTG-KIT9
IT9
Note: See Figure 26 for the dimensions and the item locations referenced in steps 1 through 6.
1. At the EOI mounting location, mark the 4.60” by 4.50” hole and the four 11/32” screw holes.
2. Cut the 4.60” by 4.50” rectangular hole.
3. Drill the four 11/32” holes for the Bezel Plate mount.
4. Attach and secure the Bezel Plate to the front side of the mounting location using the four 10-32
hex nuts, #10 split lock washers, and the #10 flat washers.
5. Attach and secure the EOI to the front side of the Bezel Plate using the four 6-32 x 5/16” pan head
screws, #6 split lock washers, and the #6 flat washers.
6. Connect the extension cable.

EOI ASD-MTG-KIT9 Mounting Dimensions

Figure 26. EOI Bezel Plate Mounting Dimensions.

H9 ASD Installation and Operation Manual 35

Command Mode and Frequency Mode
Control
Command control includes instructions such as Stop, Run, Jog, etc. The source of the Command
signal must be established for normal operation.
Frequency commands control the output speed of the H9 ASD. The source of the frequency control
signal must be established for normal operation.
The source of the command control and frequency control may be either internal or external. Once the
source signal is selected for either function, the system may be configured to use the selected signal all
of the time or switch under user-defined conditions.
Command and Frequency control may be carried out using any one of several control methods (signal
sources) or combinations thereof. In the event that multiple control commands are received, the signal
sources are assigned priority levels. The primary control method for Command and Frequency control
uses the settings of F003 and F004, respectively.

Command Control (F003)

The Command Mode selection of F003 establishes
the primary source of the command input for the ASD.
However, the Override feature may supersede the
F003 setting as indicated in Table 3.
Table 3 on pg. 38 shows the hierarchy of the control
sources managed by the Override function. The level
of the control item of the hierarchy is listed from left to right, most to least, respectively. As indicated in
the table, the Override setting may supersede the F003 setting.
Placing the EOI in the Local mode selects the RS485 (2-wire) as the Command Mode control source.
Local mode operation may be superseded by other Override settings.
Example: With the EOI set to Local, Communication Board input or RS485 (4-wire) input will
supersede EOI control input.
The remaining control sources may be placed into the Override Mode using communications.
The source of the Command control signal may be selected by:
• The F003 setting,
• Placing an item from the Command signal source selections in the Override Mode via
communications, or
• Placing the EOI in the Local mode (places only the RS485 [2-wire] or the RS485 [4-wire] in the
Override Mode).
Possible Command signal source selections include the following:
• Terminal Block (default),
• EOI (Keypad),
• RS485,
• Communication Option Board, or
• F003 setting (is used if no signal sources are in the Override Mode).
Note: The Terminal Board is placed in the Override Mode for Command functions by
assigning a discrete terminal to Command Terminal Board Priority and connecting
the terminal to CC. Once activated (Run command required), the Terminal Board
settings will be used for Override Command control (F, R, Preset Speeds, etc.).
36 H9 ASD Installation and Operation Manual
 Frequency Control (F004)
The Frequency Mode 1 (or the Frequency Mode 2)
setting establishes the user-selected source of the
frequency-control input for the H9 ASD. The signal
source selected here is used for speed control unless the
Reference Priority Selection parameter is configured
to switch this setting automatically (see F200) or if the
Override feature is enabled.
Table 3 on pg. 38 shows the hierarchy of the control sources managed by the Override function. The
level of the control item of the hierarchy is listed from left to right, most to least, respectively. As
indicated in the table, the Override setting may supersede the selection at F004.
Placing the EOI in the Local mode selects the RS485 (2-wire) as the Frequency Mode 1 control
source. Local mode operation may be superseded by other Override settings.
Example: With the EOI set to Local, the Communication Board input or the RS485 (4-wire) input
will supersede EOI control input.
The remaining control sources may be placed into the Override Mode using communications.

The source of the Frequency control signal may be selected by:

• The F004 setting,
• Placing an item from the Frequency control source selections in the Override Mode via
communications, or
• Placing the EOI in the Local mode (places only the RS485 [2-wire] in the Override Mode).

Possible Frequency control source selections include the following:

• Communication Board,
• RS485,
• EOI (Keypad),
• Terminal Block (the default setting), or
• F004 setting (used if no other items are in the Override mode).

Note: The Terminal Board is placed in the Override Mode for Speed control functions by
assigning a discrete terminal to V/I Terminal Priority and connecting the terminal to
CC. Once the discrete terminal is activated, V/I is used as the Terminal Board
Override control item.

Command and Frequency Control Selections

The user may select only one Command source and only one source for Frequency control. The
default settings for Command and Frequency control are Terminal Block and RR, respectively.
The H9 ASD has a command register for each item listed as a Command or Frequency source. The
registers store the Override setting for each control source. The registers are continuously scanned to
determine if any of the listed items are in the Override Mode.
For each scan cycle, the command registers of the control sources are scanned for the Override setting
in the order that they are listed in Table 3. The first item of the Command section and the first item of
the Frequency section detected as being in the Override Mode will be used for Command and
Frequency control, respectively. If no items are detected as being in the Override Mode, the settings of
F003 and F004 will be used for Command and Frequency control, respectively.

H9 ASD Installation and Operation Manual 37

 Any or all of the Command and Frequency control input sources may be placed in the Override
Mode.
Placing the H9 ASD in the Local mode (Local/Remote LED on) via the EOI places the RS485 (2-wire)
control selection in the Override Mode for Command and Frequency input (see the section titled
Override Operation on pg. 38 for the proper setting). The Local/Remote control Override feature for
Command and Frequency (or either) may be enabled/disabled at Program Utilities Prohibition
Local/Remote Key (Command or Frequency) Override.
Communications may be used to place the remaining Command and eligible Frequency control input
sources in the Override Mode. Once placed in the Override Mode this setting is valid until it is
cancelled, the power supply is turned off, or the H9 ASD is reset.

Override Operation
The signal sources of Table 3 are scanned from left to right in the order that they are listed to determine
which input sources are in the Override Mode (active Command or Frequency command present). The
first item detected as having the Override function turned on is the selection that is used for Command or
Frequency control input.
The Override control setting supersedes the setting of the Command mode setting (F003) and the
Frequency mode setting (F004). However, the F003 and F004 settings will be used in the event that the
register scan returns the condition that none of the listed items have the Override feature turned on or a
discrete input terminal is set to Serial/Local Switch and is activated.

Command and Frequency-Control Override Hierarchy

Table 3 lists the input conditions and the resulting output control source selections for Command and
Frequency control Override operation.
From left to right in Table 3, the active signal source has priority over any adjacent active signal sources to
the right.
Table 3. Command and Frequency Control Hierarchy.
1 2 3 4 5 6 Priority Level
Forced F003/
F004 by I/P
Comm. RS485 RS485 Terminal Board Command/
Terminal F003/F004
Board (4-Wire) (2-Wire) (Binary/BCD Input) Frequency Mode
(Assign to Serial/
Local Switch)
1 X X X X X F003/F004 Setting
0 1 X X X X Communication Board
0 0 1 X X X RS485 (4-Wire)
0 0 0 1 X X RS485 (2-Wire)
0 0 0 0 1 X Terminal Board
F003/F004
0 0 0 0 0 F003/F004 Setting
Setting
Note: 1 = Override feature is turned on for that control input source; 0 = Override Off; X = Don’t Care.

38 H9 ASD Installation and Operation Manual

 Command Control Selections
The following is a listing with descriptions of the
Command Mode (F003) selections (Program 
Fundamental  Standard Mode Selection 
Command Mode Selection).
Settings:
0 — Terminal Block
Allows for Command control input via the (Default)
Terminal Board.
1 — Not Used
Unused.
2 — EOI (Keypad)
Used for EOI command control.
3 — RS485
Used to transfer commands to the ASD via 4-wire RS485.
4 — Communication Option Board
Use this setting if using the optional Communication Board for command control.

Frequency Control
Selections
The following is a listing with descriptions of the
Frequency Mode (F004) selections (Program 
Fundamental  Standard Mode Selection 
Frequency Mode 1).
Settings:
1 — V/I
(Default)
Used when a 0 to 10 VDC analog input or a 0 –
20 mADC current input is used as the speed control input. Only one input signal type may be
used at a time. Set SW301 to the desired signal type.
2 — RR
Used for a 0 to 10 VDC analog input signal.
3 — RX
Used for a -10 to +10 VDC analog input signal.
4 — Not Used
Unused.
5 — EOI (Keypad)
Used for EOI frequency control.
6 — RS485
Used to transfer speed commands to the ASD via 4-wire RS485.

H9 ASD Installation and Operation Manual 39

 7 — Communication Option Board
Use this setting if using the optional Communication Board for frequency control.
8 — RX2 Option (AI1)
Used for a -10 to +10-volt DC analog input signal.
9 — Option V/I
Allows for the use of the optional voltage/current frequency-control interface.
10 — UP/DOWN Frequency
A discrete terminal may be configured to increase or decrease the speed of the motor by
momentarily connecting the assigned discrete input terminal to CC. See F264 on pg. 128 for
further information on this feature.
11 — Pulse Input Option
Used to allow the system to use a pulsed input for frequency control. See PG Input Point 1
Setting on pg. 122 for further information on this feature.
12 — Pulse Input (motor CPU)
Used to allow the system to use a pulsed input for frequency control. See PG Input Point 1
Setting on pg. 122 for further information on this feature.
13 — Binary/BCD Input Option
Allows for the discrete terminals to be used for frequency-control input. Input may be provided
as binary or binary coded decimal.

40 H9 ASD Installation and Operation Manual

System Configuration and Menu Options
Root Menus
The Mode key accesses the three primary modes of the H9 ASD: the Frequency Command mode, the
Monitor mode, and the Program mode. From either mode, press the Mode key to loop through to the
other two modes (see Figure 27). While in the Frequency Command mode, pressing the ESC key
toggles the menu to and from the EOI Command mode and the Frequency Command mode.
The Alarm or Fault information will be displayed in the event of an active Alarm or Fault. Alarm text
will be displayed on the Frequency Command screen and on the LED screen when active. Fault
information will be displayed via the Fault screen. See Alarms and Trips on pg. 244 for more information
on Alarms and Trips.

Figure 27. H9 ASD Root Menu Navigation.

Frequency Command Mode

Frequency Setting
While operating in the Local mode (Local LED is illuminated on the EOI), the running frequency of the
motor may be set from the Frequency Command screen. Using the Rotary Encoder, enter the
Frequency Command value, connect ST to CC, and provide a Run command (F and/or R) and then
press the Run key. The motor will run at the Frequency Command speed and may be changed while
running. See Figure 22 on pg. 32 and Operation (Local) on pg. 73 for more information on the Frequency
Command mode.

H9 ASD Installation and Operation Manual 41

 EOI Command Mode
The EOI Command mode is accessed by pressing the ESC key from the Frequency Command screen.
The control settings of the EOI Command menu are effective for EOI control only.
The EOI Command mode provides quick access to the following menu parameters:
Direction — Forward or Reverse.
Stop Pattern — The Decel Stop or Coast Stop settings determines the method used to stop the
motor when using the Stop-Reset key of the EOI. The Decel Stop setting enables the Dynamic
Braking system setup at F304 or the DC Injection Braking system setup at F250, F251, and F252.
The Coast Stop setting allows the motor to stop at the rate allowed by the inertia of the load.
Note: The Stop Pattern setting has no effect on the Emergency Off settings of F603.
V/f Group — One of 4 V/f profiles may be selected and run. Each V/f profile is comprised of 4 user
settings: Base Frequency, Base Frequency Voltage, Manual Torque Boost, and Electronic
Thermal Protection. Expanded descriptions of these parameters may be found in the section titled
Direct Access Parameter Information on pg. 76.
Accel/Decel Group — One of 4 Accel/Decel profiles may be selected and run. Each of the Accel/
Decel profiles is comprised of three user settings: Acceleration, Deceleration, and Pattern.
Expanded descriptions of these parameters may be found in the section titled Direct Access
Parameter Information on pg. 76 (or see F009).
Feedback in Panel Mode — This feature enables or disables the PID feedback function.
Torque Limit Group — This parameter is used to select 1 of 4 preset positive torque limits to apply
to the active motor (of a multiple motor configuration). The settings of profiles 1 – 4 may be setup at
F441, F444, F446, and F448, respectively.

42 H9 ASD Installation and Operation Manual

Monitored Monitor Mode
tems
The Monitor mode allows the user to monitor motor performance variables, control settings, and
configuration data during motor operation. There are 43 items that may be monitored from this mode. The
items are listed and described below.
Note: The Monitor mode is a read-only mode. The settings cannot be changed from the
Monitor mode. For information on how to change the values, see the section titled
Default Setting Changes on pg. 74.
Note: Any two of the Underlined monitored items may be selected for display at the
Frequency Command screen while running via Program Utilities Main
Monitor Selections.
Note: The F701 setting will determine if the Current and Voltage values displayed appear
as A (Amps) and V (Voltage), or if the value is shown as a % (percentage) of the
ASD rating.
Frequency at Trip — Displays the at-trip frequency.
Frequency Reference — Displays the Frequency Setpoint.
Output Current — Displays the Output Current as a percentage of the rated capacity of the H9
ASD.
DC Bus Voltage — Displays the Bus Voltage as a percentage of the rated capacity of the H9 ASD.
Output Voltage — Displays the Output Voltage as a percentage of the rated capacity of the H9
ASD.
AM Output — Displays the AM output terminal value for the function assigned to the AM terminal.
FM Output — Displays the FM output terminal value for the function assigned to the FM terminal.
Motor OL (Overload) Real — Displays the real-time Motor Overload value as a percentage of
the rated capacity of the motor.
Motor OL (Overload) Trip — Displays the Motor Overload Trip value as a percentage of the
rated capacity of the motor.
Motor Load — Displays the real-time Motor Load as a percentage of the rated capacity of the
motor.
ASD OL (Overload) Real — Displays the real-time ASD Overload as a percentage of the rated
capacity of the H9 ASD.
ASD OL (Overload) Trip — Displays the ASD Overload Trip value as a percentage of the rated
capacity of the ASD.
ASD Load — Displays the ASD Load as a percentage of the rated capacity of the H9 ASD.
Run Time — Displays the Cumulative Run Time in hours.
Compensation Frequency — Displays the Output Frequency after the application of the slip
compensation correction value (Post Compensation Frequency).
DBR OL (Overload) Real — Displays the real-time DBR Overload value as a percentage of the
Dynamic Braking Resistor capacity.
DBR OL (Overload) Trip — Displays the DBR Overload Trip value as a percentage of the
Dynamic Braking Resistor capacity.
DBR Load — Displays the DBR Load as a percentage of the Dynamic Braking Resistor capacity.

H9 ASD Installation and Operation Manual 43

 Feedback (Inst) — Provides a status of the Real Time Feedback in Hz.
Feedback (1 Second) — Provides a status of the 1-Second Averaging feedback in Hz.
Torque — Displays the Output Torque as a percentage of the rated capacity of the H9 ASD.
Torque Reference — Displays the Torque Reference as a percentage of the maximum torque
available.
Torque Current — Displays the torque-producing current value.
Excitation Current — Displays the current value required to produce the excitation field.
PID Feedback — Provides a status of the PID Real Time Feedback in Hz.
Input Power — Displays the Input Power in Kilowatts (kW).
Output Power — Displays the Output Power in Kilowatts (kW).
Pattern Group Number — Displays the active Pattern Run Group Number.
Pattern Group Cycle — Displays the cycle number of the active Pattern Run Group.
Pattern Group Preset — Displays the active Preset Speed being run of the active Pattern Run
Group.
Pattern Time — Displays the remaining time for the active Pattern Run Group.
RR — Displays the RR input value as a percentage of the full range of the RR value (potentiometer
input).
V/I — Displays the V/I input setting as a percentage of the full range of the V/I value.
Note: The isolated V/I input terminal may receive Current or Voltage to control the
output speed or the output torque. The input signal type must be selected at SW301
on the Terminal Board.

The V input setting of SW301 is used for the 0 – 10 VDC analog input signal and
the I input setting of SW301 is used for the 0 – 20 mA analog input signal. Either
may be used as a frequency or torque command source. See parameter F201 for
more information on the setup of this terminal.
RX — Displays the RX input setting as a percentage of the full range of the RX value (-10 to
+10 VDC input).
RX2 Option (AI1) — Displays the RX2 input setting as a percentage of the full range of the RX2
value.
Note: The RX2 function is available on the Expansion IO Card Option 1 option board
(P/N ETB003Z) only.
Trip Code — Displays None if there are no errors, or displays one of the associated Fault Codes
listed in Table 14 on page 248 if there is an active Fault (e.g., E = Emergency Off).
Past Trip 1 — This function records and displays the last trip incurred. Subsequent trips will replace
ast Trip 1 Past Trip 1. As trip records are replaced they are shifted to the next level of the Past Trip locations
until being deleted (i.e., Past Trip 1 is moved to Past Trip 2 and then to Past Trip 3 until being
shifted out of Past Trip 4). Once shifted out of Past Trip 4 the record is deleted. If no trips have
occurred since the last reset, No Error is displayed for each trip record.
Past Trip 2 — Past trip information or None.
Past Trip 3 — Past trip information or None.

44 H9 ASD Installation and Operation Manual

 Past Trip 4 — Past trip information or None.
Note: An improper H9 ASD setup may cause some trips — reset the H9 ASD to the
Factory Default settings before pursuing a systemic malfunction (Program 
Utilities  Type Reset  Reset to Factory Settings).
Direction — Displays the Direction command (forward/reverse).
Discrete Input Terminals — Displays the status (activated = reverse video) of the discrete input
terminals of the Terminal Board.
Discrete Output Terminals — Displays the status (activated = reverse video) of the discrete
output lines of the Terminal Board.

Main Monitor
Main Monitor Selections
Two (2) Monitor Mode items may be selected from the Main Monitor Selections screen to be displayed
on the Frequency Command screen while the H9 ASD is running.
The selected items, along with their real-time values, are displayed on the Frequency Command screen
while running. Not all Monitor Mode items are available for display on the Frequency Command
screen. The available items are underlined on pg. 43 and pg. 44.
Any two of the underlined items may be selected from the listing at Program Utilities  Main
Monitor Selections. Select an item from the Monitor 1 listing and another item from the Monitor 2
listing to be displayed as shown in Figure 22 on pg. 32.

H9 ASD Installation and Operation Manual 45

ogram Program Mode Menu Navigation
The following table lists the menu items of the Program mode and maps the flow of the menu selections.
The Parameter Numbers for the listed functions are provided where applicable.

The functions listed may be viewed, or selected and changed as mapped below or via the Direct Access
method: Program  Direct Access  Applicable Parameter Number.

Program Mode Menu Navigation

Parameter
Primary Menu Sub Menu Parameter Name
Number

STARUP WIZARD See the section titled Initial Setup on pg. 70 for Startup Wizard Requirements.

FUNDAMENTAL Automatic Acceleration/Deceleration F000

Fundamental
Acceleration Time 1 F009

Deceleration Time 1 F010

Acceleration/Deceleration Suspended Function F349

Accel/Decel 1 Settings
Acceleration Suspend Frequency F350

Acceleration Suspend Time F351

Deceleration Suspend Frequency F352

Deceleration Suspend Time F353

Maximum Frequency F011

Upper-Limit Frequency F012

Frequency Settings Lower-Limit Frequency F013

V/f Pattern F015

Time Limit for Lower-Limit Frequency Operation F256

Automatic Torque Boost F001

Base Frequency 1 F014

Motor Set 1
Manual Torque Boost 1 F016

Motor Overload Protection Level 1 F600

Command Mode F003

Frequency Mode 1 F004

Standard Mode Forward/Reverse Run F008

Selection Frequency Priority F200

Frequency Mode 2 F207

Frequency Mode Priority Switching Frequency F208

TERMINAL Analog Output FM Output Terminal Function F005

Terminals FM Output Terminal Adjustment F006

46 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

TERMINAL FM Output Gradient Characteristic F682

Terminal FM Bias Adjustment F683

FM Voltage/Current Output Switching F681

AM Output Terminal Function F670

AM Output Terminal Adjustment F671

AM Output Gradient Characteristic F685

AM Bias Adjustment F686

MON 1 Terminal Meter Selection F672

MON 1 Terminal Meter Adjustment F673

Analog Output
MON 1 Output Gradient Characteristic F689
Terminals
MON 1 Bias Adjustment F690

MON 1 Voltage/Current Output Switching F688

MON 2 Terminal Meter Selection F674

MON 2 Terminal Meter Adjustment F675

MON 2 Output Gradient Characteristic F692

MON 2 Bias Adjustment F693

MON 2 Voltage/Current Output Switching F691

Pulse Output Function F676

Pulse Output Frequency F677

Forward/Reverse Run Priority When Both Are Activated F105

Input Special Input Terminal Priority F106

Functions 16-Bit Binary/BCD Input F107

V/I Analog Input Broken Wire Detection Level F633

Input Terminal 1 (F) Response Time F140

Input Terminal 2 (R) Response Time F141

Input Terminal 3 (ST) Response Time F142

Input Terminal Delays
Input Terminal 4 (RES) Response Time F143

Input Terminal 5–12 Response Time F144

Input Terminal 13–20 Response Time F145

H9 ASD Installation and Operation Manual 47

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

TERMINAL Always ON Terminal Function F110

Input Terminal 1 (F) Function F111

Input Terminal 2 (R) Function F112

Input Terminal 3 (ST) Function F113

Input Terminal 4 (RES) Function F114

Input Terminal 5 (S1) Function F115

Input Terminal 6 (S2) Function F116

Input Terminal 7 (S3) Function F117

Input Terminal 8 (S4) Function F118

Input Terminal 9 (LI1) Function F119

Input Terminal 10 (LI2) Function F120

Input Terminal 11 (LI3) Function F121

Input Terminals Input Terminal 12 (LI4) Function F122

Input Terminal 13 (LI5) Function F123

Input Terminal 14 (LI6) Function F124

Input Terminal 15 (LI7) Function F125

Input Terminal 16 (LI8) Function F126

Input Terminal 17 (B12) Function F164

Input Terminal 18 (B13) Function F165

Input Terminal 19 (B14) Function F166

Input Terminal 20 (BI5) Function F167

Virtual Input Terminal Selection 1 F973

Virtual Input Terminal Selection 2 F974

Virtual Input Terminal Selection 3 F975

Virtual Input Terminal Selection 4 F976

Commercial Power/ASD Switching Output F354

Commercial Power/ASD Switching Frequency F355

Line Power Switching ASD Side Switching Delay Time F356

Commercial Power-Side Switching Delay Time F357

Commercial Power Switching Frequency Hold Time F358

48 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

TERMINAL Output Terminal 1 (OUT1) Function F130

Output Terminal 2 (OUT2) Function F131

Output Terminal 3 (FL) Function F132

Output Terminal 4 (OUT3) Function F133

Output Terminal 5 (OUT4) Function F134

Output Terminals Output Terminal 6 (R1) Function F135

Output Terminal 7 (OUT5) Function F136

Output Terminal 8 (OUT6) Function F137

Output Terminal 9 (R2) Function F138

Output Terminal 10 (R3) Function F168

Output Terminal 11 (R4) Function F169

Low-Speed Signal Output Frequency F100

Reach Settings Speed Reach Frequency F101

Speed Reach Detection Band F102

DIRECT ACCESS Parameter Number Input

Direct Access N/A
Unknown Numbers Accepted

UTILITIES Automatic Function Selection F040

Utilities Voltage/Current Display Units F701

Free Unit Multiplication Factor F702

Free Unit F703

Display Parameters
Free Unit Display Gradient Characteristic F705

Free Unit Display Bias F706

Change Step Selection 1 F707

Change Step Selection 2 F708

Write Parameter Lock Out F700

Command Mode/Frequency Mode Lock Out F736

rohibited Prohibition Lock Out All Keys F737

Local/Remote Key Command Override

N/A
Local/Remote Key Frequency Override

Trace Trace Selection F740

H9 ASD Installation and Operation Manual 49

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

UTILITIES Trace Cycle F741

Trace Data 1 F742

Trace Trace Data 2 F743

Trace Data 3 F744

Trace Data 4 F745

Over-Current Alarm

ASD Overload Alarm

Motor Overload Alarm

Over-Heat Alarm

Over-Voltage Alarm

Main Power Under-Voltage Alarm

Reserved (POFF) Alarm

Under-Current Alarm

Over-Torque Alarm

Alarm Prohibition Braking Resistor Overload Alarm

(prohibits an EOI alarm
Cumulative Run Timer Alarm N/A
display ONLY — alarm
still activated) DeviceNet/Profibus/CC-Link Alarm

RS485 Communication

Main Power Under-Voltage Alarm

Stop After Instantaneous Power-Off Alarm

Stop After Lower-Limit Continuous Time

Light-Load Alarm

Heavy-Load Alarm

Maintenance Timer Alarm

Over-Torque Alarm

Soft Stall Alarm

Type Reset Reset F007

eal-Time Real-Time Clock

lock Set Real-Time Clock N/A
Setup
Trip Number
Trip History (read-only) N/A
Trip Type

50 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

UTILITIES Frequency at Trip

Output Current

Output Voltage

Direction

Frequency Reference

DC Voltage

Discrete Input Terminals

Discrete Output Terminals

Run Timer

Post Compensation Frequency

Speed Feedback (Real-Time)

Speed Feedback (1 Second)

Trip History
Torque Feedback N/A
(read-only)
Torque Reference

Torque Current

Excitation Current

PID Feedback

Motor Overload Ratio

ASD Overload Ratio

DBR Overload Ratio

Motor Load

ASD Load

DBR Load
ontrast Input Power

Output Power

Changed From Default Changed Parameters N/A

Contrast Contrast Adjustment N/A

H9 EOI (Ver:DB)

Version (read-only) ASD Type N/A

CPU Code Version

H9 ASD Installation and Operation Manual 51

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

UTILITIES CPU Code Revision

MC Version
Version (read-only)
MC Revision

Main Board EEPROM Version N/A

Main Monitor Monitor 1

Selections Monitor 2

View Trace Data View Trace Data

PROTECTION Abnormal Speed Detection Time F622

Protection Abnormal Speed
Over-Speed Detection Frequency Upper Band F623
Settings
Over-Speed Detection Frequency Lower Band F624

Base Frequency
Supply Voltage Correction F307
Voltage
DC Injection Braking Start Frequency F250

DC Injection Braking Current F251

DC Injection Braking DC Injection Braking Time F252

Forward/Reverse DC Injection Braking Priority F253

Motor Shaft Stationary Control F254

Dynamic Braking Enable F304

Dynamic Braking Resistance F308

Dynamic Braking
Continuous Dynamic Braking Capacity F309

Braking Resistance Overload Time (10x Rated Torque) F639

Emergency Off Emergency Off F603

Settings Emergency DC Injection Braking Control Time F604

Low-Current Trip F610

Low-Current Detection Current F611

Low-Current Settings
Low-Current Detection Time F612

Low-Current Detection Hysteresis Width F609

Motor Overload Protection Configuration F017

Overload
Overload Reduction Start Frequency F606

52 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

PROTECTION Motor 150% Overload Time Limit F607

Overload
ASD Overload F631

Over-Torque Trip F615

Over-Torque Detection Level During Power Running F616

Over-Torque Over-Torque Detection Level During Regenerative

F617
Parameters Braking

Over-Torque Detection Time F618

Over-Torque Detection Hysteresis F619

ASD Output Phase Loss Detection F605

Phase Loss
ASD Input Phase Loss Detection F608

Auto Restart Enable F301

Number of Times to Retry F303

Retry/Restart
Ridethrough Time F310

Random Mode F312

Over-Voltage Limit Operation F305

Stall Prevention Factor 1 F416

Power Running Stall Continuous Trip Detection Time F452

Stall
Stall Prevention During Regeneration F453

Stall Prevention Level F601

Over-Voltage Limit Operation Level F626

Trip Settings Retain Trip Record at Power Down F602

Regenerative Power Ridethrough Mode F302

Synchronized Deceleration Time F317

Under-Voltage/ Synchronized Acceleration Time F318

Ridethrough Under-Voltage Trip F627

Under-Voltage (Trip Alarm) Detection Time F628

Regenerative Power Ridethrough Control Level F629

Short Circuit Detection at Start F613

Special Protection Cooling Fan Control F620

Parameters Cumulative Operation Time Alarm Setting F621

Brake Answer Wait Time F630

H9 ASD Installation and Operation Manual 53

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

FREQUENCY Analog Filter Analog Input Filter F209

Frequency
Forward/Reverse
Forward/Reverse Disable F311
Disable
Jog Frequency F260

Jog Settings Jog Stop Pattern F261

EOI Operation Jog Mode F262

UP/DOWN Up Response Time F264

UP/DOWN Up Frequency Step F265

UP/DOWN Frequency UP/DOWN Down Response Time F266

Functions UP/DOWN Down Frequency Step F267

Initial UP/DOWN Frequency F268

Initial UP/DOWN Frequency Rewriting F269

Option V/I Terminal Voltage/Current Selection (AI2

V/I Settings F109
Option Board Input)

Preset Speed 1 F018

Preset Speed 2 F019

Preset Speed 3 F020

Preset Speed 4 F021

Preset Speed 5 F022

Preset Speed 6 F023

Preset Speed 7 F024

Preset Speeds Preset Speed 8 F287

Preset Speed 9 F288

Preset Speed 10 F289

Preset Speed 11 F290

Preset Speed 12 F291

Preset Speed 13 F292

Preset Speed 14 F293

Preset Speed 15 F294

54 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

FREQUENCY V/I Input Point 1 Setting F201

V/I Input Point 1 Frequency F202

V/I Input Point 2 Setting F203

V/I Input Point 2 Frequency F204

RR Input Point 1 Setting F210

RR Input Point 1 Frequency F211

RR Input Point 2 Setting F212

RR Input Point 2 Frequency F213

RX Input Point 1 Setting F216

RX Input Point 1 Frequency F217

RX Input Point 2 Setting F218

RX Input Point 2 Frequency F219

RX2 Option (AI1) Input Point 1 Setting F222

RX2 Option (AI1) Input Point 1 Frequency F223

Speed Reference RX2 Option (AI1) Input Point 2 Setting F224

Setpoints RX2 Option (AI1) Input Point 2 Frequency F225

BIN Input Point 1 Setting F228

BIN Input Point 1 Frequency F229

BIN Input Point 2 Setting F230

BIN Input Point 2 Frequency F231

PG Input Point 1 Setting F234

PG Input Point 1 Frequency F235

PG Input Point 2 Setting F236

PG Input Point 2 Frequency F237

V/I Input Bias F470

V/I Input Gain F471

RR Input Bias F472

RR Input Gain F473

RX Input Bias F474

RX Input Gain F475

H9 ASD Installation and Operation Manual 55

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

FREQUENCY RX2 Option (AI1) Input Bias F476

Speed Reference RX2 Option (AI1) Input Gain F477

Setpoints V/I Input Bias (AI2 Option Board Input) F478

V/I Input Gain (AI2 Option Board Input) F479

SPECIAL Acceleration Time 2 F500

Special Deceleration Time 2 F501

Acc/Dec Pattern 1 F502

Acc/Dec Pattern 2 F503

Acceleration Time 3 F510

Acc/Dec 1 – 4 Settings
Deceleration Time 3 F511

Acc/Dec Pattern 3 F512

Acceleration Time 4 F514

Deceleration Time 4 F515

Acc/Dec Pattern 4 F516

Acc/Dec Pattern 1 – 4 F504

Acc/Dec Switching Frequency 1 F505

S-Pattern Acceleration Lower-Limit Adjustment F506

S-Pattern Acceleration Upper-Limit Adjustment F507

Acc/Dec Special
S-Pattern Deceleration Lower-Limit Adjustment F508

S-Pattern Deceleration Upper-Limit Adjustment F509

Acc/Dec Switching Frequency 2 F513

Acc/Dec Switching Frequency 3 F517

PWM Carrier Frequency F300

Carrier Frequency
Carrier Frequency Control Mode F316

Light-Load/High-Speed Operation F328

Light-Load/High-Speed Learning Function F329

Light-Load/High-Speed Operation Frequency F330

Crane/Hoist Settings Light-Load/High-Speed Operation Switching
F331
Lower-Limit Frequency

Light-Load/High-Speed Operation Load Wait Time F332

Light-Load/High-Speed Operation Detection Time F333

56 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

SPECIAL Light-Load/High-Speed Heavy-Load Detection Time F334

Switching Load Torque During Power Running F335

Crane/Hoist Settings Heavy-Load Torque During Power Running F336

Heavy-Load Torque During Constant Power Running F337

Switching Load Torque During Regeneration Braking F338

V/f 5-Point Setting Frequency 1 F190

V/f 5-Point Setting Voltage 1 F191

V/f 5-Point Setting Frequency 2 F192

V/f 5-Point Setting Voltage 2 F193

V/f 5-Point Setting Frequency 3 F194

V/f 5-Point Setting
V/f 5-Point Setting Voltage 3 F195

V/f 5-Point Setting Frequency 4 F196

V/f 5-Point Setting Voltage 4 F197

V/f 5-Point Setting Frequency 5 F198

V/f 5-Point Setting Voltage 5 F199

Start Frequency F240

Run Frequency F241

Frequency Control
Run Frequency Hysteresis F242

End Frequency F243

0 Hz Dead Band Signal F244

0 Hz Command Output F255

Exciting Strengthening Coefficient F415

Special Parameters Annual Average Ambient Temperature F634

Rush Current Suppression Relay Activation Time F635

PTC 1 Thermal Selection F637

PTC 2 Thermal Selection F638

Jump Frequency 1 F270

Jump Frequency 1 Bandwidth F271

Jump Frequencies
Jump Frequency 2 F272

Jump Frequency 2 Bandwidth F273

H9 ASD Installation and Operation Manual 57

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

SPECIAL Jump Frequency 3 F274

Jump Frequencies
Jump Frequency 3 Bandwidth F275

Operation Command Clear Selection With Standby

F719
Terminal Off

Panel Stop Pattern F721

Panel Torque Command F725

Panel Tension Torque Bias F727

Operation Panel
Parameters Panel Load Sharing Gain F728

Panel Override Multiplication Gain F729

Panel Frequency Lock Out F730

Panel Emergency Off Lock Out F734

Panel Reset Lock Out F735

Traverse Selection F980

Traverse Acceleration Time F981

Traverse Traverse Deceleration Time F982

Traverse Step F983

Traverse Jump Step F984

MOTOR Motor Set 2 Base Frequency F170

Motor
Motor Set 2 Base Frequency Voltage F171
Motor Set 2
Motor Set 2 Manual Torque Boost F172

Motor Set 2 Overload Protection Level F173

Motor Set 3 Base Frequency F174

Motor Set 3 Base Frequency Voltage F175

Motor Set 3
Motor Set 3 Manual Torque Boost F176

Motor Set 3 Overload Protection Level F177

Motor Set 4 Base Frequency F178

Motor Set 4 Base Frequency Voltage F179

Motor Set 4
Motor Set 4 Manual Torque Boost F180

Motor Set 4 Overload Protection Level F181

PM Motor Constant 1 (D-Axis Inductance) F498

PM Motor
PM Motor Constant 2 (Q-Axis Inductance) F499

58 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

MOTOR Step-Out Detection-Current Level (For PM Motors) F640

PM Motor
Step-Out Detection-Current Time (For PM Motors) F641

Autotune 1 F400

Slip Frequency Gain F401

Autotune 2 F402

Motor Rated Capacity (Nameplate) F405

Motor Rated Current (Nameplate) F406

Vector Motor Model Motor Rated RPM (Nameplate) F407

Base Frequency Voltage 1 F409

Motor Constant 1 (Torque Boost) F410

Motor Constant 2 (No Load Current) F411

Motor Constant 3 (Leak Inductance) F412

Motor Constant 4 (Rated Slip) F413

TORQUE Power Running Torque Limit 2 Level F444

Torque Regenerative Braking Torque Limit 2 Level F445

Manual Torque Limit Power Running Torque Limit 3 Level F446

Settings Regenerative Braking Torque Limit 3 Level F447

Power Running Torque Limit 4 Level F448

Regenerative Braking Torque Limit 4 Level F449

V/I Input Point 1 Rate F205

V/I Input Point 2 Rate F206

RR Input Point 1 Rate F214

RR Input Point 2 Rate F215

Setpoints
RX Input Point 1 Rate F220

RX Input Point 2 Rate F221

RX2 Option (AI1) Input Point 1 Rate F226

RX2 Option (AI1) Input Point 2 Rate F227

Braking Mode F341

Torque Bias Input F342

Torque Control
Panel Torque Bias F343

Panel Torque Gain F344

H9 ASD Installation and Operation Manual 59

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

TORQUE Release Time F345

Creeping Frequency F346

Creeping Time F347

Braking Time Learning Function F348

Torque Command F420

Torque Control Tension Torque Bias Input (Torque Control) F423

Load Sharing Gain Input F424

Forward Speed Limit Input F425

Forward Speed Limit Input Level F426

Reverse Speed Limit Input F427

Reverse Speed Limit Input Level F428

Power Running Torque Limit 1 F440

Power Running Torque Limit 1 Level F441

Torque Limit Settings Regenerative Braking Torque Limit 1 F442

Regenerative Braking Torque Limit 1 Level F443

Acceleration/Deceleration Operation After Torque Limit F451

Speed Limit (Torque = 0) Center Value Reference F430

Torque Speed Speed Limit (Torque = 0) Center Value F431

Limiting Speed Limit (Torque = 0) Band F432

Allow Specified Direction ONLY F435

FEEDBACK Drooping Gain F320

Feedback Speed at 0% Drooping Gain F321

Drooping Control Speed at F320 Drooping Gain F322

Drooping Insensitive Torque F323

Drooping Output Filter F324

PID Control Switching F359

PID Feedback Signal F360

Feedback Settings PID Feedback Delay Filter F361

PID Feedback Proportional Gain F362

PID Feedback Integral Gain F363

60 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

FEEDBACK PID Deviation Upper-Limit F364

PID Deviation Lower-Limit F365

PID Feedback Differential Gain F366

Process Upper-Limit F367

Process Lower-Limit F368

Feedback Settings PID Control Wait Time F369

PID Output Upper-Limit F370

PID Output Lower-Limit F371

Process Increasing Rate F372

Process Decreasing Rate F373

Speed PI Switching Frequency F466

Adding Input Selection F660

Override Control
Multiplying Input Selection F661

Number of PG Input Pulses F375

Number of PG Input Phases F376

PG Disconnection Detection F377

Simple Positioning Completion Range F381

Current Control Proportional Gain F458

PG Settings Speed Loop Proportional Gain F460

Speed Loop Stabilization Coefficient F461

Load Moment of Inertia 1 F462

Second Speed Loop Proportional Gain F463

Second Speed Loop Stabilization Coefficient F464

Load Moment of Inertia 2 F465

MY FUNCTION My Function Selection My Function Operating Mode F977

Input Function Target 1 F900

Input Function Command 1 F901

Input Function Target 2 F902

My Function Unit 1
Input Function Command 2 F903

Input Function Target 3 F904

Output Function Assigned F905

H9 ASD Installation and Operation Manual 61

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

MY FUNCTION Input Function Target 1 F906

Input Function Command 1 F907

Input Function Target 2 F908

My Function Unit 2
Input Function Command 2 F909

Input Function Target 3 F910

Output Function Assigned F911

Input Function Target 1 F912

Input Function Command 1 F913

Input Function Target 2 F914

My Function Unit 3
Input Function Command 2 F915

Input Function Target 3 F916

Output Function Assigned F917

Input Function Target 1 F935

Input Function Command 1 F936

Input Function Target 2 F937

My Function Unit 4
Input Function Command 2 F938

Input Function Target 3 F939

Output Function Assigned F940

Input Function Target 1 F941

Input Function Command 1 F942

Input Function Target 2 F943

My Function Unit 5
Input Function Command 2 F944

Input Function Target 3 F945

Output Function Assigned F946

Input Function Target 1 F947

Input Function Command 1 F948

Input Function Target 2 F949

My Function Unit 6
Input Function Command 2 F950

Input Function Target 3 F951

Output Function Assigned F952

62 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

MY FUNCTION Input Function Target 1 F953

Input Function Command 1 F954

Input Function Target 2 F955

My Function Unit 7
Input Function Command 2 F956

Input Function Target 3 F957

Output Function Assigned F958

My Function Percent Data 1 F918

My Function Percent Data 2 F919

My Function Percent Data 3 F920

My Function Percent Data 4 F921

My Function Percent Data 5 F922

My Function Frequency Data 1 F923

My Function Frequency Data 2 F924

My Function Frequency Data 3 F925

My Function Data My Function Frequency Data 4 F926

My Function Frequency Data 5 F927

My Function Time Data 1 F928

My Function Time Data 2 F929

My Function Time Data 3 F930

My Function Time Data 4 F931

My Function Time Data 5 F932

My Function Count Data 1 F933

My Function Count Data 2 F934

Analog Input Function Target 11 F959

Analog Function Assigned Object 11 F961

My Function Analog
Analog Input Function Target 21 F962

Analog Function Assigned Object 21 F964

Monitor Output Function 11 F965

My Function Monitor
Monitor Output Function Command 11 F966

H9 ASD Installation and Operation Manual 63

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

MY FUNCTION Monitor Output Function 21 F967

Monitor Output Function Command 21 F968

Monitor Output Function 31 F969

My Function Monitor
Monitor Output Function Command 31 F970

Monitor Output Function 41 F972

Monitor Output Function Command 41 F971

COMMUNICATIONS Frequency Point Selection F810

Communications Point 1 Setting F811
Communication
Point 1 Frequency F812
Adjustments
Point 2 Setting F813

Point 2 Frequency F814

Baud Rate (2-Wire RS485) F800

Parity (2-Wire and 4-Wire RS485) F801

ASD Number F802

Communications Time-Out (2-Wire and 4-Wire RS485) F803

Communication Time-Out Action (2-Wire and 4-Wire

F804
RS485)

Send Wait Time (2-Wire RS485) F805

ASD-to-ASD Communication (2-Wire RS485) F806

2-Wire RS485 Protocol F807

Baud Rate (4-Wire RS485) F820

Communication
Settings RS485 Send Wait Time F825

ASD-to-ASD Communication (4-Wire RS485) F826

4-Wire RS485 Protocol (TSB/MODBUS) F829

Communication Option (DeviceNet/Profibus) Setting 1 F830

Communication Option (DeviceNet/Profibus) Setting 2 F831

Communication Option (DeviceNet/Profibus) Setting 3 F832

Communication Option (DeviceNet/Profibus) Setting 4 F833

Communication Option (DeviceNet/Profibus) Setting 5 F834

Communication Option (DeviceNet/Profibus) Setting 6 F835

Communication Option (DeviceNet/Profibus) Setting 7 F836

64 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

COMMUNICATIONS Communication Option (DeviceNet/Profibus) Setting 8 F841

Communication Option (DeviceNet/Profibus) Setting 9 F842

Communication Option (DeviceNet/Profibus) Setting 10 F843

Communication Option (DeviceNet/Profibus) Setting 11 F844

Communication Option (DeviceNet/Profibus) Setting 12 F845

Communication Option (DeviceNet/Profibus) Setting 13 F846

Disconnection Detection Extended Time F850

ASD Operation at Disconnection F851

Preset Speed Operation F852

Communication Option Station Address Monitor F853

Communication
Settings Communication Option Speed Switch Monitor
F854
DeviceNet/CC-Link

Block Write Data 1 F870

Block Write Data 2 F871

Block Read Data 1 F875

Block Read Data 2 F876

Block Read Data 3 F877

Block Read Data 4 F878

Block Read Data 5 F879

Free Notes F880

Network Option Reset Setting F899

IP

Sub Net

Ethernet Settings Gateway N/A

DHCP Mode

MAC ID

PATTERN RUN Preset Speed Operation Mode F560

Pattern Run Preset Speed 1
Operation Mode
Direction F561

Acc/Dec Group

H9 ASD Installation and Operation Manual 65

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

PATTERN RUN V/f Group

F561
Torque Limit Group

Preset Speed 2

Direction

Acc/Dec Group F562

V/f Group

Torque Limit Group

Preset Speed 3

Direction

Acc/Dec Group F563

V/f Group

Torque Limit Group

Preset Speed 4

Direction

Acc/Dec Group F564

Operation Mode
V/f Group

Torque Limit Group

Preset Speed 5

Direction

Acc/Dec Group F565

V/f Group

Torque Limit Group

Preset Speed 6

Direction

Acc/Dec Group F566

V/f Group

Torque Limit Group

Preset Speed 7

Direction F567

Acc/Dec Group

66 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

PATTERN RUN V/f Group

F567
Torque Limit Group

Preset Speed 8

Direction

Acc/Dec Group F568

V/f Group

Torque Limit Group

Preset Speed 9

Direction

Acc/Dec Group F569

V/f Group

Torque Limit Group

Preset Speed 10

Direction

Acc/Dec Group F570

Operation Mode
V/f Group

Torque Limit Group

Preset Speed 11

Direction

Acc/Dec Group F571

V/f Group

Torque Limit Group

Preset Speed 12

Direction

Acc/Dec Group F572

V/f Group

Torque Limit Group

Preset Speed 13

Direction F573

Acc/Dec Group

H9 ASD Installation and Operation Manual 67

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

PATTERN RUN V/f Group

F573
Torque Limit Group

Preset Speed 14

Direction

Acc/Dec Group F574

V/f Group
Operation Mode
Torque Limit Group

Preset Speed 15

Direction

Acc/Dec Group F575

V/f Group

Torque Limit Group

Speed 1 Operation Time F540

Speed 2 Operation Time F541

Speed 3 Operation Time F542

Speed 4 Operation Time F543

Speed 5 Operation Time F544

Speed 6 Operation Time F545

Speed 7 Operation Time F546

Operation Time Speed 8 Operation Time F547

Speed 9 Operation Time F548

Speed 10 Operation Time F549

Speed 11 Operation Time F550

Speed 12 Operation Time F551

Speed 13 Operation Time F552

Speed 14 Operation Time F553

Speed 15 Operation Time F554

Pattern Operation F520

Pattern Run Pattern Operation Mode F521

Pattern 1 Repeat F522

68 H9 ASD Installation and Operation Manual

 Program Mode Menu Navigation
Parameter
Primary Menu Sub Menu Parameter Name
Number

PATTERN RUN Pattern Run Pattern 2 Repeat F531

Pattern Group 1 Selection 1 F523

Pattern Group 1 Selection 2 F524

Pattern Group 1 Selection 3 F525

Pattern Group 1 Selection 4 F526

Pattern Group 1 Selection 5 F527

Pattern Group 1 Selection 6 F528

Pattern Group 1 Selection 7 F529

Pattern Group 1 Selection 8 F530

Speeds
Pattern Group 2 Selection 1 F532

Pattern Group 2 Selection 2 F533

Pattern Group 2 Selection 3 F534

Pattern Group 2 Selection 4 F535

Pattern Group 2 Selection 5 F536

Pattern Group 2 Selection 6 F537

Pattern Group 2 Selection 7 F538

Pattern Group 2 Selection 8 F539

PASSWORD aND Enter Password N/A

assword and Lock Out
ock Out Change Password Enter New Password N/A
Password
Lock Out Reset From Trip

Local/Remote

Run/Stop from EOI

Lock Outs Frequency Change From EOI N/A

Monitor Screen

Parameter Access

Parameter Write

H9 ASD Installation and Operation Manual 69

System Operation
Initial Setup
Upon initial system power up, the Startup Wizard starts automatically. The Startup Wizard assists the
user with the initial configuration of the input power settings and the output parameters of the H9 ASD.

The Startup Wizard may also be selected and run from the Program menu after the initial startup, if
required.

The Startup Wizard querys the user to select one of the following items:

Run Now?  Continue on to item 1 below.

Run Next Time?  Go to Program Mode.

Manually Configure?  Go to Finish screen and click Finish.

Startup Wizard Parameters

Startup parameter settings may be viewed or changed. Change the parameter setting and click Next. Or
click Next without making any changes to go to the next startup parameter.

See the section titled Startup Wizard Parameter Requirements on pg. 71 for further information on the
Startup Wizard parameters.

Click Finish to close the Startup Wizard when finished.

1. The Voltage and Frequency Rating of the Motor (Must make a selection to continue or click Finish).

2. The Upper-Limit Frequency.

3. The Lower-Limit Frequency.

4. The Automatic Acceleration/Deceleration Setting.

5. The Acceleration Time.

6. The Deceleration Time.

7. The Volts per Hertz Setting.

8. The Motor Current Rating.

9. The Motor RPM.

10. The Command Source.

11. The Frequency Reference Source.

12. The Display Unit.

13. Wizard: Finish.

70 H9 ASD Installation and Operation Manual

 Startup Wizard Parameter Requirements
The Startup Wizard queries the user for information on the I/O signal parameters, control, and the EOI
display settings of the ASD. The ASD may also be setup by directly accessing each of the startup settings
via the Program menu or the associated Direct Access Numbers (see the section titled Direct Access
Parameter Information on pg. 76).
Upon initial system power up, the Startup Wizard starts automatically. It may also be run from the
Program menu after startup, if required. The user is queried to either (1) Run Now, (2) Run Next Time, or
(3) Manually Configure the ASD.
Select Run Now to start the Startup Wizard. The wizard will assist the user with the configuration of the
H9 Adjustable Speed Drive using the user-input screens below starting with the Voltage and Frequency
Rating of the Motor.
Select Run Next Time to return to the Program menu. The system will default to the Startup Wizard on
the next power up.
Select Manually Configure to go to the Finish box. Click Finish to return the system to the Frequency
Command screen.

Voltage and Frequency Rating of the Motor

Motors are designed and manufactured to be operated within a specific voltage and frequency range. The
voltage and frequency specifications for a given motor may be found on the nameplate of the motor.
Highlight and click on the voltage and frequency of the motor being used.

Upper-Limit Frequency
This parameter sets the highest frequency that the ASD will accept as a frequency command or frequency
setpoint. The ASD may output frequencies higher than the Upper-Limit Frequency (but, lower than the
Maximum Frequency) when operating in the PID Control mode, Torque Control mode, or the Vector
Control modes (sensorless or feedback).

Lower-Limit Frequency
This parameter sets the lowest frequency that the ASD will accept as a frequency command or frequency
setpoint. The ASD will output frequencies lower than the Lower-Limit Frequency when accelerating to
the lower-limit or decelerating to a stop. Frequencies below the Lower-Limit may be output when
operating in the PID Control mode, Torque Control mode, or the Vector Control modes (sensorless or
feedback).

Automatic Acceleration/Deceleration
When Automatic ACC/DEC is chosen, the ASD adjusts the acceleration and deceleration rates according
to the applied load. The minimum accel/decel time may be set using F508. The motor and the load must
be connected prior to selecting Automatic Accel/Decel.
Select Manual to allow the settings of F009 and F010 to control the accel/decel, respectively. The
acceleration and deceleration times range from 12.5% to 800% of the programmed values for the active
acceleration time.
Select Automatic ACC Only to allow for the acceleration rate to be controlled automatically only.

Acceleration Time
This parameter specifies the time in seconds for the output of the ASD to go from 0.0 Hz to the Maximum
Frequency for the 1 Acceleration profile. The Accel/Decel Pattern may be set using F502.

H9 ASD Installation and Operation Manual 71

 Deceleration Time
This parameter specifies the time in seconds for the output of the ASD to go from the Maximum
Frequency to 0.0 Hz for the 1 Deceleration profile. The Accel/Decel Pattern may be set using F502.
Volts per Hertz Setting
This function establishes the relationship between the output frequency and the output voltage of the
ASD.
Settings:
Constant Torque
Voltage Decrease Curve
Automatic Torque Boost
Sensorless Vector Control (Speed)
Sensorless Vector Control (Speed/Torque Switching)
V/f 5-point Curve (Go to F190 to configure the V/f 5-Point Settings)
PM Drive (Permanent Magnet)
PG Feedback Vector Control (Speed)
PG Feedback Vector Control (Speed/Torque Switching)

Motor Current Rating

This parameter allows the user to input the full load amperage (FLA) of the motor. This value is found on
the nameplate of the motor and is used by the ASD to determine the Thermal Overload Protection
setting for the motor.

Motor RPM
This parameter is used to input the (nameplated) rated speed of the motor.

Command Source
This selection allows the user to establish the source of the Run commands. Run commands are Run,
Stop, Jog, etc.
Settings:
Use Terminal Block
Use EOI (Keypad)
Use RS485
Use Communication Option Board

72 H9 ASD Installation and Operation Manual

 Frequency Reference Source
This selection allows the user to establish the source of the Frequency command.
Settings:
Use V/I
Use RR
Use RX
EOI (Keypad)
RS485
Communication Option Board
RX2 Option (AI1)
Option V/I
UP/DOWN Frequency
Pulse Input (Option)
Pulse Input (Motor CPU)
Binary/BCD Input (Option)

Display Unit
This parameter sets the unit of measurement for current and voltage values displayed on the EOI.

Wizard: Finish
This is the final screen of the Startup Wizard. The basic parameters of the ASD have been set. Click
Finish to return to the Program mode. Additional application-specific programming may be required.

Operation (Local)
Note: See the section titled EOI Features on pg. 30 for information on Remote operation.

To turn the motor on perform the following:

1. Connect the CC terminal to the ST terminal.
2. Press the Mode key until the Frequency
Frequency Command Screen
Command screen is displayed.
3. Press the Local/Remote key to enter the Local
mode (green Local LED illuminates).
4. Turn the Rotary Encoder clockwise until the
desired Frequency Command value is
displayed in the SET field of the LCD screen.
5. Press the Run key and the motor runs at the
Frequency Command value.

Note: The speed of the motor may be changed while the motor is running by using the
Rotary Encoder to change the Frequency Command value.

6. Press the Stop-Reset key to stop the motor.

H9 ASD Installation and Operation Manual 73

 Default Setting Changes
To change a default parameter setting go to the root level of the Program menu. Turn the Rotary Encoder
until the desired parameter group is within the cursor block. Press the Rotary Encoder to select an item or
to access a subgroup (repeat if required until reaching the parameter to be changed).
Press the Rotary Encoder to enter the Edit mode and the value/setting takes on the reverse video format
(dark background/light text). Turn the Rotary Encoder to change the parameter value/setting.
Press ESC key while the new parameter setting is still in the reverse video mode to exit the menu without
saving the change or press the Rotary Encoder while the parameter setting is in the reverse video mode to
accept the new setting.
For a complete listing of the Program mode menu selections, see the section titled Program Mode Menu
Navigation on pg. 46. Program menu items are listed and mapped for convenience. The Direct Access
Numbers are listed where applicable.
The default settings may also be changed by entering the Parameter Number of the setting to be changed
at the Direct Access menu (Program Direct Access Applicable Parameter Number). A listing of the
Direct Access Numbers and a description of the associated parameter may be found in the section titled
Direct Access Parameter Information on pg. 76.
A listing of all parameters that have been changed from the default setting may be viewed sequentially by
accessing the Changed From Default screen (Program Utilities Changed From Default).
The Changed From Default feature allows the user to quickly access the parameters that are different
from the factory default settings or the post-Reset settings. Once the Changed From Default screen is
displayed, the system scrolls through all of the system parameters automatically and halts once reaching a
changed parameter.
Once stopped at a changed parameter, the Rotary Encoder may be clicked once clockwise to continue
scrolling forward or clicked once counterclockwise to begin scrolling in reverse. With each click of the
Rotary Encoder from a stop, the system scrolls through the parameters and stops at the next parameter
that has been changed.
Press the Rotary Encoder while stopped at a changed parameter to display the settings of the changed
parameter. Press the Rotary Encoder to enter the Edit mode — the parameter value/setting takes on the
reverse video format (dark background/light text).Turn the Rotary Encoder to change the parameter
setting.
Press the ESC key while the setting is in the reverse video format to exit the Edit mode without saving the
change and to resume the Changed From Default search. Or press the Rotary Encoder while the setting
is in the reverse video format to save the change. Press ESC to return to the Changed From Default
search.
Pressing ESC while the system is performing a Changed From Default search terminates the search.
Pressing ESC when finished searching (or halted at a changed parameter) takes the menu back one level.
Note: Communications setting changes will require that the power be removed and then re-
applied for the changes to take affect.
Note: Parameter F201 was changed to create the example shown in Figure 28.
Figure 28. Changed From Default Screen.

74 H9 ASD Installation and Operation Manual

ave User
Save User Settings
ettings A profile of an existing setup may be saved and re-applied when required by using the Save User Setup
feature. This function is carried out via Program Utilities Type Reset Save User Settings
With the initial setup saved, troubleshooting and diagnostics may be performed and the starting setup may
be re-applied when finished via Program Utilities Type Reset Restore User Settings.

Note: EOI settings are not stored or restored using the Save User Settings or Restore User
Settings, respectively (i.e., contrast setting, voltage/current units, display gradient
characteristics, etc.). See the section titled Battery Backup on pg. 28 for more
information on stored EOI settings.

H9 ASD Installation and Operation Manual 75

F000 F001

Direct Access Parameter Information

The H9 ASD has the ability to allow the user direct access to the motor control functions. There are two
ways in which the motor control parameters may be accessed for modification: Program Applicable
Menu Path or Program  Direct Access  Applicable Parameter Number.Both methods access the
parameter via the Program mode. Once accessed, the parameter may be viewed or changed.
The Program mode allows the user to develop an application-specific motor control profile. Motor
control functions may be set to accommodate specific power and timing requirements for a given
application. The configurable parameters of the Program mode that have user-accessible Parameter
Numbers are listed and described below.

Note: Parameter selections are preceded by the number used to select an item if using
communications to write to a parameter location in memory (i.e., F000  0-Manual, 1- No
Trip on Acc/Dec, 2-No trip on Acc Only, etc.).

Note: The setup procedures included within this section may require a Reset before performing the
procedure. Application-specific settings may then be performed. The pre-Reset conditions
may be saved (see F007).

Note: Communications setting changes will require that the power be removed and then re-applied
for the changes to take affect.

Direct Access Parameters/Numbers

Automatic Acceleration/Deceleration Direct Access Number — F000
Program  Fundamental Accel/Decel 1 Settings Parameter Type — Selection List
Factory Default — Manual
This parameter is used to enable acceleration and deceleration rates in
accordance with the applied load automatically. Changeable During Run — No

The adjusted acceleration and deceleration times range from 12.5% to 800% of
the programmed values for Acceleration Time 1 (F009) and Deceleration
Time 1 (F010).

Settings:
0 — Manual
1 — Automatic ACC/DEC
2 — Automatic ACC Only

Note: The motor and the load must be connected prior to selecting
Automatic Acceleration/Deceleration.
Automatic Torque Boost Direct Access Number — F001
Program  Fundamental Motor Set 1 Parameter Type — Selection List
Factory Default — Disabled
This parameter allows the ASD to adjust the output torque in accordance with
the applied load automatically. When enabled Autotuning is performed — the Changeable During Run — No
motor should be connected before performing an Autotune.

Settings:
0 — Disabled
1 — Automatic Torque Boost + Autotuning
2 — Sensorless Vector Control + Autotuning

76 H9 ASD Installation and Operation Manual

F003 F004

Command Mode Selection Direct Access Number — F003

Program Fundamental Standard Mode Selection Parameter Type — Selection List
Factory Default — Terminal Block
The Command Mode Selection establishes the source of the command input
for the ASD. Command inputs include Run, Stop, Forward, etc. The Override Changeable During Run — No
feature may supersede the Command Mode Selection setting (see Command
Mode and Frequency Mode Control on pg. 36).

Settings:
0 — Terminal Block
1 — Not Used
2 — EOI (Keypad)
3 — RS485
4 — Communication Option Board
Frequency Mode 1 Direct Access Number — F004
Program Fundamental Standard Mode Selection Parameter Type — Selection List
Factory Default — RR
The Frequency Mode 1 setting establishes the source of the frequency-control
input for the ASD. The Frequency Mode 2 setting or the Override feature may Changeable During Run — No
supersede the Frequency Mode 1 setting.

Note: Only Bolded items from the Settings list below may be placed in
the Override Mode. See the section titled Command Mode and
Frequency Mode Control on pg. 36 for more information on the
Override feature.

Settings:
1 — V/I
2 — RR
3 — RX
5 — EOI (Keypad)
6 — RS485
7 — Communication Option Board
8 — RX2 Option (AI1)
9 — Option V/I
10 — UP/DOWN Frequency
11 — Pulse Input (Option)
12 — Pulse Input (Motor CPU)
13 — Binary/BCD Input (Option)

H9 ASD Installation and Operation Manual 77

 F005 F006

M FM Output Terminal Function Direct Access Number — F005

Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Output Frequency
This parameter is used to set the output function of the FM analog output
Changeable During Run — Yes
terminal. The FM output terminal produces an output current or voltage that is
proportional to the magnitude of the function assigned to this terminal (select
current or voltage at F681). The available assignments for this output terminal
are listed in Table 6 on pg. 237.

Note: To read voltage at this terminal connect a 100 – 500 resistor from
the FM (+) terminal to the CC (-) terminal. Using a voltmeter read
the voltage across the 100 – 500 resistor.

To read current at this terminal connect a 100 – 500 resistor from

the FM (+) terminal through a series Ammeter to the CC (-) terminal.

The FM analog output has a maximum resolution of 1/1024 and a

maximum load rating of 500 ohms.

FM Terminal Setup Parameters

F005 — Set FM Function
F006 — Calibrate FM Terminal
F681 — Voltage/Current Output Switching Selection
F682 — Output Response Polarity Selection
F683 — Set Zero Level
FM Output Terminal Adjustment Direct Access Number — F006
Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 493
This parameter is used to calibrate the FM analog output.
Changeable During Run — Yes
To calibrate the FM analog output, connect a meter (current or voltage) as
Minimum — 1
described at F005.
Maximum — 1280
With the drive running at a known value (e.g., output frequency), adjust this
parameter until the assigned function produces the desired DC level output at
the FM output terminal.
See F005 for more information on this setting.

78 H9 ASD Installation and Operation Manual

 F007 F008

Reset Type Reset Direct Access Number — F007

Program Utilities Parameter Type — Selection List
Factory Default — None
This feature assists the user when performing fault analysis or by allowing a
Changeable During Run — No
quick system setup change when required. Performing a Type Reset results in
one of the following user-selected post-Reset configurations.

Settings:
0 — None
1 — 50 Hz Setting
2 — 60 Hz Setting
3 — Reset to Factory Settings
4 — Clear Past Trips
5 — Clear Run Timer
6 — Initialize Typeform
7 — *Save User Settings
8 — Restore User Settings
9 — Clear Cumulative Fan Timer
10 — Accel/Decel Time Setting 0.01 – 600.0 Seconds
11 — Accel/Decel Time Setting 0.1 – 6000.0 Seconds
12 — Update EOI Firmware
13 — Set EOI Memory to Default
14 — Save User Settings to EOI
15 — Restore User Settings from EOI

Note: User settings that are stored in the memory of the EOI are not
saved via the Save User Settings selection. The unsaved
functions include the EOI Option Setups, (Utilities 
Display Parameters, and (Monitor Setup ) Scrolling
Monitor Select.
Forward/Reverse Run Selection Direct Access Number — F008
Program Fundamental Standard Mode Selection Parameter Type — Selection List
Factory Default — Forward
While operating in the Local mode, this parameter sets the direction of motor
rotation. Changeable During Run — Yes

From the Frequency Command screen press the ESC key. At the subsequent
EOI Command screen select the Direction field and change the setting. Press
the Rotary Encoder and the new setting will be in effect.

This setting will not override parameter F311 (Forward/Reverse Disable).

If either direction is disabled via parameter F311, the disabled direction will not
be recognized if commanded by the EOI. If both directions are disabled via
parameter F311, the direction command from the EOI will determine the
direction of the motor rotation.

Settings:
0 — Forward
1 — Reverse
2 — Forward (EOI-Switchable F/R)
3 — Reverse (EOI-Switchable F/R)

H9 ASD Installation and Operation Manual 79

F009 F011

Acceleration Time 1 Direct Access Number — F009

Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from 0.0 Hz to the Maximum Frequency for the 1 Acceleration profile. The
Accel/Decel pattern may be set using F502. The minimum Accel/Decel time Minimum — 0.1
may be set using F508. Maximum — 6000
Note: An acceleration time shorter than that which the load will allow Units — Seconds
may cause nuisance tripping and mechanical stress to loads.
Automatic Accel/Decel, Stall, and Ridethrough settings may
lengthen the acceleration times.
Acceleration
The acceleration rate of a motor is determined by several factors: applied
power, applied load, and the physical properties of the motor (winding
parameters, motor size, etc.). The ASD will control the first of these factors:
input power. The settings of the ASD will control the frequency and amplitude
of the applied voltage to the motor.
Under most operating conditions, as the output frequency of the drive goes up
so does the output voltage (linear acceleration). The ASD has the ability to
modify the relationship between frequency and voltage automatically to
produce smoother operation or increased (starting) torque (see F502).
Deceleration Time 1 Direct Access Number — F010
Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from the Maximum Frequency to 0.0 Hz for the 1 Deceleration profile. The
Accel/Decel pattern may be set using F502. Minimum — 0.1
Maximum — 6000
When operating with the Automatic Accel/Decel enabled (F000) the minimum
accel/decel time may be set using F508. Units — Seconds
Note: A deceleration time shorter than the load will allow may cause
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
deceleration times.
Maximum Frequency Direct Access Number — F011
Program Fundamental Frequency Settings Parameter Type — Numerical
Factory Default — 80.0
This setting determines the absolute maximum frequency that the ASD can
output. Changeable During Run — No

Accel/Decel times are calculated based on the Maximum Frequency setting. Minimum — 30.0

The Maximum Frequency is not limited by this setting while operating in the Maximum — 299.0
Drooping Control mode (see F320 for more information on this setting). Units — Hz

Note: This setting may not be lower than the Upper-Limit Frequency
(F012) setting.

80 H9 ASD Installation and Operation Manual

F012 F015

Upper-Limit Frequency Direct Access Number — F012

Program Fundamental Frequency Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter sets the highest frequency that the ASD will accept as a
Changeable During Run — Yes
frequency command or frequency setpoint. The ASD may output frequencies
higher than the Upper-Limit Frequency (but, lower than the Maximum Minimum — 0.0
Frequency) when operating in the PID Control mode, Torque Control mode, Maximum — Max. Freq. (F011)
or the Vector Control modes (sensorless or feedback).
Units — Hz
Note: This setting may not be higher than the Maximum Frequency
(F011) setting.
Lower-Limit Frequency Direct Access Number — F013
Program Fundamental Frequency Settings Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the lowest frequency that the ASD will accept as a
Changeable During Run — Yes
frequency command or frequency setpoint. The ASD will output frequencies
lower than the Lower-Limit Frequency when accelerating to the lower-limit or Minimum — 0.00
decelerating to a stop. Frequencies below the Lower-Limit may also be output Maximum — Upper-Limit (F012)
when operating in the PID Control mode, Torque Control mode, or the
Vector Control modes (sensorless or feedback). Units — Hz

Base Frequency 1 Direct Access Number — F014

Program Fundamental Motor Set 1 Parameter Type — Numerical
Factory Default — 60.0
The Base Frequency 1 setting is the frequency at which the output voltage of
Changeable During Run — Yes
the ASD reaches its maximum setting. The Base Frequency Voltage 1
parameter is set at F409. Minimum — 0.0
For proper motor operation, the Base Frequency should be set for the Maximum — Upper-Limit (F012)
nameplated frequency of the motor. Units — Hz
V/f Pattern Direct Access Number — F015
Program Fundamental Frequency Settings Parameter Type — Selection List
Factory Default — Constant Torque
This function establishes the relationship between the output frequency and the
Changeable During Run — No
output voltage.

Bolded selections use the motor tuning parameters of the drive to properly
configure the ASD for the motor being used. If Load Reactors or Long Lead
Filters are used, or if the capacity of the ASD is greater than the motor, manual
tuning of the motor parameters may be required for optimum performance.

Settings:
0 — Constant Torque
1 — Voltage Decrease Curve
2 — Automatic Torque Boost
3 — Sensorless Vector Control (Speed)
4 — Sensorless Vector Control (Speed/Torque Switching)
5 — V/f 5-point Curve (Go to F190 to configure the V/f 5-Point Settings)
6 — PM Drive (Permanent Magnet)
7 — PG Feedback Vector Control (Speed)
8 — PG Feedback Vector Control (Speed/Torque Switching)

Note: When operating in the Vector Control mode the carrier

frequency should be set to 2.2 kHz or above.

H9 ASD Installation and Operation Manual 81

F016 F017

Manual Torque Boost 1 Direct Access Number — F016

Program Fundamental Motor Set 1 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Manual Torque Boost 1 function is used to increase the low frequency
Changeable During Run — Yes
torque for high-inertia loads by increasing the output voltage at frequencies
below ½ of the Base Frequency 1 (F014) setting. Minimum — 0.0
The value programmed as a boost percentage establishes an output voltage vs. Maximum — 30.0
output frequency relationship to be used to start the motor or to provide Units — %
smoother operation.

Note: Setting an excessive Torque Boost level may cause nuisance

tripping and mechanical stress to loads.
Motor Overload Protection Configuration Direct Access Number — F017
Program Protection Overload Parameter Type — Selection List
Factory Default — O/L Trip No Stall
This parameter is used to protect the motor from an over-current condition. The
Changeable During Run — Yes
type of motor being used and the Overload Stall setting is selected here to
better match the application.
This parameter setting may extend the Over-Voltage Stall time settings.
This parameter may be affected by the setting of the Power Running Stall
Continuous Trip Detection Time (F452).

Settings:
0 — Overload Trip without Stall
1 — Overload Trip with Stall
2 — No Overload without Stall
3 — Stall Only
4 — V/f Motor-Overload without Stall
5 — V/f Motor-Overload with Stall
6 — V/f Motor-No Overload without Stall
7 — V/f Motor-Stall Only

82 H9 ASD Installation and Operation Manual

 F018 F019

eset Speed 1 Preset Speed 1 Direct Access Number — F018

Program Frequency Preset Speeds Parameter Type — Numerical
Up to fifteen (15) output frequency values that fall within the Lower-Limit and Factory Default — 0.0
the Upper-Limit range may be programmed into the drive and output as a Changeable During Run — Yes
Preset Speed. This parameter assigns an output frequency to binary number
Minimum — Lower-Limit (F013)
0001 and is identified as Preset Speed 1. The binary number is applied to S1 –
S4 of the Terminal Board to output the Preset Speed. Maximum — Upper-Limit (F012)
Units — Hz
Perform the following setup to allow the system to receive Preset Speed
control input at the S1 – S4 terminals:
1. Program Fundamental Standard Mode Selection Command Mode Preset Speed Truth Table
Selection Terminal Block. S4 S1
Preset S3 S2 Output
2. Program Terminal Input Terminals S1 (set to Preset Speed 1; MSB LSB
LSB of 4-bit count). Repeat for S2 – S4 (MSB of 4-bit count) as Preset 1 0 0 0 1 F018
Speed 2 – 4, respectively (all Normally Open).
2 0 0 1 0 F019
3. Program Frequency Preset Speeds Preset Speed1 (set an output
frequency as Preset Speed 1; repeat for Preset Speeds 2 – 15 as required). 3 0 0 1 1 F020

4. Program Pattern Run Operation Mode Preset Speed Operation 4 0 1 0 0 F021

Mode Enabled/Disabled. 5 0 1 0 1 F022
Select Enabled to use the direction, accel/decel, and torque settings of the 6 0 1 1 0 F023
Preset Speed being run. The torque settings used will be as defined in F170
7 0 1 1 1 F024
– F181 and as selected via the associated discrete input terminals V/f
Switching 1 and 2 in Table 5 on pg. 234. 8 1 0 0 0 F287
Select Disabled to use the speed setting only of the Preset Speed being run. 9 1 0 0 1 F288
5. Place the system in the Remote mode (Local/Remote LED Off). 10 1 0 1 0 F289
6. Provide a Run command (connect F and/or R to CC). 11 1 0 1 1 F290

Connect S1 to CC to run Preset Speed 1 (S1 to CC = 0001 binary). 12 1 1 0 0 F291

With S1 – S4 configured to output Preset Speeds (F115 – F118), 0001 – 1111 13 1 1 0 1 F292
may be applied to S1 – S4 of the Terminal Board to run the associated Preset
14 1 1 1 0 F293
Speed. If bidirectional operation is required, F and R must be connected to CC,
and Preset Speed Operation Mode must be set to Enabled at F560. 15 1 1 1 1 F294
With S1 being the least significant bit of a binary count, the S1 – S4 settings Note: 1 = Terminal connected to CC.
will produce the programmed speed settings as indicated in the Preset Speed
Truth Table to the right.
Preset Speeds are also used in the Pattern Run mode.

eset Speed 2 Preset Speed 2 Direct Access Number — F019

Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 0010 and is
Changeable During Run — Yes
identified as Preset Speed 2. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz

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 F020 F024

eset Speed 3 Preset Speed 3 Direct Access Number — F020

Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 0011 and is
Changeable During Run — Yes
identified as Preset Speed 3. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
eset Speed 4 Preset Speed 4 Direct Access Number — F021
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 0100 and is
Changeable During Run — Yes
identified as Preset Speed 4. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 5 Direct Access Number — F022
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 0101 and is
Changeable During Run — Yes
identified as Preset Speed 5. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 6 Direct Access Number — F023
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 0110 and is
Changeable During Run — Yes
identified as Preset Speed 6. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 7 Direct Access Number — F024
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 0111 and is
Changeable During Run — Yes
identified as Preset Speed 7. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz

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F040 F040

Automatic Function Selection Direct Access Number — F040

Program Utilities Display Parameters Parameter Type — Selection List
Factory Default — Disabled
This parameter setting is used to configure multiple parameters with the setting
Changeable During Run — No
of only one parameter. From the selection below multiple parameters may be
set as indicated in the table.

Once set, the selected configuration is placed in effect and remains in effect
until this parameter is changed or the individual settings are changed.

Set this parameter to Disable to set these parameters individually.

Note: After performing the desired selection the EOI display returns to
Disabled though the selected function has been carried out (i.e.,
without this, if selection 1 is performed, F004 and F207 would
hold the RR terminal setting regardless of attempts to change the
settings individually).

Settings:
0 — Disabled
1 — RR
2 — V/I
3 — RR or V/II (V/I) Switched via Terminal Board
4 — EOI Frequency/Terminal Board Command
5 — EOI = Frequency and Command

User Settings

Related Default 3-RR or V/I 4-EOI/Freq. 5-EOI Freq/

0-Disable 1-RR 2-V/I
Parameters Settings via TB CMD/TB CMD

Command
Terminal Terminal
Mode N/C EOI
Board Board
F003

Frequency
Mode 1 RR N/C RR N/C RR EOI
F004

S3 Terminal Preset Freq. Ref.

N/C N/C
F117 Speed 3 Priority

Frequency
Terminal
Priority N/C Terminal Board
Board
F200

V/I Setup
0.0% N/C 20.0% N/C
F201

Frequency
Mode 2 V/I N/C RR V/I EOI
F207

N/C = No Change — the setting remains as it was before setting parameter F040.

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 F100 F105

ow Speed Low-Speed Signal Output Frequency Direct Access Number — F100

Program Terminal Reach Settings Parameter Type — Numerical
Factory Default — 0.00
The Low-Speed Signal Output Frequency parameter sets a frequency
Changeable During Run — Yes
threshold that activates the assigned output terminal for the duration that the
ASD output is equal to or above this setting (see Table 8 on pg. 239 for the Minimum — 0.00
available output assignments). Maximum — Max. Freq. (F011)
Units — Hz
each Speed Reach Frequency Direct Access Number — F101
requency Parameter Type — Numerical
Program Terminal Reach Settings
Factory Default — 0.00
The Speed Reach Frequency sets a frequency threshold that, when reached or
Changeable During Run — Yes
is within the bandwidth specified by parameter F102, activates the assigned
output terminal for the duration that the ASD output is within the bandwidth Minimum — 0.00
specified (see Table 8 on pg. 239 for the available output assignments). Maximum — Max. Freq. (F011)
Units — Hz
Speed Reach Detection Band Direct Access Number — F102
Program Terminal  Reach Settings Parameter Type — Numerical
Factory Default — 2.50
This parameter sets the bandwidth of the Speed Reach Frequency (F101)
Changeable During Run — Yes
setting.
Minimum — 0.00
Maximum — Max. Freq. (F011)
Units — Hz
Forward/Reverse Run Priority Selection Direct Access Number — F105
Program Terminal Input Special Functions Parameter Type — Selection List
Factory Default — Suspend
The Forward/Reverse Priority Selection determines the operation of the ASD
Changeable During Run — No
if the F and R control terminals are activated simultaneously.
Simultaneous F and R activation.
Settings:
0 — Reverse
1 — Suspend

The waveforms shown depict the motor response for all combinations of the F
and R terminal settings if the Reverse option is chosen.
The Suspend setting will decelerate the motor to a stop regardless of the
rotation direction when both the F and R control terminals are activated.

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F106 F107

Input Terminal Priority Direct Access Number — F106

Program Terminal Input Special Functions Parameter Type — Selection List
Factory Default — Disabled
This parameter is used to allow the Jog and DC Injection Braking input
Changeable During Run — No
signals to control the ASD when received via the Terminal Board even though
the system is in the Local mode.
With this parameter enabled, a Jog command or a DC Injection Braking
command received from the Terminal Board will receive priority over
commands from the EOI.
See F260 for more information on using the Jog function.
See F250 – F252 for more information on DC Injection Braking.

Settings:
0 — Disabled
1 — Enabled
16-Bit Binary/BCD Input Direct Access Number — F107
Program Terminal Input Special Functions Parameter Type — Selection List
Factory Default — None
The extended terminal function is used with the Expansion IO Card Option
(P/N ETB004Z). Changeable During Run — No

This parameter defines the format of the binary or BCD data when using the
option card.

Note: The Expansion IO Card Option 2 option board is required to

use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.

Settings:
0 — None
1 — 12-Bit Binary
2 — 16-Bit Binary
3 — 3-Digit BCD
4 — 4-Digit BCD
5 — Inverted 12-Bit Binary
6 — Inverted 16-Bit Binary
7 — Inverted 3-Digit BCD
8 — Inverted 4-Digit BCD

Selections using 16-bit binary or 4-digit BCD will require the configuration of
terminals S1-S4 on the Terminal Board as binary bits 0 – 3 (F115 – F118). The
Frequency Mode 1 (F004) parameter must be set to Binary/BCD.
For proper scaling of the binary or BCD input, parameters F228 – F231 must be
configured.

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 F109 F113

Option V/I Terminal Voltage/Current Selection Direct Access Number — F109

Program Frequency V/I Settings Parameter Type — Selection List
Factory Default — Voltage Input
This parameter is used to set the AI2 input terminal to receive either current or
Changeable During Run — No
voltage as a control signal.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.

Settings:
0 — Voltage Input
1 — Current Input
Always ON Terminal 1 Direct Access Number — F110
Program Terminal Input Terminals ON Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the virtual discrete input
Changeable During Run — No
terminal ON. As a virtual terminal, the ON control terminal exists only in
memory and is considered to always be in its True (connected to CC) state.
It is often practical to assign a function to this terminal that the user desires to
be maintained regardless of external conditions or operations.
This parameter sets the programmable ON terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.
Input Terminal 1 (F) Function Direct Access Number — F111
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default—Forward Forward
This parameter is used to set the functionality of the F discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable F terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.
Input Terminal 2 (R) Function Direct Access Number — F112
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Reverse Reverse
This parameter is used to set the functionality of the R discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable R terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.
andby Input Terminal 3 (ST) Function Direct Access Number — F113
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Standby
This parameter is used to set the functionality of the ST (Standby) discrete
Changeable During Run — No
input terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable ST terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.

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F114 F118

Input Terminal 4 (RES) Function Direct Access Number — F114

Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Reset Reset
This parameter is used to set the functionality of the RES discrete input
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable RES terminal to one of the user-
selectable functions listed in Table 5 on pg. 234.
Input Terminal 5 (S1) Function Direct Access Number — F115
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Preset Speed 1
This parameter is used to set the functionality of the S1 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable S1 terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.
Input Terminal 6 (S2) Function Direct Access Number — F116
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Preset Speed 2
This parameter is used to set the functionality of the S2 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable S2 terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.
Input Terminal 7 (S3) Function Direct Access Number — F117
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Preset Speed 3
This parameter is used to set the functionality of the S3 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable S3 terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.
Input Terminal 8 (S4) Function Direct Access Number — F118
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Preset Speed 4
This parameter is used to set the functionality of the S4 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This parameter sets the programmable S4 terminal to one of the user-selectable
functions listed in Table 5 on pg. 234.

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F119 F121

Input Terminal 9 (LI1) Function Direct Access Number — F119

Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI1 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI1 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.
Input Terminal 10 (LI2) Function Direct Access Number — F120
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI2 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI2 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.
Input Terminal 11 (LI3) Function Direct Access Number — F121
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI3 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI3 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.

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F122 F124

Input Terminal 12 (LI4) Function Direct Access Number — F122

Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI4 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI4 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.
Input Terminal 13 (LI5) Function Direct Access Number — F123
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI5 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI5 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.
Input Terminal 14 (LI6) Function Direct Access Number — F124
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI6 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI6 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.

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 F125 F131

Input Terminal 15 (LI7) Function Direct Access Number — F125

Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI7 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI7 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.
Input Terminal 16 (LI8) Function Direct Access Number — F126
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the LI8 discrete input terminal.
Changeable During Run — No
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable LI8 terminal to one of
the user-selectable functions listed in Table 5 on pg. 234.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.
UT1 Output Terminal 1 (OUT1) Function Direct Access Number — F130
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Low-Speed Signal
This parameter is used to set the functionality of the OUT1 discrete output
Changeable During Run — No
terminals O1A and O1B.

The O1A and O1B (OUT1) output terminals change states (open or close) as a
function of a user-selected event. See Table 8 on pg. 239 for listing the possible
assignments for the OUT1 terminals.
In addition, the output terminals must be specified as Normally Open or
Normally Closed.
UT2 Output Terminal 2 (OUT2) Function Direct Access Number — F131
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — RCH (Acc/Dec
This parameter is used to set the functionality of the OUT2 discrete output Complete)
terminals O2A and O2B.
Changeable During Run — No
The O2A and O2B (OUT2) output terminals change states (open or close) as a
function of a user-selected event. See Table 8 on pg. 239 for listing the possible
assignments for the OUT2 terminals.
In addition, the output terminals must be specified as Normally Open or
Normally Closed.

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F132 F134

Output Terminal 3 (FL) Function Direct Access Number — F132

Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Fault (All)
This parameter is used to set the functionality of the FL output terminals to one
Changeable During Run — No
of the user-selectable functions listed in Table 8 on pg. 239.
In addition, the output terminals must be specified as Normally Open or
Normally Closed.

Output Terminal 4 (OUT3) Function Direct Access Number — F133

Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Always OFF
This parameter is used to set the functionality of the OUT3 discrete output
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable OUT3 terminal to one of
the user-selectable functions listed in Table 8 on pg. 239.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.
Output Terminal 5 (OUT4) Function Direct Access Number — F134
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Always OFF
This parameter is used to set the functionality of the OUT4 discrete output
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable OUT4 terminal to one of
the user-selectable functions listed in Table 8 on pg. 239.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.

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F135 F137

Output Terminal 6 (R1) Function Direct Access Number — F135

Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Always OFF
This parameter is used to set the functionality of the R1 discrete output
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable R1 terminal to one of the
user-selectable functions listed in Table 8 on pg. 239.

Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)

is required to use this terminal.

See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.
Output Terminal 7 (OUT5) Function Direct Access Number — F136
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Always Off
This parameter is used to set the functionality of the OUT5 discrete output
Changeable During Run — No
terminal.
In addition, this output terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable OUT5 terminal to one of
the user-selectable functions listed in Table 8 on pg. 239.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.
Output Terminal 8 (OUT6) Function Direct Access Number — F137
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Always Off
This parameter is used to set the functionality of the OUT6 discrete output
Changeable During Run — No
terminal.
In addition, this output terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable OUT6 terminal to one of
the user-selectable functions listed in Table 8 on pg. 239.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.

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F138 F142

Output Terminal 9 (R2) Function Direct Access Number — F138

Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — Always Off
This parameter is used to set the functionality of the R2 discrete output
Changeable During Run — No
terminal.
In addition, this output terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable R2 terminal to one of the
user-selectable functions listed in Table 8 on pg. 239.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.
Input Terminal 1 (F) Response Time Direct Access Number — F140
Program Terminal Input Terminal Delays Parameter Type — Numerical
Factory Default — 8.0
This parameter delays the response of the ASD to any change in the F terminal
Changeable During Run — No
input by the programmed value.
Minimum — 2.0
Maximum — 200.0
Units — mS

The delay may be increased to provide additional electrical noise immunity or

to prevent the ASD from responding to contact bounce or chatter.
Input Terminal 2 (R) Response Time Direct Access Number — F141
Program Terminal Input Terminal Delays Parameter Type — Numerical
Factory Default — 8.0
This parameter delays the response of the drive to any change in the R terminal
Changeable During Run — No
input by the programmed value (see waveforms at F140).
Minimum — 2.0
The delay may be increased to provide additional electrical noise immunity or
to prevent the ASD from responding to contact bounce or chatter. Maximum — 200.0
Units — mS
Input Terminal 3 (ST) Response Time Direct Access Number — F142
Program Terminal Input Terminal Delays Parameter Type — Numerical
Factory Default — 8.0
This parameter delays the response of the drive to any change in the ST
Changeable During Run — No
terminal input by the programmed value (see waveforms at F140).
Minimum — 2.0
The delay may be increased to provide additional electrical noise immunity or
to prevent the ASD from responding to contact bounce or chatter. Maximum — 200.0
Units — mS

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F143 F165

Input Terminal 4 (RES) Response Time Direct Access Number — F143

Program Terminal Input Terminal Delays Parameter Type — Numerical
Factory Default — 8.0
This parameter delays the response of the drive to any change in the RES
Changeable During Run — No
terminal input by the programmed value (see waveforms at F140).
Minimum — 2.0
The delay may be increased to provide additional electrical noise immunity or
to prevent the ASD from responding to contact bounce or chatter. Maximum — 200.0
Units — mS
Input Terminal 5 – 12 Response Time Direct Access Number — F144
Program Terminal Input Terminal Delays Parameter Type — Numerical
Factory Default — 8.0
This parameter delays the response of the drive to any change in the 5 – 12
Changeable During Run — No
terminal inputs by the programmed value (see waveforms at F140).
Minimum — 2.0
The delay may be increased to provide additional electrical noise immunity or
to prevent the ASD from responding to contact bounce or chatter. Maximum — 200.0
Units — mS
Input Terminal 13 – 20 Response Time Direct Access Number — F145
Program Terminal Input Terminal Delays Parameter Type — Numerical
Factory Default — 8.0
This parameter delays the response of the drive to any change in the 13 – 20
Changeable During Run — No
terminal inputs by the programmed value (see waveforms at F140).
Minimum — 2.0
The delay may be increased to provide additional electrical noise immunity or
to prevent the ASD from responding to contact bounce or chatter. Maximum — 200.0
Units — mS
Input Terminal 17 (B12) Function Direct Access Number — F164
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the B12 discrete input
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the functionality of the programmable B12 terminal to any
one of the user-selectable functions listed in Table 5 on pg. 234.
See the My Function Instruction Manual (P/N E6581335) for more
information on the function of this terminal.
Input Terminal 18 (B13) Function Direct Access Number — F165
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the B13 discrete input
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable B13 terminal to any one
of the user-selectable functions listed in Table 5 on pg. 234.
See the My Function Instruction Manual (P/N E6581335) for more
information on the function of this terminal.

96 H9 ASD Installation and Operation Manual

F166 F169

Input Terminal 19 (B14) Function Direct Access Number — F166

Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the B14 discrete input
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable B14 terminal to any one
of the user-selectable functions listed in Table 5 on pg. 234.
See the My Function Instruction Manual (P/N E6581335) for more
information on the function of this terminal.
Input Terminal 20 (B15) Function Direct Access Number — F167
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the B15 discrete input
Changeable During Run — No
terminal.
In addition, this input terminal must be specified as Normally Open or
Normally Closed.
This setting assigns the function of the programmable B15 terminal to any one
of the user-selectable functions listed in Table 5 on pg. 234.
See the My Function Instruction Manual (P/N E6581335) for more
information on the function of this terminal.
Output Terminal 10 (R3) Function Direct Access Number — F168
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — OFF
This parameter sets the functionality of the R3 output terminal to any one of the
Changeable During Run — No
user-selectable functions listed in Table 8 on pg. 239.
In addition, the output terminals must be specified as Normally Open or
Normally Closed.
See the instruction manual for the 16-Bit BIN/BCD option for more
information on the function of this terminal.
Output Terminal 11 (R4) Function Direct Access Number — F169
Program Terminal Output Terminals Parameter Type — Selection List
Factory Default — OFF
This parameter sets the functionality of the R4 output terminal to any one of the
Changeable During Run — No
user-selectable functions listed in Table 8 on pg. 239.
In addition, the output terminals must be specified as Normally Open or
Normally Closed.
See the instruction manual for the 16-Bit BIN/BCD option for more
information on the function of this terminal.

H9 ASD Installation and Operation Manual 97

F170 F173

Base Frequency 2 Direct Access Number — F170

Program Motor Motor Set 2 Parameter Type — Numerical
Factory Default — 60.0
The Base Frequency 2 setting is the frequency at which the output voltage of
Changeable During Run — Yes
the ASD reaches its maximum setting. The Base Frequency Voltage 2
parameter is set at F171. Minimum — 25.0
This parameter is used only when the parameters for Motor Set 2 are Maximum — 299.0
configured and selected. Motor Set 2 may be selected by a properly configured Units — Hz
input terminal (see Table 5 on pg. 234).
For proper motor operation, the Base Frequency should be set for the
nameplated frequency of the motor.
Base Frequency Voltage 2 Direct Access Number — F171
Program Motor Motor Set 2 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Base Frequency Voltage 2 setting is the Motor 2 output voltage at the
Changeable During Run — Yes
Base Frequency (F170). Regardless of the programmed value, the output
voltage cannot be higher than the input voltage. Minimum — 50.0
The actual output voltage will be influenced by the input voltage of the ASD Maximum — 660.0
and the Supply Voltage Compensation setting (F307). Units — Volts
This parameter is used only when the parameters for Motor Set 2 are
configured and selected. Motor Set 2 may be selected by a properly configured
input terminal (see Table 5 on pg. 234).
Manual Torque Boost 2 Direct Access Number — F172
Program Motor  Motor Set 2 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Manual Torque Boost 2 function is used to increase the low frequency
Changeable During Run — Yes
torque for high inertia loads by increasing the output voltage at frequencies
below ½ of the Base Frequency 2 setting (F170). Minimum — 0.0
See parameter F016 (Manual Torque Boost 1) for an explanation of torque Maximum — 30.0
boost. Units — %
This parameter is used only when the parameters for Motor Set 2 are
configured and selected. Motor Set 2 may be selected by a properly configured
input terminal (see Table 5 on pg. 234).
Motor Overload Protection Level 2 Direct Access Number — F173
Program Motor Motor Set 2 Parameter Type — Numerical
Factory Default — 100
The Motor 2 Overload Protection Level parameter specifies the motor
Changeable During Run — Yes
overload current level for Motor Set 2. This value is entered as either a
percentage of the full load rating of the ASD or as the FLA of the motor. Minimum — 10
The unit of measurement for this parameter may be set to Amps (A/V) or it Maximum — 100
may be set as a percentage of the ASD rating. The nameplated FLA of the Units — %
motor may be entered directly when Amps is selected as the unit of
measurement (see F701 to change the display unit).
The Motor 2 Overload Protection Level setting will be displayed in Amps if
the EOI display units are set to A/V rather than %.

98 H9 ASD Installation and Operation Manual

F174 F177

Base Frequency 3 Direct Access Number — F174

Program Motor Motor Set 3 Parameter Type — Numerical
Factory Default — 60.0
The Base Frequency 3 setting is the frequency at which the output voltage of
the ASD reaches its maximum setting. The Base Frequency Voltage 3 Changeable During Run — Yes
parameter is set at F175. Minimum — 25.0
This parameter is used only when the parameters for Motor Set 3 are Maximum — 299.0
configured and selected. Motor Set 3 may be selected by a properly configured Units — Hz
input terminal (see Table 5 on pg. 234).
For proper motor operation, the Base Frequency should be set for the
nameplated frequency of the motor.
Base Frequency Voltage 3 Direct Access Number — F175
Program Motor  Motor Set 3 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Base Frequency Voltage 3 setting is the Motor 3 output voltage at the
Changeable During Run — Yes
Base Frequency (F174). Regardless of the programmed value, the output
voltage cannot be higher than the input voltage. Minimum — 50.0
The actual output voltage will be influenced by the input voltage of the ASD Maximum — 660.0
and the Supply Voltage Compensation setting (F307). Units — Volts
This parameter is used only when the parameters for Motor Set 3 are
configured and selected. Motor Set 3 may be selected by a properly configured
input terminal (see Table 5 on pg. 234).
Manual Torque Boost 3 Direct Access Number — F176
Program Motor Motor Set 3 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Manual Torque Boost 3 function is used to increase the low frequency
Changeable During Run — Yes
torque for high inertia loads by increasing the output voltage at frequencies
below ½ of the Base Frequency 3 setting (F174). Minimum — 0.0
See parameter F016 (Manual Torque Boost 1) for an explanation of torque Maximum — 30.0
boost. Units — %
This parameter is used only when the parameters for Motor Set 3 are
configured and selected. Motor Set 3 may be selected by a properly configured
input terminal (see Table 5 on pg. 234).
Motor Overload Protection Level 3 Direct Access Number — F177
Program Motor Motor Set 3 Parameter Type — Numerical
Factory Default — 100.0
The Motor 3 Overload Protection Level parameter specifies the motor
Changeable During Run — Yes
overload current level for Motor Set 3. This value is entered as either a
percentage of the full load rating of the ASD or as the FLA of the motor. Minimum — 10
The unit of measurement for this parameter may be set to Amps (A/V) or it Maximum — 100
may be set as a percentage of the ASD rating. The nameplated FLA of the Units — %
motor may be entered directly when Amps is selected as the unit of
measurement (see F701 to change the display unit).
The Motor 3 Overload Protection Level setting will be displayed in Amps if
the EOI display units are set to A/V rather than %.

H9 ASD Installation and Operation Manual 99

F178 F181

Base Frequency 4 Direct Access Number — F178

Program Motor Motor Set 4 Parameter Type — Numerical
Factory Default — 60.0
The Base Frequency 4 setting is the frequency at which the output voltage of
Changeable During Run — Yes
the ASD reaches its maximum setting. The Base Frequency Voltage 4
parameter is set at F179. Minimum — 25.00
This parameter is used only when the parameters for Motor Set 4 are Maximum — 299.0
configured and selected. Motor Set 4 may be selected by a properly configured Units — Hz
input terminal (see Table 5 on pg. 234).
For proper motor operation, the Base Frequency should be set for the
nameplated frequency of the motor.
Base Frequency Voltage 4 Direct Access Number — F179
Program Motor Motor Set 4 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Base Frequency Voltage 4 is the Motor 4 output voltage at the Base
Changeable During Run — Yes
Frequency (F178). Regardless of the programmed value, the output voltage
cannot be higher than the input voltage. Minimum — 50.0
The actual output voltage will be influenced by the input voltage of the ASD Maximum — 660.0
and the Supply Voltage Compensation setting (F307). Units — Volts
This parameter is used only when the parameters for Motor Set 4 are
configured and selected. Motor Set 4 may be selected by a properly configured
input terminal (see Table 5 on pg. 234).
Manual Torque Boost 4 Direct Access Number — F180
Program Motor Motor Set 4 Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Manual Torque Boost 4 function is used to increase the low frequency
Changeable During Run — Yes
torque for high inertia loads by increasing the output voltage at frequencies
below ½ of the 4 Base Frequency setting (F178). Minimum — 0.0
See parameter F016 (Manual Torque Boost 1) for an explanation of torque Maximum — 30.0
boost. Units — %
This parameter is used only when the parameters for Motor Set 4 are
configured and selected. Motor Set 4 may be selected by a properly configured
input terminal (see Table 5 on pg. 234).
Motor Overload Protection Level 4 Direct Access Number — F181
Program Motor Motor Set 4 Parameter Type — Numerical
Factory Default — 100.0
The Motor 4 Overload Protection Level parameter specifies the motor
Changeable During Run — Yes
overload current level for Motor Set 4. This value is entered as either a
percentage of the full load rating of the ASD or as the FLA of the motor. Minimum — 10
The unit of measurement for this parameter may be set to Amps (A/V) or it Maximum — 100
may be set as a percentage of the ASD rating. The nameplated FLA of the Units — %
motor may be entered directly when Amps is selected as the unit of
measurement (see F701 to change the display unit).
The Motor 4 Overload Protection Level setting will be displayed in Amps if
the EOI display units are set to A/V rather than %.

100 H9 ASD Installation and Operation Manual

F190 F190

V/f 5-Point Setting Frequency 1 Direct Access Number — F190

Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.00
The V/f 5-Point Setting Frequency 1 setting establishes the frequency that is
Changeable During Run — No
to be associated with the voltage setting of F191 (V/f 5-Point Setting Voltage
1). Minimum — 0.00
The V/f 5-Point settings define a volts per hertz relationship for the startup Maximum — Max. Freq. (F011)
output of the ASD. Units — Hz
To enable this function, set the V/f Pattern (F015) selection to the V/f 5-Point
Curve setting.
V/f Curves may be useful in starting high inertia loads such as rotary drum
vacuum filters.

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F191 F192

V/f 5-Point Setting Voltage 1 Direct Access Number — F191

Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.0
The V/f 5-Point Setting Voltage 1 establishes the output voltage level that is to
Changeable During Run — No
be associated with the frequency setting of F190 (V/f 5-Point Setting Frequency
1). Minimum — 0.0
The F701 parameter setting will determine if the on-screen selection for this Maximum — 100.0
parameter appears in the form of a Voltage (V) or as a Percentage (%) of the Units — V or % (F701)
ASD rating.
If using Voltage as a unit of measure and with no voltage correction (F307
Disabled), the limit of the on-screen display value for this parameter is 200
volts for the 230-volt ASD and 400 volts for the 460-volt ASD.
The actual output voltage is scaled to the maximum EOI display values (e.g., a
100-volt EOI display corresponds to a 115-volt actual output for the 230-volt
ASD — ½ of the full display range).
If using % as a unit of measure and with no voltage correction (F307 Disabled),
the ASD output voltage will be the percentage setting times 230 for the 230-
volt unit (or % times 460 volts for the 460-volt unit).
See F190 for additional information on this setting.

V/f 5-Point Setting Frequency 2 Direct Access Number — F192

Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.00
The V/f 5-Point Setting Frequency 2 sets the frequency to be associated with
Changeable During Run — No
the voltage setting of parameter F193 (V/f 5-Point Setting Voltage 2).
Minimum — 0.00
See F190 and F191 for additional information on this setting.
Maximum — Max. Freq. (F011)
Units — Hz

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F193 F197

V/f 5-Point Setting Voltage 2 Direct Access Number — F193

Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.0
The V/f 5-Point Setting Voltage 2 establishes the output voltage level that is to
Changeable During Run — No
be associated with the frequency setting of F192 (V/f 5-Point Setting
Frequency 2). Minimum — 0.0
The F701 parameter setting will determine if the selection for this parameter Maximum — 100.0
appears in the form of a Voltage (V) or as a Percentage (%) of the ASD rating. Units — V or % (F701)
The default setting is %.
See F190 and F191 for additional information on this setting.
V/f 5-Point Setting Frequency 3 Direct Access Number — F194
Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.00
The V/f 5-Point Setting Frequency 3 sets the frequency to be associated with
Changeable During Run — No
the voltage setting of parameter F195 (V/f 5-Point Setting Voltage 3).
Minimum — 0.00
See F190 and F191 for additional information on this setting.
Maximum — Max. Freq. (F011)
Units — Hz
V/f 5-Point Setting Voltage 3 Direct Access Number — F195
Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.0
The V/f 5-Point Setting Voltage 3 establishes the output voltage level that is to
Changeable During Run — No
be associated with the frequency setting of F194 (V/f 5-Point Setting
Frequency 3). Minimum — 0.0
The F701 parameter setting will determine if the selection for this parameter Maximum — 100.0
appears in the form of a Voltage (V) or as a Percentage (%) of the ASD rating. Units — V or % (F701)
The default setting is %.
See F190 and F191 for additional information on this setting.
V/f 5-Point Setting Frequency 4 Direct Access Number — F196
Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.00
The V/f 5-Point Setting Frequency 4 sets the frequency to be associated with
Changeable During Run — No
the voltage setting of parameter F197 (V/f 5-Point Setting Voltage 4).
Minimum — 0.00
See F190 and F191 for additional information on this setting.
Maximum — Max. Freq. (F011)
Units — Hz
V/f 5-Point Setting Voltage 4 Direct Access Number — F197
Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.0
The V/f 5-Point Setting Voltage 4 establishes the output voltage level that is to
Changeable During Run — No
be associated with the frequency setting of F196 (V/f 5-Point Setting
Frequency 4). Minimum — 0.0
The F701 parameter setting will determine if the selection for this parameter Maximum — 100.0
appears in the form of a Voltage (V) or as a Percentage (%) of the ASD rating. Units — V or % (F701)
The default setting is %.
See F190 and F191 for additional information on this setting.

H9 ASD Installation and Operation Manual 103

F198 F200

V/f 5-Point Setting Frequency 5 Direct Access Number — F198

Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.00
The V/f 5-Point Setting Frequency 5 sets the frequency to be associated with
Changeable During Run — No
the voltage setting of parameter F199 (V/f 5-Point Setting Voltage 5).
Minimum — 0.00
See F190 and F191 for additional information on this setting.
Maximum — Max. Freq. (F011)
Units — Hz
V/f 5-Point Setting Voltage 5 Direct Access Number — F199
Program Special V/f 5-Point Setting Parameter Type — Numerical
Factory Default — 0.0
The V/f 5-Point Setting Voltage 5 establishes the output voltage level that is to
Changeable During Run — No
be associated with the frequency setting of F198 (V/f 5-Point Setting
Frequency 5). Minimum — 0.0
The F701 parameter setting will determine if the selection for this parameter Maximum — 100.0
appears in the form of a Voltage (V) or as a Percentage (%) of the ASD rating. Units — V or % (F701)
The default setting is %.
See F190 and F191 for additional information on this setting.
Frequency Priority Selection Direct Access Number — F200
Program Fundamental Standard Mode Selection Parameter Type — Selection List
Factory Default — FMOD (changed by
Either Frequency Mode 1 or Frequency Mode 2 may control the output TB)
frequency of the ASD. This parameter determines which of the two will control
the output frequency and the conditions in which control will be switched from Changeable During Run — Yes
one to the other.

Note: Frequency Mode is abbreviated as FMOD.

Settings:
0 — FMOD changed by Terminal Board (Frequency Mode)
1 — FMOD (F208) (Frequency Mode)

The Frequency Mode 1 or Frequency Mode 2 selection specifies the source of

the input frequency command signal. These selections are performed at F004
and F207, respectively.

If FMOD changed by Terminal Board is selected here, the ASD will follow
the control of the discrete input terminal assigned the function of Frequency
Priority. The discrete terminal Frequency Priority will toggle control to and
from Frequency Mode 1 and Frequency Mode 2 with each activation/
deactivation.

If FMOD (F208) is selected here, the ASD will follow the control of the
Frequency Mode 1 setting for the duration that the commanded frequency of
the Frequency Mode 1 setting is greater than the setting of F208.

If the commanded frequency of the Frequency Mode 1 setting is less than or

equal to the setting of F208 the ASD will follow the setting of Frequency
Mode 2.

104 H9 ASD Installation and Operation Manual

 F201 F201

V/I V/I Input Point 1 Setting Direct Access Number — F201

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the gain and bias of the isolated V/I input terminal
Changeable During Run — Yes
when the V/I terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This parameter sets the V/I input level that is associated with the V/I Input Maximum — 100
Point 1 Frequency setting when operating in the Speed control mode or is Units — %
associated with the V/I Input Point 1 Rate setting when operating in the
Torque Control mode.

V/I Input Speed Control Setup

Perform the following setup to allow the system to receive Speed control input Frequency Settings
at the V/I input terminal:
• Set SW301 of the Terminal Board to Voltage or Current (see Figure 9 on
pg. 24).
• Program Fundamental Standard Mode Selection Frequency Mode
1 V/I.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.

Speed Control
Perform the following setup to allow the system to perform Speed control from
the V/I input terminal:
• Set V/I Input Point 1 Frequency (F202).
• Set V/I Input Point 1 Setting (F201) — the input analog signal level that
corresponds to the frequency setting at V/I Input Point 1 Frequency.
• Set V/I Input Point 2 Frequency (F204).
• Set V/I Input Point 2 Setting (F203) — the input analog signal level that
corresponds to the frequency setting at V/I Input Point 2 Frequency.
• Provide a Run command (F and/or R).
Once set, as the V/I input voltage or current changes, the output frequency of
the ASD will vary in accordance with the above settings.
This parameter value is entered as 0% to 100% of the V/I input signal range.
The V/I input is commonly used for a 4 – 20 mA current loop signal where
4 mA equals 20% of a 20 mA signal. Set this parameter to 20% for 4 – 20 mA
current loop signal applications.

Note: When using the isolated V/I input terminal the IICC terminal
must be used as the return (negative) connection.

Note: If using P24 to power a transducer that is to be used to supply

the V/I input signal, it may be necessary to connect IICC to CCA.

H9 ASD Installation and Operation Manual 105

F202 F204

V/I Input Point 1 Frequency Direct Access Number — F202

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the V/I input terminal when
Changeable During Run — Yes
the V/I terminal is used as the control input while operating in the Speed
Control mode. Minimum — 0.00
This parameter sets V/I Input Point 1 Frequency and is the frequency that is Maximum — Max. Freq. (F011)
associated with the setting of V/I Input Point 1 Setting when operating in the Units — Hz
Speed Control mode.
See V/I Input Point 1 Setting (F201) for more information on this setting.
V/I Input Point 2 Setting Direct Access Number — F203
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 100
This parameter is used to set the gain and bias of the V/I input terminal when
Changeable During Run — Yes
the V/I terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This parameter sets the V/I input level that is associated with V/I Input Point 2 Maximum — 100
Frequency when operating in the Speed control mode or is associated with the Units — %
V/I Input Point 1 Rate when operating in the Torque Control mode.
This value is entered as 0% to 100% of the V/I input signal range.
See V/I Input Point 1 Setting (F201) for more information on this setting
when used for Speed control.
See V/I Input Point 1 Rate (F203) for more information on this setting when
used for Torque Control.
V/I Input Point 2 Frequency Direct Access Number — F204
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the gain and bias of the V/I input terminal when
Changeable During Run — Yes
the V/I terminal is used as the control input while operating in the Speed
Control mode. Minimum — 0.00
This parameter sets V/I Input Point 2 Frequency and is the frequency that is Maximum — Max. Freq. (F011)
associated with the setting of V/I Input Point 2 Setting when operating in the Units — Hz
Speed Control mode.
See V/I Input Point 1 Setting (F201) for more information on this setting.

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F205 F205

V/I Input Point 1 Rate Direct Access Number — F205

Program Torque Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the isolated V/I input terminal
Changeable During Run — Yes
when the V/I terminal is used as the control input while operating in the Torque
Control mode. Minimum — 0.00
Maximum — 250.00
V/I Input Torque Control Setup Units — %
Perform the following setup to allow the system to receive Torque Control
input at the V/I input terminal:
Torque Settings
• Set SW301 of the Terminal Board to Voltage or Current (see Figure 9 on
pg. 24).
• Program Fundamental Standard Mode Selection Frequency Mode 1
V/I.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.

Torque Control
Perform the following setup to allow the system to perform Torque Control
from the V/I input terminal:
• Set V/I Input Point 1 Rate (F205).
• Set V/I Input Point 1 Setting (F201) — the input analog signal level that
corresponds to the torque setting at V/I Input Point 1 Rate.
• Set V/I Input Point 2 Rate (F206).
• Set V/I Input Point 2 Setting (F203) — the input analog signal level that
corresponds to the torque setting at V/I Input Point 2 Rate.
• Provide a Run command (F and/or R).
Torque Control is accomplished by establishing an associated V/f output pattern
for a given V/I input level.
Once set, as the V/I input voltage changes or the V/I current changes, the
output torque of the ASD will vary in accordance with the above settings.
This parameter sets V/I Input Point 1 Rate and is the output torque value that
is associated with the setting of V/I Input Point 1 Setting when operating in
the Torque Control mode.
This value is entered as 0% to 250% of the rated torque.

Note: When using the isolated V/I input terminal the IICC terminal
must be used as the return (negative) connection.

H9 ASD Installation and Operation Manual 107

F206 F208

V/I Input Point 2 Rate Direct Access Number — F206

Program Torque Setpoints Parameter Type — Numerical
Factory Default — 100.00
This parameter is used to set the gain and bias of the V/I input terminal when
Changeable During Run — Yes
the V/I terminal is used as the control input while operating in the Torque
Control mode. Minimum — 0.00
Torque Control is accomplished by establishing an associated V/f output pattern Maximum — 250.00
for a given V/I input level. Units — %
This parameter sets V/I Input Point 2 Rate and is the output torque value that
is associated with the setting of V/I Input Point 2 Setting when operating in
the Torque Control mode.
This value is entered as 0% to 250% of the rated torque.
See V/I Input Point 1 Rate (F205) for more information on this setting.
Frequency Mode 2 Direct Access Number — F207
Program Fundamental Standard Mode Selection Parameter Type — Selection List
Factory Default — V/I
This parameter is used to set the source of the frequency command signal to be
Changeable During Run — Yes
used as Frequency Mode 2 in the event that Frequency Mode 1 is disabled or
if Frequency Mode 2 is set up as the primary control parameter.

See F004 and F200 for additional information on this setting.

Settings:
1 — V/I
2 — RR
3 — RX
4 — Not Used
5 — EOI (Keypad)
6 — RS485
7 — Communication Option Board
8 — RX2 Option (AI1)
9 — Option V/I
10 — UP/DOWN Frequency (Terminal Board)
11 — Pulse Input (Option)
12 — Pulse Input (Motor CPU)
13 — Binary/BCD Input (Option)
Frequency Mode Priority Switching Frequency Direct Access Number — F208
Program Fundamental Standard Mode Selection Parameter Type — Numerical
Factory Default — 0.10
This parameter establishes a threshold frequency that will be used as a reference
Changeable During Run — Yes
when determining when to switch the output frequency control source from the
Frequency Mode 1 setting to the Frequency Mode 2 setting. Minimum — 0.10
See F200 for additional information on this setting. Maximum — Max. Freq. (F011)
Units — Hz

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F209 F209

Analog Input Filter Direct Access Number — F209

Program Frequency Analog Filter Parameter Type — Selection List
Factory Default — None
Analog filtering is applied after the analog reference signal is converted to a
Changeable During Run — Yes
digital signal. The type of filtering used is Rolling Average over time.

Settings:
0 — None (1 mS)
1 — Small (8 mS)
2 — Medium (16 mS)
3 — Large (32 mS)
4 — Huge (64 mS)

The analog input signal is sampled and converted to a digital signal. With no
filtering applied, the resulting digital value is scaled for use by the
microprocessor of the ASD.

If the filtering selection Small is selected, the ASD averages the last 8 mS of
sampled signal and converted (digital) values. The rolling average is updated
(every 4 µS) and scaled for use by the microprocessor.

This holds true for the Medium, Large, and Huge selections providing a larger
sample to produce the average for use by the microprocessor.

False responses to electrical noise are eliminated with no loss in bandwidth

because the value used by the drive is the average value of several samples.

H9 ASD Installation and Operation Manual 109

 F210 F211

R RR Input Point 1 Setting Direct Access Number — F210

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the gain and bias of the RR input terminal when
Changeable During Run — Yes
the RR terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This parameter sets the RR input level that is associated with the RR Input Maximum — 100
Point 1 Frequency setting when operating in the Speed control mode or is Units — %
associated with the RR Input Point 1 Rate setting when operating in the
Torque Control mode.

Frequency Settings
Speed Control
Perform the following setup to allow the system to perform Speed control from
the RR input terminal:
• Set RR Input Point 1 Frequency (F211).
• Set RR Input Point 1 Setting (F210) — the input analog signal level that
corresponds to the frequency setting at RR Input Point 1 Frequency.
• Set RR Input Point 2 Frequency (F213).
• Set RR Input Point 2 Setting (F212) — the input analog signal level that
corresponds to the frequency setting at RR Input Point 2 Frequency.

RR Input Speed Control Setup

Perform the following setup to allow the system to receive Speed control input
at the RR input terminal:
• Program Fundamental Standard Mode Selection Frequency Mode
1 RR.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.
• Provide a Run command (F and/or R).
Once set, as the RR input voltage changes, the output frequency of the ASD
will vary in accordance with the above settings.
This parameter value is entered as 0% to 100% of the RR input signal range.
RR Input Point 1 Frequency Direct Access Number — F211
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RR input terminal when
Changeable During Run — Yes
the RR terminal is used as the control input while operating in the Speed
Control mode. Minimum — 0.00
This parameter sets RR Input Point 1 Frequency and is the frequency that is Maximum — Max. Freq. (F011)
associated with the setting of RR Input Point 1 Setting when operating in the Units — Hz
Speed Control mode.
See RR Input Point 1 Setting (F210) for more information on this setting.

110 H9 ASD Installation and Operation Manual

F212 F213

RR Input Point 2 Setting Direct Access Number — F212

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 100
This parameter is used to set the gain and bias of the RR input terminal when
Changeable During Run — Yes
the RR terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This parameter sets the RR input level that is associated with RR Input Point 2 Maximum — 100
Frequency when operating in the Speed control mode or is associated with the Units — %
RR Input Point 1 Rate when operating in the Torque Control mode.
This value is entered as 0% to 100% of the RR input signal range.
See RR Input Point 1 Setting (F210) for more information on this setting
when used for Speed control.
See RR Input Point 1 Rate (F214) for more information on this setting when
used for Torque Control.
RR Input Point 2 Frequency Direct Access Number — F213
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the gain and bias of the RR input terminal when
Changeable During Run — Yes
the RR terminal is used as the control input while operating in the Speed
Control mode. Minimum — 0.00
This parameter sets RR Input Point 2 Frequency and is the frequency that is Maximum — Max. Freq. (F011)
associated with the setting of RR Input Point 2 Setting when operating in the Units — Hz
Speed Control mode.
See RR Input Point 1 Setting (F210) for more information on this setting.

H9 ASD Installation and Operation Manual 111

F214 F215

RR Input Point 1 Rate Direct Access Number — F214

Program Torque Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RR input terminal when
Changeable During Run — Yes
the RR terminal is used as the control input while operating in the Torque
Control mode. Minimum — 0.00
Maximum — 250.00
RR Input Torque Control Setup Units — %
Perform the following setup to allow the system to receive Torque Control
input at the RR input terminal: Torque Settings
• Program Fundamental Standard Mode Selection Frequency Mode
RR.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.

Torque Control
Perform the following setup to allow the system to perform Torque Control
from the RR input terminal:
• Set RR Input Point 1 Rate (F214).
• Set RR Input Point 1 Setting (F210) — the input analog signal level that
corresponds to the torque setting at RR Input Point 1 Rate.
• Set RR Input Point 2 Rate (F215).
• Set RR Input Point 2 Setting (F212) — the input analog signal level that
corresponds to the frequency setting at RR Input Point 2 Rate.
• Provide a Run command (F and/or R).
Torque Control is accomplished by establishing an associated V/f output pattern
for a given RR input level.
Once set, as the RR input voltage changes, the output torque of the ASD will
vary in accordance with the above settings.
This parameter sets RR Input Point 1 Rate and is the output torque value that
is associated with the setting of RR Input Point 1 Setting when operating in
the Torque Control mode.
This value is entered as 0% to 250% of the rated torque.
RR Input Point 2 Rate Direct Access Number — F215
Program Torque Setpoints Parameter Type — Numerical
Factory Default — 100.00
This parameter is used to set the gain and bias of the RR input terminal when
Changeable During Run — Yes
the RR terminal is used as the control input while operating in the Torque
Control mode. Minimum — 0.00
Torque Control is accomplished by establishing an associated V/f output Maximum — 250.00
pattern for a given RR input level. Units — %
This parameter sets RR Input Point 2 Rate and is the output torque value that
is associated with the setting of RR Input Point 2 Setting when operating in
the Torque Control mode.
This value is entered as 0% to 250% of the rated torque.
See RR Input Point 1 Rate (F214) for more information on this setting.

112 H9 ASD Installation and Operation Manual

 F216 F217

X RX Input Point 1 Setting Direct Access Number — F216

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the gain and bias of the RX input terminal when
Changeable During Run — Yes
the RX terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — -100
This parameter sets the RX input level that is associated with RX Input Point 1 Maximum — +100
Frequency when operating in the Speed Control mode or is associated with Units — %
the RX Input Point 1 Rate when operating in the Torque Control mode.

Frequency Settings
RX Input Speed Control Setup
Perform the following setup to allow the system to receive Speed control input
at the RX input terminal:
• Program Fundamental Standard Mode Selection Frequency Mode
1 RX.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.

Speed Control
Perform the following setup to allow the system to perform Speed control from
the RX input terminal:
• Set RX Input Point 1 Frequency (F217).
• Set RX Input Point 1 Setting (F216) — the input analog signal level that
corresponds to the speed setting at RX Input Point 1 Frequency.
• Set RX Input Point 2 Frequency (F219).
• Set RX Input Point 2 Setting (F218) — the input analog signal level that
corresponds to the speed setting at RX Input Point 2 Frequency.
• Provide a Run command (F and/or R).
Once set, as the RX input voltage changes, the ASD output speed and/or torque
will vary in accordance with the above settings.
This parameter value is entered as -100% to +100% of the RX input signal
range.
See parameter F474 and F475 for information on fine-tuning this terminal
response.
RX Input Point 1 Frequency Direct Access Number — F217
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RX input terminal when
Changeable During Run — Yes
the RX terminal is used as the control input while operating in the Speed
Control mode. Minimum — 0.00
This parameter sets RX Input Point 1 Frequency and is the frequency that is Maximum — Max. Freq. (F011)
associated with the setting of RX Input Point 1 Setting when operating in the Units — Hz
Speed Control mode.
See RX Input Point 1 Setting (F216) for more information on this setting.

H9 ASD Installation and Operation Manual 113

F218 F219

RX Input Point 2 Setting Direct Access Number — F218

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — +100
This parameter is used to set the gain and bias of the RX input terminal when
Changeable During Run — Yes
the RX terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — -100.0
This parameter sets the RX input level that is associated with RX Input Point 2 Maximum — +100.0
Frequency when operating in the Speed control mode or is associated with the Units — %
RX Input Point 2 Rate when operating in the Torque Control mode.
This value is entered as -100% to +100% of the RX input signal range.
See RX Input Point 1 Setting (F216) for more information on this setting
when used for Speed control.
See RX Input Point 1 Rate (F220) for more information on this setting when
used for Torque Control.
RX Input Point 2 Frequency Direct Access Number — F219
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the gain and bias of the RX input terminal when
Changeable During Run — Yes
the RX terminal is used as the control input while operating in the Speed
Control mode. Minimum — 0.00.
This parameter sets RX Input Point 2 Frequency and is the frequency that is Maximum — Max. Freq. (F011)
associated with the setting of RX Input Point 2 Setting when operating in the Units — Hz
Speed Control mode.
See RX Input Point 1 Setting (F216) for more information on this setting.

114 H9 ASD Installation and Operation Manual

F220 F221

RX Input Point 1 Rate Direct Access Number — F220

Program Torque Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RX input terminal when
Changeable During Run — Yes
the RX terminal is used as the control input while operating in the Torque
Control mode. Minimum — -250.00
Maximum — +250.00
RX Input Torque Control Setup Units — %
Perform the following setup to allow the system to receive Torque Control
input at the RX input terminal: Torque Settings
• Program Fundamental Standard Mode Selection Frequency Mode
RX.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.

Torque Control
Perform the following setup to allow the system to perform Torque Control
from the RX input terminal:
• Set RX Input Point 1 Rate (F220).
• Set RX Input Point 1 Setting (F216) — the input analog signal level that
corresponds to the torque setting at RX Input Point 1 Rate.
• Set RX Input Point 2 Rate (F221).
• Set RX Input Point 2 Setting (F218) — the input analog signal level that
corresponds to the speed setting at RX Input Point 2 Rate.
• Provide a Run command (F and/or R).
Torque Control is accomplished by establishing an associated V/f output
pattern for a given RX input level.
Once set, as the RX input voltage changes, the ASD output speed and/or torque
will vary in accordance with the above settings.
This parameter sets RX Input Point 1 Rate and is the output torque value that
is associated with the setting of RX Input Point 1 Setting when operating in
the Torque Control mode.
This value is entered as -250% to +250% of the rated torque.
RX Input Point 2 Rate Direct Access Number — F221
Program Torque Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RX input terminal when
Changeable During Run — Yes
the RX terminal is used as the control input while operating in the Torque
Control mode. Minimum — -250.00
Torque Control is accomplished by establishing an associated V/f output Maximum — +250.00
pattern for a given RX input level. Units — %
This parameter sets RX Input Point 2 Rate and is the output torque value that
is associated with the setting of RX Input Point 2 Setting when operating in
the Torque Control mode.
This value is entered as -250% to +250% of the rated torque.
See RX Input Point 1 Rate (F220) for more information on this setting.

H9 ASD Installation and Operation Manual 115

F222 F222

RX2 (AI1) Input Point 1 Setting Direct Access Number — F222

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the gain and bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when the RX2 (AI1) terminal is used as the control input while operating in the
Speed Control mode or the Torque Control mode. Minimum — -100
Maximum — +100
Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)
is required to use this terminal. Units — %

This parameter sets the RX2 (AI1) input level that is associated with RX2
(AI1) Input Point 1 Frequency when operating in the Speed Control mode or Frequency Settings
is associated with the RX2 (AI1) Input Point 1 Rate when operating in the
Torque Control mode.

RX2 (AI1) Input Speed Control Setup

Perform the following setup to allow the system to receive Speed control input
at the RX2 (AI1) input terminal:
• Program Fundamental Standard Mode Selection Frequency Mode
1 RX2.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.

Speed Control
Perform the following setup to allow the system to perform Speed control from
the RX2 (AI1) input terminal:
• Set RX2 (AI1) Input Point 1 Frequency (F223).
• Set RX2 (AI1) Input Point 1 Setting (F222) — the input analog signal
level that corresponds to the speed setting at RX2 (AI1) Input Point 1
Frequency.
• Set RX2 (AI1) Input Point 2 Frequency (F225).
• Set RX2 (AI1) Input Point 2 Setting (F224) — the input analog signal
level that corresponds to the speed setting at RX Input Point 2 Frequency.
• Provide a Run command (F and/or R).
Once set, as the RX2 (AI1) input voltage changes, the ASD output speed and/or
torque will vary in accordance with the above settings.
This parameter value is entered as -100% to +100% of the RX2 (AI1) input
signal range.
See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal. See parameter F476 and
F477 for information on fine-tuning this terminal response.

116 H9 ASD Installation and Operation Manual

F223 F225

RX2 (AI1) Input Point 1 Frequency Direct Access Number — F223

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when the RX2 (AI1) terminal is used as the control input while operating in the
Speed Control mode. Minimum — 0.00
This parameter sets RX2 (AI1) Input Point 1 Frequency and is the frequency Maximum — Max. Freq. (F011)
that is associated with the setting of RX2 (AI1) Input Point 1 Setting when Units — Hz
operating in the Speed Control mode.
See RX2 (AI1) Input Point 1 Setting (F222) for more information on this
setting.
RX2 (AI1) Input Point 2 Setting Direct Access Number — F224
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — +100
This parameter is used to set the gain and bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when the RX2 (AI1) terminal is used as the control input while operating in the
Speed Control mode or the Torque Control mode. Minimum — -100
This parameter sets the RX2 (AI1) input level that is associated with RX2 Maximum — +100
(AI1) Input Point 2 Frequency when operating in the Speed control mode or Units — %
is associated with the RX2 (AI1) Input Point 2 Rate when operating in the
Torque Control mode.
This value is entered as -100% to +100% of the RX2 (AI1) input signal range.
See RX2 (AI1) Input Point 1 Setting (F222) for more information on this
setting when used for Speed control.
See RX2 (AI1) Input Point 1 Rate (F226) for more information on this setting
when used for Torque Control.
RX2 (AI1) Input Point 2 Frequency Direct Access Number — F225
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the gain and bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when the RX2 (AI1) terminal is used as the control input while operating in the
Speed Control mode. Minimum — 0.00
This parameter sets RX2 (AI1) Input Point 2 Frequency and is the frequency Maximum — Max. Freq. (F011)
that is associated with the setting of RX2 (AI1) Input Point 2 Setting when Units — Hz
operating in the Speed Control mode.
See RX2 (AI1) Input Point 1 Setting (F222) for more information on this
setting.

H9 ASD Installation and Operation Manual 117

F226 F226

RX2 (AI1) Input Point 1 Rate Direct Access Number — F226

Program Torque Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when the RX2 (AI1) terminal is used as the control input while operating in the
Torque Control mode. Minimum — -250.00
Maximum — +250.00
Note: The Expansion IO Card Option 1 option board (P/N ETB003Z)
is required to use this terminal. Units — %

RX2 (AI1) Input Torque Control Setup

Perform the following setup to allow the system to receive Torque Control
input at the RX2 (AI1) input terminal: Torque Settings

• Program Fundamental Standard Mode Selection Frequency Mode

RX2.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.
• Provide a Run command (F and/or R).

Torque Control
Perform the following setup to allow the system to perform Torque Control
from the RX2 (AI1) input terminal:
• Set RX2 (AI1) Input Point 1 Rate (F226).
• Set RX2 (AI1) Input Point 1 Setting (F222) — the input analog signal
level that corresponds to the speed setting at RX2 (AI1) Input Point 1
Rate.
• Set RX2 (AI1) Input Point 2 Rate (F227).
• Set RX2 (AI1) Input Point 2 Setting (F224) — the input analog signal
level that corresponds to the speed setting at RX Input Point 2 Rate.
• Provide a Run command (F and/or R).
Torque Control is accomplished by establishing an associated V/f output
pattern for a given RX2 (AI1) input level.
Once set, as the RX2 (AI1) input voltage changes, the ASD output speed and/or
torque will vary in accordance with the above settings.
This parameter sets RX2 (AI1) Input Point 1 Rate and is the output torque
value that is associated with the setting of RX2 (AI1) Input Point 1 Setting
when operating in the Torque Control mode.
This value is entered as -250% to +250% of the rated torque.
See the Expansion IO Card Option 1 instruction manual (P/N 58685) for
more information on the function of this terminal.

118 H9 ASD Installation and Operation Manual

F227 F227

RX2 (AI1) Input Point 2 Rate Direct Access Number — F227

Program Torque Setpoints Parameter Type — Numerical
Factory Default — 100.00
This parameter is used to set the gain and bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when the RX2 (AI1) terminal is used as the control input while operating in the
Torque Control mode. Minimum — -250.00
Torque Control is accomplished by establishing an associated V/f output Maximum — +250.00
pattern for a given RX2 (AI1) input level. Units — %
This parameter sets RX2 (AI1) Input Point 2 Rate and is the output torque
value that is associated with the setting of RX2 (AI1) Input Point 2 Setting
when operating in the Torque Control mode.
This value is entered as -250% to +250% of the rated torque.
See RX2 (AI1) Input Point 1 Rate (F226) for more information on this setting.

H9 ASD Installation and Operation Manual 119

F228 F228

BIN Input Point 1 Setting Direct Access Number — F228

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the gain and bias of the BIN input terminals when
Changeable During Run — Yes
the BIN terminals are used as the control input while operating in the Speed
Control mode. Minimum — 0
The discrete input terminals of the Terminal Board are used as the BIN Maximum — 100
terminals. Units — %

BIN Input Speed Control Setup Frequency Settings

Perform the following setup to allow the system to receive Speed control input
at the BIN input terminals:
• Program Fundamental Standard Mode Selection Frequency Mode
1 Binary/BCD.
• Program Fundamental Standard Mode Selection Command Mode
Selection Terminal Block.
• Program Terminal Input Terminals; select and set the desired
discrete input terminals to Binary Bit(s) 0 – 7 (or 0 – MSB). The binary
input byte will control the speed of the motor.
• Program Terminal Input Terminals; select and set a discrete input
terminal to Binary Data Write. Activation of the Binary Data Write
terminal will transfer the status of the Binary Bit(s) 0 – 7 (or 0 – MSB) to
the control board for speed control.

Speed Control
Perform the following setup to allow the system to perform Speed control from
the BIN input terminals:
• Set BIN Input Point 1 Frequency (F229).
• Set the BIN input value (% of 255D) (F228) that represents BIN Input
Point 1 Frequency.
• Set BIN Input Point 2 Frequency (F231).
• Set the BIN input value (% of 255D) (F230) that represents BIN Input
Point 2 Frequency.
• Provide a Run command (F and/or R).

Note: 255D is the decimal equivalent of the 8-bit BIN byte with all input
terminals set to 1 (255 decimal = 11111111 binary).

Once set, as the BIN input signal changes are transferred to the control board,
the output frequency of the ASD will vary in accordance with the above
settings.
This parameter sets BIN Input Point 1 Setting and is entered as 0% to 100%
of the of the range represented by the BIN binary input byte 11111111 (255D) or
the binary bit(s) 0 – MSB.

120 H9 ASD Installation and Operation Manual

F229 F231

BIN Input Point 1 Frequency Direct Access Number — F229

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the speed of the BIN input terminals when the
Changeable During Run — Yes
BIN terminals are used as the control input.
Minimum — 0
This parameter sets BIN Input Point 1 Frequency and is the frequency that is
associated with the setting of BIN Input Point 1 Setting. Maximum — Max. Freq. (F011)
See BIN Input Point 1 Setting (F228) for further information on this setting. Units — Hz
BIN Input Point 2 Setting Direct Access Number — F230
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 100
This parameter is used to set the speed of the BIN input terminals when the
Changeable During Run — Yes
BIN terminals are used as the control input.
Minimum — 0
This parameter sets the BIN input signal that is associated with BIN Input
Point 2 Frequency. Maximum — 100
This value is entered as 0% to +100% of the BIN input signal range. Units — %
See BIN Input Point 1 Setting (F228) for further information on this setting.
BIN Input Point 2 Frequency Direct Access Number — F231
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the speed of the BIN input terminals when the
Changeable During Run — Yes
BIN terminal are used as the control input.
Maximum — 0.00
This parameter sets BIN Input Point 2 Frequency and is the frequency that is
associated with the setting of BIN Input Point 2 Setting. Maximum — Max. Freq. (F011)
See BIN Input Point 1 Setting (F228) for further information on this setting. Units — Hz

H9 ASD Installation and Operation Manual 121

F234 F235

PG Input Point 1 Setting Direct Access Number — F234

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.0
This parameter is used to set the gain and bias of the PG input terminal of the
Changeable During Run — Yes
option board when a shaft-mounted encoder is used as the control input while
operating in the Speed Control mode. Minimum — 0
Maximum — 100.0
Note: See Instruction Manual P/N 58687 for more information on the
PG Option Board. Units — %

PG Input Speed Control Setup Frequency Settings

Perform the following setup to allow the system to receive Speed control input
at the PG input terminal:
• Program Fundamental Standard Mode Selection Frequency Mode
1 Pulse Input (option).
• Program Fundamental Standard Mode Selection Command Mode
Selection (any setting).
• Provide a Run command (F and/or R).

Speed Control
Perform the following setup to allow the system to perform Speed control from
the PG input terminals:
• Set PG Point 1 Frequency (F235).
• Set the PG input value (F234) that represents PG Point 1 Frequency.
• Set PG Point 2 Frequency (F237).
• Set the PG input value (F236) that represents PG Point 2 Frequency.
Once set, as the PG input pulse count rate changes, the output frequency of the
drive will vary in accordance with the above settings.
This parameter sets the PG input pulse count that represents Reference
Setpoint 1 (frequency). The range of values for this parameter is 0% to 100%
of the PG input pulse count range.

Note: Further application-specific PG settings may be performed from

the following path: Program Feedback PG Settings
PG Input Point 1 Frequency Direct Access Number — F235
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the speed of the PG input terminals when the PG
Changeable During Run — Yes
terminal is used as the control input.
Minimum — 0.00
This parameter sets PG Point 1 Frequency and is the frequency that is
associated with the setting of PG Point 1 Setting. Maximum — Max. Freq. (F011)
See PG Point 1 Setting (F234) for further information on this setting. Units — Hz

122 H9 ASD Installation and Operation Manual

F236 F241

PG Input Point 2 Setting Direct Access Number — F236

Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the direction and speed of the PG input terminals
Changeable During Run — Yes
when the PG terminals are used as the control input.
Minimum — 0
This parameter sets the PG input signal that is associated with PG Point 2
Frequency. Maximum — 100
This value is entered as 0% to 100% of the PG input signal range. Units — %
See PG Point 1 Setting (F234) for further information on this setting.
PG Input Point 2 Frequency Direct Access Number — F237
Program Frequency Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the direction and speed of the PG input terminals
Changeable During Run — Yes
when the PG terminal are used as the control input.
Minimum — 0.00
This parameter sets PG Point 2 Frequency and is the frequency that is
associated with the setting of PG Point 2 Setting. Maximum — Max. Freq. (F011)
See PG Point 1 Setting (F234) for further information on this setting. Units — Hz
Start Frequency Direct Access Number — F240
Program Special Frequency Control Parameter Type — Numerical
Factory Default — 0.10
The output of the drive will remain at 0.0 Hz until the programmed speed value
Changeable During Run — Yes
exceeds this setting during startup. Once exceeded during startup, the output
frequency of the drive will accelerate to the programmed setting. Minimum — 0.00
Output frequencies below the Start Frequency will not be output from the Maximum — Max. Freq. (F011)
drive during startup. However, once reaching the Start Frequency, speed Units — Hz
values below the Start Frequency may be output from the drive.
If the setting of this parameter results in an over-current condition at startup,
reduce the setting of this parameter to a value less than the rated slippage of the
motor.
If zero-speed torque is required, set this parameter and F243 to 0.0 Hz.
This setting will override the setting of F244 if this setting has a higher value.
This parameter setting is used during a Jog as the Lower-Limit Frequency
(see F260).
Run Frequency Direct Access Number — F241
Program Special Frequency Control Parameter Type — Numerical
Factory Default — 0.00
This parameter establishes a center frequency (Run Frequency) of a frequency
Changeable During Run — Yes
band.
Minimum — 0.00
Parameter F242 provides a plus-or-minus value for the Run Frequency; thus,
establishing a frequency band. Maximum — Max. Freq. (F011)
During acceleration, the drive will not output a signal to the motor until the Units — Hz
lower level of the band is reached.
During deceleration, the drive will continue to output the programmed
deceleration signal to the motor until the lower level of the band is reached; at
which time the output will go to 0.0 Hz.

H9 ASD Installation and Operation Manual 123

F242 F251

Run Frequency Hysteresis Direct Access Number — F242

Program Special Frequency Control Parameter Type — Numerical
Factory Default — 0.00
This parameter provides a plus-or-minus value for the Run Frequency setting
Changeable During Run — Yes
(F241).
Minimum — 0.00
Maximum — 30.0
Units — Hz
End Frequency Direct Access Number — F243
Program Special Frequency Control Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the lowest frequency that the drive will recognize during
Changeable During Run — Yes
deceleration before the drive goes to 0.0 Hz.
Minimum — 0.00
Maximum — 30.0
Units — Hz
0 Hz Dead Band Signal Direct Access Number — F244
Program Special Special Parameters Parameter Type — Numerical
Factory Default — 0.00
This parameter sets an output frequency threshold that, until the commanded
Changeable During Run — Yes
frequency surpasses this setting, the ASD will output 0.0 Hz to the motor.
Minimum — 0.00
This setting will override the Start Frequency setting (F240) if this setting has
a higher value. Maximum — 5.00
Units — Hz
DC Injection Braking Start Frequency Direct Access Number — F250
Program Protection DC Braking Parameter Type — Numerical
During deceleration this is the frequency at which DC Injection Braking will Factory Default — 0.00
start. Changeable During Run — Yes
Minimum — 0.00
DC Injection Braking
Maximum — 120.00
DC Injection Braking is a braking system used with 3-phase motors. Unlike
conventional brakes, there is no physical contact between the rotating shaft and Units — Hz
a stationary brake pad or drum. When braking is required, the drive outputs a
DC current that is applied to the windings of the motor to quickly brake the
motor. The braking current stops when the time entered in F252 times out.
The intensity of the DC current used while braking determines how fast the
motor will come to a stop and may be set at F251. The intensity setting is
entered as a percentage of the full load current of the ASD.
DC Injection Braking is also used to preheat the motor or to keep the rotor
from spinning freely when the motor is off by providing a pulsating DC current
into the motor at the Carrier Frequency. This feature may be enabled at F254.
DC Injection Braking Current Direct Access Number — F251
Program Protection DC Braking Parameter Type — Numerical
Factory Default — 50
This parameter sets the percentage of the rated current of the drive that will be
Changeable During Run — Yes
used for DC Injection Braking. A larger load will require a higher setting.
Minimum — 0
Maximum — 100
Units — %

124 H9 ASD Installation and Operation Manual

F252 F256

DC Injection Braking Time Direct Access Number — F252

Program Protection DC Braking Parameter Type — Numerical
Factory Default — 1.0
This parameter setting is used to set the on-time duration of the DC Injection
Changeable During Run — Yes
Braking.
Minimum — 0.0
Maximum — 20.0
Units — Seconds
Forward/Reverse DC Injection Braking Priority Direct Access Number — F253
Program Protection DC Braking Parameter Type — Selection List
Factory Default — Disabled
This parameter setting determines if DC Injection Braking is to be used during
Changeable During Run — Yes
a change in the direction of the motor.

Settings:
0 — Disabled
1 — Enabled
Motor Shaft Fixing Control Direct Access Number — F254
Program Protection DC Braking Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables a continuous DC injection at half of the
Changeable During Run — Yes
amperage setting of F251 into a stopped motor. This feature is useful in
preheating the motor or to keep the rotor from spinning freely.

Motor Shaft Stationary Control starts after the DC injection brake stops the
motor and continues until ST – CC is opened, power is turned off, an
Emergency Off command is received, or this parameter is changed.

Enabling this feature will also require a non-zero entry at F250.

Settings:
0 — Disabled
1 — Enabled
0 Hz Command Output Direct Access Number — F255
Program Special Special Parameters Parameter Type — Selection List
Factory Default — Standard (DC
This parameter is used to set the go-to-zero method to be used by the ASD in Injection Braking)
the event that the ASD is commanded to go to zero Hz.
Changeable During Run — No
Settings:
0 — Standard (DC Injection Braking)
1 — 0 Hz Command
Time Limit For Lower-Limit Frequency Operation Direct Access Number — F256
Program Fundamental  Frequency Settings Parameter Type — Numerical
Factory Default — 0.0
This parameter sets the time that the ASD is allowed to operate below the
Changeable During Run — Yes
Lower-Limit setting before an alarm and subsequent fault is incurred.
Minimum — 0.0
Maximum — 600.0
Units — Seconds

H9 ASD Installation and Operation Manual 125

F260 F260

Jog Frequency Direct Access Number — F260

Program Frequency Jog Settings Parameter Type — Numerical
Factory Default — 5.00
This parameter sets the output frequency of the drive during a Jog. Jog is the
Changeable During Run — Yes
term used to describe turning the motor on for small increments of time and is
used when precise positioning of motor-driven equipment is required. Minimum — F240 Setting
The Jog function may be initiated from the EOI, remotely via the Terminal Maximum — 20.00
Board, or using Communications (for more information on using Units — Hz
Communications for Jogging, see the Communications manual P/N 53840).
The Jog function can be activated from zero Hz or from any frequency below
the Jog Run frequency (Jog can only increase the speed). A Jog command will
not be recognized when the running frequency is above the Jog Run frequency
setting. The Jog command has priority over other Run commands and is not
limited by the Upper-Limit setting of parameter F012.
Jog commands received while running for the opposite direction will follow the
programmed stopping method of F261 until reaching zero Hz and will then
ramp to the programmed Jog Frequency and direction.

Jog Setup and Execution

To initiate a Jog Run from the EOI perform the following:
1. Enable the Jog function at F262.
2. Set the Command Mode Selection (F003) to EOI (Keypad).
3. Assign the Jog Run setting to a discrete input terminal (see Table 5 on
pg. 234).

Note: Any unused discrete input terminal may be used for the Jog
Run setting.

4. Set up a Jog Stop Pattern at F261.

5. Set the Input Terminal Priority (F106) function to Disable to receive
Jog commands from the EOI.
6. Set the Local/Remote key to Local.
7. Activate the Jog Run terminal (from step 3) and provide a Run
command (F or R).

Note: Simultaneous F and R activations will perform as setup at

parameter F105.

8. Press the Run key and the ASD will output the frequency setting of F260
for the duration of the activation.

To initiate a Jog Run from the Terminal Board perform the following:
1. Using the setup above, set the Input Terminal Priority (F106) function
(from step 5) to Enable to receive Jog commands from the Terminal
Board using the Jog Run terminal without regard to the Local/Remote
setting.
2. Use the Jog Run terminal of step 3 above to activate the Jog function.

126 H9 ASD Installation and Operation Manual

F261 F262

Jog Stop Pattern Direct Access Number — F261

Program Frequency Jog Settings Parameter Type — Selection List
Factory Default — Deceleration Stop
This parameter sets the stopping method used while operating in the Jog mode.
Changeable During Run — Yes
Note: This parameter setting is used for the Jog operation only. The
Emergency Off stopping method setting of parameter F603 has
priority over this setting and changes made here do not affect the
function or setting of parameter F603.

Settings:
0 — Deceleration Stop
1 — Coast Stop
2 — DC Injection Braking Stop
EOI (Panel) Operation Jog Mode Direct Access Number — F262
Program Frequency Jog Settings Parameter Type — Selection List
Factory Default — Disabled
This parameter enables the Jog command to be received from the EOI. When
Changeable During Run — Yes
disabled the Jog command received from the EOI is ignored.

Jog commands may also be received from the Terminal Board. Priority as to
which is allowed to override the other is selected at F106.

The priority selection at F106 enables the selected source for Jog control and
disables the other. The F106 setting overrides this parameter setting.

Settings:
0 — Disabled
1 — Enabled

H9 ASD Installation and Operation Manual 127

F264 F264

UP/DOWN Frequency (up) Response Time Direct Access Number — F264

No Path — Direct Access Only Parameter Type — Numerical
This parameter functions in conjunction with the parameter settings of F265, Factory Default — 0.1
F266, F267, F268, and F269. The purpose of these settings is to setup the ASD Changeable During Run — Yes
to allow an externally-supplied discrete input signal to control the output
Minimum — 0.0
frequency of the ASD.
Maximum — 10.0
This method uses the discrete input terminal settings UP/DOWN Frequency
(up) and UP/DOWN Frequency (down) to change the ASD speed. Activation Units — Seconds
of either terminal increases or decreases the output frequency at the Accel 1 or
Decel 1 rates, respectively.
Up/Down Frequency (up) Mode
Depending on the Delay setting, the UP/DOWN Frequency (up/down)
terminal may perform 1) the increase/decrease function for the duration of
activation or 2) the UP/DOWN Frequency (up/down) terminal may act as a
momentary contact that loads a new commanded frequency upon activation.
In either case, to activate-and-hold will continue the up or down function until
reaching the Upper-Limit Frequency or the Lower-Limit Frequency,
respectively. At which point further activation will be ignored.
See Figure 29 on pg. 130 for more information on the UP/DOWN Frequency
function.

Setup Requirements
Up/Down Frequency (down) Mode
F003 — Selects the Command control source; set to Terminal Block.

F004 — Selects the Frequency Control Mode 1 control source; set to

UP/DOWN Frequency.

F207 — Selects the Frequency Control Mode 2 control source; set to

UP/DOWN Frequency if used.

Set one unused discrete input terminal to UP/DOWN Frequency (up) and
one unused discrete input terminal to UP/DOWN Frequency (down).

F264 — Sets the system-response delay to the initial activation of the discrete
input terminal UP/DOWN Frequency (up). Also sets the response delay of
subsequent terminal activations of the UP/DOWN Frequency (up) terminal
during an activate-and-hold.

F265 — Sets the frequency increase amount for each activation of the UP/
DOWN Frequency (up) terminal activation. The rate of the frequency
increase is set at Acceleration Time 1 (F009).

F266 — Sets the system-response delay to the initial activation of the discrete
input terminal UP/DOWN Frequency (down). Also sets the activation delay
of subsequent terminal activations of the UP/DOWN Frequency (down)
terminal during an activate-and-hold.

F267 — Sets the frequency decrease amount for each activation of the UP/
DOWN Frequency (down) terminal activation. The rate of the frequency
decrease is set at Deceleration Time 1 (F010).

F268 — At power up or after a reset, this parameter setting is used to provide

a starting frequency for the UP/DOWN Frequency function.

F269 — At power down while running, and when enabled, this parameter
writes the running frequency into the F268 location and, upon a system
restart, uses this setting as the startup frequency.

Provide a Run command (F or R). The motor will run at the F268 setting.

128 H9 ASD Installation and Operation Manual

F265 F269

UP/DOWN Frequency (up) Frequency Step Direct Access Number — F265

No Path — Direct Access Only Parameter Type — Numerical
Factory Default — 0.10
This parameter sets the frequency increase amount for each activation of the
Changeable During Run — Yes
UP/DOWN Frequency (up) terminal activation. The rate of the frequency
increase is set at Acceleration Time 1 (F009). Minimum — 0.00
Maximum — Max. Freq. (F011)
See F264 for more information on this parameter.
Units — Hz
UP/DOWN Frequency (down) Response Time Direct Access Number — F266
No Path — Direct Access Only Parameter Type — Numerical
Factory Default — 0.1
This parameter sets the system-response delay to the initial activation of the
Changeable During Run — Yes
discrete input terminal UP/DOWN Frequency (down). Also sets the activation
delay of subsequent terminal activations of the UP/DOWN Frequency (down) Minimum — 0.0
terminal during an activate-and-hold. Maximum — 10.0
See F264 for more information on this parameter. Units — Seconds

UP/DOWN Frequency (down) Frequency Step Direct Access Number — F267

No Path — Direct Access Only Parameter Type — Numerical
Factory Default — 0.10
This parameter sets the frequency decrease amount for each activation of the
Changeable During Run — Yes
UP/DOWN Frequency (down) terminal activation. The rate of the frequency
decrease is set at Deceleration Time 1 (F010). Minimum — 0.00
See F264 for more information on this parameter. Maximum — Max. Freq. (F011)
Units — Hz
Initial UP/DOWN Frequency Direct Access Number — F268
No Path — Direct Access Only Parameter Type — Numerical
Factory Default — 0.00
At power up or after a reset, this parameter setting is used to provide a starting
Changeable During Run — Yes
frequency for the UP/DOWN Frequency function.
Minimum — Lower-Limit (F013)
See F269 for more information on this parameter setting.
Maximum — Upper-Limit (F012)
Units — Hz
Initial UP/DOWN Frequency Rewriting Direct Access Number — F269
No Path — Direct Access Only Parameter Type — Selection List
Factory Default — Enabled
At power down, and when enabled, this parameter writes the running frequency
Changeable During Run — Yes
into the F268 location and, upon a system restart, uses this setting as the startup
frequency.
Disable this parameter and set parameter F268 to the desired startup frequency
if the same starting frequency is required at each startup.

Note: This parameter setting may be different at each startup when

enabled.

Settings:
0 — Disabled
1 — Enabled (overwrite F268 at Power Off or Reset)

H9 ASD Installation and Operation Manual 129

F270 F270

Figure 29. UP/Down Frequency Operation Control Timing Diagram.

Jump Frequency 1 Direct Access Number — F270

Program Special Jump Frequencies Parameter Type — Numerical
Factory Default — 0.00
In conjunction with parameter F271, this parameter establishes a user-defined
Changeable During Run — Yes
frequency range: the Jump Frequency and a plus-or-minus value.
Minimum — 0.00
During acceleration, the output frequency of the drive will hold at the lower Maximum — Max. Freq. (F011)
level of the Jump Frequency range until the programmed acceleration ramp
reaches the upper level of the Jump Frequency range. At which time the Units — Hz
output frequency of the drive will accelerate to the upper level of the Jump
Frequency range and continue upward as programmed.

During deceleration, the output frequency of the drive will hold at the upper
level of the Jump Frequency range until the programmed deceleration ramp
reaches the lower level of the Jump Frequency range. At which time the
output frequency of the drive will decelerate to the lower level of the Jump
Frequency range and continue downward as programmed.

Once set up and enabled, it is on in all control modes.

User-selected frequencies may be jumped to avoid the negative effects of

mechanical resonance.

130 H9 ASD Installation and Operation Manual

F271 F287

Jump Frequency 1 Bandwidth Direct Access Number — F271

Program Special Jump Frequencies Parameter Type — Numerical
Factory Default — 0.00
This parameter establishes a plus-or-minus value for Jump Frequency 1 (see
Changeable During Run — Yes
F270).
Minimum — 0.00
Maximum — 30.00
Units — Hz
Jump Frequency 2 Direct Access Number — F272
Program Special Jump Frequencies Parameter Type — Numerical
Factory Default — 0.00
Same as Jump Frequency 1 (F270) and is used when multiple frequencies are
Changeable During Run — Yes
to be jumped (see the plus-or-minus value setting at F273). When multiple
jump frequencies overlap, the system will recognize the lowest and the highest Minimum — 0.00
frequencies as one jump range. Maximum — Max. Freq. (F011)
Units — Hz
Jump Frequency 2 Bandwidth Direct Access Number — F273
Program Special Jump Frequencies Parameter Type — Numerical
Factory Default — 0.00
This parameter establishes a plus-or-minus value for Jump Frequency 2
Changeable During Run — Yes
(F272).
Minimum — 0.00
Maximum — 30.0
Units — Hz
Jump Frequency 3 Direct Access Number — F274
Program Special Jump Frequencies Parameter Type — Numerical
Factory Default — 0.00
Same as Jump Frequency 1 (F270) and is used when multiple frequencies are
Changeable During Run — Yes
to be jumped (see the plus-or-minus value setting at F275).
Minimum — 0.00
When multiple jump frequencies overlap, the system will recognize the lowest
and the highest frequencies as one jump range. Maximum — Max. Freq. (F011)
Units — Hz
Jump Frequency 3 Bandwidth Direct Access Number — F275
Program Special Jump Frequencies Parameter Type — Numerical
Factory Default — 0.00
This parameter establishes a plus-or-minus value for Jump Frequency 3
Changeable During Run — Yes
(F274).
Minimum — 0.00
Maximum — 30.0
Units — Hz
Preset Speed 8 Direct Access Number — F287
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1000 and is
Changeable During Run — Yes
identified as Preset Speed 8. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz

H9 ASD Installation and Operation Manual 131

F288 F293

Preset Speed 9 Direct Access Number — F288

Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.0
This parameter assigns an output frequency to binary number 1001 and is
Changeable During Run — Yes
identified as Preset Speed 9. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 10 Direct Access Number — F289
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1010 and is
Changeable During Run — Yes
identified as Preset Speed 10. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 11 Direct Access Number — F290
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1011 and is
Changeable During Run — Yes
identified as Preset Speed 11. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 12 Direct Access Number — F291
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1100 and is
Changeable During Run — Yes
identified as Preset Speed 12. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 13 Direct Access Number — F292
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1101 and is
Changeable During Run — Yes
identified as Preset Speed 13. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
Preset Speed 14 Direct Access Number — F293
Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1110 and is
Changeable During Run — Yes
identified as Preset Speed 14. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz

132 H9 ASD Installation and Operation Manual

F294 F301

Preset Speed 15 Direct Access Number — F294

Program Frequency Preset Speeds Parameter Type — Numerical
Factory Default — 0.00
This parameter assigns an output frequency to binary number 1111 and is
Changeable During Run — Yes
identified as Preset Speed 15. The binary number is applied to S1 – S4 of the
Terminal Board to output the Preset Speed (see F018 for more information on Minimum — Lower-Limit (F013)
this parameter). Maximum — Upper-Limit (F012)
Units — Hz
PWM Carrier Frequency Direct Access Number — F300
Program Special Carrier Frequency Parameter Type — Numerical
Factory Default — 2.200
This parameter sets the frequency of the pulse width modulation signal applied
Changeable During Run — No
to the motor.
Minimum — 1.0
Note: When operating in the Vector Control mode the carrier Maximum — (ASD-Dependent)
frequency should be set to 2.2 kHz or above.
Units — kHz
Note: If the PWM carrier frequency is set at 2.0 kHz or above, it cannot
be decreased below 2.0 kHz while running. If the PWM carrier
frequency is set at 1.9 kHz or below, it cannot be increased above
2.0 kHz while running. Either change requires that the ASD be
stopped and restarted for the changes to take effect.
Auto Restart Selection Direct Access Number — F301
Program Protection Retry/Restart Parameter Type — Selection List
Factory Default — Off
This parameter Enables/Disables the ability of the drive to start into a spinning
Changeable During Run — No
motor when the ST – CC connection opens momentarily and is then closed
(Break/Make ST) or after a power interruption (momentary power failure).

Settings:
0 — Off
1 — Enabled (at Power Failure)
2 — Enabled (at Make-Break ST-CC)
3 — Enabled (at Make-Break ST-CC or Power Failure)
4 — Enabled (at Run)

H9 ASD Installation and Operation Manual 133

F302 F302

Regenerative Power Ridethrough Mode Direct Access Number — F302

Program Protection Under-Voltage/Ridethrough Parameter Type — Selection List
This parameter determines the motor control response of the drive in the event Factory Default — Off
of a momentary power outage or under-voltage condition. Changeable During Run — Yes
During a Ridethrough, regenerative energy is used to maintain the control
circuitry settings for the duration of the Ridethrough; it is not used to drive the
motor. The motor(s) of the system are stopped and then restarted automatically
if so configured.
In a multiple-motor application, there will be a requirement to synchronize the
stopping and restarting of the motors as not to cause breakage in the product
being processed by the motors stopping/starting at different times (e.g., wire
spools, bobbin winder for textile machines, etc.). Parameters F317 and F318
must be setup to synchronize motor operation as to avoid breakage in these
types of applications.

Note: If used to restart the motors, the Retry setup of F301 is required.

Note: The Jog function will not operate while in the Synchronized
Decel/Accel mode.

Settings:
0 — Off
1 — Ridethrough On
2 — Decel Stop
3 — Synchronized ACC/DEC (TB)
4 — Synchronized ACC/DEC (TB + Power Off)

Ridethrough Setup Requirements

1. Select the Ridethrough Mode at F302.
2. Select the Ridethrough Time at F310.
3. Select the Synchronized Stop/Start Times at F317/F318 (if required).

Note: F317 and F318 are not functional while operating in the Torque
or Position control modes, or for the Jog Run function (F260).

4. Set a discrete input terminal to Power Failure Synchronized Signal and

activate the terminal to enable the Synchronized Accel/Decel function.
5. Select the Ridethrough Control Level at F629.

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F303 F303

Retry Selection Direct Access Number — F303

Program Protection Retry/Restart Parameter Type — Numerical

After a trip has occurred, this parameter sets the number of times that an Factory Default — 00
automatic system restart is attempted for a qualified trip. Changeable During Run — Yes
The trip conditions listed below will not initiate the automatic Retry/Restart Minimum — 00
function:
Maximum — 10
• Input Phase Loss (Input Phase Failure)
• Output Phase Loss (Output Phase Failure)
• Output Current Protection Fault
• Output Current Detector Error
• Load Side Over-Current at Start
• Earth Fault (Ground Fault)
• Over-Current During Acceleration
• Arm Over-Current at Start-Up
• DBR Resistor Over-Current
• Low-Current
• Voltage Drop In Main Circuit
• EEPROM Data Fault (EEPROM Fault)
• Flash Memory/Gate Array/RAM-ROM Fault
• CPU Fault
• Emergency Off (EMG)
• Communication Error
• Option Fault
• Sink/Source Setting Error
• Over-Speed Error
• Over-Torque
• Key Error
• External Thermal Error
• Externally-Controlled Interrupt

See the section titled System Setup Requirements on pg. 8 for more information
on this setting.

H9 ASD Installation and Operation Manual 135

F304 F305

Dynamic Braking Direct Access Number — F304

Program Protection Dynamic Braking Parameter Type — Selection List
This parameter Enables/Disables the Dynamic Braking system. Factory Default — Off

Settings: Changeable During Run — No

0 — Off
1 — On with Overload Detection
2 — On without Overload Detection

Dynamic Braking uses the transistor IGBT7 to dissipate the bus voltage when
required.
IGBT7 is a standard item on the 25 HP and below H9 ASD 230-volt systems
and is standard on the 400 HP and below for the for the 460-volt systems.
IGBT7 is optional for all remaining systems.

Dynamic Braking
Dynamic Braking is used to prevent over-voltage faults during rapid
deceleration or constant speed run on cyclic overhauling applications.
Dynamic Braking dissipates regenerated energy in the form of heat. When
using a DBR use thermal protection.
The resistive load is connected across terminals PA and PB (non-polarized).
Using a low-value, high-wattage resistance as a load for the generated current,
the resistive load dissipates the induced energy.
Dynamic Braking helps to slow the load quickly; it cannot act as a holding
brake.
The Dynamic Braking function may be setup and enabled by connecting a
braking resistor from terminal PA to PB of the drive and providing the proper
information at F304, F308, and F309.
See the section titled Dynamic Braking System Specifications on pg. 266 for
more information on using the DBR system and for assistance in selecting the
appropriate resistor for a given application.
Over-Voltage Limit Operation Direct Access Number — F305
Program Protection Stall Parameter Type — Selection List
This parameter enables the Over-Voltage Limit function. This feature is used Factory Default — (ASD-Dependent)
to set the upper DC bus voltage threshold that, once exceeded, will cause an Changeable During Run — Yes
Over-Voltage Stall.
An Over-Voltage Stall increases the output frequency of the drive during
deceleration for a specified time in an attempt to prevent an Over-Voltage Trip.
If the over-voltage threshold level setting of parameter F626 is exceeded for
over 4 mS, an Over-Voltage Trip will be incurred.

Note: This parameter setting may increase deceleration times.

Settings:
0 — Enabled (Over-voltage Stall)
1 — Disabled
2 — Enabled (Forced Shorted Deceleration)
3 — Enabled (Forced Dynamic Braking Deceleration)

136 H9 ASD Installation and Operation Manual

F307 F310

Supply Voltage Correction Direct Access Number — F307

Program Protection Base Frequency Voltage Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Voltage Compensation function.
Changeable During Run — No
When Enabled, this function provides a constant V/f ratio during periods of
input voltage fluctuations.

Settings:
0 — Disabled (Output Voltage Unlimited)
1 — Enabled (Supply Voltage Compensation)
2 — Disabled (Output Voltage Limited)
3 — Enabled (Supply Voltage Compensation w/Output Voltage Limited)
Dynamic Braking Resistance Direct Access Number — F308
Program Protection Dynamic Braking Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used to input the resistive value of the Dynamic Braking
Changeable During Run — No
Resistor being used.
Minimum — 0.5
Light-duty and heavy-duty resistors vary from a few ohms to several hundred
ohms. The appropriate resistance size will be typeform- and application- Maximum — 1000.0
specific. Units — 
See the section titled Dynamic Braking System Specifications on pg. 266 for
more information on using the DBR system and for assistance in selecting the
appropriate resistor for a given application.

Note: Using a resistor value that is too low may result in system
damage.
Continuous Dynamic Braking Capacity Direct Access Number — F309
Program Protection Dynamic Braking Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used to input the wattage of the Dynamic Braking Resistor.
Changeable During Run — No
See the section titled Dynamic Braking System Specifications on pg. 266 for
Minimum — 0.01
more information on using the DBR system.
Maximum — 600.00
Note: Using a resistor with a wattage rating that is too low may result
Units — kW
in system damage.
Ridethrough Time Direct Access Number — F310
Program Protection Retry/Restart Parameter Type — Numerical
Factory Default — 2.0
In the event of a momentary power outage, this parameter determines the length
Changeable During Run — Yes
of the Ridethrough time.
Minimum — 0.1
The Ridethrough will be maintained for the number of seconds set using this Maximum — 320.0
parameter.
Units — Seconds
See parameter F302 for more information on the Ridethrough function.

Note: The actual Ridethrough Time is load-dependent.

H9 ASD Installation and Operation Manual 137

F311 F317

Forward Run/Reverse Run Disable Direct Access Number — F311

Program Frequency Forward/Reverse Disable Parameter Type — Selection List
Factory Default — Off
This parameter Enables/Disables the Forward Run or Reverse Run mode.
Changeable During Run — No
If either direction is disabled, commands received for the disabled direction will
not be recognized.
If both directions are disabled, the received direction command will determine
the direction of the motor rotation.

Settings:
0 — Off
1 — Disable Reverse Run
2 — Disable Forward Run
Random Mode Direct Access Number — F312
Program Protection Retry/Restart Parameter Type — Selection List

This parameter adjusts the carrier frequency randomly. This feature is effective Factory Default — Disabled
in minimizing the negative effects of mechanical resonance. Changeable During Run — No

Settings:
0 — Disabled
1 — Enabled
Carrier Frequency Control Mode Direct Access Number — F316
Program Special Carrier Frequency Parameter Type — Selection List
Factory Default — Valid Decrease and
This parameter provides for the automatic decrease of the carrier frequency. No Limit
Select 1 to decrease the Carrier Frequency setting as a function of an Changeable During Run — Yes
increased current requirement.
Selection 2 or 3 may also include an output voltage drop as a function of an
increased current requirement. The Carrier Frequency should be set below
4 kHz.

Settings:
0 — No Decrease and No Limit
1 — Valid Decrease and No Limit
2 — No Decrease and Limit Small Pulse
4 — Valid Decrease and Limit Small Pulse
Synchronized Deceleration Time Direct Access Number — F317
Program Protection Under-Voltage/Ridethrough Parameter Type — Numerical
Factory Default — 2.0
In the event that the Ridethrough function activates in a multiple-motor
Changeable During Run — Yes
application it will be necessary to manage the stopping motors synchronously
as not to damage the product being processed (e.g., wire spools, bobbin winder Minimum — 0.1
for textile machines, etc.). Maximum — 6000.0
This parameter is used to minimize the product breakage during a momentary Units — Seconds
power outage. This function stops multiple machines simultaneously or makes
them reach their respective command frequencies simultaneously by regulating
their deceleration times.
See parameter F302 for more information on this setting.

138 H9 ASD Installation and Operation Manual

F318 F322

Synchronized Acceleration Time Direct Access Number — F318

Program Protection Under-Voltage/Ridethrough Parameter Type — Numerical
Factory Default — 2.0
In the event that the Ridethrough function activates in a multiple-motor
Changeable During Run — Yes
application it will be necessary to manage the accelerating motors
synchronously as not to damage the product being processed (e.g., wire spools, Minimum — 0.10
bobbin winder for textile machines, etc.). Maximum — 6000
This parameter is used to minimize the product breakage during a momentary Units — Seconds
power outage. This function orchestrates the acceleration of multiple machines
simultaneously or makes them reach their respective command frequencies
simultaneously by regulating their acceleration times.
See parameter F302 for more information on this setting.
Drooping Gain Direct Access Number — F320
Program Feedback Drooping Control Parameter Type — Numerical
Factory Default — 0.0
This parameter sets the effective 100% output torque level while operating in
Changeable During Run — Yes
the Drooping Control mode. This value is the upper torque limit of the motor
being driven by a given ASD while operating in the Drooping Control mode. Minimum — 0.00
Maximum — 100.0
Note: The maximum frequency output is not limited by the setting of
F011 while operating in the Drooping Control mode. Units — %

Drooping
Drooping Control, also called Load Share, is used to share the load among
two or more mechanically coupled motors. Unlike Stall, which reduces the
output frequency in order to limit the load once the load reaches a preset level,
Drooping can decrease or increase the V/f setting of a motor to maintain a
balance between the output torque levels of mechanically coupled motors.
Because of variances in gearboxes, sheaves, belts, motors, and since the speed
of the motor is constrained by the mechanical system, one motor may
experience more load than its counterpart and may become overloaded.
Drooping Control allows the overloaded motor to slow down, thus shedding
load and encouraging a lightly-loaded motor to pick up the slack. The goal of
Drooping Control is to have the same torque ratios for mechanically coupled
motors.
Speed at 0% Drooping Gain Direct Access Number — F321
Program Feedback Drooping Control Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the motor speed when at the 0% output torque gain while
Changeable During Run — Yes
operating in the Drooping Control mode. This function determines the lowest
speed that Drooping will be in effect for motors that share the same load. Minimum — 0.00
Maximum — 320.0
Units — Hz
Speed at F320 Drooping Gain Direct Access Number — F322
Program Feedback Drooping Control Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the motor speed when at the 100% output torque gain while
Changeable During Run — Yes
operating in the Drooping Control mode. This function determines the speed
of the individual motors at the 100% Drooping Gain setting for motors that Minimum — 0.00
share the same load. Maximum — 320.0
Units — Hz

H9 ASD Installation and Operation Manual 139

F323 F329

Drooping Insensitive Torque Direct Access Number — F323

Program Feedback Drooping Control Parameter Type — Numerical
Factory Default — 10.00
This parameter defines a torque range in which the Drooping Control settings
Changeable During Run — Yes
will be ignored and the programmed torque settings will be followed.
Minimum — 0.00
Maximum — 100.0
Units — %
Drooping Output Filter Direct Access Number — F324
Program Feedback Drooping Control Parameter Type — Numerical
Factory Default — 100.0
This parameter is used to set the rate of output change allowed when operating
Changeable During Run — Yes
in the Drooping Control mode.
Minimum — 0.1
Jerky operation may be reduced by increasing this setting.
Maximum — 200.0
Units — Radians/Second
Light-Load High-Speed Operation Direct Access Number — F328
Program Special Crane/Hoist Settings Parameter Type — Selection List
Factory Default — Off
This parameter enables the Light-Load High-Speed function by selecting an
Changeable During Run — Yes
operating mode. The Light-Load High-Speed function accelerates the output
frequency of the ASD from the programmed speed to the setting established in
F330.

This parameter may be disabled.

Enabling the Light-Load High-Speed function requires that an operating mode
be selected here, and that the criteria of parameters F331 – F333 be met.

Settings:
0 — Off
1 — Auto Speed (F-Motor: Up, R-Generator:Down)
2 — Auto Speed (F-Generator: Down, R-Motor:Up)
3 — F330 Setting (F-Motor: Up, R-Generator:Down)
4 — F330 Setting (F-Generator: Down, R-Motor:Up)
Light-Load High-Speed Learning Function Direct Access Number — F329
Program Special Crane/Hoist Settings Parameter Type — Selection List
Factory Default — Off
The Light-Load High-Speed function accelerates the output frequency of the
Changeable During Run — No
ASD from the programmed speed to the setting established in F330 and is
primarily used with Crane/Hoist functions.

During Light-Load High-Speed operation with this parameter enabled,

parameters Panel Torque Bias (F343), Creep Frequency (F346), and the
Creep Time (F347) are set to a standard set of light-load profile values.
Application-specific adjustments may be required.

Note: This function should be setup with a light load only.

Settings:
0 — Off
1 — Forward/Reverse
2 — Forward Only

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F330 F334

Automatic Light-Load High-Speed Operation Frequency Direct Access Number — F330

Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 60.00
This parameter establishes the speed to which the ASD will ramp when
Changeable During Run — No
operating in the Light-Load High-Speed mode.
Minimum — 30.00
Maximum — Upper-Limit (F012)
Units — Hz
Light-Load High-Speed Operation Switching Lower-Limit Direct Access Number — F331
Frequency Parameter Type — Numerical
Program Special Crane/Hoist Settings Factory Default — 40.00
Changeable During Run — Yes
This parameter sets an output frequency threshold that, once surpassed, allows
the Light-Load High-Speed function to be used. Minimum — 30.0
Maximum — Upper-Limit (F012)
The Light-Load High-Speed function may be used if the frequency threshold
set at this parameter and the following conditions are met: Units — Hz

1) Light-Load High-Speed Operation Enable is configured at F328.

2) The output torque is less than the setting established in F335 when reaching
the frequency setting here.
Light-Load High-Speed Operation Load Wait Time Direct Access Number — F332
Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 0.5
This parameter determines the length of time that the load requirement must
Changeable During Run — Yes
meet the Light-Load High-Speed criteria before the Light-Load High-Speed
Enable (F328) is recognized. Minimum — 0.0

Once recognized, the timer setting of F333 must expire to engage the Light- Maximum — 10.0
Load High-Speed function. Units — Seconds
Light-Load High-Speed Operation Detection Time Direct Access Number — F333
Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 1.0
After the time setting of F332 times out, this parameter determines the length of
Changeable During Run — Yes
time that the Light-Load High-Speed criteria must be met until the Light-
Load High-Speed function engages. Minimum — 0.0
Maximum — 10.0
Units — Seconds
Light-Load High-Speed Operation Heavy-Load Detection Direct Access Number — F334
Time Parameter Type — Numerical
Program Special Crane/Hoist Settings Factory Default — 0.5
Changeable During Run — Yes
While operating in the Light-Load High-Speed mode, this parameter
determines the length of time that a load exceeding the Light-Load High- Minimum — 0.0
Speed operation criteria may exist before the Light-Load High-Speed mode is Maximum — 10.0
terminated and normal operation resumes.
Units — Seconds

H9 ASD Installation and Operation Manual 141

F335 F341

Switching Load Torque During Power Running Direct Access Number — F335
Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 50.00
During power running, this parameter establishes the threshold torque level that
Changeable During Run — No
is used to determine if the Light-Load High-Speed (F328) operation may
engage or remain engaged if active. Minimum — -250.00

If the Light-Load High-Speed operation is terminated normal operation Maximum — +250.00

resumes. Units — %

Note: Power running may be during forward, reverse, acceleration, or

deceleration, but not during regeneration.
Heavy-Load Torque During Power Running Direct Access Number — F336
Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 100.00
During power running, this parameter establishes the threshold torque level that
Changeable During Run — Yes
is used to determine if the Light-Load High-Speed (F328) operation may
engage or remain engaged if active. Minimum — -250.00

If the Light-Load High-Speed operation is terminated normal operation Maximum — +250.00

resumes. Units — %
Heavy-Load Torque During Constant Power Running Direct Access Number — F337
Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 50.00
During constant power running, this parameter establishes the threshold torque
Changeable During Run — Yes
level that is used to determine if the Light-Load High-Speed (F328) operation
may engage or remain engaged if active. Minimum — -250.00

If the Light-Load High-Speed operation is terminated normal operation Maximum — +250.00

resumes. Units — %
Switching Load Torque During Regenerative Braking Direct Access Number — F338
Program Special Crane/Hoist Settings Parameter Type — Numerical
Factory Default — 50.00
During regenerative braking, this parameter establishes the threshold torque
Changeable During Run — Yes
level that is used to determine if the Light-Load High-Speed (F328) operation
may engage or remain engaged if active. Minimum — -250.00

If the Light-Load High-Speed operation is terminated normal operation Maximum — +250.00

resumes. Units — %
Braking Mode Selection Direct Access Number — F341
Program Torque Torque Control Parameter Type — Selection List
Factory Default — Disabled
This parameter is primarily used with lifting systems to allow for enough torque
Changeable During Run — Yes
to be produced after receiving a Run command before releasing the brake.
Without this feature the load would drop for a period once the brake was
released.
This parameter enables this function by setting the system operating mode.

Settings:
0 — Disabled
1 — Forward Direction
2 — Reverse Direction
3 — Same Direction

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F342 F346

Torque Bias Input Selection Direct Access Number — F342

Program Torque Torque Control Parameter Type — Selection List
Factory Default — Disabled
Once enabled at parameter F341, this parameter sets the source of the input
Changeable During Run — Yes
signal that will set the torque level used to provide the Braking Mode
Selection function of parameter F341.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — EOI (Keypad)
5 — RS485 2-Wire
6 — RS485 4-Wire
7 — Communication Option Board
8 — RX2 Option (AI1)
Panel Torque Bias Direct Access Number — F343
Program Torque Torque Control Parameter Type — Numerical
Factory Default — 100.00
Once enabled at parameter F341, this parameter establishes the torque bias
Changeable During Run — Yes
setting to which the setting of F342 will either add to or subtract from to
produce the final torque value used to carry out the Braking Mode Selection Minimum — -250.00
function of parameter F341. Maximum — +250.00
Units — %
Panel Torque Gain Direct Access Number — F344
Program Torque Torque Control Parameter Type — Numerical
Factory Default — 100.00
Once enabled at parameter F341, this parameter sets the sensitivity of the
Changeable During Run — Yes
torque control source selected at F342 for the Braking Mode Selection
function of parameter F341. Minimum — 0.00
Maximum — 100.00
Units — %
Release Time Direct Access Number — F345
Program Torque Torque Control Parameter Type — Numerical
Factory Default — 0.05
Once enabled at parameter F341, this parameter sets the time that the brake will
Changeable During Run — Yes
hold after the requirements of the Braking Mode Selection function of
parameter F341 have been met. Minimum — 0.00
Maximum — 2.50
Units — Seconds
Creeping Frequency Direct Access Number — F346
Program Torque Torque Control Parameter Type — Numerical
Factory Default — 3.00
Once enabled at parameter F341, and while running, upon receiving a Stop
Changeable During Run — Yes
command this parameter sets an output frequency to be provided for the
duration of the time setting of parameter F347. Minimum — F240 Setting
Maximum — 20.0
Units — Hz

H9 ASD Installation and Operation Manual 143

F347 F349

Creeping Time Direct Access Number — F347

Program Torque Torque Control Parameter Type — Numerical
Factory Default — 0.10
Once the Creep function of F346 is activated, this parameter determines the
Changeable During Run — Yes
duration of activation of the Creep function.
Minimum — 0.0
Maximum — 2.50
Units — Seconds
Braking Time Learning Function Direct Access Number — F348
Program Torque Torque Control Parameter Type — Selection List
Factory Default — Disabled
This parameter is used to establish approximate settings for parameters F343,
Changeable During Run — Yes
F345, F346, and F347.

Note: Setting this parameter should be done using a light load only.

Set this parameter to Brake Signal Learning. Provide a Run command. The
aforementioned parameters will receive approximate values. Application-
specific adjustments may be required when finished.

Settings:
0 — Disabled
1 — Enabled
Accel/Decel Suspend Direct Access Number — F349
Program Fundamental Accel/Decel 1 Settings Parameter Type — Selection List
Factory Default — Off
To maintain a constant speed setting while running, this parameter may be used
Changeable During Run — Yes
to suspend speed changes for a user-set length of time.
The Accel/Decel Suspend function is enabled by setting this parameter to
either Terminal Board Input or to F350 – F353.
Selecting Terminal Board Input at this parameter requires that a discrete input
terminal be set to Dwell Signal (see Table 5 on pg. 234 for a listing of available
settings). Upon activation of the Dwell Signal terminal the output frequency
remains at the at-activation speed for the duration of the activation. When
deactivated the programmed accel or decel ramp resumes.
Selecting F350 – F353 at this parameter requires that the acceleration and/or the
deceleration Suspend Frequency and Suspend Time settings be completed at
F350, F351, F352, and F353. Upon reaching the frequency setting of F350
(Accel) or F352 (Decel), the Accel/Decel ramp will cease and the output
frequency will hold at the threshold frequency setting for the time setting of
F351 for acceleration or F353 for deceleration.

Settings:
0 — Off
1 — F350 – F353 Settings
2 — Terminal Board Input

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F350 F353

Acceleration Suspend Frequency Direct Access Number — F350

Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — 0.00
When Enabled at F349, this parameter is used to set the frequency at which the
Changeable During Run — Yes
Acceleration Suspend function will activate.
Minimum — 0.00
During acceleration, this parameter sets the frequency at which acceleration
will stop and the motor will run at the setting of this parameter for the time Maximum — Max. Freq. (F011)
setting of F351. Units — Hz
Acceleration Suspend Time Direct Access Number — F351
Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — 0.0
When Enabled at F349, this parameter is used to set the duration of activation
Changeable During Run — Yes
of the Acceleration Suspend function when initiated by reaching the
Acceleration Suspend Frequency setting (F350). Minimum — 0.0
Once this parameter times out the acceleration rate will resume from the point Maximum — 10.0
of suspension. Units — Seconds
Deceleration Suspend Frequency Direct Access Number — F352
Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — 0.00
When Enabled at F349, this parameter is used to set the frequency at which the
Changeable During Run — Yes
Deceleration Suspend function will activate.
Minimum — 0.00
During deceleration, this parameter sets the frequency at which deceleration
will stop and the motor will run at the setting of this parameter for the time Maximum — Max. Freq. (F011)
setting of F353. Units — Hz
Deceleration Suspend Time Direct Access Number — F353
Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — 0.0
When Enabled at F349, this parameter is used to set the duration of activation
Changeable During Run — Yes
of the Deceleration Suspend function when initiated by reaching the
Deceleration Suspend Frequency setting (F352). Minimum — 0.0
Once this parameter times out the deceleration rate will resume from the point Maximum — 10.0
of suspension. Units — Seconds

H9 ASD Installation and Operation Manual 145

F354 F354

Commercial Power/ASD Output Switching Direct Access Number — F354

Program Terminal Line Power Switching Parameter Type — Selection List
Factory Default — Off
This parameter Enables/Disables the Commercial Power/ASD Output
Changeable During Run — No
Switching function.
When enabled, the system may be set up to discontinue using the output of the
drive and to switch to the commercial power in the event that 1) a trip is
incurred, 2) a user-set frequency is reached, or 3) if initiated by a discrete input
terminal.
Once set up with the proper switching frequency and hold times, the system
will switch to commercial power upon reaching the F355 frequency criterion.
Switching may also be accomplished manually by activating the discrete input
terminal Commercial Power ASD Switching. Terminal activation forces the
ASD output speed to accelerate to the F355 switching frequency, resulting in
the ASD-to-commercial power switching.
Deactivation of the discrete input terminal starts the hold-time counter setting
(F356) for ASD-to-commercial power switching. Once timed out the motor
resumes normal commercial power operation.

Settings:
0 — Off
1 — Switch at Signal Input and Trip
2 — Switch at Signal Input with Switching Frequency
3 — Switch at Signal Input and Trip with Switching Frequency

Switching Setup Requirements

F354 — Enable the switching function.
F355 — Set the switching frequency.
F356 — (Speed) Hold -time before applying ASD output after the switch-
ing criteria has been met.
F357 — (Speed) Hold -time before applying commercial power after the
switching criteria has been met.
F358 — (Speed) Hold -time of applying commercial power after the
switching criteria has been met.
Set a discrete input terminal to Commercial Power ASD Switching.
Set OUT1 and OUT2 to Commercial Power/ASD Switching 1 and 2,
respectively.

Note: Ensure that the switching directions are the same and that F311
is set to Permit All.

Note: The OUT1 and OUT2 outputs assigned to Commercial Power/

ASD Switching Output are used to actuate the re-routing
contactors.

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F355 F359

Commercial Power/ASD Switching Frequency Direct Access Number — F355

Program Terminal Line Power Switching Parameter Type — Numerical
Factory Default — 60.00
When enabled at F354 and with a properly configured discrete output terminal,
Changeable During Run — Yes
this parameter sets the frequency at which the At Frequency Powerline
Switching function engages. Minimum — 0.00
The At Frequency Powerline Switching function commands the system to Maximum — Max. Freq. (F011)
discontinue using the output of the drive and to switch to commercial power Units — Hz
once reaching the frequency set here.
See parameter F354 for more information on this setting.
ASD Side-Switching Wait Time Direct Access Number — F356
Program Terminal Line Power Switching Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter determines the amount of time that the drive will wait before
Changeable During Run — Yes
outputting a signal to the motor once the switch-to-drive-output criteria has
been met. Minimum — 0.10
See parameter F354 for more information on this setting. Maximum — 10.00
Units — Seconds
Commercial Power Switching Wait Time Direct Access Number — F357
Program Terminal Line Power Switching Parameter Type — Numerical
Factory Default — 0.62
This parameter determines the amount of time that the drive will wait before
Changeable During Run — Yes
allowing commercial power to be applied to the motor once the switch-to-
commercial-power criteria has been met. Minimum — (ASD-Dependent)
See parameter F354 for more information on this setting. Maximum — 10.00
Units — Seconds
Commercial Power Switching Freq. Hold Time Direct Access Number — F358
Program Terminal Line Power Switching Parameter Type — Numerical
Factory Default — 2.00
This parameter determines the amount of time that the connection to
Changeable During Run — Yes
commercial power is maintained once the switch-to-drive-output criteria has
been met. Minimum — 0.10
See parameter F354 for more information on this setting. Maximum — 10.00
Units — Seconds
PID Control Switching Direct Access Number — F359
Program Feedback Feedback Settings Parameter Type — Selection List
Factory Default — PID Off
This parameter is used to set the PID control mode.
Changeable During Run — No
Selecting Process PID uses the upper and lower-limit settings of parameters
F367 and F368.
Selecting Speed PID uses the upper and lower-limit settings of parameters
F370 and F371.

Settings:
0 — PID Off
1 — Process PID
2 — Speed PID
3 — Easy Positioning PID (Not Used with the H9 ASD)

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F360 F364

PID Feedback Signal Direct Access Number — F360

Program Feedback Feedback Settings Parameter Type — Selection List
Factory Default — PID Control
This parameter Enables/Disables PID feedback control. When enabled, this Disabled
parameter determines the source of the motor control feedback.
Changeable During Run — Yes
Settings:
0 — PID Control Disabled
1 — V/I
2 — RR
3 — RX
4 — RX2 Option (AI1)
5 — Option V/I (AI2)
6 — PG Feedback Option

Proportional-Integral-Derivative (PID) — A closed-loop control technique

that seeks error minimization by reacting to three values: One that is
proportional to the error, one that is representative of the error, and one that is
representative of the rate of change of the error.
PID Feedback Delay Filter Direct Access Number — F361
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0.1
This parameter determines the delay in the ASD output response to the motor
Changeable During Run — Yes
control feedback signal signal source is selected at F360).
Minimum — 0.0
Maximum — 25.0
PID Feedback Proportional (P) Gain Direct Access Number — F362
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0.10
This parameter determines the degree that the Proportional function affects the
Changeable During Run — Yes
output signal. The larger the value entered here, the quicker the drive responds
to changes in feedback. Minimum — 0.01
Maximum — 100.0
PID Feedback Integral (I) Gain Direct Access Number — F363
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0.10
This parameter determines the degree that the Integral function affects the
Changeable During Run — Yes
output signal. The smaller the value here, the more pronounced the effect of the
integral function on the output signal. Minimum — 0.01
Maximum — 100.00
PID Deviation Upper-Limit Direct Access Number — F364
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 60.00
This parameter determines the maximum amount that the feedback may
Changeable During Run — Yes
increase the output signal.
Minimum — 0.00
Maximum — 60.00
Units — Hz

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F365 F370

PID Deviation Lower-Limit Direct Access Number — F365

Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 60.00
This parameter determines the maximum amount that the feedback may
Changeable During Run — Yes
decrease the output signal.
Minimum — 0.00
Maximum — 60.00
Units — Hz
PID Feedback Differential (D) Gain Direct Access Number — F366
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0.00
This parameter determines the degree that the Differential function affects the
Changeable During Run — Yes
output signal. The larger the value entered here, the more pronounced the affect
of the differential function for a given feedback signal level. Minimum — 0.00
Maximum — 2.55
Process Upper-Limit Direct Access Number — F367
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 60.00
Selecting Process PID at parameter F359 allows for this parameter setting to
Changeable During Run — No
function as the Upper-Limit while operating in the PID Control mode.
Minimum — Lower-Limit (F013)
Maximum — Upper-Limit (F012)
Units — Hz
Process Lower-Limit Direct Access Number — F368
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0.00
Selecting Process PID at parameter F359 allows for this parameter setting to
Changeable During Run — No
function as the Lower-Limit while operating in the PID Control mode.
Minimum — Lower-Limit (F013)
Maximum — Upper-Limit (F012)
Units — Hz
PID Control Wait Time Direct Access Number — F369
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0
This parameter is used to delay the start of PID control at start up. During the
Changeable During Run — Yes
wait time set here, the ASD will follow the frequency control input of the
process value and the feedback input will be ignored until this setting times out. Minimum — 0
At which time the PID setup assumes control. Maximum — 2400
Units — Seconds
PID Output Upper-Limit Direct Access Number — F370
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 60.00
Selecting Speed PID at parameter F359 allows for this parameter setting to
Changeable During Run — No
function as the Upper-Limit while operating in the PID Control mode.
Minimum — Lower-Limit (F013)
Maximum — Upper-Limit (F012)
Units — Hz

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F371 F376

PID Output Lower-Limit Direct Access Number — F371

Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 4.00
Selecting Speed PID at parameter F359 allows for this parameter setting to
Changeable During Run — Yes
function as the Lower-Limit while operating in the PID Control mode.
Minimum — Lower-Limit (F013)
Maximum — Upper-Limit (F012)
Units — Hz
Process Increasing Rate Direct Access Number — F372
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 10.0
This parameter is used to limit the rate that the output of the ASD may increase
Changeable During Run — Yes
for a given difference in the speed reference and the PID feedback value.
Minimum — 0.1
Maximum — 600.0
Units — Seconds
Process Decreasing Rate Direct Access Number — F373
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 10.0
This parameter is used to limit the rate that the output of the ASD may decrease
Changeable During Run — Yes
for a given difference in the speed reference and the PID feedback value.
Minimum — 0.1
Maximum — 600.0
Units — Seconds
Number of PG Input Pulses Direct Access Number — F375
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used to set the number of pulses output from a shaft-mounted
Changeable During Run — No
encoder that is used to indicate one revolution of rotation (360°) of the motor or
of the motor-driven equipment. Minimum — 12
Maximum — 9999
Number of PG Input Phases Direct Access Number — F376
Program Feedback PG Settings Parameter Type — Selection List
Factory Default — (ASD-Dependent)
This parameter determines the type of information that is supplied by the phase
Changeable During Run — Yes
encoder.

Settings:
1 — Single Phase
2 — Two Phase

150 H9 ASD Installation and Operation Manual

F377 F401

PG Disconnection Detection Direct Access Number — F377

Program Feedback PG Settings Parameter Type — Selection List
Factory Default — (ASD-Dependent)
This parameter Enables/Disables the system’s monitoring of the PG connection
Changeable During Run — Yes
status when using encoders with line driver outputs.

Note: The PG Vector Feedback Board option is required to use this

feature.

Settings:
0 — Disabled
1 — Enabled with Filter
3 — Enabled (Detect momentary power fail)
Simple Positioning Completion Range Direct Access Number — F381
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — 100
While operating in the Positioning Control mode, this parameter sets the range
Changeable During Run — Yes
of accuracy for a Stop command initiated via the terminal board.
Minimum — 1
If the setting is too low the stop may be too abrupt.
Maximum — 4000
Autotuning 1 Direct Access Number — F400
Program Motor Vector Motor Model Parameter Type — Selection List
Factory Default — Autotune Disabled
This parameter sets the Autotune command status.
Changeable During Run — No
Selecting Reset Motor Defaults for this parameter sets parameters F410, F411,
F412, and F413 to the factory default settings.

If selecting Autotune on Run Command, Autotune Initiated by Input

Terminal, or Autotune of Detail Parameters for this parameter set the Base
Frequency, Base Frequency Voltage, and the Motor Rated Revolutions to
the nameplated values of the motor to achieve the best possible Autotune
precision.

Settings:
0 — Autotune Disabled
1 — Reset Motor Defaults
2 — Enable Autotune on Run Command
3 — Autotuning by Input Terminal Signal (see Table 5 on pg. 234)
4 — Motor Constant Auto Calculation
Slip Frequency Gain Direct Access Number — F401
Program Motor  Vector Motor Model Parameter Type — Numerical
Factory Default — 70
This parameter provides a degree of slip compensation for a given load. A
Changeable During Run — Yes
higher setting here decreases the slip allowed for a given load/ASD output ratio.
Minimum — 0
Maximum — 150
Units — %

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F402 F409

Autotuning 2 Direct Access Number — F402

Program Motor Vector Motor Model Parameter Type — Selection List
Factory Default — Off
This parameter introduces a thermal element into the autotuning equation and is
Changeable During Run — No
used to automatically adjust the Autotune parameter values as a function of
increases in the temperature of the motor.

Settings:
0 — Off
1 — Self-Cooled Motor Tuning
2 — Forced Air Cooled Motor Tuning
Motor Rated Capacity Direct Access Number — F405
Program Motor Vector Motor Model Parameter Type — Numerical
Factory Default — 11.0
This parameter is used to set the (nameplated) rated capacity of the motor being
Changeable During Run — Yes
used.
Minimum — 0.1
Maximum — 500.00
Units — kW
Motor Rated Current Direct Access Number — F406
Program Motor Vector Motor Model Parameter Type — Numerical
Factory Default — 20.3
This parameter is used to set the (nameplated) current rating of the motor being
Changeable During Run — Yes
used.
Minimum — 0.1
Maximum — 2000.0
Units — Amps
Motor Rated RPM Direct Access Number — F407
Program Motor Vector Motor Model Parameter Type — Numerical
Factory Default — 1730
This parameter is used input the (nameplated) rated speed of the motor.
Changeable During Run — Yes
Minimum — 100
Maximum — 60000
Units — RPM
Base Frequency Voltage 1 Direct Access Number — F409
Program Vector Vector Motor Model Parameter Type — Numerical
Factory Default — (ASD-Dependent)
The Motor 1 Base Frequency Voltage 1 is the Motor 1 output voltage at the
Changeable During Run — Yes
Base Frequency (F014). Regardless of the programmed value, the output
voltage cannot be higher than the input voltage. Minimum — 50.0
The actual output voltage will be influenced by the input voltage of the ASD Maximum — 660.0
and the Supply Voltage Correction setting (F307). Units — Volts

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F410 F415

Motor Constant 1 (Torque Boost) Direct Access Number — F410

Program Motor  Vector Motor Model Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter sets the primary resistance of the motor. Increasing this value
Changeable During Run — Yes
can prevent a drop in the torque of the motor at low speeds. Increasing this
value excessively can result in nuisance overload tripping. Minimum — 0.0
Maximum — 30.0
Units — %
Motor Constant 2 (No-Load Current) Direct Access Number — F411
Program Motor Vector Motor Model Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used to set the current level required to excite the motor.
Changeable During Run — No
Specifying a value that is too high for this parameter may result in hunting
(erratic motor operation). Minimum — 10
Maximum — 90
Units — %
Motor Constant 3 (Leak Inductance) Direct Access Number — F412
Program Motor Vector Motor Model Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used to set the leakage inductance of the motor.
Changeable During Run — Yes
A larger setting here results in higher output torque at high speeds.
Minimum — 0
Maximum — 200
Units — %
Motor Constant 4 (Rated Slip) Direct Access Number — F413
Program Motor Vector Motor Model Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used to set the secondary resistance of the motor.
Changeable During Run — Yes
An increase in this parameter setting results in an increase of compensation for
Minimum — 0.01
motor slip.
Minimum — 25.00
Units — %
Exciting Strengthening Coefficient Direct Access Number — F415
Program Special  Special Parameters Parameter Type — Numerical
Factory Default — 100
This parameter is used to increase the magnetic flux of the motor at low-speed.
Changeable During Run — Yes
This feature is useful when increased torque at low speeds is required.
Minimum — 100
Maximum — 130
Units — %

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F416 F423

Stall Prevention Factor 1 Direct Access Number — F416

Program Protection  Stall Parameter Type — Numerical
Factory Default — 100
This parameter is to be adjusted in the event that the motor stalls when operated
Changeable During Run — No
above the base frequency.
Minimum — 10
If a momentary heavy load occurs the motor may stall before the load current
reaches the stall prevention level setting of F601. Maximum — 250
A drop in the supply voltage may cause fluctuations of the load current or may
cause motor vibration. A gradual adjustment of this parameter may alleviate
this condition.
Start with a setting of 85 at these parameters and gradually adjust them from
there one at a time until the desired results are produced.
Adjustments to this parameter may increase the load current of the motor and
subsequently warrant an adjustment at the Motor Overload Protection Level
setting.
Torque Command Selection Direct Access Number — F420
Program Torque Torque Control Parameter Type — Selection List
Factory Default — RX
When operating in the Torque Control mode, this parameter allows the user to
Changeable During Run — Yes
select the source of the torque command signal.

Settings:
1 — V/I
2 — RR
3 — RX
4 — EOI (Keypad) (F725 Setting)
5 — RS485 2-Wire
6 — RS485 4-Wire
7 — Communication Option Board
8 — RX2 Option (AI1)
Tension Torque Bias Input Direct Access Number — F423
Program Torque Torque Control Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Tension Torque Bias input function.
Changeable During Run — Yes
This feature is enabled by selecting a Tension Torque Bias input signal source.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — EOI (Keypad)
5 — RS485 2-Wire
6 — RS485 4-Wire
7 — Communication Option Board
8 — RX2 Option (AI1)

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F424 F426

Load Sharing Gain Input Direct Access Number — F424

Program Torque Torque Control Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Load Sharing Gain input function.
Changeable During Run — Yes
This feature is enabled by selecting a Load Sharing Gain input signal source.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — EOI (Keypad)
5 — RS485 2-Wire
6 — RS485 4-Wire
7 — Communication Option Board
8 — RX2 Option (AI1)
Forward Speed Limit Input Direct Access Number — F425
Program Torque  Torque Speed Limiting Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Forward Speed Limit Input control
Changeable During Run — Yes
function. When enabled and operating in the Torque Control mode, the
forward speed limit is controlled by the input selected here.

If Setting is selected, the value set at F426 is used as the Forward Speed Limit
input.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — F426 (Setting)
Forward Speed Limit Level Direct Access Number — F426
Program Torque Torque Control Parameter Type — Numerical
Factory Default — 80.0
This parameter provides a value to be used as the Forward Speed Limit setting
Changeable During Run — Yes
if F426 is selected at F425.
Minimum — 0.00
Maximum — Upper-Limit (F012)
Units — Hz

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F427 F431

Reverse Speed Limit Input Direct Access Number — F427

Program Torque Torque Control Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Reverse Speed Limit Input control
Changeable During Run — Yes
function. When enabled and operating in the Torque Control mode, the reverse
speed limit is controlled by the terminal selected here. If Setting is selected, the
value set at F428 is used as the Reverse Speed Limit input.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — Setting (F428)
Reverse Speed Limit Input Level Direct Access Number — F428
Program Torque  Torque Control Parameter Type — Numerical
Factory Default — 80.0
This parameter provides a value to be used as the Reverse Speed Limit setting
Changeable During Run — Yes
if Setting is selected at F427.
Minimum — 0.00
Maximum — Upper-Limit (F012)
Units — Hz
Speed Limit (torque=0) Center Value Reference Direct Access Number — F430
Program Torque Torque Speed Limiting Parameter Type — Selection List
Factory Default — Disabled
The system has the ability to limit the amount that the speed may vary as a
Changeable During Run — Yes
function of a changing load while operating in the Torque Control mode. This
parameter sets the input terminal that will be used to control the allowable
speed variance.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — F431 Setting
Speed Limit (torque=0) Center Value Direct Access Number — F431
Program Torque Torque Speed Limiting Parameter Type — Numerical
Factory Default — 0.00
The system has the ability to limit the amount that the speed may vary as a
Changeable During Run — Yes
function of a changing load while operating in the Torque Control mode. This
parameter sets the targeted speed. The plus-or-minus value (range) for this Minimum — 0.00
setting may be set at F432. Maximum — Max. Freq. (F011)
Units — Hz

156 H9 ASD Installation and Operation Manual

F432 F441

Speed Limit (torque=0) Band Direct Access Number — F432

Program Torque Torque Speed Limiting Parameter Type — Numerical
Factory Default — 0.00
The system has the ability to limit the amount that the speed may vary as a
Changeable During Run — Yes
function of a changing load while operating in the Torque Control mode. This
parameter sets a plus-or-minus value (range) for the Speed Limit Torque Minimum — 0.00
Level (F431). Maximum — Max. Freq. (F011)
Units — Hz
Rotation in Specified Direction ONLY Direct Access Number — F435
Program Torque Torque Speed Limiting Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Forward Run or Reverse Run mode.
Changeable During Run — No
If either direction is disabled, commands received for the disabled direction will
not be recognized.
If both directions are disabled, the received direction command will determine
the direction of the motor rotation.

Settings
0 — Disabled
1 — Enabled
Power Running Torque Limit 1 Direct Access Number — F440
Program Torque Torque Limit Settings Parameter Type — Selection List
Factory Default —F441 Setting
This parameter determines the source of the control signal for the positive
Changeable During Run — Yes
torque limit setting.

If Setting is selected, the value set at F441 is used as the Power Running
Torque Limit 1 input.

Settings:
1 — V/I
2 — RR
3 — RX
4 — F441 (Setting)
Power Running Torque Limit 1 Level Direct Access Number — F441
Program Torque Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter provides a value for the Power Running Torque Limit 1
Changeable During Run — Yes
setting if F441 is selected at parameter F440.
Minimum — 0.00
This value provides the positive torque upper-limit for the 1 motor.
Maximum — 250.0 (Disabled)
Units — %

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F442 F446

Regenerative Braking Torque Limit 1 Direct Access Number — F442

Program  Torque Torque Limit Settings Parameter Type — Selection List
Factory Default — F443 Setting
This parameter determines the source of the Regenerative Torque Limit
Changeable During Run — Yes
control signal.

If Setting is selected, the value set at F443 is used for this parameter.

Settings:
1 — V/I
2 — RR
3 — RX
4 — F443 (Setting)
Regenerative Braking Torque Limit 1 Level Direct Access Number — F443
Program Torque Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter provides a value to be used as the Regeneration Torque Limit
Changeable During Run — Yes
1 if F443 is selected at parameter F442.
Minimum — 0.00
Set this parameter to 250% to disable this function.
Maximum — 249.9
Units — %
Power Running Torque Limit 2 Level Direct Access Number — F444
Program Torque  Manual Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter is used to set the positive torque upper-limit for the 2 motor
Changeable During Run — Yes
profile when multiple motors are controlled by a single drive or when a single
motor is to be controlled by multiple profiles. Minimum — 0.00
Maximum — 250.0 (Disabled)
Units — %
Regenerative Braking Torque Limit 2 Level Direct Access Number — F445
Program Torque Manual Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter is used to set the negative torque upper-limit for the 2 motor
Changeable During Run — Yes
profile when multiple motors are controlled by a single drive or when a single
motor is to be controlled by multiple profiles. Minimum — 0.00
Maximum — 250.0 (Disabled)
Units — %
Power Running Torque Limit 3 Level Direct Access Number — F446
Program Torque Manual Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter is used to set the positive torque upper-limit for the 3 motor
Changeable During Run — Yes
profile when multiple motors are controlled by a single drive or when a single
motor is to be controlled by multiple profiles. Minimum — 0.00
Maximum — 250.0 (Disabled)
Units — %

158 H9 ASD Installation and Operation Manual

F447 F452

Regenerative Braking Torque Limit 3 Level Direct Access Number — F447

Program Torque Manual Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter is used to set the negative torque upper-limit for the 3 motor
Changeable During Run — Yes
profile when multiple motors are controlled by a single drive or when a single
motor is to be controlled by multiple profiles. Minimum — 0.00
Maximum — 250.0 (Disabled)
Units — %
Power Running Torque Limit 4 Level Direct Access Number — F448
Program Torque Manual Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter is used to set the positive torque upper-limit for the 4 motor
Changeable During Run — Yes
profile when multiple motors are controlled by a single drive or when a single
motor is to be controlled by multiple profiles. Minimum — 0.00
Maximum — 250.0 (Disabled)
Units — %
Regenerative Braking Torque Limit 4 Level Direct Access Number — F449
Program Torque Manual Torque Limit Settings Parameter Type — Numerical
Factory Default — 250.0 (Disabled)
This parameter is used to set the negative torque upper-limit for the 4 motor
Changeable During Run — Yes
profile when multiple motors are controlled by a single drive or when a single
motor is to be controlled by multiple profiles. Minimum — 0.00
Maximum — 250.0 (Disabled)
Units — %
Accel/Decel Operation After Torque Limit Direct Access Number — F451
Program Torque Torque Limit Settings Parameter Type — Selection List
Factory Default — In Sync with Accel/
In a Crane/Hoist application that is operating using a mechanical brake, this Decel
parameter is used to minimize the delay between the brake release and the
Changeable During Run — Yes
output torque reaching a level that can sustain the load.
This setting may reference time or the operating speed of the motor.

Settings:
0 — In Sync with Accel/Decel
1 — In Sync with Minimum Time
Power Running Stall Continuous Trip Detection Time Direct Access Number — F452
Program Protection Stall Parameter Type — Numerical
Factory Default — 0.0
This parameter is used to extend the Over-Voltage Stall (F305) and the Over-
Changeable During Run — Yes
Current Stall (F017) time settings.
Minimum — 0.0
Maximum — 1.0
Units — Seconds

H9 ASD Installation and Operation Manual 159

F453 F463

Stall Prevention During Regeneration Direct Access Number — F453

Program Protection Stall Parameter Type — Selection List
Factory Default — Enabled
This function of this parameter is to disable the Over-Voltage Stall (F305) and
Changeable During Run — Yes
the Over-Current Stall (F017) function during regeneration only.
Application-specific conditions may occur that warrant disabling the Stall
function during regeneration.

Settings:
0 — Disabled (Stall During Regenerative Braking)
1 — Enabled (No Stall During Regenerative Braking)
Current Control Proportional Gain Direct Access Number — F458
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter sets the sensitivity of the drive when monitoring the output
Changeable During Run — No
current to control speed.
Minimum — 0.0
The larger the value entered here, the more sensitive the drive is to changes in
the received feedback. Maximum — 100.0
Speed Loop Proportional Gain Direct Access Number — F460
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
During closed-loop operation, this parameter sets the response sensitivity of the
Changeable During Run — No
drive when monitoring the output speed for control.
Minimum — 1
The larger the value entered here, the larger the change in the output speed for a
given received feedback signal. Maximum — 9999
Speed Loop Stabilization Coefficient Direct Access Number — F461
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — 100
During closed-loop operation, this parameter sets the response sensitivity of the
Changeable During Run — Yes
drive when monitoring the output speed for control.
Minimum — 1
The larger the value entered here, the quicker the response to changes in the
received feedback. Maximum — 9999
Load Moment of Inertia 1 Direct Access Number — F462
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — 35
This parameter is used for calculating accel/decel torque when compensating
Changeable During Run — Yes
for load inertia while operating in the Drooping Control mode.
Minimum — 0
Maximum — 100
Second Speed Loop Proportional Gain Direct Access Number — F463
Program Feedback PG Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
During closed-loop operation, this parameter sets the sensitivity of the drive
Changeable During Run — No
when monitoring the output speed for control.
Minimum — 1
The larger the value entered here, the more sensitive the drive is to changes in
the received feedback. Maximum — 9999

160 H9 ASD Installation and Operation Manual

F464 F471

Second Speed Loop Stabilization Coefficient Direct Access Number — F464

Program Feedback  PG Settings Parameter Type — Numerical
Factory Default — 1
During closed-loop operation, this parameter sets the response sensitivity of the
Changeable During Run — Yes
drive when monitoring the output speed for control.
Minimum — 1
The larger the value entered here, the quicker the response to changes in the
received feedback. Maximum — 9999
Load Moment of Inertia 2 Direct Access Number — F465
Program Feedback  PG Settings Parameter Type — Numerical
Factory Default — 35
This parameter is used for calculating accel/decel torque when compensating
Changeable During Run — Yes
for load inertia while operating in the Drooping Control mode.
Minimum — 0
Maximum — 100
Speed PID Switching Frequency Direct Access Number — F466
Program Feedback Feedback Settings Parameter Type — Numerical
Factory Default — 0.00
While running, this parameter establishes the threshold speed setting that is
Changeable During Run — Yes
used to determine if PID control may engage or remain engaged if active.
Minimum — 0.00
Maximum — Max. Freq. (F011)
Units — Hz
V/I Input Bias Direct Access Number — F470
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 127
This parameter is used to fine-tune the bias of the V/I input terminals.
Changeable During Run — Yes
Note: See note on pg. 44 for more information on the V/I terminal. Minimum — 0

This setting may be used to ensure that the zero level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the zero level setting of the ASD
system.
This is accomplished by setting the input source to zero and adjusting this
setting to provide an output of zero from the ASD.
V/I Input Gain Direct Access Number — F471
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 129
This parameter is used to fine tune the gain of the V/I input terminals.
Changeable During Run — Yes
Note: See note on pg. 44 for more information on the V/I terminal. Minimum — 0

This setting may be used to ensure that the 100% level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the 100% level setting of the ASD
system.
This is accomplished by setting the input source to 100% and adjusting this
setting to provide an output of 100% from the ASD.

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F472 F475

RR Input Bias Direct Access Number — F472

Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 128
This parameter is used to fine tune the bias of the RR input terminal when this
Changeable During Run — Yes
terminal is used as the control input while operating in the Speed Control
mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the zero level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the zero level setting of the ASD
system.
This is accomplished by setting the input source to zero and adjusting this
setting to provide an output of zero from the ASD.
RR Input Gain Direct Access Number — F473
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 154
This parameter is used to fine tune the gain of the RR input terminal when this
Changeable During Run — Yes
terminal is used as the control input while operating in the Speed Control
mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the 100% level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the 100% level setting of the ASD
system.
This is accomplished by setting the input source to 100% and adjusting this
setting to provide an output of 100% from the ASD.
RX Input Bias Direct Access Number — F474
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 127
This parameter is used to fine tune the bias of the RX input terminal when this
Changeable During Run — Yes
terminal is used as the control input while operating in the Speed Control
mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the zero level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the zero level setting of the ASD
system.
This is accomplished by setting the input source to zero and adjusting this
setting to provide an output of zero from the ASD.
RX Input Gain Direct Access Number — F475
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 127
This parameter is used to fine tune the gain of the RX input terminal when this
Changeable During Run — Yes
terminal is used as the control input while operating in the Speed Control
mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the 100% level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the 100% level setting of the ASD
system.
This is accomplished by setting the input source to 100% and adjusting this
setting to provide an output of 100% from the ASD.

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F476 F479

RX2 (AI1) Input Bias Direct Access Number — F476

Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 128
This parameter is used to fine tune the bias of the RX2 (AI1) input terminal
Changeable During Run — Yes
when this terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the zero level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the zero level setting of the ASD
system.
This is accomplished by setting the input source to zero and adjusting this
setting to provide a zero output from the ASD.
RX2 (AI1) Input Gain Direct Access Number — F477
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 128
This parameter is used to fine tune the gain of the RX2 (AI1) input terminal
Changeable During Run — Yes
when this terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the 100% level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the 100% level setting of the ASD
system.
This is accomplished by setting the input source to 100% and adjusting this
setting to provide an output of 100% from the ASD.
AI2 (Option V/I) Input Bias Direct Access Number — F478
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 128
This parameter is used to fine tune the gain of the Optional AI2 input terminal
Changeable During Run — Yes
when this terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the 100% level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the 100% level setting of the ASD
system.
This is accomplished by setting the input source to 100% and adjusting this
setting to provide an output of 100% from the ASD.
AI2 (Option V/I) Input Gain Direct Access Number — F479
Program Frequency  Speed Reference Setpoints Parameter Type — Numerical
Factory Default — 128
This parameter is used to fine tune the gain of the Optional AI2 input terminal
Changeable During Run — Yes
when this terminal is used as the control input while operating in the Speed
Control mode or the Torque Control mode. Minimum — 0
This setting may be used to ensure that the 100% level of the input source (pot, Maximum — 255
pressure transducer, flow meter, etc.) is also the 100% level setting of the ASD
system.
This is accomplished by setting the input source to 100% and adjusting this
setting to provide an output of 100% from the ASD.

H9 ASD Installation and Operation Manual 163

F498 F501

Permanent Magnet (PM) Motor Constant 1 Direct Access Number — F498

Program Motor PM Motor Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used with synchronous motor applications only.
Changeable During Run — Yes
Contact the TIC Customer Support Center for information on this parameter.
Minimum — 0
Maximum — 100
Units — %
Permanent Magnet (PM) Motor Constant 2 Direct Access Number — F499
Program Motor PM Motor Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter is used with synchronous motor applications only.
Changeable During Run — Yes
Contact the TIC Customer Support Center for information on this parameter.
Minimum — 0
Maximum — 100
Units — %
Acceleration Time 2 Direct Access Number — F500
Program Special  Acc/Dec 1 – 4 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from 0.0 Hz to the Maximum Frequency for the 2 Acceleration profile. The
Accel/Decel pattern may be set using F502. The minimum Accel/Decel time Minimum — 0.1
may be set using F508. Maximum — 6000.0
This setting is also used to determine the acceleration rate of the UP/DOWN Units — Seconds
Frequency Functions.
Note: An acceleration time shorter than the load will allow may cause
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
acceleration times.
Deceleration Time 2 Direct Access Number — F501
Program Fundamental Accel/Decel 1 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
from the Maximum Frequency to 0.0 Hz for the 2 Deceleration profile. The Changeable During Run — Yes
Accel/Decel pattern may be set using F502. The minimum Accel/Decel time Minimum — 0.1
may be set using F508. Maximum — 6000
This setting is also used to determine the deceleration rate of the UP/DOWN Units — Seconds
Frequency Functions.

Note: A deceleration time shorter than the load will allow may cause
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
deceleration times.

164 H9 ASD Installation and Operation Manual

F502 F502

Acc/Dec Pattern 1 Direct Access Number — F502

Program Special  Accel/Decel 1 – 4 Settings Parameter Type — Selection List
Factory Default — Linear
This parameter enables a user-selected preprogrammed output profile that
Changeable During Run — Yes
controls the acceleration and deceleration pattern for the 1 Accel/Decel
parameter.

Settings:
0 — Linear
1 — S-Pattern 1
2 — S-Pattern 2

The figures below provide a profile of the available accel/decel patterns.

Linear acceleration and deceleration is the

default pattern and is used on most
applications.

S-pattern 1 is used for applications that

require quick acceleration and deceleration.
This setting is also popular for applications
that require shock absorption at the start of
acceleration or deceleration.

S-pattern 2 decreases the rate of change

above the base frequency for acceleration
and deceleration.

H9 ASD Installation and Operation Manual 165

F503 F503

Acc/Dec Pattern 2 Direct Access Number — F503

Program Special  Accel/Decel 1 – 4 Settings Parameter Type — Selection List
Factory Default — Linear
This parameter enables a user-selected preprogrammed output profile that
Changeable During Run — Yes
controls the acceleration and deceleration pattern for the 2 Accel/Decel
parameter.

Settings:
0 — Linear
1 — S-Pattern 1
2 — S-Pattern 2

166 H9 ASD Installation and Operation Manual

F504 F505

Acc/Dec Pattern 1 – 4 Direct Access Number — F504

Program Special  Acc/Dec Special Parameter Type — Selection List
Four Acceleration times and four Deceleration times may be set up and run Factory Default — 1
individually. Accel/Decel Time 1 – 4 may be selected using this parameter Changeable During Run — Yes
setting or switched via threshold frequencies, or by discrete input terminal.
This parameter is used to select one of the four configured accel/decel profiles
to be used. Table 4. Using combinations of
Settings: discrete terminal activations Accel/
Decel profiles 1 – 4 may be selected.
1 — Acc/Dec 1
2 — Acc/Dec 2 Acc/Dec Switching Truth
3 — Acc/Dec 3
A/D SW 1 A/D SW 2 Acc/Dec # Out
4 — Acc/Dec 4
Each Accel/Decel selection is comprised of an Acceleration Time, 0 0 1
Deceleration Time, and a Pattern selection. Selection 1, 2, and 3 have a
0 1 2
Switching Frequency setting. The Switching Frequency is used as a threshold
frequency that, once reached, the ASD switches to the next higher Acc/Dec 1 0 3
selection (i.e., 1 to 2, 2 to 3, or 3 to 4). Switching Frequency settings are also
used during deceleration. A switching frequency setting is not required for 1 1 4
Acc/Dec 4.
1 = Discrete terminal activation.
Acc/Dec 1 is set up using parameters F009 (Acc Time), F010 (Dec Time), F502
(Pattern), and F505 (Switching Frequency).
Acc/Dec 2 is set up using parameters F500 (Acc Time), F501 (Dec Time), F503
Figure 30. Using Acc/Dec Switching.
(Pattern), and F513 (Switching Frequency).
Acc/Dec 3 is set up using parameters F510 (Acc Time), F511 (Dec Time), F512
(Pattern), and F517 (Switching Frequency).
Acc/Dec 4 is set up using parameters F514 (Acc Time), and F515 (Dec Time),
F516 (Pattern).
This parameter (F504) is used to manually select Acc/Dec 1 – 4.
To switch using the Terminal Board, assign the functions Acc/Dec Switching
1 and Acc/Dec Switching 2 to two discrete input terminals. Activation
combinations of the two terminals result in the Acc/Dec 1 – 4 selections as
shown in Table 4. 1 — Accel time 1 (F009 setting)
2 — Accel time 2 (F500 setting)
Figure 30 shows the setup requirements and the resulting output frequency
3 — Accel time 3 (F510 setting)
response when using Switching Frequency settings to control the Acc/Dec
4 — Accel time 4 (F514 setting)
response of the ASD output.
5 — Decel time 4 (F515 setting)
While operating using S-Pattern 1 the system performance may be further 6 — Decel time 3 (F511 setting)
enhanced by the adjustment of parameters F506 – F509. These settings provide 7 — Decel time 2 (F501 setting)
for upper and lower Acc/Dec limit adjustments. These settings are used to 8 — Decel time 1 (F010 setting)
extend or shorten the upper or lower Acc/Dec curve.

Note: If operating from the Local mode, press Esc from the Frequency
Command screen to access this parameter.
Accel/Decel Switching Frequency 1 Direct Access Number — F505
Program Special  Accel/Decel Special Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the frequency at which the acceleration control is switched
Changeable During Run — Yes
from the Accel 1 profile to the Accel 2 profile during a multiple-acceleration
profile configuration. Minimum — 0.00
Maximum — Max. Freq. (F011)
Units — Hz

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F506 F510

S-Pattern Acceleration Lower-Limit Adjustment Direct Access Number — F506

Program Special Accel/Decel Special Parameter Type — Numerical
Factory Default — 10
During an S-Pattern 1 or 2 sequence, this parameter settings modifies the
Changeable During Run — Yes
acceleration rate for the lower part of the acceleration curve by the percentage
set here. Minimum — 0
This function is commonly used with transportation and lifting applications. Maximum — 50
See parameter F502 on pg. 165 for more information on this setting. Units — %
S-Pattern Acceleration Upper-Limit Adjustment Direct Access Number — F507
Program Special Accel/Decel Special Parameter Type — Numerical
Factory Default — 10
During an S-Pattern 1 or 2 sequence, this parameter settings modifies the
Changeable During Run — Yes
acceleration rate for the upper part of the acceleration curve by the percentage
set here. Minimum — 0
This function is commonly used with transportation and lifting applications. Maximum — 50
See parameter F502 on pg. 165 for more information on this setting. Units — %
S-Pattern Deceleration Lower-Limit Adjustment Direct Access Number — F508
Program Special Accel/Decel Special Parameter Type — Numerical
Factory Default — 10
During an S-Pattern 1 or 2 sequence, this parameter settings modifies the
Changeable During Run — Yes
deceleration rate for the lower part of the deceleration curve by the percentage
set here. Minimum — 0
This function is commonly used with transportation and lifting applications. Maximum — 50
See parameter F502 on pg. 165 for more information on this setting. Units — %
S-Pattern Deceleration Upper-Limit Adjustment Direct Access Number — F509
Program Special Accel/Decel Special Parameter Type — Numerical
Factory Default — 10
During an S-Pattern 1 or 2 sequence, this parameter settings modifies the
Changeable During Run — Yes
deceleration rate for the upper part of the deceleration curve by the percentage
set here. Minimum — 0
This function is commonly used with transportation and lifting applications. Maximum — 50
See parameter F502 on pg. 165 for more information on this setting. Units — %
Acceleration Time 3 Direct Access Number — F510
Program Special  Accel/Decel 1 – 4 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from 0.0 Hz to the Maximum Frequency for the 3 Acceleration profile. The
Accel/Decel pattern may be set using F502. The minimum Accel/Decel time Minimum — 0.1
may be set using F508. Maximum — 6000
Note: An acceleration time shorter than the load will allow may cause Units — Seconds
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
acceleration times.

168 H9 ASD Installation and Operation Manual

F511 F514

Deceleration Time 3 Direct Access Number — F511

Program Special Accel/Decel 1 – 4 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from the Maximum Frequency to 0.0 Hz for the 3 Deceleration profile.
Minimum — 0.1
The Accel/Decel pattern may be set using F502. The minimum Accel/Decel
time may be set using F508. Maximum — 6000
Note: A deceleration time shorter than the load will allow may cause Units — Seconds
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
deceleration times.
Acceleration/Deceleration Pattern 3 Direct Access Number — F512
Program Special Accel/Decel 1 – 4 Settings Parameter Type — Selection List
Factory Default — Linear
This parameter enables a user-selected preprogrammed output profile that
Changeable During Run — Yes
controls the acceleration and deceleration pattern for the 3 Accel/Decel
parameter.

Settings:
0 — Linear
1 — S-Pattern 1
2 — S-Pattern 2
Acceleration/Deceleration Switching Frequency 2 Direct Access Number — F513
Program Special Accel/Decel Special Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the frequency at which the acceleration control is switched
Changeable During Run — Yes
from the Accel 2 profile to the Accel 3 profile during a multiple-acceleration
profile configuration. Minimum — 0.00
Maximum — Max. Freq. (F011)
Units — Hz
Acceleration Time 4 Direct Access Number — F514
Program Special Accel/Decel 1 – 4 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from 0.0 Hz to the Maximum Frequency for the 4 Acceleration profile. The
Accel/Decel pattern may be set using F502. The minimum Accel/Decel time Minimum — 0.1
may be set using F508. Maximum — 6000
Note: An acceleration time shorter than the load will allow may cause Units — Seconds
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
acceleration times.

H9 ASD Installation and Operation Manual 169

F515 F521

Deceleration Time 4 Direct Access Number — F515

Program Special Accel/Decel 1 – 4 Settings Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the time in seconds for the output of the ASD to go
Changeable During Run — Yes
from the Maximum Frequency to 0.0 Hz for the 4 Deceleration profile. The
Accel/Decel pattern may be set using F502. The minimum Accel/Decel time Minimum — 0.1
may be set using F508. Maximum — 6000
Note: A deceleration time shorter than the load will allow may cause Units — Seconds
nuisance tripping and mechanical stress to loads. Automatic
Accel/Decel, Stall, and Ridethrough settings may lengthen the
deceleration times.
Acceleration/Deceleration Pattern 4 Direct Access Number — F516
Program Special Accel/Decel 1 – 4 Settings Parameter Type — Selection List
Factory Default — Linear
This parameter enables a user-selected preprogrammed output profile that
Changeable During Run — Yes
controls the acceleration and deceleration pattern for the 4 Accel/Decel
parameter.

Settings:
0 — Linear
1 — S-Pattern 1
2 — S-Pattern 2
Acceleration/Deceleration Switching Frequency 3 Direct Access Number — F517
Program Special Accel/Decel Special Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the frequency at which the acceleration control is switched
Changeable During Run — Yes
from the Accel 3 profile to the Accel 4 profile during a multiple-acceleration
profile configuration. Minimum — 0.00
Maximum — Max. Freq. (F011)
Units — Hz
Pattern Operation Selection Direct Access Number — F520
Program Pattern Run Pattern Run Parameter Type — Selection List
Factory Default — Disabled
Pattern Run operation is enabled by selecting Seconds or Minutes as a unit of
Changeable During Run — No
measure for the Operation Time setting for the selected Preset Speeds.
See Parameter F523 for more information on Selections and Group Speeds
setup.

Settings:
0 — Disabled
1 — Enabled (Units in Seconds)
2 — Enabled (Units in Minutes)
Pattern Operation Mode Direct Access Number — F521
Program Pattern Run Pattern Run Parameter Type — Selection List
Factory Default — Reset After Stop
This parameter sets the start condition of subsequent Pattern Runs after the
Changeable During Run — No
initial Pattern Run has been terminated or has completed its programming.

Settings:
0 — Reset After Stop
1 — Continue After Stop

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F522 F522

Pattern 1 Repeat Direct Access Number — F522

Program Pattern Run Pattern Run Parameter Type — Numerical
Factory Default — 255 (Infinite)
This parameter sets the number of times to repeat the Pattern Group 1.
Changeable During Run — No
Settings: Minimum — 1
1 = Once Then Stop Maximum — 255 (Infinite)
2 – 254 = Number of Repeats Units — Repetitions
255 = Infinite (Forever)

H9 ASD Installation and Operation Manual 171

F523 F523

Pattern Group 1 Selection 1 Direct Access Number — F523

Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
Groups of configured Preset Speeds may be selected and run from this screen.
Changeable During Run — No
The execution of grouped Preset Speeds in this manner is called a Pattern
Run. Minimum — Skip
One to eight user-selected Preset Speeds may be run sequentially for a user-set Maximum — 15
number of repetitions. The group of user-selected Preset Speeds is called a Units — Preset Speed Number
Pattern Group. The Pattern Run function executes the user-set Pattern
Group.
Pattern Group 1 is comprised of up to 8 Selections with each Selection being
1 of 15 possible Preset Speed settings. Skip may be selected to ignore a
Selection. Pattern Group 1
This parameter allows the user to choose one configured Preset Speed that is to
be used as Selection 1 (of 8) for Pattern Group 1. See F018 for information on Selection
configuring the individual Preset Speeds. Parameters F524 – F530 may be
setup for subsequent Selections 2 – 8. F523 F524 F525 F526 F527 F528 F529 F530

One Preset Speed number (1 – 15) or Skip is selected for Selection 1 (F523). 1 2 3 4 5 6 7 8
The number of times to repeat Pattern Group 1 is selected at F522. Set this
Skip Skip Skip Skip Skip Skip Skip Skip
value to 255 to run forever.
Setup Pattern Group 2 at F531 – F539 if more Preset Speed entries are 1 1 1 1 1 1 1 1
required. 2 2 2 2 2 2 2 2

3 3 3 3 3 3 3 3
Pattern Run Setup (for Pattern Group 1)

Preset Speed Number

4 4 4 4 4 4 4 4
1. From Program Pattern Run Speeds, select the Preset Speeds that are
to be used as the Pattern Group 1 set of Selections. Select a speed from 5 5 5 5 5 5 5 5
the 1 – 15 configured presets; 1 speed number per Selection. Set any
6 6 6 6 6 6 6 6
unused Selections to Skip.
7 7 7 7 7 7 7 7
2. From Program Pattern Run Pattern Run  Pattern Operation
Selection, enable the Pattern Run mode of operation by selecting Seconds 8 8 8 8 8 8 8 8
or Minutes as the unit of measure for the Operation Time setting. 9 9 9 9 9 9 9 9
3. From Program Pattern Run Operation Time, set the run-time for 10 10 10 10 10 10 10 10
each Preset Speed selected in step 1.
11 11 11 11 11 11 11 11
4. Configure two unused discrete input terminals for Pattern Operation
Group 1 and Pattern Operation Trigger Signal. 12 12 12 12 12 12 12 12

13 13 13 13 13 13 13 13
Note: Activation of the Pattern Operation Group 1 discrete input
terminal is required to enable Pattern Group 1 for use. 14 14 14 14 14 14 14 14
Activation of the Pattern Operation Trigger Signal discrete 15 15 15 15 15 15 15 15
input terminal starts the Pattern Group 1 pattern run.

5. From Program Pattern Run Pattern Run Pattern 1 Repeat, set to

the number of times that Pattern Group 1 is to be run. Set to 255 to run
forever.
6. From Program Pattern Run Pattern Run Pattern Operation
Mode, set the end-of-pattern command to Reset or Continue.
7. From the Remote mode (Local/Remote light is off), initiate a Run
command (i.e., F and/or R terminal On).
8. Connect the Pattern Operation Group 1 input terminal to CC.
9. Connect the Pattern Operation Trigger Signal input terminal to CC and
the Pattern Run will start and continue as programmed.
10. Open the Pattern Operation Trigger Signal connection to CC to stop the
Pattern Run before its conclusion if required.

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F524 F527

Pattern Group 1 Selection 2 Direct Access Number — F524

Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 2 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.
Pattern Group 1 Selection 3 Direct Access Number — F525
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 3 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.
Pattern Group 1 Selection 4 Direct Access Number — F526
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 4 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.
Pattern Group 1 Selection 5 Direct Access Number — F527
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 5 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.

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F528 F531

Pattern Group 1 Selection 6 Direct Access Number — F528

Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 6 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.
Pattern Group 1 Selection 7 Direct Access Number — F529
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 7 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.
Pattern Group 1 Selection 8 Direct Access Number — F530
Program Pattern Run Speeds Parameter Type — Numerical
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 8 Selection to be included in Pattern Group 1.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number
See F523 for more information on this parameter.
Pattern 2 Repeat Direct Access Number — F531
Program Pattern Run Pattern Run Parameter Type — Numerical
Factory Default — 255 (Infinite)
This parameter sets the number of times to repeat the Pattern Group 2.
Changeable During Run — No
Minimum — 1
Maximum — 255 (Infinite)
Units — Repetitions

174 H9 ASD Installation and Operation Manual

F532 F535

Pattern Group 2 Selection 1 Direct Access Number — F532

Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
the number 1 selection to be included in the Group 2 Selection. Changeable During Run — No

Skip may be selected to ignore this Selection.

Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

Pattern Group 2 Selection 2 Direct Access Number — F533
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 2 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

Pattern Group 2 Selection 3 Direct Access Number — F534
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 3 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

Pattern Group 2 Selection 4 Direct Access Number — F535
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 4 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

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F536 F539

Pattern Group 2 Selection 5 Direct Access Number — F536

Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 5 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

Pattern Group 2 Selection 6 Direct Access Number — F537
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 6 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

Pattern Group 2 Selection 7 Direct Access Number — F538
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 7 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

Pattern Group 2 Selection 8 Direct Access Number — F539
Program Pattern Run Speeds Parameter Type — Selection List
Factory Default — Skip
This parameter allows the user to select 1 of 15 configured Preset Speeds as
Changeable During Run — No
the number 8 selection to be included in the Group 2 Selection.
Skip may be selected to ignore this Selection.
Setting
0 — Skip
1 – 15 Preset Speed Number

See F523 for more information on this parameter.

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F540 F545

Speed 1 Operation Time Direct Access Number — F540

Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 1.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 2 Operation Time Direct Access Number — F541
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 2.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 3 Operation Time Direct Access Number — F542
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 3.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 4 Operation Time Direct Access Number — F543
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 4.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 5 Operation Time Direct Access Number — F544
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 5.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 6 Operation Time Direct Access Number — F545
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 6.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting

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F546 F551

Speed 7 Operation Time Direct Access Number — F546

Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 7.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 8 Operation Time Direct Access Number — F547
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 8.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 9 Operation Time Direct Access Number — F548
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 9
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 10 Operation Time Direct Access Number — F549
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 10
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 11 Operation Time Direct Access Number — F550
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 11
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 12 Operation Time Direct Access Number — F551
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 12
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting

178 H9 ASD Installation and Operation Manual

F552 F560

Speed 13 Operation Time Direct Access Number — F552

Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 13.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 14 Operation Time Direct Access Number — F553
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 14.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Speed 15 Operation Time Direct Access Number — F554
Program Pattern Run Operation Time Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the run-time for Preset Speed 15.
Changeable During Run — Yes
This time is effective when used with Group Speeds and non-Group Speeds.
Minimum — 0.1
If the Auto-Restart function is activated, the search time required for the Auto-
Maximum — 6000.0
Restart function will be subtracted from the Operation Time setting; resulting
in a shorter run time. Units — F520 Setting
Preset Speed Operation Mode Direct Access Number — F560
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Disabled
This parameter is used to set the Preset Speed operating mode.
Changeable During Run — No
Select Disabled at this parameter to use the speed command only for Preset
Speed operation.
Select Enabled at this parameter to apply the control settings of F561 – F575 to
the associated Preset Speed while operating in the Preset Speed mode.

Settings:
0 — Disabled (Preset Speed Only)
1 — Enabled (Full Preset Speed Mode)

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F561 F563

Preset Speed 1 Operation Mode Direct Access Number — F561

Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
This parameter is enabled at F560 and is used to set the speed, torque, and
Changeable During Run — No
direction of Preset Speed 1.
This screen is comprised of 4 fields that are labeled as follows: Direction, Acc/
Dec Group, V/f Group, and Torque Limit Group. Scroll to the field of
interest and press the scroll knob (Enter). Using the scroll knob, set the value
and press the scroll knob (Enter).

Parameters F562 – F575 are used to set the functions listed here for Preset
Speeds 2 – 15.

When using communications write the appropriate byte to location F561 as

indicated below.

Settings:
0 — Forward Run
1 — Reverse Run
2 — Accel/Decel Switching 1
4 — Accel/Decel Switching 2
8 — V/f Switching Signal 1
16 — V/f Switching Signal 2
32 — Torque Limit Switching Signal 1
64 — Torque Limit Switching Signal 2

Writing the following data to location F561 via communications results in:
Forward Run, A/D SW 2, V/f SW 3, Torque Lim SW 4.

Torque Limit
Switch 2 V/f Switch A/D Switch F/R
1 1 1 0 0 1 0

64 32 16 8 4 2 1
{
{

{
{

0=F
00=T-Lim 1 00=V/f 1 00=A/D 1 1=R
01=T-Lim 2 01=V/f 2 01=A/D 2
10=T-Lim 3 10=V/f 3 10=A/D 3
11=T-Lim 4 11=V/f 4 11=A/D 4

Preset Speed 2 Operation Mode Direct Access Number — F562

Program Pattern Run Operation Mode Parameter Type — Selection List

Same as Preset Speed 1 Operation Mode (see F561). Factory Default — Forward Run
Changeable During Run — No
Preset Speed 3 Operation Mode Direct Access Number — F563
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No

180 H9 ASD Installation and Operation Manual

F564 F573

Preset Speed 4 Operation Mode Direct Access Number — F564

Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 5 Operation Mode Direct Access Number — F565
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 6 Operation Mode Direct Access Number — F566
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 7 Operation Mode Direct Access Number — F567
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 8 Operation Mode Direct Access Number — F568
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 9 Operation Mode Direct Access Number — F569
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 10 Operation Mode Direct Access Number — F570
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 11 Operation Mode Direct Access Number — F571
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 12 Operation Mode Direct Access Number — F572
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 13 Operation Mode Direct Access Number — F573
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No

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F574 F602

Preset Speed 14 Operation Mode Direct Access Number — F574

Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Preset Speed 15 Operation Mode Direct Access Number — F575
Program Pattern Run Operation Mode Parameter Type — Selection List
Factory Default — Forward Run
Same as Preset Speed 1 Operation Mode (see F561).
Changeable During Run — No
Motor Overload Protection Level 1 Direct Access Number — F600
Program Fundamental Motor Set 1 Parameter Type — Numerical
Factory Default — 100
This parameter specifies the motor overload current level for Motor Set 1. This
Changeable During Run — Yes
value is entered as either a percentage of the full load rating of the ASD or as a
percentage of the FLA of the motor. Minimum — 10
The unit of measurement for this parameter may be set to A/V (Amps) or it may Maximum — 100.0
be set as a percentage of the ASD rating. The nameplated FLA of the motor Units — %
may be entered directly when Amps is selected as the unit of measurement (see
F701 to change the display unit).
Motor Overload Protection Level 1 settings will be displayed in Amps if the
EOI display units are set to A/V rather than %.
Stall Prevention Level Direct Access Number — F601
Program Protection Stall Parameter Type — Numerical
Factory Default — (ASD-Dependent)
This parameter specifies the output current level at which the output frequency
Changeable During Run — Yes
is reduced in an attempt to prevent a trip. The over-current level is entered as a
percentage of the maximum rating of the drive. Minimum — 10
Maximum — 165
Note: The Motor Overload Protection parameter must enabled at F017
to use this feature. Units — %
Retain Trip Record at Power Down Direct Access Number — F602
Program Protection Trip Settings Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Trip Record Retention setting. When
Changeable During Run — Yes
enabled, this feature logs the trip event and retains the trip information when the
system powers down. The trip information may be viewed from the (Program
 Utilities Trip History screen or the Monitor screen.
When disabled, the trip information will be cleared when the system powers
down.

Settings:
0 — Disabled
1 — Enabled

182 H9 ASD Installation and Operation Manual

F603 F605

Emergency Off Mode Settings Direct Access Number — F603

Program Protection Emergency Off Settings Parameter Type — Selection List
Factory Default — Coast Stop
This parameter determines the method used to stop the motor in the event that
Changeable During Run — No
an Emergency Off command is received and the system is configured to use
this feature.

This setting may also be associated with the FL terminals to allow the FL relay
to change states when an EOFF condition occurs by setting the FL terminal to
Fault FL (all) (see F132).

Note: A supplemental emergency stopping system should be used with

the ASD. Emergency stopping should not be a task of the ASD
alone.

Settings:
0 — Coast Stop
1 — Deceleration Stop
2 — DC Injection Braking Stop
3 — Deceleration Stop (Decel 4 setting; F515)
Emergency Off DC Injection Application Time Direct Access Number — F604
Program Protection Emergency Off Settings Parameter Type — Numerical
Factory Default — 1.0
When DC Injection is selected at F603 this parameter determines the time that
Changeable During Run — Yes
the DC Injection Braking is applied to the motor.
Minimum — 0.0
Maximum — 20.0
Units — Seconds
ASD Output Phase Failure Detection Direct Access Number — F605
Program Protection Phase Loss Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the monitoring of each phase of the 3-phase
Changeable During Run — No
output signal (U, V, or W) of the ASD. If either line is missing, inactive, or not
of the specified level for one second or more, the ASD incurs a trip.

Note: Autotune checks for phase failures regardless of this setting.

Settings:
0 — Disabled (No Detection)
1 — Enabled (Run at Startup and Retry)
2 — Enabled (Every Run Command and Retry)
3 — Enabled (During Run)
4 — Enabled (At Startup and During Run)
5 — Enabled (Detects an ALL-PHASE Failure ONLY - Will Not Trip,
Restarts At Reconnect)

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F606 F610

Overload Reduction Starting Frequency Direct Access Number — F606

Program Protection Overload Parameter Type — Numerical
Factory Default — 6.00
This parameter is primarily used with V/f motors. It is used to reduce the
Changeable During Run — Yes
starting frequency at which the Overload Reduction function begins and is
useful during extremely low-speed motor operation. Minimum — 0.00
During very low-speed operation the cooling efficiency of the motor decreases. Maximum — 30.00
Lowering the start frequency of the Overload Reduction function aides in Units — Hz
minimizing the generated heat and precluding an Overload trip.
This function is useful in loads such as fans, pumps, and blowers that have the
square reduction torque characteristic.
Set parameter F607 to the desired Overload Time Limit.
Motor 150% Overload Time Limit Direct Access Number — F607
Program Protection Overload Parameter Type — Numerical
Factory Default — 300
This parameter establishes a time that the motor may operate at 150% of its
Changeable During Run — Yes
rated current before tripping. This setting applies the time/150% reference to
the individual settings of each motor (e.g., this setting references 150% of the Minimum — 10
F600 setting for the 1 motor). Maximum — 2400
The unit will trip sooner than the time entered here if the overload is greater Units — Seconds
than 150%.
ASD Input Phase Failure Detection Direct Access Number — F608
Program Protection Phase Loss Parameter Type — Selection List
Factory Default — Enabled
This parameter enables the 3-phase input power phase loss detection feature. A
Changeable During Run — No
loss of either input phase (R, S, or T) results in a trip.

Settings:
0 — Disabled
1 — Enabled
Low-Current Detection Current Hysteresis Width Direct Access Number — F609
Program Protection Low-Current Settings Parameter Type — Numerical
Factory Default — 10
During a momentary low-current condition, this parameter provides a current
Changeable During Run — Yes
threshold level to which the low-current condition must return within the time
setting of F612 or a Low-Current Trip will be incurred. Minimum — 1
Maximum — 20
Units — %
Low-Current Trip Direct Access Number — F610
Program Protection Low-Current Settings Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the low-current trip feature.
Changeable During Run — No
When enabled, the drive will trip on a low-current fault if the output current of
the drive falls below the level defined at F611 and remains there for the time set
at F612.

Settings:
0 — Disabled
1 — Enabled

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F611 F615

Low-Current Detection Threshold Direct Access Number — F611

Program Protection Low-Current Settings Parameter Type — Numerical
Factory Default — 0
With the Low-Current Trip (F610) parameter is enabled, this function sets the
Changeable During Run — Yes
low-current trip threshold.
Minimum — 0
The threshold value is entered as a percentage of the maximum rating of the
drive. Maximum — 100
Units — %
Low-Current Trip Threshold Time Direct Access Number — F612
Program Protection Low-current Settings Parameter Type — Numerical
Factory Default — 0
With the Low-Current Trip (F610) parameter is enabled, this function sets the
Changeable During Run — Yes
time that the low-current condition must exist to cause a trip.
Minimum — 0
Maximum — 255
Units — Seconds
Short Circuit Detection At Start Direct Access Number — F613
Program Protection Special Protection Parameters Parameter Type — Selection List
This parameter determines when the system will perform an Output Short Factory Default — Every Start (Standard
Circuit test. Pulse)

Note: Selection 3 is recommended for high-speed motor applications. Changeable During Run — No
Because of the low impedance of high-speed motors the
standard-pulse setting may result in a motor malfunction.
Settings:
0 — Every Start (Standard Pulse)
1 — Power On or Reset (Standard Pulse)
2 — Every Start (Short Pulse)
3 — Power On or Reset (Short Pulse)
Over-Torque Trip Direct Access Number — F615
Program Protection Over-Torque Parameters Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the Over-Torque Tripping function.
Changeable During Run — No
When enabled, the ASD trips if an output torque value greater than the setting
of F616 or F617 exists for a time longer than the setting of F618.
When disabled, the ASD does not trip due to over-torque conditions.

Note: A discrete output terminal may be activated when an over-torque

alarm occurs if so configured (see F130).

Settings:
0 — Disabled
1 — Enabled

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F616 F621

Over-Torque Detection Level (Positive Torque) Direct Access Number — F616

Program Protection Over-Torque Parameters Parameter Type — Numerical
Factory Default — 200.00
This parameter sets the torque threshold level that is used as a setpoint for over-
Changeable During Run — No
torque tripping during positive torque. This setting is a percentage of the
maximum rated torque of the drive. Minimum — 0.00
This function is enabled at F615. Maximum — 250.00
Units — %
Over-Torque Detection Level (Negative Torque) Direct Access Number — F617
Program Protection Over-Torque Parameters Parameter Type — Numerical
Factory Default — 200.00
This parameter sets the torque threshold level that is used as a setpoint for over-
Changeable During Run — No
torque tripping during negative torque (regen). This setting is a percentage of
the maximum rated torque of the drive. Minimum — 0.00
This function is enabled at F615. Maximum — 250.00
Units — %
Over-Torque Detection Time Direct Access Number — F618
Program Protection Over-Torque Parameters Parameter Type — Numerical
Factory Default — 0.50
This parameter sets the amount of time that the over-torque condition may
Changeable During Run — No
exceed the tripping threshold level set at F616 and F617 before a trip occurs.
Minimum — 0.00
This function is enabled at F615.
Maximum — 10.0
Units — Seconds
Over-Torque Detection Hysteresis Direct Access Number — F619
Program Protection Over-Torque Parameters Parameter Type — Numerical
Factory Default — 10.00
During a momentary over-torque condition, this parameter provides a torque
Changeable During Run — Yes
threshold level to which the over-torque condition must return within the time
setting of F618 or an Over-Torque Trip will be incurred. Minimum — 0.00
Maximum — 100.00
Units — %
Cooling Fan Control Direct Access Number — F620
Program Protection Special Protection Parameters Parameter Type — Selection List
Factory Default — Automatic
This parameter sets the cooling fan run-time command.
Changeable During Run — Yes
Settings:
0 — Automatic
1 — Always On
Cumulative Operation Time Alarm Direct Access Number — F621
Program Protection Special Protection Parameters Parameter Type — Numerical
Factory Default — 610.0
This parameter sets a run-time value that, once exceeded, closes a discrete
Changeable During Run — Yes
output contact. The output signal may be used to control external equipment or
used to engage a brake. Minimum — 0.0
Associate the Total-Operation-Hours Alarm setting of Table 8 on pg. 239 to a Maximum — 999.9
discrete output contactor. Units — Hours (X 10)
Note: The time displayed is 1/10th of the actual time (0.1 hr. = 1.0 hr.).

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F622 F627

Abnormal Speed Detection Time Direct Access Number — F622

Program Protection Abnormal Speed Settings Parameter Type — Numerical
Factory Default — 0.01
This parameter sets the time that an over-speed condition must exist to cause a
Changeable During Run — Yes
trip.
Minimum — 0.01
This parameter functions in conjunction with the settings of F623 and F624.
Maximum — 100.00
Units — Seconds
Over-Speed Detection Frequency Upper Band Direct Access Number — F623
Program Protection Abnormal Speed Settings Parameter Type — Numerical
Factory Default — 0.00 (Disabled)
This parameter sets the upper level of the Base Frequency range that, once
Changeable During Run — Yes
exceeded, will cause an Over-Speed Detected alert.
Minimum — 0.0 (Disabled)
This parameter functions in conjunction with the settings of F622 and F624.
Maximum — 30.00
Units — Hz
Over-Speed Detection Frequency Lower Band Direct Access Number — F624
Program Protection Abnormal Speed Settings Parameter Type — Numerical
Factory Default — 0.00 (Disabled)
This parameter sets the lower level of the Base Frequency range that, once the
Changeable During Run — Yes
output speed falls below this setting, will cause a Speed Drop Detected alert.
Minimum — 0.00 (Disabled)
This parameter functions in conjunction with the settings of F622 and F623.
Maximum — 30.00
Units — Hz
Over-Voltage Limit Operation Level Direct Access Number — F626
Program Protection Stall Parameter Type — Numerical
This parameter sets the upper DC bus voltage threshold that, once exceeded, Factory Default — (ASD-Dependent)
will cause an Over-Voltage Stall. An Over-Voltage Stall increases the output Changeable During Run — Yes
frequency of the drive during deceleration for a specified time in an attempt to
Minimum — 100
prevent an Over-Voltage Trip.
Maximum — 150
If the over-voltage condition persists for over 4 mS, an Over-Voltage Trip will
be incurred. Units — %
This parameter is enabled at F305.

Note: This parameter setting may increase deceleration times.

Under-Voltage Trip Direct Access Number — F627
Program Protection Under-Voltage/Ridethrough Parameter Type — Selection List
This parameter Enables/Disables the Under-Voltage Trip function. Factory Default — Disabled
With this parameter Enabled, the ASD will trip if the under-voltage condition Changeable During Run — No
persists for a time greater than the F628 setting.
A user-selected contact may be actuated if so configured.
If Disabled the ASD will stop and not trip; the FL contact is not activated.

Settings:
0 — Disabled
1 — Enabled

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F628 F631

Under-Voltage Trip Detection Time Direct Access Number — F628

Program Protection Under-Voltage/Ridethrough Parameter Type — Numerical
This parameter sets the time that the under-voltage condition must exist to Factory Default — 0.03
cause an Under-Voltage Trip. Changeable During Run — No
This parameter is enabled at F627. Minimum — 0.01
Maximum — 10.00
Units — Seconds
Regenerative Power Ridethrough Control Level Direct Access Number — F629
Program Protection Under-Voltage/Ridethrough Parameter Type — Numerical
This parameter is activated during regeneration. It is used to set the low end of Factory Default — (ASD-Dependent)
the DC bus voltage threshold that, once the bus voltage drops below this Changeable During Run — No
setting, activates the setting of F302 (Ridethrough Mode).
Minimum — 55
Activation may be the result of a momentary power loss or an excessive load on
Maximum — 100
the bus voltage.
Units — %
During a Ridethrough, regenerative energy is used to maintain the control
circuitry settings for the duration of the Ridethrough; it is not used to drive the
motor.
The motor(s) of the system are stopped and then restarted automatically or may
continue seamlessly if so configured.
See F302 for more information on this parameter.

Note: This parameter setting may increase deceleration times.

Brake Answer Wait Time Direct Access Number — F630
Program Protection Special Protection Parameters Parameter Type — Numerical
This parameter is used in conjunction with the discrete input terminal setting Factory Default — 0.0 (Disabled)
Brake Answerback Input (see Table 5 on pg. 234 for more information on this Changeable During Run — Yes
feature).
Minimum — 0.0 (Disabled)
After activating the discrete input terminal Braking Request, the setting of this Maximum — 10.0
parameter starts a count-down timer in which 1) a Brake Answerback Input
Units — Seconds
response must be received or 2) the brake must release before the timer expires.

Should this timer setting expire before the Brake Answerback Input is
returned or the brake releases, a Brake Fault (E-11) is incurred. Otherwise, the
brake releases and normal motor operations resume.
ASD Overload Direct Access Number — F631
Program Protection Overload Parameter Type — Selection List
Factory Default — Thermal Detection +
This parameter is used to protect the ASD from an over-current condition. The Overload
standard overload rating of the H9 ASD is 120% operation for 60 seconds.
Changeable During Run — No
This setting allows for the overload protection to be switched from the standard
overload detection means (Thermal Detection and Overload) to thermal
detection only.

Settings:
0 — Thermal Detection + Overload
1 — Thermal Detection Only

The Thermal Detection Only selection is used when multiple devices are
installed horizontally as described on pg. 15.

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F633 F637

V/I Analog Input Broken Wire Detection Level Direct Access Number — F633
Program Terminal Input Special Functions Parameter Type — Numerical
Factory Default — 0 (Disabled)
This parameter is enabled by providing a non-zero value here. This function
Changeable During Run — No
monitors the V/I input signal and if the V/I input signal falls below the level
specified here and remains there for a period of 0.3 seconds or more a trip will Minimum — 1
be incurred (E-18). Maximum — 100
This value is entered as 0% to 100% of the V/I input signal range. Units — %
Annual Average Ambient Temperature Direct Access Number — F634
Program Special Special Parameters Parameter Type — Selection List
Factory Default — Under 30°
This parameter is used in conjunction with a discrete output terminal setting to
Changeable During Run — No
notify the operator of the remaining useful life of critical components of the
ASD system.

With a discrete output terminal set to Part Replacement Alarm (see Table 8 on
pg. 239) and the calculation derived from the parameter setting, maintenance
scheduling may be enhanced.

Settings:
1 — Under 10° C (50° F)
2 — Under 20° C (68° F)
3 — Under 30° C (86° F)
4 — Under 40° C (104° F)
5 — Under 50° C (122° F)
6 — Under 60° C (140° F)
Rush Relay Current Activation Time Direct Access Number — F635
Program Special  Special Parameters Rush Relay Current Parameter Type — Numerical
Activation Time Factory Default — 0.0
Changeable During Run — No
At system startup, this parameter sets a time-delay for the start of the Rush
Relay activation in an attempt to allow the DC bus voltage to reach the normal Minimum — 0.0
operating level before outputting a signal to the motor. Maximum — 2.5
Units — Seconds
PTC1 Thermal Selection Direct Access Number — F637
Program Special  Special Parameters PTC1 Thermal Selection Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the optional external thermal detection circuit
Changeable During Run — No
of the Expansion IO Card Option 1. A thermistor is connected from TH1+ to
TH1- of TB3 on the Expansion IO Card Option 1.
Should the thermistor resistance reading fall below 50 because of an over-
temperature condition or exceed 3000 because of an open circuit an External
Thermal Fault (OH2) will be incurred.

Note: While this parameter is Enabled, the system cannot be restarted

until the thermistor value recovers to the level of 1.8 k from an
over-temperature condition. An Auto-Restart will not be
initiated subsequent to an External Thermal Trip (OH2). A
manual restart will be required in the event of an OH2 trip.

Settings:
0 — Disabled
1 — Detect Disconnect

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F638 F641

PTC2 Thermal Selection Direct Access Number — F638

Program Special  Special Parameters PTC2 Thermal Selection Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the optional external thermal detection circuit
Changeable During Run — No
of the Expansion IO Card Option 2. A thermistor is connected from TH1+ to
TH1- of TB4 on the Expansion IO Card Option 2.
Should the thermistor resistance reading fall below 50 because of an over-
temperature condition or exceed 3000 because of an open circuit an External
Thermal Fault (OH2) will be incurred.

Note: While this parameter is Enabled, the system cannot be restarted

until the thermistor value recovers to the level of 1.8 k from an
over-temperature condition. An Auto-Restart will not be
initiated subsequent to an External Thermal Trip (OH2). A
manual restart will be required in the event of an OH2 trip.

Settings:
0 — Disabled
1 — Detect Disconnect
Braking Resistance Overload Time (10x rated torque) Direct Access Number — F639
Program Protection Dynamic Braking Parameter Type — Numerical
Factory Default — 5.0
This parameter sets the time that the braking resistor is allowed to sustain and
Changeable During Run — No
overload condition before a trip is incurred.
Minimum — 0.1
This feature is useful for applications that have a fluctuating load or for loads
that require a long deceleration time. Maximum — 600.0
Units — Seconds
Step-Out Current Detection Level Direct Access Number — F640
Program Motor PM Motor Parameter Type — Numerical
Factory Default — 100
This parameter is used with synchronous motor applications only.
Changeable During Run — Yes
Contact the TIC Customer Support Center for information on this parameter.
Minimum — 10
Maximum — 150
Units — %
Step-Out Current Detection Time Direct Access Number — F641
Program Motor PM Motor Parameter Type — Numerical
Factory Default — 00
This parameter is used with synchronous motor applications only.
Changeable During Run — Yes
Contact the TIC Customer Support Center for information on this parameter.
Minimum — 0.00
Maximum — 25.0
Units — Seconds

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F660 F661

Adding Input Selection Direct Access Number — F660

Program Feedback Override Control Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the feature that allows for the external
Changeable During Run — Yes
adjustment of the Output Frequency.
Selecting either of the input methods listed enables this feature. The selected
input is used as a modifier of the programmed Output Frequency.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — EOI (Keypad)
5 — RS485 (2-Wire)
6 — RS485 (4-Wire)
7 — Communication Option Board
8 — RX2 Option (AI1)
9 — Option V/I
10 — UP/DOWN Frequency (Terminal Board)
11 — Pulse Input (Option)
12 — Pulse Input (Motor CPU)
13 — Binary/BCD Input (Option)
Multiplying Input Selection Direct Access Number — F661
Program Feedback Override Control Parameter Type — Selection List
Factory Default — Disabled
This parameter Enables/Disables the feature that allows for the external
Changeable During Run — No
adjustment of the commanded frequency.
Selecting either of the input methods listed enables this feature. The selected
input is used as a multiplier of the commanded frequency.
If Setting (F729) is selected, the % value entered at parameter F729 is used as
the multiplier of the commanded frequency.

Settings:
0 — Disabled
1 — V/I
2 — RR
3 — RX
4 — Setting (F729)
5 — RX2 Option (AI1)

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 F670 F672

M AM Output Terminal Function Direct Access Number — F670

Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Output Current
This parameter is used to set the output function of the AM analog output
Changeable During Run — Yes
terminal. The AM analog output terminal produces an output current that is
proportional to the magnitude of the function assigned to this terminal. The
available assignments for this output terminal are listed in Table 6 on pg. 237.

Note: To read current at this terminal connect a 100 – 500 resistor from
the AM (+) terminal through the series Ammeter to the CC (-)
terminal.

AM Terminal Setup Parameters

F670 — Set AM Function
F671 — Calibrate AM Terminal
F685 — Output Response Polarity Selection
F686 — Set Zero Level
AM Output Terminal Adjustment Direct Access Number — F671
Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 512
This parameter is used to calibrate the AM analog output.
Changeable During Run — Yes
To calibrate the AM analog output, connect an ammeter as described at
Minimum — 1
parameter F670.
Maximum — 1280
With the drive is running at a known value (e.g., output frequency), adjust this
parameter until the associated function of parameter F670 produces the desired
DC level output at the AM output terminal.
See F670 for more information on this setting.
MON1 Terminal Meter Selection Direct Access Number — F672
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Output Voltage
This parameter is used to set the output function of the MON1 analog output
Changeable During Run — Yes
terminal. The available assignments for this output terminal are listed in Table 6
on pg. 237.
The MON1 analog output terminal produces an output voltage or current that is
proportional to the magnitude of the function assigned to this terminal.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.

MON1 Terminal Setup Parameters

F672 — MON1 Output Function
F673 — MON1 Terminal Meter Adjustment
F688 — MON1 Voltage/Current Output Switching
F689 — MON1 Output Gradient Characteristic
F690 — MON1 Bias Adjustment Set Zero Level

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 F673 F676

MON1 Terminal Adjustment Direct Access Number — F673

Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 512
This parameter is used to set the gain of the MON1 output terminal and is used
Changeable During Run — Yes
in conjunction with the settings of parameter F672.
Minimum — 1
See parameter F672 for more information on this setting. Maximum — 1280
MON2 Terminal Meter Selection Direct Access Number — F674
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Output Frequency
This parameter is used to set the output function of the MON2 analog output
Changeable During Run — Yes
terminal. The available assignments for this output terminal are listed in Table 6
on pg. 237.
The MON2 analog output terminal produces an output voltage or current that is
proportional to the magnitude of the function assigned to this terminal.

Note: The Expansion IO Card Option 2 option board (P/N ETB004Z)

is required to use this terminal.

See the Expansion IO Card Option 2 instruction manual (P/N 58686) for
more information on the function of this terminal.

MON2 Terminal Setup Parameters

F674 — MON2 Output Function
F675 — MON2 Terminal Meter Adjustment
F691 — MON2 Voltage/Current Output Switching
F692 — MON2 Output Gradient Characteristic
F693 — MON2 Bias Adjustment Set Zero Level
MON2 Terminal Adjustment Direct Access Number — F675
Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 512
This parameter is used to set the gain of the MON2 output terminal and is used
Changeable During Run — Yes
in conjunction with the settings of parameter F674.
Minimum — 1
See parameter F674 for more information on this setting. Maximum — 1280
FP FP Terminal Assignment Direct Access Number — F676
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Output Frequency
This parameter sets the functionality of the FP output terminal to any one of the
Changeable During Run — Yes
user-selectable functions listed in Table 6 on pg. 237 and is enabled at
parameter F669.
As the assigned function changes in magnitude or frequency, the pulse count of
the FP output terminal pulse train changes in direct proportion to changes in the
assigned function.

Note: The duty cycle of the output pulse train remains at 65 ±5.0 µS.

This parameter is used in conjunction with parameter F677.

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F677 F685

Pulse Output Frequency Direct Access Number — F677

Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 3.84
This parameter scales the FP output terminal by setting the pulses-per-second
Changeable During Run — Yes
output signal of the FP terminal.
Minimum — 1.00
See F676 for more information on this parameter.
Maximum — 43.20
Units — Pulses/Second
FM Voltage/Current Output Switching Direct Access Number — F681
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — 0–10V
This parameter is used to select the type of output signal provided at the FM
Changeable During Run — No
terminal (i.e., voltage or current).
The output voltage and current range is 0 – 10 VDC and 0 – 20 mA,
respectively.
See F005 for more information on this setting.

Settings:
0 — 0 – 10 V
1 — 0 – 20 mA
FM Output Gradient Characteristic Direct Access Number — F682
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Plus
This parameter sets the output response polarity of the FM output terminal. The
Changeable During Run — Yes
FM output terminal response may be set to respond inversely (-) or directly (+)
to the input signal.
See F005 for more information on this setting.

Settings:
0 — Minus (Negative Gradient)
1 — Plus (Positive Gradient)
FM Bias Adjustment Direct Access Number — F683
Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 0.0
This parameter setting is used to ensure that a zero-level input signal produces a
Changeable During Run — Yes
zero-level output at the FM terminal.
Minimum — -10.0
Set the function of F005 to zero and then set this parameter to zero for proper
operation. Maximum — +100.0
See F005 for more information on this setting. Units — %
AM Output Gradient Characteristic Direct Access Number — F685
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Plus
This parameter sets the output response polarity of the AM output terminal.
Changeable During Run — Yes
The AM output terminal response may be set to respond inversely (-) or
directly (+) to the input signal.
See F670 for more information on this setting.

Settings:
0 — Minus (Negative Gradient)
1 — Plus (Positive Gradient)

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F686 F691

AM Bias Adjustment Direct Access Number — F686

Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 0.0
This parameter setting is used to ensure that a zero-level input signal produces a
Changeable During Run — Yes
zero-level output at the AM terminal.
Minimum — -10.0
Set the function set at F670 to zero and then set this parameter to zero for
proper operation. Maximum — +100.0
See F670 for more information on this setting. Units — %
MON 1 Voltage/Current Output Switching Direct Access Number — F688
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — 0 – 10V
This parameter is used to set the output signal type of the MON1 output
Changeable During Run — Yes
terminal.
Settings
0 — -10 V – +10 V
1 — 0 – 10 V
2 — 0 – 20 mA
MON 1 Output Gradient Characteristic Direct Access Number — F689
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Plus
This parameter sets the output response polarity of the MON1 output terminal.
Changeable During Run — Yes
The MON1 output terminal response may be set to respond inversely (-) or
directly (+) to the input signal.
See parameter F672 for more information on this setting.
Settings:
0 — Minus (Negative Gradient)
1 — Plus (Positive Gradient)
MON 1 Bias Adjustment Direct Access Number — F690
Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 0.0
This parameter setting is used to ensure that a zero-level input signal produces a
Changeable During Run — Yes
zero-level output at the MON1 terminal.
Minimum — -10.0
Set the assigned function of parameter F672 to zero and then set this parameter
to a zero output. Maximum — 100.0
See parameter F672 for more information on this setting. Units — %
MON 2 Voltage/Current Output Switching Direct Access Number — F691
Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — 0 – 10V
This parameter is used to set the output signal type of the MON2 output
Changeable During Run — Yes
terminal.
See parameter F674 for more information on this setting.
Settings
0 — -10 V – +10 V
1 — 0 – 10 V
2 — 0 – 20 mA

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F692 F702

MON 2 Output Gradient Characteristic Direct Access Number — F692

Program Terminal Analog Output Terminals Parameter Type — Selection List
Factory Default — Plus
This parameter sets the output response polarity of the MON2 output terminal.
Changeable During Run — Yes
The MON2 output terminal response may be set to respond inversely (-) or
directly (+) to the input signal.
See parameter F672 for more information on this setting.
Settings:
0 — Minus (Negative Gradient)
1 — Plus (Positive Gradient)
MON 2 Bias Adjustment Direct Access Number — F693
Program Terminal Analog Output Terminals Parameter Type — Numerical
Factory Default — 0.0
This parameter setting is used to ensure that a zero-level input signal produces a
Changeable During Run — Yes
zero-level output at the MON2 terminal.
Minimum — -10.0
Set the assigned function of parameter F674 to zero and then set this parameter
to a zero output. Maximum — 100.0
See parameter F674 for more information on this setting. Units — %
Parameter Write Lock Out Direct Access Number — F700
Program Utilities Prohibition Parameter Type — Selection List
Factory Default — Enabled
This parameter Enables/Disables the Run and Stop keys.
Changeable During Run — Yes
Settings:
0 — Enabled
1 — Disabled
Display Units for Voltage and Current Direct Access Number — F701
Program Utilities Display Parameters Parameter Type — Selection List
Factory Default — %
This parameter sets the unit of measurement for current and voltage values
Changeable During Run — Yes
displayed on the EOI.

Settings:
0—%
1 — A/V
Display Unit Multiplication Factor Direct Access Number — F702
Program Utilities Display Parameters Parameter Type — Numerical
Factory Default — 0.00 (OFF)
This parameter provides a multiplier for the displayed speed value shown on the
Changeable During Run — Yes
EOI of the ASD.
Minimum — 0.00
This parameter may be used to display the rate that a commodity is being
processed by the driven load in process units (i.e., units/time). Maximum — 200.00

Example: An output frequency of 100 Hz would be displayed as 50 Hz if

using a multiplier of 0.5 for this parameter.

Note: PID frequency-limiting parameters are not affected by this

setting (i.e., F364, F365, F367, and F368).

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F703 F707

Display Unit Selection Direct Access Number — F703

Program Utilities Display Parameters Parameter Type — Selection List
Factory Default — All Frequencies
This parameter is used in conjunction with F702 to set the method in which the
Changeable During Run — Yes
frequency is displayed on the EOI.
The multiplier setting of F702 will be applied to the display of all frequencies if
all frequencies are selected at this parameter.
The multiplier setting of F702 will be applied to parameters F364, F365, F367,
and F368 ONLY if PID Process Data is selected at this parameter.

Settings:
0 — All Frequencies
1 — PID Process Data
Display Gradient Characteristic Direct Access Number — F705
Program Utilities Display Parameters Parameter Type — Selection List
Factory Default — Plus
The ASD-displayed response to output speed changes will be displayed as
Changeable During Run — Yes
directly proportional or inversely proportional as a function of this parameter
setting.
Selecting Negative Gradient displays an increased output speed as going more
negative.
Selecting Positive Gradient displays an increased output speed as going more
positive.

Settings:
0 — Minus (Negative Gradient)
1 — Plus (Positive Gradient)
Display Bias Direct Access Number — F706
Program Utilities Display Parameters Parameter Type — Numerical
Factory Default — 0.00
In conjunction with the setting of F702, this parameter sets the bias of the EOI
Changeable During Run — Yes
speed display.
Minimum — 0.00
The frequency entered here will be multiplied by the setting of F702 and then
displayed as the zero value on the EOI. Maximum — Max. Freq. (F011)
Units — Hz
Change Step Selection 1 Direct Access Number — F707
Program Utilities Display Parameters Parameter Type — Numerical
Factory Default — 0.00
In conjunction with the parameter setting of F708, this parameter sets the
Changeable During Run — Yes
amount that the output speed will increase or decrease for each speed command
change entered from the EOI using the Rotary Encoder. Minimum — 0.00
Maximum — Max. Freq. (F011)
Units — Hz

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F708 F721

Change Step Selection 2 Direct Access Number — F708

Program Utilities Display Parameters Parameter Type — Numerical
Factory Default — 0 (Disabled)
The parameter is used to modify the degree that the setting of F707 affects the
Changeable During Run — Yes
output speed changes that are input from the EOI using the Rotary Encoder.
Minimum — 0
Selecting a zero value here disables this parameter and the resulting non-zero
value of parameter setting F707 is output from the ASD. Maximum — 255
Selecting a non-zero value here provides a dividend that will be used in the
following equation resulting in the actual output frequency applied to the motor.
F708
OutputFrequencyDisplayed = InternallyCommandedFrequency  -------------
F707

Operation Command Clear Selection When ST Off Direct Access Number — F719
Program Special  Operation Panel Parameters Parameter Type — Selection List
Factory Default — Retain Panel Run
Upon deactivation of the ST terminal while operating in the Local mode, the Command
ASD output to the motor will cease— this parameter setting is used to allow for
Changeable During Run — Yes
the reactivation of the motor without user intervention upon the reactivation of
the ST terminal.
Upon reactivation of the ST terminal in this condition the ASD will resume the
Run condition and the motor will start (1 — Retain Run Command).
This feature may be Disabled and the Run command must be re-initiated by the
user for ASD operation (0 — Clear Panel Run Command).

DANGER
WHEN ENABLED THE ASD WILL RESUME THE RUN CONDITION
WHEN THE ST TERMINAL IS REACTIVATED.

Settings:
0 — Clear Panel Run Command
1 — Retain Panel Run Command
Panel Stop Pattern Direct Access Number — F721
Program Special Operation Panel Parameters Parameter Type — Selection List
While operating in the Local mode this parameter determines the method used Factory Default — Deceleration Stop
to stop the motor when the stop command is issued via the EOI. Changeable During Run — Yes
The Decel Stop setting enables the Dynamic Braking system that is setup at
F304 or the DC Injection Braking system that is setup at F250, F251, and
F252.
The Coast Stop setting allows the motor to stop at the rate allowed by the
inertia of the load.

Settings:
0 — Deceleration Stop
1 — Coast Stop

Note: The Stop Pattern setting has no effect on the Emergency Off
settings of F603. This parameter may also be accessed by
pressing the ESC key from the Frequency Command screen.

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F725 F734

Panel Torque Command Direct Access Number — F725

Program Special Operation Panel Parameters Parameter Type — Numerical
Factory Default — 0.00
This function is not used with the H9 ASD.
Changeable During Run — Yes
The Torque Command selection is performed at F420.
Minimum — -250.00
Maximum — +250.00
Panel Tension Torque Bias Direct Access Number — F727
Program Special Operation Panel Parameters Parameter Type — Numerical
Factory Default — 0.00
This function is not used with the H9 ASD.
Changeable During Run — Yes
The Tension Torque Bias selection is performed at F423.
Minimum — -250.00
Maximum — +250.00
Units — %
Panel Load Sharing Gain Direct Access Number — F728
Program Special Operation Panel Parameters Parameter Type — Numerical
Factory Default — 100.00
This function is not used with the H9 ASD.
Changeable During Run — Yes
The Load Sharing Gain selection is performed at F424.
Minimum — 0.00
Maximum — 250.00
Units — %
Panel Override Multiplication Gain Direct Access Number — F729
Program Special Operation Panel Parameters Parameter Type — Numerical
Factory Default — 0.00
This parameter provides a value to be used in the event that Setting (F729) is
Changeable During Run — Yes
selected for the Frequency Override Multiplying Input (F661).
Minimum — -100.00
Maximum — 100.00
Units — %
Panel Frequency Lock Out Direct Access Number — F730
Program Special Operation Panel Parameters Parameter Type — Selection List
Factory Default — Unlocked
This parameter is model-specific and has no function on the H9 ASD system.
Changeable During Run — Yes
Settings:
0 — Unlocked
1 — Locked
Panel Emergency Off Lock Out Direct Access Number — F734
Program Special Operation Panel Parameters Parameter Type — Selection List
Factory Default — Unlocked
This parameter is model-specific and has no function on the H9 ASD system.
Changeable During Run — No
Settings:
0 — Unlocked
1 — Locked

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F735 F740

Panel Reset Lock Out Direct Access Number — F735

Program Special Operation Panel Parameters Parameter Type — Selection List
Factory Default — Unlocked
This parameter is model-specific and has no function on the H9 ASD system.
Changeable During Run — Yes
Settings:
0 — Unlocked
1 — Locked
Command Mode/Frequency Mode Change Lock Out Direct Access Number — F736
Program Utilities Prohibition Parameter Type — Selection List
Factory Default — Locked
This parameter is model-specific and has no function on the H9 ASD system.
Changeable During Run — Yes
Settings:
0 — Unlocked
1 — Locked
Lock Out All Keys Direct Access Number — F737
Program Utilities Prohibition Parameter Type — Selection List
Factory Default — Unlocked
This parameter is model-specific and has no function on the H9 ASD system.
Changeable During Run — Yes
Settings:
0 — Unlocked
1 — Locked
Trace Selection Direct Access Number — F740
Program Utilities Trace Parameter Type — Selection List
Factory Default — At Trip
In conjunction with parameter F741 – F745, this parameter is used to monitor
Changeable During Run — Yes
and store 4 ASD output waveform data points. The data may be read and stored
as a function of a trip (At Trip) or it may be initiated by the activation of a
discrete terminal activation (At Trigger).
Set a discrete input terminal to Trace Back Trigger Signal and activate the
terminal to initiate the At Trigger read/store function.
Table 9 on pg. 240 lists the items that may be selected for the data read/store
function along with the associated communication number for each selection.
The duration of the read/store cycle for the selected items is set at parameter
F741.
To acquire and store the data a communications device and a PC are required.
The H9 ASD supports the following communications protocols: RS485
(MODBUS-RTU) Toshiba Protocol, USB Toshiba Protocol, CC-Link, ProfiBus,
and DeviceNet (Refer to the manual of each protocol type for more
information).
Trace data may be viewed graphically via Program  Utilities  View Trace
Data.

Settings:
0 — None (Disabled)
1 — At Trip
2 — At Trigger

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F741 F745

Trace Cycle Direct Access Number — F741

Program Utilities Trace Parameter Type — Selection List
This parameter sets the record time for the Trace Data events selected at F742 Factory Default — 100 mS
– F745. Changeable During Run — Yes
See F740 for more information on this parameter setting.
Settings:
0 — 4 mS
1 — 20 mS
2 — 100 mS
3 — 1 Second
4 — 10 Seconds
Trace Data 1 Direct Access Number — F742
Program Utilities Trace Parameter Type — Selection List
This parameter is used to select the Trace Data 1 item from Table 9 on pg. 240 Factory Default — Output Frequency
to be read and stored in accordance with the setup of parameters F740 and Changeable During Run — Yes
F741.
See F740 for more information on this parameter setting.
Trace Data 2 Direct Access Number — F743
Program Utilities Trace Parameter Type — Selection List
This parameter is used to select the Trace Data 2 item from Table 9 on pg. 240 Factory Default — Freq. Reference
to be read and stored in accordance with the setup of parameters F740 and Changeable During Run — Yes
F741.
See F740 for more information on this parameter setting.
Trace Data 3 Direct Access Number — F744
Program Utilities Trace Parameter Type — Selection List
This parameter is used to select the Trace Data 3 item from Table 9 on pg. 240 Factory Default — Output Current
to be read and stored in accordance with the setup of parameters F740 and Changeable During Run — Yes
F741.
See F740 for more information on this parameter setting.
Trace Data 4 Direct Access Number — F745
Program Utilities Trace Parameter Type — Selection List
This parameter is used to select the Trace Data 4 item from Table 9 on pg. 240 Factory Default — DC Voltage
to be read and stored in accordance with the setup of parameters F740 and Changeable During Run — Yes
F741.
See F740 for more information on this parameter setting.

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F800 F803

Baud Rate (RS485 2-Wire) Direct Access Number — F800

Program Communications Communication Settings Parameter Type — Selection List
This parameter plays a role in the setup of the communications network by Factory Default — 19200
establishing the Baud Rate of the communications link. Changeable During Run — Yes
The communications network includes other ASDs and Host/Control computers Units — bps
that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.
Settings:
0 — 9600
1 — 19200
2 — 38400
Parity (RS485 2- and 4-Wire) Direct Access Number — F801
Program Communications Communication Settings Parameter Type — Selection List

This parameter plays a role in the setup of the communications network by Factory Default — Even Parity
establishing the Parity setting of the communications link. Changeable During Run — Yes

The communications network includes other ASDs and Host/Control computers

that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD.

Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — No Parity
1 — Even Parity
2 — Odd Parity
ASD Number Direct Access Number — F802
Program Communications Communication Settings Parameter Type — Numerical
This parameter plays a role in the setup of the communications network by Factory Default — 0
assigning an identification (ID) number to each ASD in the communications Changeable During Run — Yes
network.
Minimum — 0
The communications network includes other ASDs and Host/Control computers
Maximum — 247
that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.
Communications Time-Out Time (RS485 2- and 4-wire) Direct Access Number — F803
Program Communications Communication Settings Parameter Type — Numerical
This parameter plays a role in the setup of the communications network by Factory Default — 0 (Off)
setting the time that no activity may exist over the communications link before Changeable During Run — Yes
the link is severed (Time Out).
Minimum — 0 (Off)
The communications network includes other ASDs and Host/Control computers
Maximum — 100
that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD. Units — Seconds
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

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F804 F805

Communications Time-Out Action (RS485 2- and 4-wire) Direct Access Number — F804
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — Trip/Trip
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
determining the action to be taken in the event of a time-out (Time-Out Action).

The communications network includes other ASDs and Host/Control computers

that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the drive.

Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
(Settings Are For 2-Wire/4-Wire)
0 — No Action/No Action
1 — Alarm/No Action
2 — Trip/No Action
3 — No Action/Alarm
4 — Alarm/Alarm
5 — Trip/Alarm
6 — No Action/Trip
7 — Alarm/Trip
8 — Trip/Trip
Send Wait Time (RS485 2-wire) Direct Access Number — F805
Program Communications Communication Settings Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the RS485 (2-wire) response delay time.
Changeable During Run — Yes
Changes made to this parameter require that the power be cycled (off then on) Minimum — 0.00
for the changes to take effect. Maximum — 2.00
Units — Seconds

H9 ASD Installation and Operation Manual 203

F806 F810

ASD-to-ASD Communications (RS485 2-wire) Direct Access Number — F806

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — Follower (Decel Stop)
The function of this parameter is 2-fold:
Changeable During Run — Yes
1) In a Master/Follower configuration and while communicating via RS485
2-wire, this parameter sets the ASD as the Master or the Follower.

2) This parameter determines the function of the ASD while operating as the
Master or the Follower. If operating as the Master ASD, an output parameter
of the Master ASD is used to control the Follower ASDs and is set here.

If operating as a Follower ASD, the ASD response if an error is incurred is set

here.

Note: Select a Follower function here if F826 is configured as a Master

Output controller for any other ASD in the system. Otherwise, an
EOI failure will result.

Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — Follower (Decel Stop If Error Detected)
1 — Follower (Continues Operation If Error Detected)
2 — Follower (Emergency Off If Error Detected)
3 — Master (Frequency Command)
4 — Master (Output Frequency)
5 — Master (Torque Reference)
6 — Master (Torque Command)
RS485 2-Wire Protocol Selection Direct Access Number — F807
Program Communications Communication Reference Adjust Parameter Type — Selection List
Factory Default — Toshiba
This parameter sets the RS485 (2-wire) communications protocol.
Changeable During Run — Yes
Settings:
0 — Toshiba
1 — Modbus
Frequency Point Selection Direct Access Number — F810
Program Communications Communication Reference Adjust Parameter Type — Selection List
Factory Default — Disabled
This parameter is used to set the communications reference for scaling.
Changeable During Run — Yes
See F811 — F814 for more information on this setting.

Note: Scaling the communications signal is not required for all

applications.

Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — Disabled
1 — RS485 (2-Wire — NOT USED)
2 — RS485 (4-Wire)
3 — Communication Card

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F811 F813

Point 1 Setting Direct Access Number — F811

Program Communications Communication Reference Adjust Parameter Type — Numerical
Factory Default — 0
When enabled at F810, this parameter is used to allow the user to set the gain
Changeable During Run — Yes
and bias of the speed control input to the drive when the speed control signal is
received via the source selected at F810. Minimum — 0
Maximum — 100
Gain and Bias Settings
Units — %
When operating in the Speed Control mode and using one of the control
sources from Settings above, the settings that determine the gain and bias
properties of the input signal are:
• Communications Reference Speed Setpoint 1 (frequency) (F812),
• the communications input signal value that represents Communications
Reference Speed Setpoint 1 (frequency): F811,
• Communications Reference Speed Setpoint 2 (frequency) (F814), and
• the communications input signal value that represents Communications
Reference Speed Setpoint 2 (frequency): F813.

Once set, as the input signal value changes, the output frequency of the drive
will vary in accordance with the above settings.
This parameter sets the Communications Reference input value that represents
Communications Reference Speed Setpoint 1 (frequency). This value is
entered as 0 to 100% of the Communications Reference input value range.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.
Point 1 Frequency Direct Access Number — F812
Program Communications Communication Reference Adjust Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the gain and bias of the Communications
Changeable During Run — Yes
Reference speed control input.
Minimum — 0.00
See F811 for more information on this setting.
Maximum — Max. Freq. (F011)
This parameter sets Communications Reference Speed Setpoint 1.
Units — Hz
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.
Point 2 Setting Direct Access Number — F813
Program Communications Communication Reference Adjust Parameter Type — Numerical
Factory Default — 100
This parameter is used to set the gain and bias of the Communications
Changeable During Run — Yes
Reference speed control input.
Minimum — 0
See F811 for more information on this setting.
Maximum — 100
This parameter sets the Communications Reference input value that represents
Communications Reference Speed Setpoint 2 (frequency). This value is Units — %
entered as 0 to 100% of the Communications Reference input value range.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

H9 ASD Installation and Operation Manual 205

F814 F825

Point 2 Frequency Direct Access Number — F814

Program Communications Communication Reference Adjust Parameter Type — Numerical
Factory Default — 60.00
This parameter is used to set the gain and bias of the Communications
Changeable During Run — Yes
Reference speed control input.
Minimum — 0.00
See F811 for more information on this setting.
Maximum — Max. Freq. (F011)
This parameter sets the Communications Reference Speed Setpoint 2.
Units — Hz
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.
Baud Rate (RS485) Direct Access Number — F820
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 19200
This parameter sets the RSRS485 baud rate.
Changeable During Run — Yes
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — 9600 bps
1 — 19200 bps
2 — 38400 bps
RS485 Send Wait Time (RS485) Direct Access Number — F825
Program Communications Communication Settings Parameter Type — Numerical
Factory Default — 0.00
This parameter sets the RS485 response delay time.
Changeable During Run — Yes
Changes made to this parameter require that the power be cycled (off then on) Minimum — 0.00
for the changes to take effect. Maximum — 2.00
Units — Seconds

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F826 F830

ASD-to-ASD Communications (RS485) Direct Access Number — F826

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — Follower (Decel Stop)
The function of this parameter is 2-fold:
Changeable During Run — Yes
1) In a Master/Follower configuration and while communicating via RS485
4-wire, this parameter sets the ASD as the Master or the Follower.

2) This parameter determines the function of the ASD while operating as the
Master or the Follower. If operating as the Master ASD, an output parameter
of the Master ASD is used to control the Follower ASDs and is set here. If
operating as a Follower ASD, the ASD response if an error is incurred is set
here.

Note: Select a Follower function here if F806 is configured as a Master

Output controller for any other ASD in the system. Otherwise, an
EOI failure will result.

Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — Follower (Decel Stop if Error Detected)
1 — Follower (Continues Operation if Error Detected)
2 — Follower (Emergency Off if Error Detected)
3 — Master (Frequency Command)
4 — Master (Output Frequency)
5 — Master (Torque Reference)
6 — Master (Output Torque)
RS485 Protocol Selection (TSB/ModBus) Direct Access Number — F829
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — Toshiba
This parameter sets the communications protocol for ASD-to-ASD
Changeable During Run — Yes
communications.

Settings:
0 — Toshiba
1 — Modbus
Communications Option (DeviceNet/Profibus) Setting 1 Direct Access Number — F830
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0
While using the DeviceNet/Profibus communications protocol, this parameter
Changeable During Run — Yes
allows the user to select the read and write information communicated between
the ASD and the Host.
Read information may include the ASD fault status, ASD speed, ASD MAC
ID, etc. Write information may include Enable/Disable DeviceNet commands,
Forward run, ACC/DEC command, etc.
See the DeviceNet Option Instruction Manual (P/N 58683) for more
information on this parameter.

Settings:
0–7

H9 ASD Installation and Operation Manual 207

F831 F836

Communications Option (DeviceNet/Profibus) Setting 2 Direct Access Number — F831

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
While using the DeviceNet/Profibus communications protocol, parameters
Changeable During Run — Yes
F831 – F836 allow the user to select the ASD memory location that holds the
Command/Frequency/Monitoring instructions to be applied to the ASD for
Communications Option Settings 2 – 7, respectively.
See the DeviceNet Option Instruction Manual (P/N 58683) for more
information on this parameter.

Settings:
0 — Disabled
1 — FA06 (ALCAN Command 1)
2 — FA23 (ALCAN Command 2)
3 — FA07 (ALCAN Frequency Command, 0.01 Hz)
4 — FA33 (Torque Command, 0.01%)
5 — FA50 (Terminal Output)
6 — FA51 (Analog Output Data from Comm. [FM])
7 — FA52 (Analog Output Data from Comm. [AM])
8 — F601 (Stall Prevention Level, %)
9 — F441 (Power Running Torque Limit 1 Level, 0.01%)
10 — F443 (Regen. Braking Torque Limit 1 Level, 0.01%)
11 — F460 (Speed Loop Proportional Gain)
12 — F461 (Speed Loop Stabilization Coefficient)
Communications Option (DeviceNet/Profibus) Setting 3 Direct Access Number — F832
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F831. See F831 for information on this parameter
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 4 Direct Access Number — F833
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F831. See F831 for information on this parameter
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 5 Direct Access Number — F834
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F831. See F831 for information on this parameter
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 6 Direct Access Number — F835
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F831. See F831 for information on this parameter
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 7 Direct Access Number — F836
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F831. See F831 for information on this parameter
Changeable During Run — Yes

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F841 F844

Communications Option (DeviceNet/Profibus) Setting 8 Direct Access Number — F841

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
While using the DeviceNet/Profibus communications protocol, parameters
Changeable During Run — Yes
F841 – F846 allow the user to select the ASD memory location that holds the
Command/Frequency/Monitoring instructions to be applied to the ASD for
Communications Option Settings 8 – 13, respectively.
See the DeviceNet Option Instruction Manual (P/N 58683) for more
information on this parameter.

Settings:
0 — Disabled
1 — FD01 (ASD Status 1)
2 — FD00 (Output Frequency, 0.01 Hz)
3 — FD03 (Output Current, 0.01%)
4 — FD05 (Output Voltage, 0.01%)
5 — FC91 (ASD Alarm)
6 — FD22 (PID Feedback Value, 0.01 Hz)
7 — FD06 (Input Terminal Status)
8 — FD07 (Output Terminal Status)
9 — FE36 (V/I)
10 — FE35 (RR Input)
11 — FE37 (RX Input)
12 — FD04 (Input Voltage [DC Detection], 0.01%)
13 — FD16 (Real-time Speed Feedback
14 — FD18 (Torque, 0.01%)
15 — FE60 (My Monitor)
16 — FE61 (My Monitor)
17 — FE62 (My Monitor)
18 — FE63 (My Monitor)
19 — F880 (Free Notes)
20 — FD29 (Input Power, 0.01 kW)
21 — FD30 (Output Power, 0.01 kW)
22 — FE14 (Cumulative Operation Time, 0.01=1 Hour)
23 — FE40 (FM Terminal Output Monitor)
24 — FE41 (AM Terminal Output Monitor)
Communications Option (DeviceNet/Profibus) Setting 9 Direct Access Number — F842
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F841. See F841 for information on this parameter.
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 10 Direct Access Number — F843
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F841. See F841 for information on this parameter.
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 11 Direct Access Number — F844
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F841. See F841 for information on this parameter.
Changeable During Run — Yes

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F845 F853

Communications Option (DeviceNet/Profibus) Setting 12 Direct Access Number — F845

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F841. See F841 for information on this parameter.
Changeable During Run — Yes
Communications Option (DeviceNet/Profibus) Setting 13 Direct Access Number — F846
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0000h
Same as F841. See F841 for information on this parameter.
Changeable During Run — Yes
Disconnection Detection Extended Time Direct Access Number — F850
Program Communications Communication Settings Parameter Type — Numerical
Factory Default — 0.0
This parameter is used to set the length of time that no communications activity
Changeable During Run — Yes
may exist before the communications link is disconnected.
Minimum — 0.0
Maximum — 100.0
Units — Seconds
ASD Operation at Disconnect Direct Access Number — F851
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — Stop and Terminate
This parameter is used to set the H9 ASD action to be carried out in the event of Communication
the loss of communications.
Changeable During Run — Yes
Settings:
0 — Stop and Terminate Communication
1 — Do Nothing (Continue Programmed Operation)
2 — Deceleration Stop
3 — Coast Stop
4 — Emergency Off
5 — Preset Speed (Setting of F852)
Preset Speed Operation Selection Direct Access Number — F852
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter setting is used to set the Preset Speed selection to be used if
Changeable During Run — Yes
Preset Speed is selected at parameter F851.

Settings:
0 — Disabled
1 – 15 — Preset Speed Number
Communications Option Station Address Monitor Direct Access Number — F853
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter is used in the setup of the communications network by reading
Changeable During Run — Yes
the Media Access Code (MAC) address of the ASD that is connected to a node
of the communications system. Minimum — 0
Maximum — 255
The MAC Address is set via DIP switches of the optional device.

See the DeviceNet Option Instruction Manual (P/N 58683) for more
information on this parameter.

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F854 F871

Communications Option Speed Switch Monitor DeviceNet/ Direct Access Number — F854
CC-Link Parameter Type — Hardware Selectable
Program Communications Communication Settings Factory Default — Option-Specific
Changeable During Run — No
This parameter is used in the setup of the communications network by reading
the hardware-specific settings of the option card being used with the ASD. Minimum — 0
Maximum — 255
If using the DEV002Z Devicenet card, this parameter reads the hardware
switch SW300 setting of the Devicenet card. SW300 sets the baud rate and the
MAC address of the option card that is connected to a node of the
communications system.

See the DeviceNet Option Instruction Manual (P/N 58683) for more
information on this parameter or see the Instruction manual for the option being
used with the H9 ASD.
Block Write Data 1 Direct Access Number — F870
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — None
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be written to the ASD of the communications
link.
The communications network includes other ASDs and Host/Control computers
that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — None
1 — FA00 (Command 1)
2 — FA20 (Command 2)
3 — FA01 (Frequency)
4 — FA50 (TB Output)
5 — FA51 (Analog Output)
Block Write Data 2 Direct Access Number — F871
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — None
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be written to the ASD of the communications
link.
The communications network includes other ASDs and Host/Control computers
that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — None
1 — FA00 (Command 1)
2 — FA20 (Command 2)
3 — FA01 (Frequency)
4 — FA50 (TB Output)
5 — FA51 (Analog Output)

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F875 F877

Block Read Data 1 Direct Access Number — F875

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — 0 (None)
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be read from the ASD using the communications
link.
The communications network includes other ASDs and Host/Control computers
that monitor the status of the ASD(s), transfers commands, and loads or
modifies the parameter settings of the ASD.
Changes made to this parameter require that the power be cycled (off then on)
for the changes to take effect.

Settings:
0 — None
1 — Status Information
2 — Output Frequency
3 — Output Current
4 — Output Voltage
5 — Alarm Information
6 — PID Feedback Value
7 — Input Terminal Status
8 — Output Terminal Status
9 — V/I
10 — RR
11 — RX
12 — DC Voltage
13 — PG Feedback
14 — Torque
15 — My Monitor 1
16 — My Monitor 2
17 — My Monitor 3
18 — My Monitor 4
19 — Free Memo
Block Read Data 2 Direct Access Number — F876
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — None
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be read from the ASD of the communications
link.
See parameter F875 for more information on this setting.
Block Read Data 3 Direct Access Number — F877
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — None
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be read from the ASD of the communications
link.
See parameter F875 for more information on this setting.

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F878 F901

Block Read Data 4 Direct Access Number — F878

Program Communications Communication Settings Parameter Type — Selection List
Factory Default — None
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be read from the ASD of the communications
link.
See parameter F875 for more information on this setting.
Block Read Data 5 Direct Access Number — F879
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — None
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the type of data to be read from the ASD of the communications
link.
See parameter F875 for more information on this setting.
Free Notes Direct Access Number — F880
Program Communications Communication Settings Parameter Type — Numerical
Factory Default — 0
This is an unused parameter that has allocated memory space.
Changeable During Run — Yes
The space may be used at the discretion of the user. This space may be used to
Minimum — 0
store information or a note to be transferred using communications.
Maximum — 65534
Network Option Reset Settings Direct Access Number — F899
Program Communications Communication Settings Parameter Type — Selection List
Factory Default — Reset ASD only
This parameter plays a role in the setup of the communications network by
Changeable During Run — Yes
establishing the targets of a Reset command received via the communications
link.

Settings:
0 — Reset ASD only
1 — Reset Option Board and ASD
Input Function Target 1 Direct Access Number — F900
Program My Function My Function Unit 1 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 1 Direct Access Number — F901
Program My Function My Function Unit 1 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.

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F902 F905

Input Function Target 2 Direct Access Number — F902

Program My Function My Function Unit 1 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F903
Program My Function My Function Unit 1 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 3 Direct Access Number — F904
Program My Function My Function Unit 1 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Output Function Assigned Direct Access Number — F905
Program My Function My Function Unit 1 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 7 on pg. 238.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.

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F906 F910

Input Function Target 1 Direct Access Number — F906

Program My Function My Function Unit 2 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 1 Direct Access Number — F907
Program My Function My Function Unit 2 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 2 Direct Access Number — F908
Program My Function My Function Unit 2 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F909
Program My Function My Function Unit 2 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 3 Direct Access Number — F910
Program My Function My Function Unit 2 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.

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F911 F915

Output Function Assigned Direct Access Number — F911

Program My Function My Function Unit 2 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 8 on pg. 239.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.
Input Function Target 1 Direct Access Number — F912
Program My Function My Function Unit 3 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 1 Direct Access Number — F913
Program My Function My Function Unit 3 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 2 Direct Access Number — F914
Program My Function My Function Unit 3 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F915
Program My Function My Function Unit 3 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.

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F916 F919

Input Function Target 3 Direct Access Number — F916

Program My Function My Function Unit 3 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Output Function Assigned Direct Access Number — F917
Program My Function My Function Unit 3 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 8 on pg. 239.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.
My Function Percent Data 1 Direct Access Number — F918
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Percent Data 1.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Once the assigned output value reaches the threshold setting of this parameter Units — %
the output value is transferred to My Function Out 1.
See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.
My Function Percent Data 2 Direct Access Number — F919
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Percent Data 2.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %

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F920 F925

My Function Percent Data 3 Direct Access Number — F920

Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Percent Data 3.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Percent Data 4 Direct Access Number — F921
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Percent Data 4.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Percent Data 5 Direct Access Number — F922
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Percent Data 5.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Frequency Data 1 Direct Access Number — F923
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Frequency Data 1.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Frequency Data 2 Direct Access Number — F924
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Frequency Data 2.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Frequency Data 3 Direct Access Number — F925
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Frequency Data 1.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %

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F926 F930

My Function Frequency Data 4 Direct Access Number — F926

Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Frequency Data 4.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Frequency Data 5 Direct Access Number — F927
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.00
This parameter is used to set the trigger threshold level of the analog signal of
Changeable During Run — Yes
the My Function Frequency Data 5.
Minimum — 0.00
The analog signal is selected using the Input Setting number from Table 8 on
pg. 239. Maximum — 200.00
Units — %
My Function Time Data 1 Direct Access Number — F928
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.01
This parameter is used to set the response delay of the My Function Time
Changeable During Run — Yes
Data 1 terminal.
Minimum — 0.01
The applied discrete input signal must be present at the input terminal of the H9
ASD for the time setting here for a system response. Maximum — 600.00
Discrete terminal input activation that does not equal or exceed this setting will Units — Seconds
be ignored.
My Function Time Data 2 Direct Access Number — F929
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.01
This parameter is used to set the response delay of the My Function Time
Changeable During Run — Yes
Data 2 terminal.
Minimum — 0.01
The applied discrete input signal must be present at the input terminal of the H9
ASD for the time setting here for a system response. Maximum — 600.00
Discrete terminal input activation that does not equal or exceed this setting will Units — Seconds
be ignored.
My Function Time Data 3 Direct Access Number — F930
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.01
This parameter is used to set the response delay of the My Function Time
Changeable During Run — Yes
Data 3 terminal.
Minimum — 0.01
The applied discrete input signal must be present at the input terminal of the H9
ASD for the time setting here for a system response. Maximum — 600.00
Discrete terminal input activation that does not equal or exceed this setting will Units — Seconds
be ignored.

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F931 F935

My Function Time Data 4 Direct Access Number — F931

Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.01
This parameter is used to set the response delay of the My Function Time
Changeable During Run — Yes
Data 4 terminal.
Minimum — 0.01
The applied discrete input signal must be present at the input terminal of the H9
ASD for the time setting here for a system response. Maximum — 600.00
Discrete terminal input activation that does not equal or exceed this setting will Units — Seconds
be ignored.
My Function Time Data 5 Direct Access Number — F932
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0.01
This parameter is used to set the response delay of the My Function Time
Changeable During Run — Yes
Data 5 terminal.
Minimum — 0.01
The applied discrete input signal must be present at the input terminal of the H9
ASD for the time setting here for a system response. Maximum — 600.00
Discrete terminal input activation that does not equal or exceed this setting will Units — Seconds
be ignored.
My Function Count Data 1 Direct Access Number — F933
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the pulse-count threshold value used to trigger the
Changeable During Run — Yes
discrete output COUNT1 (ON Timer).
Minimum — 0
COUNT1 (ON Timer) outputs a 1 upon reaching the threshold setting of this
parameter. Maximum — 9999
Units — Pulses
My Function Count Data 2 Direct Access Number — F934
Program My Function My Function Data Parameter Type — Numerical
Factory Default — 0
This parameter is used to set the pulse-count threshold value used to trigger the
Changeable During Run — Yes
discrete output COUNT2 (ON Timer).
Minimum — 0
COUNT2 (ON Timer) outputs a 1 upon reaching the threshold setting at this
parameter. Maximum — 9999
Units — Pulses
Input Function Target 1 Direct Access Number — F935
Program My Function My Function Unit 4 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.

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F936 F940

Input Function Command 1 Direct Access Number — F936

Program My Function My Function Unit 4 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 2 Direct Access Number — F937
Program My Function My Function Unit 4 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F938
Program My Function My Function Unit 4 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 3 Direct Access Number — F939
Program My Function My Function Unit 4 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Output Function Assigned Direct Access Number — F940
Program My Function My Function Unit 4 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 8 on pg. 239.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.

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F941 F945

Input Function Target 1 Direct Access Number — F941

Program My Function My Function Unit 5 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 1 Direct Access Number — F942
Program My Function My Function Unit 5 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 2 Direct Access Number — F943
Program My Function My Function Unit 5 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F944
Program My Function My Function Unit 5 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 3 Direct Access Number — F945
Program My Function My Function Unit 5 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.

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F946 F950

Output Function Assigned Direct Access Number — F946

Program My Function My Function Unit 5 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 8 on pg. 239.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.
Input Function Target 1 Direct Access Number — F947
Program My Function My Function Unit 6 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 1 Direct Access Number — F948
Program My Function My Function Unit 6 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 2 Direct Access Number — F949
Program My Function My Function Unit 6 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F950
Program My Function My Function Unit 6 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.

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F951 F954

Input Function Target 3 Direct Access Number — F951

Program My Function My Function Unit 6 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Output Function Assigned Direct Access Number — F952
Program My Function My Function Unit 6 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 8 on pg. 239.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.
Input Function Target 1 Direct Access Number — F953
Program My Function My Function Unit 7 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 1
terminal.
This setting assigns the function of the programmable Input Function Target 1
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 1 Direct Access Number — F954
Program My Function My Function Unit 7 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.

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F955 F958

Input Function Target 2 Direct Access Number — F955

Program My Function My Function Unit 7 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 2
terminal.
This setting assigns the function of the programmable Input Function Target 2
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Input Function Command 2 Direct Access Number — F956
Program My Function My Function Unit 7 Parameter Type — Selection List
Factory Default — 0 (NOP)
This parameter is used to assign a user-selected logical operator to two user-
selected Input Function Target variables, enable a counter/timer function, or
perform a hold/reset function.
Table 11 on pg. 243 lists the available selections. Their use and selection
requirements are described in an example at F977.
Input Function Target 3 Direct Access Number — F957
Program My Function My Function Unit 7 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Input Function Target 3
terminal.
This setting assigns the function of the programmable Input Function Target 3
terminal to any one of the user-selectable functions listed in Table 7 on pg. 238,
Table 8 on pg. 239, or Table 10 on pg. 241.
See F977 for more information on this parameter.
Output Function Assigned Direct Access Number — F958
Program My Function My Function Unit 7 Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the Output Function Assigned terminal.
This setting assigns the function of the programmable Output Function
Assigned data location to one of the functions listed in the Input Setting field
of Table 8 on pg. 239.

Settings:
0 – 3099

See the My Function Instruction Manual (P/N E6581335) and F977 for more
information on this parameter.

H9 ASD Installation and Operation Manual 225

F959 F962

Analog Input Function Target 11 Direct Access Number — F959

Program My Function My Function Analog Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Analog Input Function Target
11 terminal.
The function selected at F961 may be adjusted using the input analog control
signal selected here.

Settings:
0 — Disabled (None)
1 — V/I
2 — RR
3 — RX
4 — Optional RX2+, RX2-
5 — Optional V/I
Analog Function Assigned Object 11 Direct Access Number — F961
Program My Function My Function Analog Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality to which the adjustment of F959 is applied.

Settings:
0 — Disabled (None)
1 — Acceleration Rate
2 — Upper-Limit Frequency
3 — Acceleration Multiplication Factor
4 — Deceleration Multiplication Factor
5 — Manual Torque Boost
6 — Over-Current Stall (F601)
7 — Thermal Protection
8 — Speed Loop Proportional Gain (F460)
9 — Drooping Gain (F320)
10 — PID Proportional Gain (F362)

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the Analog
Function Assigned Object parameter.
Analog Input Function Target 21 Direct Access Number — F962
Program My Function My Function Analog Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality of the programmable Analog Input Function Target
21 terminal.
The function selected at F964 may be adjusted using the input analog control
signal selected here.

Settings:
0 — Disabled (None)
1 — V/I
2 — RR
3 — RX
4 — Optional RX2+, RX2-
5 — Optional V/I

226 H9 ASD Installation and Operation Manual

F964 F966

Analog Function Assigned Object 21 Direct Access Number — F964

Program My Function My Function Analog Parameter Type — Selection List
Factory Default — 0 (Disabled)
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
selecting the functionality to which the adjustment of F962 is applied.

Settings:
0 — Disabled (None)
1 — Acceleration Rate
2 — Upper-Limit Frequency
3 — Acceleration Multiplication Factor
4 — Deceleration Multiplication Factor
5 — Manual Torque Boost
6 — Over-Current Stall (F601)
7 — Thermal Protection
8 — Speed Loop Proportional Gain (F460)
9 — Drooping Gain (F320)
10 — PID Proportional Gain (F362)

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the Analog
Function Assigned Object parameter.
Monitor Output Function 11 Direct Access Number — F965
Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — 2000
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
establishing the function that is to be recorded and output as the Peak,
Minimum, or Average value as selected at parameter F966.

Select the Monitor Display Input Setting number from Table 10 on pg. 241 to
output the corresponding function.

Use the Communication Number if operating using communications.

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.
Monitor Output Function Command 11 Direct Access Number — F966
Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — Normal
This parameter plays a role in the setup of the My Function feature by allowing
Changeable During Run — Yes
the user to select the Peak, Minimum, or Normal (Avg.) value of the
parameter F965 selection to be recorded and output as a monitored function.

Settings:
0 — Normal
1 — Peak
2 — Minimum

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.

H9 ASD Installation and Operation Manual 227

F967 F969

Monitor Output Function 21 Direct Access Number — F967

Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — 2000
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
establishing the function that is to be recorded and output as the Peak,
Minimum, or Average value as selected at parameter F968.

Select the Monitor Display Input Setting number from Table 10 on pg. 241 to
output the corresponding function.

Use the Communication Number if operating using communications.

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.
Monitor Output Function Command 21 Direct Access Number — F968
Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — Normal
This parameter plays a role in the setup of the My Function feature by allowing
Changeable During Run — Yes
the user to select the Peak, Minimum, or Normal (Avg.) value of the
parameter F967 selection to be recorded and output as a monitored function.

Settings:
0 — Normal
1 — Peak
2 — Minimum

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.
Monitor Output Function 31 Direct Access Number — F969
Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — 2000
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
establishing the function that is to be recorded and output as the Peak,
Minimum, or Average value as selected at parameter F970.

Select the Monitor Display Input Setting number from Table 10 on pg. 241 to
output the corresponding function.

Use the Communication Number if operating using communications.

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.

228 H9 ASD Installation and Operation Manual

F970 F972

Monitor Output Function Command 31 Direct Access Number — F970

Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — Normal
This parameter plays a role in the setup of the My Function feature by allowing
Changeable During Run — Yes
the user to select the Peak, Minimum, or Normal (Avg.) value of the
parameter F969 selection to be recorded and output as a monitored function.

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.

Settings:
0 — Normal
1 — Peak
2 — Minimum
Monitor Output Function 41 Direct Access Number — F971
Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — 2000
This parameter plays a role in the setup of the My Function feature by
Changeable During Run — Yes
establishing the function that is to be recorded and output as the Peak,
Minimum, or Normal (Avg.) value as selected at parameter F972.

Select the Monitor Display Input Setting number from Table 10 on pg. 241 to
output the corresponding function.

Use the Communication Number if operating using communications.

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.
Monitor Output Function Command 41 Direct Access Number — F972
Program My Function My Function Monitor Parameter Type — Selection List
Factory Default — Normal
This parameter plays a role in the setup of the My Function feature by allowing
Changeable During Run — Yes
the user to select the Peak, Minimum, or Normal (Avg.) value of the
parameter F971 selection to be recorded and output as a monitored function.

Settings:
0 — Normal
1 — Peak
2 — Minimum

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the
Monitor Output Function parameter.

H9 ASD Installation and Operation Manual 229

F973 F976

Virtual Input Terminal 1 Selection Direct Access Number — F973

Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the Virtual Input Terminal 1.
Changeable During Run — No
As a virtual terminal, it exists only in memory and is considered to always be in
its True (connected to CC) state.
It is often practical to assign a function to this terminal that the user desires to
be maintained regardless of external conditions or operations.
This parameter sets the programmable Virtual Input Terminal 1 terminal to
one of the functions that are listed in Table 5 on pg. 234.

In addition, the input terminal must be specified as Normally Open or

Normally Closed.
Virtual Input Terminal 2 Selection Direct Access Number — F974
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the Virtual Input Terminal 2.
Changeable During Run — No
As a virtual terminal, it exists only in memory and is considered to always be in
its True (connected to CC) state.
It is often practical to assign a function to this terminal that the user desires to
be maintained regardless of external conditions or operations.
This parameter sets the programmable Virtual Input Terminal 2 terminal to
one of the functions that are listed in Table 5 on pg. 234.

In addition, the input terminal must be specified as Normally Open or

Normally Closed.
Virtual Input Terminal 3 Selection Direct Access Number — F975
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the Virtual Input Terminal 3.
Changeable During Run — No
As a virtual terminal, it exists only in memory and is considered to always be in
its True (connected to CC) state.
It is often practical to assign a function to this terminal that the user desires to
be maintained regardless of external conditions or operations.
This parameter sets the programmable Virtual Input Terminal 3 terminal to
one of the functions that are listed in Table 5 on pg. 234.

In addition, the input terminal must be specified as Normally Open or

Normally Closed.
Virtual Input Terminal 4 Selection Direct Access Number — F976
Program Terminal Input Terminals Parameter Type — Selection List
Factory Default — Unassigned
This parameter is used to set the functionality of the Virtual Input Terminal 4.
Changeable During Run — No
As a virtual terminal, it exists only in memory and is considered to always be in
its True (connected to CC) state.
It is often practical to assign a function to this terminal that the user desires to
be maintained regardless of external conditions or operations.
This parameter sets the programmable Virtual Input Terminal 4 terminal to
one of the functions that are listed in Table 5 on pg. 234.

In addition, the input terminal must be specified as Normally Open or

Normally Closed.

230 H9 ASD Installation and Operation Manual

F977 F977

My Function Selection Direct Access Number — F977

Program My Function Parameter Type — Selection List
This parameter Enables/Disables the configured My Function feature of the Factory Default — None (Disabled)
H9 ASD. Changeable During Run — No
Settings:
0 — None (Disabled)
1 — My Function with Terminal Board Signal (discrete terminal activation)
2 — My Function Always On
DANGER
This parameter must always be set to
My Function None at the start of the My Function
The My Function feature is configured using the settings of F900 to F977 and setup and remain set to None until all
is used to enhance the programmability of the H9 ASD by performing two of the My Function parameter
programmable functions: 1) the Combined Terminal Function, and 2) Logic settings have been confirmed as
Operations. being correct.

Combined Terminal Function If enabled for normal operation using

Assigning more than one function to a discrete output terminal provides two settings 1 or 2, the motor may start
advantages: it effectively expands the number of input terminals, and reduces and engage the driven equipment
the number of cables required to support the input/output functions (e.g., unexpectedly upon receiving a Run
assigning ST and F to one terminal). Using Virtual Terminals 1 – 4 (F973 – signal during the My Function setup.
F976) are required to use this function.
In the example below, the ST terminal assignment and the F terminal
assignment will be combined as one terminal to illustrate this feature. However,
any two of the discrete output terminal assignments listed in Table 8 on pg. 239
may be combined in this manner.

Setup (Example)

1. Disable the My Function parameter at F977 to prevent the system from

starting upon completion of the setup.
2. Assign the ST function to the S1 terminal (F115).
3. Assign the F function to Virtual Input Terminal 1 (F973).
4. Set Input Function Target 1 to 5 (F900). This setting assigns S1 as the
control input terminal.
5. Set Output Function Assigned to 21 (F905). This setting is a command
that writes the F115 selection (S1) to Virtual Input Terminal 1, activating
both.
6. Enable the My Function parameter at F977 by selecting My Function
Always On or selecting My Function With TB Signal.
If set to My Function Always On, the combination of ST and F are
always On (both are connected to CC only during the S1
activation).
If set to My Function With TB Signal, set a discrete input terminal
to My Function Run Signal and connect it to CC to enable My
Function. Connect S1 to CC to activate the ST+F function. A
disconnection at either terminal will terminate the My Function
programming (discrete input terminal My Function Run Signal is
Anded with discrete input terminal S1).
Connect S1 to CC and the F-to-CC + the ST-to-CC functions will be carried
out using only S1.
With the aforementioned setup completed, provide a Frequency Command
(F004) and the motor will run at the commanded frequency.
Continued next page.

H9 ASD Installation and Operation Manual 231

F977 F977

Combined Terminal Function (Cont.) Direct Access Number — F977

Parameter Type — Selection List
Output terminals may also be combined to produce one output response to
multiple conditions using the computational operators of Table 11 on pg. 243. Factory Default — None (Disabled)
Assigning more than one function to a discrete output terminal provides two Changeable During Run — No
advantages: it effectively expands the number of input terminals, and reduces
the number of cables required to support the input/output functions (e.g.,
assigning Low-Speed Detection and Low Current Detection to one output
terminal). Using Virtual Terminals 1 – 4 (F973 – F976) are required to use this
function.
DANGER
In the example below, the Low-Speed Signal (detection) terminal assignment This parameter must always be set to
and the Low Current Detection terminal assignment will be combined as one None at the start of the My Function
terminal output to illustrate this feature. However, any two of the discrete setup and remain set to None until all
output terminal assignments may listed in Table 8 on pg. 239 may be combined of the My Function parameter
in this manner. settings have been confirmed as
being correct.
Setup (example)
If enabled for normal operation using
1. Disable the My Function parameter at F977 to prevent the system from settings 1 or 2, the motor may start
starting upon completion of the setup. and engage the driven equipment
2. From Program Direct Access Unknown Numbers, select Enabled. unexpectedly upon receiving a Run
signal during the My Function setup.
3. Set the OUT1 terminal (F130) to My Function Output 1 (222).
4. Set Input Function Target 1 (F900) to 1004 (Low-Speed Signal
detection). See Table 8 on pg. 239 for a complete listing of available
settings.
5. Set Input Function Target 2 (F902) to 1026 (Low Current Alarm). See
Table 8 on pg. 239 for a complete listing of available settings.
6. Set Input Function Command 1 (F901) to AND (3). This setting assigns
an operator to the Input Function Target 1 and the Input Function
Target 2 settings.
7. Set Output Function Assigned (F905) to 1222. This setting will transfer
the results of the logical AND to My Function Output 1 (OUT1).
8. Enable the My Function parameter at F977 by selecting My Function
Always On.
With the aforementioned setup completed in the example, once the Low-Speed
Signal AND the Low Current Alarm are active, the OUT1 terminal is
activated for the duration of the Low-Speed/Low Current condition.

See the My Function Instruction Manual (P/N E6581335) for a complete

description of the setup requirements and operational information of the My
Function parameter.

232 H9 ASD Installation and Operation Manual

F980 F984

Traverse Selection Direct Access Number — F980

Program Special Traverse Parameter Type — Selection List
Factory Default — Disabled
This parameter setting is used in the setup of the Traverse control mode of
operation and is used in conjunction with the discrete terminal activation of the Changeable During Run — No
Traverse Permission Signal.

This parameter is used to enable the Traverse function. The Traverse function
is activated via the discrete input terminal (see Table 5 on pg. 234).

See the Traverse Control Instruction Manual (P/N 58693) for more
information on this feature.

Settings:
0 — Disabled
1 — Enabled
Traverse Acceleration Time Direct Access Number — F981
Program Special Traverse Parameter Type — Numerical
Factory Default — 25.0
This parameter setting is used in the setup of the Traverse control mode of
Changeable During Run — No
operation. This setting establishes the acceleration rate used during the
Traverse function. Minimum — 0.1
Maximum — 120.0
See the Traverse Control Instruction Manual (P/N 58693) for more
information on this feature. Units — Seconds

Traverse Deceleration Time Direct Access Number — F982

Program Special Traverse Parameter Type — Numerical
Factory Default — 25.0
This parameter setting is used in the setup of the Traverse control mode of
Changeable During Run — No
operation. This setting establishes the deceleration rate used during the
Traverse function. Minimum — 0.1
Maximum — 120.0
See the Traverse Control Instruction Manual (P/N 58693) for more
information on this feature. Units — Seconds

Traverse Step Direct Access Number — F983

Program Special Traverse Parameter Type — Numerical
Factory Default — 10.0
This parameter setting is used in the setup of the Traverse control mode of
Changeable During Run — No
operation. This setting is used as a multiplier to establish the amount that the
frequency is increased or decreased while using the Traverse function. Minimum — 0.0
Maximum — 25.0
See the Traverse Control Instruction Manual (P/N 58693) for more
information on this feature. Units — %

Traverse Jump Step Direct Access Number — F984

Program Special Traverse Parameter Type — Numerical
Factory Default — 10.0
This parameter setting is used in the setup of the Traverse control mode of
Changeable During Run — No
operation. This setting is used as a multiplier to establish the amount that the
frequency is increased or decreased while using the Traverse function when a Minimum — 0.0
short burst of rapid speed change is required. Maximum — 50.0
See the Traverse Control Instruction Manual (P/N 58693) for more Units — %
information on this feature.

H9 ASD Installation and Operation Manual 233

 Table 5. Discrete Input Terminal Assignment Selections and Descriptions.
Sel. No.
Terminal Selection Descriptions
NO NC
0 1 Unassigned — No operation.
2 3 Forward — Provides a Forward run command.
4 5 Reverse — Provides a Reverse run command.
6 7 Standby — Enables the Forward and Reverse operation commands.
8 9 Reset — Resets the device and any active faults.
10 11 Preset Speed 1 — Preset Speed 1 is used as the LSB of the 4-bit nibble that is used to select a Preset Speed.
12 13 Preset Speed 2 — Preset Speed 2 is used as the second bit of the 4-bit nibble that is used to select a Preset Speed.
14 15 Preset Speed 3 — Preset Speed 3 is used as the third bit of the 4-bit nibble that is used to select a Preset Speed.
16 17 Preset Speed 4 — Preset Speed 4 is used as the MSB of the 4-bit nibble that is used to select a Preset Speed.
Jog — This terminal activates a Jog for the duration of the activation. The Jog settings may be configured at F260 –
18 19
F262.
Emergency Off — Terminates the output signal from the drive and may apply a brake if so configured. The braking
20 21
method may be selected at F603.
DC Braking — Upon activation the drive outputs a DC current that is injected into the windings of the motor to
22 23
quickly brake the motor.
Accel/Decel Switching 1/Accel/Decel Switching 2 — Activating combinations of discrete input terminals
Accel/Decel Switching 1 and 2 allow for the selection of Accel/Decel profiles 1 – 4 as shown below.

24 25 See F504 for more information on this terminal setting.

The settings of the A/D selections 1 – 4 are performed
A/D SW Terminal
at F009/F010, F500/F501, F510/F511, and F514/
A/D Profile Selection
#1 #2 F515, respectively.
Accel/Decel profiles are comprised of the Accel/
0 0 1
Decel settings, Pattern, and Switching Frequency.
0 1 2
1 0 3
26 27
1 1 4
1=Terminal Activated

V/f Switching 1/V/f Switching 2 — Activating combinations of discrete input terminals V/f Switching 1 and 2
allow for the selection of a V/f switching profile as listed below.

V/f Switching Terminal

28 29 V/f Selection
#1 #2
0 0 1 The 1 – 4 settings of the V/f Switching
selections are performed at parameters F170 –
0 1 2 F181.
1 0 3
30 31 1 1 4
1=Terminal Activated

Note: NO/NC = Normally Open/Normally Closed.

234 H9 ASD Installation and Operation Manual

 Table 5. (Continued) Discrete Input Terminal Assignment Selections and Descriptions.
Sel. No.
Terminal Selection Descriptions
NO NC
Torque Limit Switching 1/Torque Limit Switching 2 — Activating combinations of discrete input terminals
Torque Limit Switching 1 and 2 allow for the selection of a torque limit switching profile as listed below.

Torque Limit
32 33 Switching Terminal Torque Limit Selection
#1 #2
0 0 1 The 1 – 4 settings of the torque limit switching
selections are performed at parameters F440 –
0 1 2 F449.
1 0 3
34 35
1 1 4
1=Terminal Activated

36 37 PID Off — Turns off PID control.

38 39 Pattern Operation Group 1 — Initiates the Pattern 1 Pattern Run.
40 41 Pattern Operation Group 2 — Initiates the Pattern 2 Pattern Run.
42 43 Pattern Operation Continuation — Initiates a continuation of the last Pattern Run from its stopping point.
Pattern Operation Trigger — Initiates the first Preset Speed of a Pattern Run and initiates each subsequent
44 45
enabled Preset Speed with continued activations.
46 47 External Over-Heat — Causes an Over-Heat Trip (OH).
Local Priority (cancels serial priority) — Overrides any serial control and returns the Command and Frequency
48 49
control to the settings of F003 and F004.
50 51 Hold (3-Wire Stop) — Decelerates the motor to a stop.
52 53 PID Differentiation/Integration Clear — Clears the PID value.
PID Forward/Reverse Switching — Toggles the gradient characteristic of the feedback response of the V/I
54 55
terminal during PID-controlled operation.
56 57 Forced Continuous Operation — Ignore PID control settings for the duration of activation.
58 59 Specified Speed Operation — Runs speed as commanded by the Frequency Mode setting.
Dwell Signal — Used in conjunction with the Acceleration/Deceleration Suspend function (F349) — suspends the
60 61
Accel/Decel function for the duration of the activation.
Power Failure Synchronized Signal — Activates the Synchronized Accel/Decel function of the Regenerative
62 63
Power Ridethrough feature. See F302 for more information on this terminal setting.
My Function Run — Activates the configured My Function feature. See F977 for more information on this
64 65
parameter.
66 67 Autotuning Signal — Initiates the Autotune function. Set F400 to Autotuning by Input Terminal Signal.
Speed Gain Switching — Toggles the ASD operating mode from and to Speed Control and Torque Control.
68 69 Speed Control operation references parameter settings F460 and F461. Torque Control operation references
parameter settings F462 and F463.
70 71 Servo Lock — Holds the motor at 0 Hz until a Run command is received.
Simple Positioning — While operating in the Positioning Control mode, activation initiates the Stop command.
72 73
See F381 for more information on this terminal setting.
74 75 kWH Display Clear — Clears the kWH meter display.
Trace Back Trigger — Initiates the data Read/Store function of the Trace Selection parameter. See F740 for more
76 77
information on this feature.
78 79 Light-Load High-Speed Disable — Terminates the Light-Load High-Speed operation.
Note: NO/NC = Normally Open/Normally Closed.

H9 ASD Installation and Operation Manual 235

 Table 5. (Continued) Discrete Input Terminal Assignment Selections and Descriptions.
Sel. No.
Terminal Selection Descriptions
NO NC
Binary Write — Writes the status of the discrete input terminals to the control board during binary input speed
86 87
control.
UP/DOWN Frequency (up) — Increases the speed of the motor for the duration of activation until reaching the
88 89
Upper-Limit setting or increases the speed of the motor in steps (see F264 for more information on this feature).
UP/DOWN Frequency (down) — Decreases the speed of the motor for the duration of activation until reaching the
90 91
Lower-Limit setting or decreases the speed of the motor in steps (see F264 for more information on this feature).
UP/DOWN Frequency (clear) — While operating in the Up/Down Frequency speed control mode this terminal
92 93initiates a 0 Hz output command. If operating with an activated UP/DOWN Frequency (up or down) terminal, the
output goes to the Lower-Limit (F013) setting.
Forward/Reverse — This setting operates in conjunction with another terminal being set to the Run/Stop function.
98 99 When configured to Run (Run/Stop to CC), the make or break of this connection to CC changes the direction of the
motor.
100 101 Run/Stop — This terminal enables the motor to run when activated and disables the motor when deactivated.
Commercial Power/ASD Switching — Initiates the ASD-to-Commercial Power switching function.
102 103
See parameter F354 for more information on this feature.
Frequency Reference Priority Switching — Toggles frequency control to and from the settings of F004 and
104 105
F207.
106 107 V/I Terminal Priority — Assigns Speed control to the V/I Terminal and overrides the F004 setting.
Command Terminal Board Priority — Assigns Command control to the Terminal Board and overrides the F003
108 109
setting.
110 111 Edit Enable — Allows for the override of the lock out parameter setting (F700) allowing for parameter editing.
112 113 Control Switching — Toggles the system to and from the speed control and the torque control modes.
Fast Deceleration — Using dynamic braking (if enabled and supported), stops the motor at the fastest rate allowed
122 123
by the load.
Preliminary Excitation — Applies an excitation current to the motor (holds shaft stationary) for the duration of the
124 125
activation.
Brake Request — Initiates the brake release command. This setting requires that another discrete input terminal be
set to Brake Answerback Input to complete the brake release command and to convey the status of the braking
system to the user or to a dependent subsystem.
Once the braking release function is initiated, the Trouble Internal Timer begins to count down (Trouble Internal
126 127 Timer value is set at F630). Should the count-down timer expire before the brake releases or before the Brake
Answerback Input is returned, fault E-11 will occur. Otherwise, the brake releases the motor and normal motor
operations resume.
The Braking Release function is primarily used at startup; but, may be used when the brake is applied while the motor
is running.
Brake Answerback Input — This setting is required when the Braking Request function is used. The function of
this input terminal is to receive the returned the status of the braking system. The returned status is either Released or
Not Released.
130 131 If Released is returned within the time setting of F630, normal system function resumes.

If Not Released is returned or if the F630 time setting times out before either signal is returned, then fault E-11 occurs.
The returned signal may also be used to notify the user or control a dependent subsystem.
Traverse Permission Signal — Enables/Disables the Traverse function. See parameter F980 for more information
134 135
on this feature.
Note: NO/NC = Normally Open/Normally Closed.

236 H9 ASD Installation and Operation Manual

 Table 6. Output Terminal Assignments for the FP, AM, FM, MON1, and MON2 Output Terminals.

Output Meter Terminal Assignments and Display Item Selections

Selection/ Selection/
Terminal Assignment Name Terminal Assignment Name
Comm Number Comm Number

utput 0 Output Frequency 30 100% Meter Adjust Value

equency 1 Frequency Reference 31 Data from Communications
2 Output Current 32 185% Meter Adjust Value
utput Current
3 DC Bus Voltage 33 250% Meter Adjust Value
4 Output Voltage 34 Input Watt Hour
5 Compensated Frequency 35 Output Watt Hour
6 Speed Feedback (Realtime) 45 Gain Display
7 Speed Feedback (1 Sec Filter) 46 My Function Monitor 1 Without Sign
8 Torque 47 My Function Monitor 2 Without Sign
9 Torque Command 48 My Function Monitor 3 With Sign
11 Torque Current 49 My Function Monitor 4 With Sign
12 Excitation Current 50 Signed Output Frequency
13 PID Feedback Value 51 Signed Frequency Reference
14 Motor Overload Ratio 52 Signed Compensated Frequency
15 ASD Overload Ratio 53 Signed Speed Feedback (Realtime)
16 DBR Overload Ratio 54 Signed Speed Feedback (1 Sec Filter)
17 DBR Load Ratio 55 Signed Torque
18 Input Power 56 Signed Torque Command
19 Output Power 58 Signed Torque Current
23 Option V/I Input 59 Signed PID Feedback Value
24 RR Input 60 Signed RX Input
25 V/I Input 61 Signed RX2 Option (AI1) Input
26 RX Input 62 Signed 100% Meter Adjust Value
27 RX2 Option (AI1) Input 63 Signed 185% Meter Adjust Value
28 FM Output 64 Signed 250% Meter Adjust Value
29 AM Output

H9 ASD Installation and Operation Manual 237

 Table 7. My Function Input Function Target Selections.

Selection/ Selection/
Communications Terminal Assignment Communications Terminal Assignment
Number Number
0 Unassigned 17 B12

1 Forward 18 B13

2 Reverse 19 B14

3 Standby 20 B15

4 Reset 21 Virtual Input Terminal 1

5 S1 22 Virtual Input Terminal 2

6 S2 23 Virtual Input Terminal 3

7 S3 24 Virtual Input Terminal 4

8 S4 25 Internal Terminal 1

9 LI1 26 Internal Terminal 2

10 LI2 27 Internal Terminal 3

11 LI3 28 Internal Terminal 4

12 LI4 29 Internal Terminal 5

13 LI5 30 Internal Terminal 6

14 LI6 31 Internal Terminal 7

15 LI7 32 Internal Terminal 8

16 LI8

238 H9 ASD Installation and Operation Manual

Table 8. Output Terminal Assignments, My Function Input Setting Assignments, and Parameter/Input
Setting Numbers for the FLA/B/C, O1A/O1B (OUT1), O2A/O2B (OUT2), OUT3 – OUT6, and R1 – R4.

Discrete Output Terminal Assignment Selections

Input Param. Input Param.
Function Function
Setting Setting Setting Setting
1000 0 Lower-Limit Frequency 1086 86 Error Code Output 4
1002 2 Upper-Limit Frequency 1088 88 Error Code Output 5
1004 4 Low-Speed Signal 1090 90 Error Code Output 6
1006 6 Acceleration/Deceleration Completion 1092 92 Specified Data Output 1
1008 8 Speed Reach Signal 1094 94 Specified Data Output 2
1010 10 Failure FL (All Trips) 1096 96 Specified Data Output 3
1012 12 Failure FL (Except EF, OCL, EPHO, OL2) 1098 98 Specified Data Output 4
1014 14 Over-Current (OC) Alarm 1100 100 Specified Data Output 5
1016 16 ASD Overload (OL1) Alarm 1102 102 Specified Data Output 6
1018 18 Motor Overload (OL2) Alarm 1104 104 Specified Data Output 7
1020 20 Over-Heat Alarm 1106 106 Light Load
1022 22 Over-Voltage Alarm 1108 108 Heavy Load
1024 24 Main Circuit (MOFF) Under-Voltage Alarm 1110 110 Positive Torque Limit
1026 26 Low-Current Alarm 1112 112 Negative Torque Limit
1028 28 Over-Torque Alarm 1114 114 External Rush Suppression Relay Activated
1030 30 DBR Overload Alarm 1118 118 Completion of Stop Positioning
1032 32 Emergency Off Active 1120 120 L-STOP
1034 34 Retry Active 1122 122 Power Failure Synchronized Operation
1036 36 Pattern Operation Switching Output 1124 124 Traverse in Progress
1038 38 PID Deviation Limit 1126 126 Traverse Deceleration Active
1040 40 Run/Stop 1128 128 Part Replacement Alarm
1042 42 Serious Failure (OCA, OCL, EF, Phase Failure, etc.) 1130 130 Over-Torque Alarm
1044 44 Light failure (OL, OC1, 2, 3, OP) 1132 132 Frequency Command ½ Selection
1046 46 Commercial Power/ASD Switching Output 1 1134 134 Failure FL (Except Emergency Off)
1048 48 Commercial power/ASD switching Output 2 1222 222 My Function Output 1
1050 50 Cooling Fan On/Off 1224 224 My Function Output 2
1052 52 Jogging Operation Active (Jog Run Active) 1226 226 My Function Output 3
1054 54 Panel/Terminal Board Operation Switching 1228 228 My Function Output 4
1056 56 Cumulative Run-time Alarm 1230 230 My Function Output 5
1058 58 ProfiBus/DeviceNet/CC-Link Communication Error 1232 232 My Function Output 6
1060 60 Forward/Reverse Switching 1234 234 My Function Output 7
1062 62 Ready for Operation 1 1236 236 My Function Output 8
1064 64 Ready for Operation 2 1238 238 My Function Output 9
1068 68 Brake Release (BR) 1240 240 My Function Output 10
1070 70 Alarm Status Active 1242 242 My Function Output 11
1072 72 Forward Speed Limit (Torque Control) 1244 244 My Function Output 12
1074 74 Reverse Speed Limit (Torque Control) 1246 246 My Function Output 13
1076 76 ASD Healthy Output 1248 248 My Function Output 14
1078 78 RS485 Communication Error 1250 250 My Function Output 15
1080 80 Error Code Output 1 1252 252 My Function Output 16
1082 82 Error Code Output 2 1254 254 Always Off
1084 84 Error Code Output 3
Note: Only positive logic is available for the listed parameters.

H9 ASD Installation and Operation Manual 239

 Table 9. Trace Back Data Selections.

Selection Number Comm. Number Trace (Monitor) Function Resolution/Unit

0 FD00 Output Frequency 0.01 Hz
1 FD02 Frequency Reference 0.01 Hz
2 FD03 Output Current 0.01%
3 FD04 DC Bus Voltage 0.01%
4 FD05 Output Voltage 0.01%
5 FD15 Compensated Frequency 0.01 Hz
6 FD16 Speed Feedback (Realtime) 0.01 Hz
7 FD17 Speed Feedback (1 Sec Filter) 0.01 Hz
8 FD18 Torque 0.01%
9 FD19 Torque Command 0.01%
11 FD20 Torque Current 0.01%
12 FD21 Excitation Current 0.01%
13 FD22 PID Feedback Value 0.01 Hz
14 FD23 Motor Overload Ratio 0.01%
15 FD24 ASD Overload Ratio 0.01%
16 FD25 DBR Overload Ratio 1%
17 FD28 DBR Load Ratio 1%
18 FD29 Input Power 0.01 kW
19 FD30 Output Power 0.01 kW
23 FE39 V/I Option (AI2) 1%
24 FE35 RR Input 0.01%
25 FE36 V/I Input 0.01%
26 FE37 RX Input 0.01%
27 FE38 RX2 Option (AI1) 1%
28 FE40 FM Output 0.01%
29 FE41 AM Output 0.01%
30 FE51 Signed 100% Meter Adjust Value 1%
31 FA51 Communication Data N/A
32 FE50 Signed 185% Meter Adjust Value 1%
33 FE67 Signed 250% Meter Adjust Value 1%
34 FE76 Input Watt-Hour 0.01 kWhr
35 FE77 Output Watt-Hour 0.01 kWhr
45 0006/0671 FM/AM Gain Display 1
46 FE60 My Function Monitor 1 (Unsigned Value) 1
47 FE61 My Function Monitor 2 (Unsigned Value) 1
48 FE62 My Function Monitor 3 (Signed Value) 1
49 FE63 My Function Monitor 4 (Signed Value) 1

240 H9 ASD Installation and Operation Manual

 Table 10. Input Function Target Selections and the Associated Communications Number.

Input Setting/Communication Number

Monitor Resolution/
FM/AM/FP Comm. Comm. Function
Display Input Unit
Input Setting Number Number
Setting
2000 FD00 3000 FE00 Output Frequency 0.01 Hz
2002 FD02 3002 FE02 Frequency Reference 0.01 Hz
2003 FD03 3003 FE03 Output Current 0.01%
2004 FD04 3004 FE04 DC Bus Voltage 0.01%
2005 FD05 3005 FE05 Output Voltage 0.01%
2015 FD15 3015 FE15 Compensated Frequency 0.01 Hz
2016 FD16 3016 FE16 Speed Feedback (Realtime) (See Note 1) 0.01 Hz
2017 FD17 3017 FE17 Speed Feedback (1 Sec Filter) (See Note 1) 0.01 Hz
2018 FD18 3018 FE18 Torque (See Note 2) 0.01%
2019 FD19 3019 FE19 Torque Command (See Note 2) 0.01%
2020 FD20 3020 FE20 Torque Current (See Note 2) 0.01%
2021 FD21 3021 FE21 Excitation Current 0.01%
2022 FD22 3022 FE22 PID Feedback Value 0.01 Hz
2023 FD23 3023 FE23 Motor Overload Ratio 0.01%
2024 FD24 3024 FE24 ASD Overload Ratio 0.01%
2025 FD25 3025 FE25 DBR Overload Ratio 1%
2028 FD28 3028 FE28 DBR Load Ratio 1%
2029 FD29 3029 FE29 Input Power 0.01 kW
2030 FD30 3030 FE30 Output Power 0.01 kW
3031 FE31 Pattern Operation Group Number 0.1
3032 FE32 Pattern Operation Cycles Remaining 1
3033 FE33 Pattern Operation Preset Speed Number 1
3034 FE34 Pattern Operation Preset Speed Time Remaining 0.1
2050 FD50 Light-Load High-Speed Load Torque Monitor 1 0.01%
2051 FD51 Light-Load High-Speed Load Torque Monitor 2 0.01%
3035 FE35 RR Input 1%
3036 FE36 V/I Input 1%
3037 FE37 RX Input (See Note 2) 1%
3038 FE38 RX2 Option (AI1) Input (See Note 2) 1%
3039 FE39 RX2 Option (AI1) Input 1%
3040 FE40 FM Output 1
3041 FE41 AM Output 1
Note 1: If no PG feedback is used an estimated speed value is displayed.

Note 2: My Function cannot process negative values — A negative value is processed by My Function as an absolute value.

H9 ASD Installation and Operation Manual 241

 Table 10. (Continued) Input Function Target Selections and the Associated Communications Number.

Input Setting/Communication Number

Monitor Resolution/
FM/AM/FP Comm. Comm. Function
Display Input Unit
Input Setting Number Number
Setting
3050 FE50 Communication Data Output 2
3051 FE51 Communication Data Output 1
3052 FE52 Communication Data Output 3
3060 FE60 My Function Monitor 1 (Output of Unsigned Value)
3061 FE61 My Function Monitor 2 (Output of Unsigned Value)
3062 FE62 My Function Monitor 3 (Output of Signed Value)
3063 FE63 My Function Monitor 4 (Output of Signed Value)
3066 FE66 Expansion I/O Card 1 CPU Version
3067 FE67 Expansion I/O Card 2 CPU Version
3076 FE76 Integral Input Power 0.01 kW
3077 FE77 Integral Output Power 0.01 kW
3084 FE84 16-Bit BIN/BCD Input Value 1

242 H9 ASD Installation and Operation Manual

 Table 11. My Function Operator Selections.

My Function Computational Selections

Input
Function Function Name Function Description
Command
0 NOP (No Operation) Disables the My Function feature.
1 ST Execute data read/transfer.
2 STN Execute inverted data read/transfer.
3 AND Logical product of A AND B.
4 ANDN Logical product of A AND B.
5 OR Logical sum of A OR B.
6 ORN Logical sum of A OR B.
7 EQ Compares data — Outputs 1 if Equal; 0 if not Equal.
8 NE Compares data — Outputs 0 if Equal; 1 if not Equal.
9 GT Compares data — Outputs 1 if A>B; 0 if AB.
10 GE Compares data — Outputs 1 if AB; 0 if AB.
11 LT Compares data — Outputs 1 if AB; 0 if AB.
12 LE Compares data — Outputs 1 if AB; 0 if A>B.
13 ASUB Outputs absolute difference between A and B — |A–B|
Enables the On response time delay settings of My Function Time Data 1 – 5
14 ON (Timer)
(F928 – F932) for My Function Data.
Enables the Off response time delay settings of My Function Time Data 1 – 5
15 OFF (Timer)
(F928 – F932) for My Function Data.
16 COUNT1 (Timer) Outputs a 1 upon reaching the pulse count setting of F933.
17 COUNT2 (Timer) Outputs a 1 upon reaching the pulse count setting of F934.
18 HOLD Outputs the peak output value since powering up or since the last reset.
19 SET Sets data.
20 RESET Resets data.

H9 ASD Installation and Operation Manual 243

Alarms
Alarms, Trips, and Troubleshooting
Alarms and Trips
This section lists the available user-notification codes of the EOI display and provides information that
assists the user in the event that a Fault is incurred. The User Notification codes are displayed as an
indication that a system function or system condition is active (i.e., ATN, DB, and DBON). The code is
displayed on the EOI for the duration of the activation.
If a user setting or an H9 ASD parameter has been exceeded, or if a data transfer function produces an
unexpected result, a condition that is referred to as a Fault is incurred.
An Alarm is an indication that a Fault is imminent if existing operating conditions continue unchanged.
An Alarm may be associated with an output terminal to notify the operator of the condition remotely,
close a contact, or engage a brake. At the least, an Alarm will cause an alarm code to appear on the EOI
display. Table 13 lists the Alarm codes that may be displayed during operation of the H9 ASD.
In the event that the condition that caused the Alarm does not return to its normal operating level within a
specified time, the ASD Faults and a Trip is incurred (Fault and Trip are sometimes used
interchangeably).
A Trip is a safety feature (the result of a Fault) that disables the H9 ASD system and removes the 3-phase
power to the motor in the event that a subsystem of the ASD is malfunctioning, or one or more of the
variables listed below exceeds its normal range (time and/or magnitude).
• Current,
• Voltage,
• Speed,
• Temperature,
• Torque, or
• Load.
See Table 14 on pg. 248 for a listing of the potential Trips and the associated probable causes.
The operating conditions at the time of the trip may be used to help determine the cause of the trip. Listed
below are operating conditions that may be used to assist the operator in correcting the problem or that the
H9 ASD operator should be prepared to discuss when contacting the TIC Customer Support Center for
assistance.
• What trip information is displayed?
• Is this a new installation?
• Has the system ever worked properly and what are the recent modifications (if any)?
• What is the ASD and Motor size?
• What is the CPU version and revision level?
• What is the EOI version?
• Does the ASD trip when accelerating, running, decelerating, or when not running?
• Does the ASD reach the commanded frequency?
• Does the ASD trip without the motor attached?
• Does ASD trip with an unloaded motor?

244 H9 ASD Installation and Operation Manual

 User Notification Codes
The User Notification codes appear in the top right corner of the Frequency Command screen while the
associated function is active.
User Notification codes notify the user of active functions that are usually only momentary under normal
conditions and are active for the duration of activation only. User notification events are not error
conditions and only convey active system functions to the user.

Table 12. User Notification Codes.

LED Function Description

Atn Autotune active Atn indicates that the Autotune function is active.
This code conveys the DC Injection function being carried out. The display shows db when
dbOn DC Braking
braking and shows dbOn when the motor shaft stationary function is being carried out.

H9 ASD Installation and Operation Manual 245

 Alarms
Table 13 lists the alarm codes that may be displayed during operation of the H9 ASD. Each alarm code
listed is accompanied by a description and a possible cause. In the event that the source of the malfunction
cannot be determined, contact your TIC Sales Representative for further information on the condition and
for an appropriate course of action.
The Alarms are listed in the top-down order that they are checked for activation. Only the first to be
detected will be displayed on the Frequency Command screen.
Table 13. H9 ASD Alarms.

LED LCD
Description Possible Causes
Screen Screen
CM1 Comm1 Error Internal communications error. • Improperly programmed ASD.
External communications error. • Improper communications settings.
CM2 Comm2 Error
• Improperly connected cables.
E Emergency Off Output signal from the ASD is • Stop|Reset pressed twice at the EOI.
terminated and a brake may be
• EOFF command received remotely.
applied if so configured.
• ASD reset required.
MOFF Main Under-Voltage Under-voltage condition at the • Low 3-phase commercial voltage.
3-phase AC input to the ASD.
OC Over-Current ASD output current greater than • Defective IGBT (U, V, or W).
F601 setting. • ASD output to the motor is connected incorrectly.
• ASD output phase-to-phase short.
• The ASD is starting into a spinning motor.
• Motor/machine jammed.
• Mechanical brake engaged while the ASD is starting or
while running.
• Accel/Decel time is too short.
• Voltage Boost setting is too high.
• Load fluctuations.
• ASD operating at an elevated temperature.
*OH Overheat ASD ambient temperature • ASD is operating at an elevated temperature.
excessive.
• ASD is too close to heat-generating equipment.
• Cooling fan vent is obstructed (see Mounting the ASD
on pg. 15).
• Cooling fan is inoperative.
• Internal thermistor is disconnected.
OJ Timer Run-time counter exceeded. • Type Reset required; select Clear run timer.
* Reset ignored if active.

246 H9 ASD Installation and Operation Manual

 LED LCD
Description Possible Causes
Screen Screen
*OLI ASD Overload Load requirement in excess of • The carrier frequency is too high.
the capability of the ASD. • An excessive load.
• Acceleration time is too short.
• DC damping rate is set too high.
• The motor is starting into a spinning load after a
momentary power failure.
• The ASD is improperly matched to the application.
OLM Motor Overload Load requirement in excess of • V/f parameter improperly set.
the capability of the motor. • Motor is locked.
• Continuous operation at low speed.
• The load is in excess of what the motor can deliver.
*OLR Resistor Overload Excessive current at the • Deceleration time is too short.
Dynamic Braking Resistor.
• DBR configuration improperly set.
*OP Over-Voltage DC bus voltage exceeds • ASD attempting to start into a spinning motor after a
specifications. momentary power loss.
• Incoming commercial power is above the specified
range.
• Decel time is too short.
• Voltage spikes at the 3-phase input; install inductive
filter.
• DBR required.
• DBR resistance value is too high.
• DBR function is turned off.
• Over-Voltage Stall feature is turned off.
• System is regenerating.
• Load instability.
• Disable the Ridethrough function (F302).
OT Over-Torque Torque requirement is in excess • ASD is not correctly matched to the application.
of the setting of F616 or F617 • F616 or F617 setting is too low.
for a time longer than the setting
• Obstructed load.
of F618.
*POFF Control Under-Voltage Under-voltage condition at the 5, • Defective Control board.
15, or the 24 VDC supply. • Excessive load on power supply.
• Low input voltage.
PtSt Reference Point Two speed-reference frequency • Two speed reference frequency setpoints are too close to
setpoint values are too close to each other (increase the difference).
each other.
UC Under-Current With the Low-Current Trip • Output current too low.
(F610) parameter enabled, the
output current of the ASD is
below the level defined at F611
and remains there for a time
longer than the setting of F612.
* Reset ignored if active.

H9 ASD Installation and Operation Manual 247

 Trips/Faults
A Trip is an H9 ASD response to a Fault (though Fault and Trip are sometimes used interchangeably).
A Trip is a safety feature that disables the ASD system in the event that a subsystem of the ASD is
malfunctioning or a parameter setting has been exceeded.
Listed in Table 14 are the Faults that may result in a Trip and the possible causes. When a Trip is
incurred the system displays the Fault screen. The Fault screen identifies the active Fault.
Table 14. H9 ASD Fault Listing.

LED Screen LCD Screen Possible Causes

E Emergency Off • Emergency Off command received via EOI or remotely.
E-10 Sink/Source Setting • Improperly positioned Sink/Source jumper on the Terminal board or on an
Error option device (see J100 at the Terminal PCB of the ASD).
• Sink/Source configuration is incorrect.

E-11 Brake Sequence • F630 is set to a non-zero value.

Response Error
• Braking sequence discrete input and output terminals are not setup properly.
E-12 Encoder Signal-Loss • ASD is configured to receive a signal from a shaft-mounted encoder and no
Error signal is being received while running.
• Disconnection at the Encoder circuit.
• Motor is stopped and is generating torque via torque limit control.
• ASD is not configured properly.
E-13 Speed Error • Result of a motor speed that is greater than the commanded speed when
using an encoder for speed control.
• Improper encoder connection or setup information.
• Defective encoder.

E-17 Key Failure • Same key input for 20 seconds or more.

E-18 Analog (Terminal) • V/I signal loss.

Input Loss
• Terminal Board failure.
• P24 over-current condition.
• F633 setting is too high.

E-19 CPU Communication • CPU data Transmit/Receive error.

Error

E-20 V/f Control Error • Torque processing error.

• Make service call.

E-21 CPU Processing Error • Software processed incorrectly.

• Make service call.

E-22 Logic Input Voltage • Incorrect voltage applied to the discrete input terminals.
Error

E-23 Optional Expansion • Optional Expansion Input Terminal Board 1 is defective.

Input Terminal Board 1
Error

E-24 Optional Expansion • Optional Expansion Input Terminal Board 2 is defective.

Input Terminal Board 2
Error

248 H9 ASD Installation and Operation Manual

 LED Screen LCD Screen Possible Causes
E-25 Stop Positioning • Load movement while stopped.
Retention Error
• F381 setting is too low.
• Encoder malfunction.
• Creep speed is too high.
E-26 CPU2 Fault • CPU malfunction.
• Control board malfunction.
E-50/E-51 Sink/Source Setting • Improperly positioned Sink/Source jumper on the Terminal board or on an
Error option device (see J100 at the Terminal PCB of the ASD).
• Sink/Source configuration is incorrect.
EEP1 EEPROM Fault • EEPROM write malfunction.
• Make a service call.
EEP2/EEP3 EEPROM Read Error • EEPROM read malfunction.
• Make a service call.
EF1/EF2 (Earth) Ground Fault • Ground fault at the motor.
• Ground fault at the output of the ASD.
• Current leakage to Earth Ground.
EPHI Input Phase Failure • 3-phase input to the ASD is low or missing at the R, S, or T input terminals.
EPHO Output Phase Failure • 3-phase output from the ASD is low or missing at the U, V, or W output
terminals or at the input to the motor.
ERR2 RAM Fault • Internal RAM malfunction.
• Make a service call.
ERR3 ROM Fault • Internal ROM malfunction.
• Make a service call.
ERR4 CPU Fault • CPU malfunction.
• Control board malfunction.
• Make a service call.
ERR5 Communication Error • Communication time out error.
• Communication malfunction.
• Improper or loose connection.
• Improper system settings.

ERR6 Gate Array Fault • Main Gate Array is defective.

ERR7 Low -Current • Improper Low- Current detection level settings at F609 – F612.

ERR8 Option Device Fault • Check installation, connections, and option device manual.

ERR9 Flash Memory Fault • Flash memory malfunction.

• Make a service call.

H9 ASD Installation and Operation Manual 249

 LED Screen LCD Screen Possible Causes
ETN Autotune Error • Autotune readings that are significantly inconsistent with the configuration
information.
• A non-3-phase motor is being used.
• Incorrect settings at F400 or F413.
• Using a motor that has a significantly smaller rating than the ASD.
• ASD output cabling is too small, too long, or is being housed in a cable tray
with other cables that are producing an interfering EMF.
• Motor is running during the Autotune function.
ETN1 • F402 adjustment required (Motor temperature is too high).
• F410 adjustment required (Motor Constant 1 improperly set).
ETN2 • F412 adjustment required (Motor Constant 3 improperly set).
ETN3 • Autotune setting F400 is set to Auto Calculation and there is a problem with
the Motor Constant readings.
ETYP Typeform Error • Firmware information (typeform) loaded into the Gate Driver board is
inconsistent with the device in which the firmware is being used.
• The Gate Driver board has been replaced.
• The Gate Driver board is defective.
None No Errors • No active faults.
OC1 Over-Current During • Improper V/f setting.
Acceleration
• Restart from a momentary power outage.
• The ASD is starting into a rotating motor.
• ASD/Motor not properly matched.
• Phase-to-phase short (U, V, or W).
• Accel time too short.
• Voltage Boost setting is too high.
• Motor/machine jammed.
• Mechanical brake engaged while the ASD is running.
• ASD current exceeds 340% of the rated FLA on ASDs that are 100 HP or
less during acceleration. On ASDs that are greater than 100 HP, this fault
occurs when the ASD current exceeds 320% of the rated FLA during
acceleration.
OC1P Overheat During • Cooling fan inoperative.
Acceleration
• Ventilation openings are obstructed.
• Internal thermistor is disconnected.
• Acceleration time is too short.
• Improper V/f setting.
• ASD or the motor is improperly matched to the application.

250 H9 ASD Installation and Operation Manual

 LED Screen LCD Screen Possible Causes
OC2 Over-Current During • Phase-to-phase short (U, V, or W).
Deceleration
• Deceleration time is too short.
• Motor/machine jammed.
• Mechanical brake engaged while the ASD is running.
• ASD current exceeds 340% of the rated FLA on ASDs that are 100 HP or
less during deceleration. On ASDs that are greater than 100 HP, it occurs
when the ASD current exceeds 320% of the rated FLA during deceleration.
OC2P Overheat During • Cooling fan inoperative.
Deceleration
• Ventilation openings are obstructed.
• Internal thermistor is disconnected.
• Deceleration time is too short.
• DC Injection current is too high.
• ASD or the motor is improperly matched to the application.
OC3 Over-Current During • Load fluctuations.
Run
• ASD is operating at an elevated temperature.
• ASD current exceeds 340% of the rated FLA on ASDs that are 100 HP or
less during a fixed-speed run or if during a fixed-speed run the ASD
overheats. On ASDs that are greater than 100 HP, it occurs when the ASD
current exceeds 320% of the rated FLA on a fixed-speed run.
OC3P Overheat During Run • Cooling fan inoperative.
• Ventilation openings are obstructed.
• Internal thermistor is disconnected.
• Improper V/f setting.
• ASD or the motor is improperly matched to the application.
OCA1 or OCL U-Phase Over-Current • Low impedance at the U lead of the ASD output.
OCA2 or OCL V-Phase Over-Current • Low impedance at the V lead of the ASD output.
OCA3 or OCL W-Phase Over-Current • Low impedance at the W lead of the ASD output.
OCR Dynamic Braking • ASD inability to discharge the bus voltage during regeneration.
Resistor Over-Current
• No dynamic braking resistor (DBR) installed.
• Deceleration time is too short.
• Improper DBR setup information.
• Defective IGBT7 (or IGBT7 ckt.).
• 3-phase input voltage is above specification.
OH Overheat • Cooling fan inoperative.
• Ventilation openings are obstructed.
• Internal thermistor is disconnected.

OH2 External Overheat • Excessive-heat signature received at the TB3 – TH1(+) and TH1(-)
terminals. See F637 for setup information.

H9 ASD Installation and Operation Manual 251

 LED Screen LCD Screen Possible Causes
OL1 ASD Overload • Acceleration time is too short.
• DC Injection current is too high.
• Improper V/f setting.
• Motor running during restart.
• ASD or the motor is improperly matched to the application.
OL2 Motor Overload • Improper V/f setting.
• Motor is locked.
• Continuous operation at low speed.
• Load requirement exceeds ability of the motor.
• Startup frequency setting adjustment required.
OLR Dynamic Braking • Deceleration time is too short.
Resistor Overload
• DBR setting adjustment required.
• Over-Voltage Stall setting adjustment required.
OP1 Over-Voltage During • Motor running during restart.
Acceleration
OP2 Over-Voltage During • Deceleration time is too short.
Deceleration
• DBR value is too high.
• DBR required (DBR setup required).
• Stall protection is disabled.
• 3-phase input voltage is out of specification.
• Input reactance required.
OP3 Over-Voltage During • Load fluctuations.
Run
• 3-Phase input voltage out of specification.
• DBR required (DBR setup required).
OT Over-Torque • A torque requirement by the load in excess of the setting of F616 or F617 for
a time longer than the setting of F618.
• The ASD is improperly matched to the application.
• The load is obstructed.

SOUT Step-Out • Motor shaft is locked.

(for PM Motor Only)
• Output phase is open.
• Operating a reciprocating load.

UP1 Main Power • Input 3-phase voltage is too low.

Under-Voltage
• Momentary power failure longer than the time setting of F628.
UP2 Control Power • This fault is caused by an under-voltage condition at the 5, 15, or the 24 VDC
Under-Voltage supply.
• 3-phase input voltage low.

252 H9 ASD Installation and Operation Manual

 Viewing Trip Information
In the event that the condition causing an Alarm does not return to the normal operating level within a
specified time, the H9 ASD Faults and a Trip is incurred.
When a trip occurs, the resultant error information may be viewed either from the LED screen, LCD Fault
screen (Table 14 on pg. 248), Monitor screen, or the Trip History screen (Program  Utilities Trip
History).
Trip Record at Monitor Screen
The at-trip condition of the last 4 incurred trips may be viewed at the Monitor screen. The Monitor
screen displays the records of up to four trips and catalogs each trip as Past Trip 1 through Past Trip 4
(see pg. 44). Once reset (Type Reset), the trip records are erased. If no trips have occurred since being
powered up or since the last reset, None is displayed for each trip record.
The Monitor screen at-trip record is erased when the H9 ASD is reset.
Note: An improper H9 ASD setup may cause some trips — reset the ASD to the Factory
Default settings before pursuing a systemic malfunction (Program  Utilities  Type
Reset  Reset to Factory Settings).
Trip History
The Trip History screen records the system parameters for up to 20 trips. The recorded trips are
numbered from zero to 19. Once the Trip History record reaches trip number 19, the oldest recorded trip
will be deleted with each new record stored (first-in first-out). The Trip # field may be selected and
scrolled through to view the recorded trip information for a given trip number. The monitored parameters
are listed in Table 15 as At-trip Recorded Parameters (parameter readings at the time that the trip
occurred).
In the event of a power loss or if the keypad has been removed from the ASD, the trip records and the real-
time clock information are retained within the keypad for up to 4.5 years via Battery Backup.
Table 15. Trip History Record Parameters.

At-trip Recorded Parameters

1) Trip Number 8) Frequency Reference 15) Feedback (1 sec.) 22) ASD Overload
2) Trip Type 9) Bus Voltage 16) Torque 23) DBR Overload
3) Time and Date 10) Discrete Input Status 17) Torque Reference 24) Motor Load
4) Frequency at Trip 11) OUT1/OUT2/FL Status 18) Torque Current 25) ASD Load
5) Output Current 12) Timer 19) Excitation Current 26) DBR Load
6) Output Voltage 13) Post Compensation Frequency 20) PID Value 27) Input Power
7) Direction 14) Feedback (inst.) 21) Motor Overload 28) Output Power
Trip records are comprised of the full list of monitored parameters (28).

Clearing a Trip
Once the cause of the trip has been corrected, performing a Reset re-enables the H9 ASD for normal
operation.
The record of a trip may also be cleared using either of the following methods:
• Cycling power (trip info may be saved via F602 if desired),
• Pressing the Stop-Reset key twice,
• Remotely via the communications channel,
• Momentarily connecting terminal RES to CC of the Terminal Board, or
• Via Program  Utilities  Type Reset  Clear Past Trip (clears Monitor screen records only).
H9 ASD Installation and Operation Manual 253
Enclosure and Conduit Plate Dimensions
The H9 ASD part numbering convention is shown below.

The enclosure dimensions for the available models (typeforms) are listed in Tables 16 and 17. The conduit
plates referenced are shown in Figures 34, 35, and 36.

H9 Part Numbering Convention.

Note: The Type 1 enclosed versions of these drives meet or exceed the specification UL 50-
1995, the Standard for Heating and Cooling Equipment, and complies with the
applicable requirements for installation in a compartment handling conditioned air.

Enclosure Dimensions
Table 16. 230-Volt H9 ASD Systems.
Mounting Hole Dimensions
Enclosure A B C
Model Number (in/mm) Conduit
Frame Figure Width Height Depth
VT130H9U Plate
Number (in/mm) (in/mm) (in/mm)
D E R1 R2

2010
2 2015 5.2/132 11.2/285 6.1/155 8.7/220 4.5/114
2025 0.217/5.5 Figure 34-A
2035 0.098/2.5
3 6.1/155 12.4/315 9.8/249 5.4/138
2055
Figure 31 6.6/168
2080
4 6.9/175 15.0/381 11.1/283 6.2/158 0.236/6.0 Figure 34-B
2110
2160
5B 2220 9.1/231 19.3/490 7.6/193 15.2/386 8.3/210 0.118/3.0 0.276/7.0 Figure 34-D
2270
6 2330 11.1/283 25.9/658 13.2/335 25.0/635 Figure 34-E
2400
2500 Figure 32 8.0/203 0.188/4.8 0.375/9.5
7B 14.3/363 33.1/841 15.0/381 32.3/820 Figure 35-G
2600
2750
9 210K 14.6/371 51.7/1313 50.2/1275 9.2/234 Figure 35-I
Figure 33 17.6/447 0.344/8.7 0.670/17
10 212K 15.7/399 53.1/1349 51.7/1313 9.9/252 Figure 35-J

254 H9 ASD Installation and Operation Manual

 Table 17. 460-Volt H9 ASD Systems.

Mounting Hole Dimensions

Enclosure A B C
Model Number (in/mm) Conduit
Frame Figure Width Height Depth
VT130H9U Plate
Number (in/mm) (in/mm) (in/mm)
D E R1 R2

4015
2 4025 5.2/132 11.2/285 6.1/155 8.7/220 4.5/114
4035 0.217/5.5 Figure 34-A
0.098/2.5
4055
3 6.1/155 12.4/315 9.8/249 5.4/138
4080 6.6/168
Figure 31
4 4110 6.9/175 15.0/381 6.2/158 0.236/6.0 Figure 34-B
4160 11.1/283
5A 8.3/211 15.1/384 7.5/190 Figure 34-C
4220
7.6/193 0.118/3.0 0.276/7.0
4270
5B 9.1/231 19.3/490 15.2/386 8.3/210 Figure 34-D
4330
6 4400 25.9/658 13.2/335 25.0/635 Figure 34-E
4500 11.1/283
7A 30.8/782 14.3/363 29.7/754 Figure 34-F
4600
Figure 32 8.0/203 0.188/4.8 0.375/9.5
4750
8 410K 14.3/363 36.1/917 15.3/389 35.3/897 Figure 35-H
412K
9 415K 14.6/371 51.7/1313 50.2/1275 9.2/234 Figure 35-I
10 420K 15.7/399 53.1/1349 51.7/1313 Figure 35-J
9.9/252
11 425K 15.0/381 63.1/1603 61.6/1565 Figure 35-K
Figure 33 17.6/447 0.344/8.7 0.670/17
430K
12 18.9/480 68.5/1740 67.0/1701 13.8/351 Figure 36-L
435K
13 440K 25.6/650 70.0/1778 68.5/1740 21.3/541 Figure 36-M

H9 ASD Installation and Operation Manual 255

 Figure 31. See Tables 16 and 17 for Actual Dimensions.

256 H9 ASD Installation and Operation Manual

 Figure 32. See Tables 16 and 17 for Actual Dimensions.

H9 ASD Installation and Operation Manual 257

 Figure 33. See Tables 16 and 17 for Actual Dimensions.

258 H9 ASD Installation and Operation Manual

 Conduit Plate Dimensions
Figure 34. See Tables 16 and 17 for the associated device. Dimensions are in in/cm.

H9 ASD Installation and Operation Manual 259

 Figure 35. See Tables 16 and 17 for the associated device. Dimensions are in in/cm.

260 H9 ASD Installation and Operation Manual

 Figure 36. See Table 17 for the associated device. Dimensions are in in/cm.

H9 ASD Installation and Operation Manual 261

Current/Voltage Specifications
Table 18. 230-Volt Chassis Standard Ratings Table.

Model 100% Output Overload Current Input Voltage Output Voltage

Typical
Number Current 120% for 60 3-Ph 50/60 3-Ph Variable
Motor HP
VT130H9U Continuous Seconds ±2 Hz Frequency

2010 0.75 3.2 A 3.84 A

2015 1.0 4.2 A 5.04 A

2025 2.0 6.8 A 8.16 A

2035 3.0 9.6 A 11.5 A

2055 5.0 15.2 A 18.2 A

2080 7.5 22.0 A 26.0 A

2110 10 28.0 A 34.0 A

2160 15 42.0 A 50.0 A

200 – 240 VAC Input Voltage
2220 20 54.0 A 65.0 A
(±10%) Level (Max.)
2270 25 68.0 A 82.0 A

2330 30 80.0 A 96.0 A

2400 40 104 A 125 A

2500 50 130 A 156 A

2600 60 154 A 185 A

2750 75 192 A 230 A

210K 100 248 A 298 A

212K 125 312 A 374 A

262 H9 ASD Installation and Operation Manual

 Table 19. 460-Volt Chassis Standard Ratings Table.

Model 100% Output Overload Current Input Voltage Output Voltage

Typical
Number Current 120% for 60 3-Ph 50/60 3-Ph Variable
Motor HP
VT130H9U Continuous Seconds ±2 Hz Frequency

4015 1.0 2.1 A 2.52 A

4025 2.0 3.4 A 4.08 A

4035 3.0 4.8 A 5.76 A

4055 5.0 7.6 A 9.00 A

4080 7.5 11.0 A 13.0 A

4110 10 14.0 A 17.0 A

4160 15 21.0 A 25.0 A

4220 20 27.0 A 32.0 A

4270 25 34.0 A 41.0 A

4330 30 40.0 A 48.0 A

4400 40 52.0 A 62.0 A 380 – 480 VAC Input Voltage

4500 50 65.0 A 78.0 A (±10%) Level (Max.)

4600 60 77.0 A 92.0 A

4750 75 96.0 A 115 A

410K 100 124 A 149 A

412K 125 156 A 187 A

415K 150 180 A 216 A

420K 200 240 A 288 A

425K 250 302 A 362 A

430K 300 361 A 433 A

435K 350 414 A 497 A

440K 400 477 A 572 A

H9 ASD Installation and Operation Manual 263

Cable/Terminal/Torque Specifications
Installation should conform to the NEC Article 110 (Requirements for Electrical Installations), all regulations
of the Occupational Safety and Health Administration, and any other applicable national, regional, or
industry codes and standards.
Note: The following ratings are guidelines and shall not be the sole determining factor of the
lug or wire size used with the H9 ASD. Application-specific applicables, wire insulation
type, conductor material, and local and regional regulations are but a few of the
considerations when selecting the actual lug and wire type to be used with the H9 ASD.
Note: Cable/Terminal specifications are based on the rated current of the H9 ASD and Do
Not include the 10% Service Factor.
Note: Use only 75° C copper wire/cable for motor and power connections.
For further installation information see the section titled Installation and Connections on pg. 14.

Table 20. 230-Volt H9 ASD Cable/Terminal/Torque Specifications.

Terminal
Wire/Cable Size Lug Size Range
Board
Torque
Model
MCP Rating AWG or kcmil
Number
(Amps)
VT130H9U Wire-Size/Lug-Capacity for TB1 – 4
Input/Output Power 3Ø-Input 3Ø-Output
Input/Output Power Terminals

Recommended Maximum 3Ø-Input 3Ø-Output In-Lbs./Nm

2010

2015 15
14
2025 10 14 to 8 11.5/1.3

2035
30
2055 10

2080
50 8 8 12 to 8 17.7/2.0
2110

2160 75 6 20
(3-core shield)
2220 100 4 3 8 to 3 21/2.4

2270 125 3 Torque to 5.3/0.6

2330 150 2 2 12 to 1/0 4 to 1/0 50/5.7 53/6

2400 175 1/0

2500 200 2/0

4/0 6 to 250 2 to 300 275/31 168/19
2600 250 3/0

2750 300 4/0

210K 400 *3/0 *1/0

6 to 250 275/31
212K 500 *250 *250

Note: (*) Indicates that the item is one of a set of two parallel cables.

264 H9 ASD Installation and Operation Manual

 Table 21. 460-Volt H9 ASD Cable/Terminal/Torque Specifications.

Terminal
Wire/Cable Size Lug Size Range
Board
Torque
Model
MCP Rating AWG or kcmil
Number
(Amps)
VT130H9U Wire-Size/Lug-Capacity TB1 – 4
Input/Output Power 3Ø-Input 3Ø-Output
for Input/Output Power Terminals

Recommended Maximum 3Ø-Input 3Ø-Output In-Lbs./Nm

4015

4025
15 14
4035 10 14 to 8 11.5/1.3

4055

4080 20 12

4110 10 8 12 to 8 17.7/2.0
30
4160
8 4 10 to 4
4220 50
21/2.4
4270
75 3 8 to 3
4330 4
20
4400 (3-core shield)
100
4500 3 2 12 to 1/0 4 to 1/0 50/5.7 53/6.0
Torque to 5.3/0.6
4600 125 2

4750 175 1/0

410K 200 2/0 4/0 6 to 250 1 to 300 275/31 168/19

412K 250 4/0

415K 300 *1/0 *4/0

420K 400 *3/0 6 to 250 275/31

*250
425K 500 *250

430K 600 *300

*350 4 to 350
435K 700 *350 375/42.4

440K 800 **250 **350 0 to 500 6 to 350

Note: (*) Indicates that the item is one of a set of two parallel cables.

Note: (**) Indicates that the item is one of a set of three parallel cables.

H9 ASD Installation and Operation Manual 265

Dynamic Braking System Specifications
Thermal protection for the DBR circuit (see Figure 37. on pg. 267) or an input contactor that will open the
3-phase power input circuit (see Figure 38. on pg. 267) to the H9 ASD in the event that a DBR over-
temperature condition occurs is a requirement. Should a DBR failure or a power source over-voltage
condition occur, the DBR thermal protection circuitry will prevent hazardous DBR temperatures.
To use the Dynamic Braking function the following requirements must be met:
• Enable the DBR function,
• Select a Resistance Value, and
• Set the Continuous Braking Wattage value at F304, F308, and F309, respectively.
Set the Braking Resistance Overload Time at parameter F639 to establish how long the braking resistor
is allowed to sustain the overload condition before a trip is incurred (the factory default setting is 5
seconds).
Light-duty and heavy-duty resistors vary from a few ohms to several hundred ohms. The appropriate
resistance size will be typeform- and application-specific. Contact your TIC Sales Representative or the
TIC Customer Support Center for more information on your specific DBR requirements.
Heavy-duty DBRs should be wired using the same gauge wire as the motor leads. Light-duty DBRs may
use one wire size smaller (AWG or kcmil) than the motor leads.
Because the heat generated by the DBR will affect the cooling capacity of the heat sink, the resistor pack
should be mounted above or to the side of the ASD — Never below the ASD. Maintain a minimum of six
inches between the resistor pack and the ASD unit.
The total wire length from the ASD to the DBR should not exceed 10 feet.
The wiring from the ASD to the DBR should be twisted approximately two twists per foot throughout the
length of the wire.
If EMI/RFI noise is of concern, the DBR wiring should be 3-core screened cable. The screen should
connect to the ASD enclosure and the resistor enclosure.

CAUTION
Though the in-line DBR fuse and the thermal relay are designed into the system to prevent a catastrophic
DBR over-current condition, they are both intended to be used as backup protection ONLY.
A proper typeform-specific and application-specific system setup that includes using the appropriate
Dynamic Braking Resistor and Overload settings will be required.

266 H9 ASD Installation and Operation Manual

 Figure 37. Braking Resistor Circuit With a Thermal Fuse.

Figure 38. Shown below is the connection diagram using an MCCB with a Trip Coil (TC) in lieu of
an input contactor. A control transformer is required for 400-volt models only. The primary MC is
opened in the event of a DBR over-current detection. With no power supplied to the ASD the
failure will not be displayed on the EOI; see the Trip History for failure information once restarted.

H9 ASD Installation and Operation Manual 267

Short Circuit Protection Recommendations
Table 22. 230/240 and 400/480-Volt ASD Recommended Circuit Breaker Selection.
Model Number Continuous Output Current
HP Circuit Breaker Part Number
VT130H9U (Amps)
2010 0.75 3.2
2015 1.0 4.2 HLL36015
2025 2.0 6.8
2035 3.0 9.6
HLL36025
2055 5.0 15.2
2080 7.5 22.0 HLL36040
2110 10 28.0 HLL36050
2160 15 42.0 HLL36070
2220 20 54.0 HLL36090
2270 25 68.0
HLL36100
2330 30 80.0
2400 40 104 HLL36125
2500 50 130 HLL36150
2600 60 154
JLL36200
2750 75 192
210K 100 248 JLL36250
212K 125 312 LIL36300
4015 1.0 2.1
4025 2.0 3.4 HLL36015
4035 3.0 4.8
4055 5 7.6
HLL36025
4080 7.5 11.0
4110 10 14.0 HLL36040
4160 15 21.0
HLL36070
4220 20 27.0
4270 25 34.0 HLL36090
4330 30 40.0 HLL36100
4400 40 52.0 HLL36125
4500 50 65.0 HLL36150
4600 60 77.0 JLL36200
4750 75 96.0 JLL36225
410K 100 124 JLL36250
412K 125 156
LIL36300
415K 150 180
420K 200 240
LIL36400
425K 250 302
430K 300 361 LIL36450
435K 350 414 LIL36500
440K 400 477 Consult NEC

268 H9 ASD Installation and Operation Manual

H9 ASD Optional Devices
The ASD may be equipped with several options which are used to expand the functionality. Table 23
lists the available options and their functions.
Table 23. H9 Optional Devices and Functions.

Part Identifier Device Name Device Function

Used to connect the ASD to a PC via the USB port of the
ASD-CAB-USB H9 USB Communication Cable
PC.
ASD-EOI-HH-G9 Display Module Docking Station Used to flash the 9-series display module.
ASD-MTG-KIT9 9-Series EOI Remote Mounting Kit Hardware used to mount 9-series ASD EOI remotely.
ASD-TB1-SIM9 ASD Input/Output Signal Simulator Used to simulate the ASD I/O monitor and control signals.
Allows the ASD to communicate via DeviceNet with
DEV002Z DeviceNet Module other DeviceNet-supported equipment including a host
computer.
ETB003Z Expansion I/O Board 1 Expands the Input/Output functionality of the ASD.
ETB004Z Expansion I/O Board 2 Expands the Input/Output functionality of the ASD.
Allows the ASD to communicate via ProfiBus with other
PDP002Z ProfiBus DP Module
ProfiBus-supported equipment including a host computer.
Allows for the USB port of a computer to be used as a
USB001Z USB-to-Serial Converter communications port for monitoring and controlling the
ASD.
Allows for the use of Vector Control using a sensor (for
VEC007Z PG Vector Feedback Board
use with a 5-volt encoder).
Allows for the use of Vector Control using a sensor (for
VEC004Z PG Vector Feedback Board
use with a 12-volt encoder).
Allows for the use of Vector Control using a sensor (for
VEC005Z PG Vector Feedback Board
use with a 15-volt encoder).
Allows for the use of Vector Control using a sensor (for
VEC006Z PG Vector Feedback Board
use with a 24-volt encoder).
Note: See the user manual of the applicable option for further information on each item.

H9 ASD Installation and Operation Manual 269

Index

Numerics Analog Function Assigned Object 21, 227

Analog Input Filter, 109
0 Hz Command Output, 125 Analog Input Function Target 11, 226
0 Hz Dead Band Signal, 124 Analog Input Function Target 21, 226
16-Bit Binary/BCD Input, 87 Analog Output Terminals, 47
Annual Average Ambient Temperature, 189
ASD Capacity, 13
A ASD Input Phase Failure Detection, 184
ASD Load, 43
Abnormal Speed Detection Time, 187
ASD Number, 202
Abnormal Speed Settings, 52
ASD OL (Overload) Trip, 43
Acc/Dec 1 – 4 Settings, 56
ASD Operation at Disconnect, 210
Acc/Dec Pattern 1, 165
ASD Output Phase Failure Detection, 183
Acc/Dec Pattern 1 – 4, 167
ASD Overload, 43, 188, 252
Acc/Dec Pattern 2, 166
ASD Side-Switching Wait Time, 147
Acc/Dec Special, 56
ASD-to-ASD Communications (2-Wire), 204
Accel/Decel 1 Settings, 46
ASD-to-ASD Communications (2-wire), 207
Accel/Decel Operation After Torque Limit, 159
Atn, 245
Accel/Decel Suspend, 144
At-Trip Recorded Parameters, 253
Accel/Decel Switching Frequency 1, 167
Auto Accel/Decel, 71
Acceleration, 80
Auto Restart, 133
Acceleration Suspend Frequency, 145
Automatic Acceleration/Deceleration, 76
Acceleration Suspend Time, 145
Automatic Function Selection, 85
Acceleration Time 1, 80
Automatic Light-Load High-Speed
Acceleration Time 2, 164
Operation Frequency, 141
Acceleration Time 3, 168
Automatic Torque Boost, 76
Acceleration Time 4, 169
Autotune Error, 250
Acceleration/Deceleration Pattern 3, 169
Autotuning, 10
Acceleration/Deceleration Pattern 4, 170
Autotuning 1, 151
Acceleration/Deceleration Switching Frequency 2, 169
Autotuning 2, 152
Acceleration/Deceleration Switching Frequency 3, 170
activate the battery backup, 28
Adding Input Selection, 191
AI2, 88 B
AI2 (Option V/I) Input Bias, 163 Base Frequency 1, 81
AI2 (Option V/I) Input Gain, 163 Base Frequency 2, 98
Alarm Prohibition, 50 Base Frequency 3, 99
Alarms, 244, 246 Base Frequency 4, 100
Always ON 1 Terminal 1, 88 Base Frequency Voltage, 52
AM, 21, 23 Base Frequency Voltage 1, 152
AM Bias Adjustment, 195 Base Frequency Voltage 2, 98
AM Output, 43 Base Frequency Voltage 3, 99
AM Output Gradient Characteristic, 194 Base Frequency Voltage 4, 100
AM Output Terminal Adjustment, 192 Battery Backup, 28
AM Output Terminal Function, 192 battery life, 28
AM/FM Output, 25 Baud Rate (2-Wire RS485), 202
Analog Filter, 54 Baud Rate (4-Wire RS485), 206
Analog Function Assigned Object 11, 226 Bezel Plate Mounting Hardware, 33

270 H9 ASD Installation and Operation Manual

BIN Input Point 1 Frequency, 121 Communications Option Speed Switch Monitor
BIN Input Point 1 Setting, 120 DeviceNet/CC-Link, 211
BIN Input Point 2 Frequency, 121 Communications Option Station Address Monitor, 210
BIN Input Point 2 Setting, 121 Communications Setting Changes, 74
Block Read Data 1, 212 Communications Time Out Time
Block Read Data 2, 212 (2- and 4-Wire RS485), 202
Block Read Data 3, 212 Communications Time-Out Action
Block Read Data 4, 213 (2- and 4-wire RS485), 203
Block Read Data 5, 213 Compensation Frequency, 43
Block Write Data 1, 211 Conduit Plate Dimensions, 254
Block Write Data 2, 211 Connect IICC to CCA, 105
Brake Answer Wait Time, 188 Connecting the ASD, 16
Braking Mode Selection, 142 Connection Diagram, 26
Braking Resistance Overload Time Continuous Dynamic Braking Capacity, 137
(10x Rated Torque), 190 Contrast, 51
Braking Time Learning Function, 144 Control Power Under-Voltage, 252
Cooling Fan Control, 186
CPU Fault, 249
C Crane/Hoist Settings, 56
Creeping Frequency, 143
Cable/Terminal Specifications, 264 Creeping Time, 144
Carrier Frequency, 56 Cumulative Operation Time Alarm, 186
Carrier Frequency Control Mode, 138 Current Control Proportional Gain, 160
CC, 22 Current/Voltage, 262
CCA, 22 Current/Voltage Specifications, 262
Change Step Selection 1, 197 Customer Support, 2
Change Step Selection 2, 198
Changed From Default, 51, 74
Changed From Default Screen, 74
Charge LED, 9, 16 D
Circuit Breaker Configuration, 15 dbOn, 245
Clearing a Trip, 253 DBR Load, 43
Clock Setup, 50 DBR OL (Overload) Trip, 43
CM1, 246 DBR Over-Current, 267
CM2, 246 DBR Overload, 43
CMOD/FMOD Change Lockout, 200 DC Bus Voltage, 43
Command Control Selections, 39 DC Injection Braking, 52
Command Mode, 77 DC Injection Braking Current, 124
Command Mode and Frequency Mode Control, 36 DC Injection Braking Start Frequency, 124
Command Source, 72 DC Injection Braking Time, 125
Commercial Power Switching Freq. Hold Time, 147 Deceleration Suspend Frequency, 145
Commercial Power Switching Wait Time, 147 Deceleration Suspend Time, 145
Commercial Power/ASD Output Switching, 146 Deceleration Time 1, 80
Commercial Power/ASD Switching Frequency, 147 Deceleration Time 2, 164
Communication Adjustments, 64 Deceleration Time 3, 169
Communication Error, 249 Deceleration Time 4, 170
Communication Settings, 64 Default Setting Changes, 74
Communications, 64 Direct Access, 49
Communications Option (DeviceNet/Profibus) Disconnection Detection Extended Time, 210
Setting 1, 207 Discrete Input, 21, 25
Communications Option (DeviceNet/Profibus) Discrete Input Terminals, 45
Setting 2, 208 Discrete Output, 21
Communications Option (DeviceNet/Profibus) Display Bias, 197
Setting 8, 209 Display Gradient Characteristic, 197

H9 ASD Installation and Operation Manual 271

Display Parameters, 49 EOI Mounting Dimensions, 34
Display Unit Multiplication Factor, 196 EOI Operation, 28
Display Unit Selection, 197 EOI Operation Jog Mode, 127
Display Units for Voltage and Current, 196 EOI Remote Mounting, 29
Disposal, 3 EOI Remote Mounting Using the ASD-MTG-KIT9, 35
Drooping, 139 EOI Remote Mounting w/o the ASD-MTG-KIT9, 34
Drooping Control, 60 EPHI, 249
Drooping Gain, 139 EPHO, 249
Drooping Insensitive Torque, 140 Equipment Inspection, 3
Drooping Output Filter, 140 ERR2, 249
Dynamic Braking, 52, 136 ERR3, 249
Dynamic Braking Resistance, 137 ERR4, 249
Dynamic Braking Resistor Over-Current, 251 ERR5, 249
Dynamic Braking Resistor Overload, 252 ERR6, 249
Dynamic Braking System Specifications, 266 ERR7, 249
ERR8, 249
ERR9, 249
E ESC Key, 30
ETN, 250
E, 248 ETN1, 250
E-10, 248 ETN2, 250
E-11, 248 ETN3, 250
E-12, 248 ETYP, 250
E-13, 248 Excitation Current, 44
E-17, 248 Exciting Strengthening Coefficient, 153
E-18, 248 Extender Cables, 33
E-19, 248 External Overheat, 251
E-20, 248
E-21, 248
E-22, 248
E-23, 248 F
E-24, 248 F, 21, 22
E-25, 249 Fan Control, 186
E-26, 249 Fault, 244
EEP1, 249 Fault Relay, 25
EEP2, 249 Faults, 244
EEP3, 249 Feedback, 60
EEPROM Data Fault, 249 Feedback (1 second), 44
EEPROM Fault, 249 Feedback (inst), 44
EF1, 249 Feedback Settings, 60
EF2, 249 FLA, 21, 23
Electronic Operator Interface, 28 FLA, B, and C Switching Relationship, 24
Electronic Operator Interface Features, 30 Flash Memory Fault, 249
Emergency Off, 31, 248 FLB, 21, 23
Emergency Off DC Injection Application Time, 183 FLC, 21, 23, 24
Emergency Off Mode Settings, 183 FM, 21, 23
Emergency Off Settings, 52 FM Bias Adjustment, 194
EMG, 246 FM Output, 43
Enclosure Dimensions, 254 FM Output Gradient Characteristic, 194
Encoder Loss, 248 FM Output Terminal Adjustment, 78
End Frequency, 124 FM Output Terminal Function, 78
EOI ASD-MTG-KIT9 Mounting Dimensions, 35 FM Voltage/Current Output Switching, 194
EOI Command Screen, 42 FMOD, 104
EOI Installation Precautions, 34 Forward Run/Reverse Run Disable, 138

272 H9 ASD Installation and Operation Manual

Forward Speed Limit Input, 155 Input Function Command 2, 214, 215, 216, 221, 222,
Forward Speed Limit Level, 155 223, 225
Forward/Reverse DC Injection Braking Priority, 125 Input Function Target 1, 213, 215, 216, 220, 222, 223,
Forward/Reverse Disable, 54 224
Forward/Reverse Run Priority Selection, 86 Input Function Target 2, 214, 215, 216, 221, 222, 223,
Forward/Reverse Run Selection, 79 225
FP, 21, 23 Input Function Target 3, 214, 215, 217, 221, 222, 224,
FP Output, 25 225
FP Terminal Assignment, 193 Input Phase Failure, 249
Free Notes, 213 Input Phase Failure Detection, 184
Frequency, 54 Input Power, 44
Frequency at Trip, 43 Input Special Functions, 47
Frequency Command Mode, 41 Input Terminal 1 (F) Function, 88
Frequency Command Screen, 32, 73 Input Terminal 1 (F) Response Time, 95
Frequency Control, 57 Input Terminal 10 (LI2) Function, 90
Frequency Control Selections, 39 Input Terminal 11 (LI3) Function, 90
Frequency Mode 1, 77 Input Terminal 12 (LI4) Function, 91
Frequency Mode 2, 108 Input Terminal 13 – 20 Response Time, 96
Frequency Mode Control, 36 Input Terminal 13 (LI5) Function, 91
Frequency Mode Priority Switching Frequency, 108 Input Terminal 14 (LI6) Function, 91
Frequency Point Selection, 204 Input Terminal 15 (LI7) Function, 92
Frequency Priority Selection, 104 Input Terminal 16 (LI8) Function, 92
Frequency Reference, 43 Input Terminal 17 (B12) Function, 96
Frequency Reference Source, 73 Input Terminal 18 (B13) Function, 96
Frequency Setting, 41 Input Terminal 19 (B14) Function, 97
Frequency Settings, 46 Input Terminal 2 (R) Function, 88
Fundamental, 46 Input Terminal 2 (R) Response Time, 95
Input Terminal 20 (B15) Function, 97
Input Terminal 3 (ST) Function, 88
G Input Terminal 3 (ST) Response Time, 95
Input Terminal 4 (RES) Function, 89
Gate Array Fault, 249
Input Terminal 4 (RES) Response Time, 96
General Safety Information, 1
Input Terminal 5 – 12 Response Time, 96
Ground Fault, 249
Input Terminal 5 (S1) Function, 89
Input Terminal 6 (S2) Function, 89
Input Terminal 7 (S3) Function, 89
H Input Terminal 8 (S4) Function, 89
Handling and Storage, 3 Input Terminal 9 (LI1) Function, 90
Heavy-Load Torque During Constant Power Input Terminal Delays, 47
Running, 142 Input Terminal Priority, 87
Heavy-Load Torque During Power Running, 142 Input Terminals, 48
Installation and Connections, 14
Installation Notes, 14
I Installation Precautions, 4
isolated V/I input, 105
I/O and Control, 21
I/O Circuit Configurations, 25
IICC, 22, 26, 105, 107
Important Notice, 3
J
Initial Setup, 70 Jog Frequency, 126
Initial UP/DOWN Frequency, 129 Jog Settings, 54
Initial UP/DOWN Frequency Rewriting, 129 Jog Stop Pattern, 127
Input Function Command 1, 213, 215, 216, 221, 222, Jump Frequencies, 57
223, 224 Jump Frequency 1, 130

H9 ASD Installation and Operation Manual 273

Jump Frequency 1 Bandwidth, 131 Manual Torque Limit Settings, 59
Jump Frequency 2, 131 Maximum Frequency, 80
Jump Frequency 2 Bandwidth, 131 MCP Rating, 264, 265
Jump Frequency 3, 131 Mode Key, 30
Jump Frequency 3 Bandwidth, 131 MOFF, 246
MON 1 Bias Adjustment, 195
MON 1 Output Gradient Characteristic, 195
L MON 1 Voltage/Current Output Switching, 195
MON 2 Bias Adjustment, 196
LCD Character/Font Information, 31 MON 2 Output Gradient Characteristic, 196
LCD Screen, 30, 32 MON 2 Voltage/Current Output Switching, 195
Lead Length Specifications, 20 MON1 Terminal Adjustment, 193
LED Character/Font Information, 31 MON1 Terminal Meter Selection, 192
LED Screen, 30, 31 MON2 Terminal Adjustment, 193
LED/LCD Screen Information, 31 MON2 Terminal Meter Selection, 193
Light Load Conditions, 11 Monitor Mode, 43
Light-Load High-Speed Learning Function, 140 Monitor Output Function 11, 227
Light-Load High-Speed Operation, 140 Monitor Output Function 21, 228
Light-Load High-Speed Operation Detection Time, 141 Monitor Output Function 31, 228
Light-Load High-Speed Operation Heavy-Load Monitor Output Function 41, 229
Detection Time, 141 Monitor Output Function Command 11, 227
Light-Load High-Speed Operation Load Wait Time, 141 Monitor Output Function Command 21, 228
Light-Load High-Speed Operation Switching Lower- Monitor Output Function Command 31, 229
Limit Frequency, 141 Monitor Output Function Command 41, 229
Line Power Switching, 48 Monitor Screen, 32
Linear Acceleration, 165 Motor 150% Overload Time Limit, 184
Load Moment of Inertia 1, 160 Motor Braking, 12
Load Moment of Inertia 2, 161 Motor Characteristics, 10
Load Sharing Gain Input, 155 Motor Connection Diagram, 17
Load-Produced Negative Torque, 12 Motor Constant 1, 153
Local Mode, 30 Motor Constant 2, 153
Local/Remote Key, 30 Motor Constant 3, 153
Lockout, 69 Motor Constant 4, 153
Lockout All Keys, 200 Motor Current Rating, 72
Low Speed Operation, 10 Motor Load, 43
Low-Current, 249 Motor OL (Overload) Trip, 43
Low-Current Detection Current Hysteresis Width, 184 Motor Overload, 252
Low-Current Detection Threshold, 185 Motor Overload Protection Configuration, 82
Low-Current Settings, 52 Motor Overload Protection Level 1, 182
Low-Current Trip, 184 Motor Overload Protection Level 2, 98
Low-Current Trip Threshold Time, 185 Motor Overload Protection Level 3, 99
Lower Limit Frequency, 81 Motor Overload Protection Level 4, 100
Lower-Limit Frequency, 71 Motor Overload Real, 43
Low-Speed Signal Output Frequency, 86 Motor Rated Capacity, 152
Lug Size, 264, 265 Motor Rated Current, 152
Motor Rated RPM, 152
Motor Set 1, 46
M Motor Set 2, 58
Motor Set 3, 58
Main Monitor Selections, 45 Motor Set 4, 58
Manual Torque Boost 1, 82 Motor Shaft Fixing Control, 125
Manual Torque Boost 2, 98 Motor/Load Combinations, 11
Manual Torque Boost 3, 99 Mounting the ASD, 15
Manual Torque Boost 4, 100 Multiplying Input Selection, 191

274 H9 ASD Installation and Operation Manual

My Function Count Data 1, 220 Operation (Local), 73
My Function Count Data 2, 220 Operation Above 60 Hz, 10
My Function Frequency Data 1, 218 Operation Command Clear Selection When ST Off, 198
My Function Frequency Data 2, 218 Operation Mode, 65
My Function Frequency Data 4, 219 Operation Panel Parameters, 58
My Function Frequency Data 5, 219 Operational and Maintenance Precautions, 9
My Function Percent Data 1, 217 Option V/I Terminal Voltage/Current Selection, 88
My Function Percent Data 3, 218 Optional Devices, 269
My Function Percent Data 4, 218 Options, 269
My Function Percent Data 5, 218 OT, 247, 252
My Function Selection, 231 OUT1, 21, 23
My Function Time Data 1, 219 Out1 Out2 FL, 45
My Function Time Data 2, 219 OUT1/OUT2 Output, 25
My Function Time Data 3, 219 OUT2, 23
My Function Time Data 4, 220 Output Current, 43
My Function Time Data 5, 220 Output Disconnect, 8
Output Function Assigned, 214, 216, 217, 221, 223, 224,
225
N Output Phase Failure, 249
Output Phase Failure Detection, 183
NERR, 250 Output Power, 44
Network Option Reset Settings, 213 Output Terminal 1 (OUT1) Function, 92
Number of PG Input Phases, 150 Output Terminal 10 (R3) Function, 97
Number of PG Input Pulses, 150 Output Terminal 11 (R4) Function, 97
Output Terminal 2 (OUT2) Function, 92
Output Terminal 3 (FL) Function, 93
O Output Terminal 4 (OUT3) Function, 93
Output Terminal 5 (OUT4) Function, 93
O1A/B, 21 Output Terminal 6 (R1) Function, 94
O2A/B, 23 Output Terminal 7 (OUT5) Function, 94
OC, 246 Output Terminal 8 (OUT6) Function, 94
OC1, 250 Output Terminal 9 (R2) Function, 95
OC1P, 250 Output Terminals, 49
OC2, 251 Output Voltage, 43
OC2P, 251 Over-Current During Acceleration, 250
OC3, 251 Over-Current During Deceleration, 251
OC3P, 251 Over-Current During Run, 251
OCA1, 251 Over-Current Protection, 13
OCA2, 251 Overheat, 251
OCA3, 251 Overheat During Acceleration, 250
OCL, 251 Overheat During Deceleration, 251
OCR, 251 Overheat During Run, 251
OH, 246, 251 Overload, 52, 53
OH2, 251 Overload Protection, 10
OJ, 246 Overload Reduction Starting Frequency, 184
OL1, 252 Override Control, 61
OL2, 252 Override Mode, 38
OLI, 247 Override Operation, 38
OLM, 247 Over-Speed, 248
OLR, 247, 252 Over-Speed Detection Frequency Lower Band, 187
OP, 247 Over-Speed Detection Frequency Upper Band, 187
OP1, 252 Over-Torque, 252
OP2, 252 Over-Torque Detection Hysteresis, 186
OP3, 252 Over-Torque Detection Level (Negative Torque), 186

H9 ASD Installation and Operation Manual 275

Over-Torque Detection Level (Positive Torque), 186 Pattern Operation Mode, 170
Over-Torque Detection Time, 186 Pattern Run, 65
Over-Torque Parameters, 53 Pattern Time, 44
Over-Torque Trip, 185 PC/-, 16
Over-Voltage During Acceleration, 252 Permanent Magnet (PM) Motor Constant 1, 164
Over-Voltage During Deceleration, 252 Permanent Magnet (PM) Motor Constant 2, 164
Over-Voltage Limit Operation, 136 PG Disconnection Detection, 151
Over-Voltage Limit Operation Level, 187 PG Input Point 1 Frequency, 122
PG Input Point 1 Setting, 122
PG Input Point 2 Frequency, 123
P PG Input Point 2 Setting, 123
PG Settings, 61
P24, 21, 23 PG Type/Connection Error, 248
P24 Output, 25 Phase Loss, 53
PA/+, 16 PID Control Switching, 147
Panel Emergency Off Lockout, 199 PID Control Wait Time, 149
Panel Frequency Lockout, 199 PID Deviation Lower-Limit, 149
Panel Load Sharing Gain, 199 PID Deviation Upper-Limit, 148
Panel Override Multiplication Gain, 199 PID Feedback, 44
Panel Reset Lockout, 200 PID Feedback Delay Filter, 148
Panel Stop Pattern, 198 PID Feedback Differential (D) Gain, 149
Panel Tension Torque Bias, 199 PID Feedback Integral (I) Gain, 148
Panel Torque Bias, 143 PID Feedback Proportional (P) Gain, 148
Panel Torque Command, 199 PID Feedback Signal, 148
Panel Torque Gain, 143 PID Output Lower-Limit, 150
Parameter Write Lockout, 196 PID Output Upper-Limit, 149
Parity (2- and 4-Wire RS485), 202 PM Motor, 164
Part Numbering Convention, 254 PO, 16
Password, 69 POFF, 247
Past Trip 1, 44 Point 1 Frequency, 205
Past Trip 2, 44 Point 1 Setting, 205
Past Trip 3, 44 Point 2 Frequency, 206
Past Trip 4, 45 Point 2 Setting, 205
Pattern 1 Repeat, 171 Power Connections, 16
Pattern 2 Repeat, 174 Power Factor Correction, 11
Pattern Group 1 Selection 1, 172 Power Running, 142
Pattern Group 1 Selection 2, 173 Power Running Stall Continuous Trip Detection
Pattern Group 1 Selection 3, 173 Time, 159
Pattern Group 1 Selection 4, 173 Power Running Torque Limit 1, 157
Pattern Group 1 Selection 5, 173 Power Running Torque Limit 1 Level, 157
Pattern Group 1 Selection 6, 174 Power Running Torque Limit 2 Level, 158
Pattern Group 1 Selection 7, 174 Power Running Torque Limit 3 Level, 158
Pattern Group 1 Selection 8, 174 Power Running Torque Limit 4 Level, 159
Pattern Group 2 Selection 1, 175 PP, 21, 23
Pattern Group 2 Selection 2, 175 PP Output, 25
Pattern Group 2 Selection 3, 175 Preset Speed 1, 83
Pattern Group 2 Selection 4, 175 Preset Speed 1 Operation Mode, 180
Pattern Group 2 Selection 5, 176 Preset Speed 10, 132
Pattern Group 2 Selection 6, 176 Preset Speed 10 Operation Mode, 181
Pattern Group 2 Selection 7, 176 Preset Speed 11, 132
Pattern Group 2 Selection 8, 176 Preset Speed 11 Operation Mode, 181
Pattern Group Cycle, 44 Preset Speed 12, 132
Pattern Group Number, 44 Preset Speed 12 Operation Mode, 181
Pattern Group Preset, 44 Preset Speed 13, 132

276 H9 ASD Installation and Operation Manual

Preset Speed 13 Operation Mode, 181 Real-Time Clock Setup, 50
Preset Speed 14, 132 Regenerative Braking Torque Limit 1, 158
Preset Speed 14 Operation Mode, 182 Regenerative Braking Torque Limit 1 Level, 158
Preset Speed 15, 133 Regenerative Braking Torque Limit 2 Level, 158
Preset Speed 15 Operation Mode, 182 Regenerative Braking Torque Limit 3 Level, 159
Preset Speed 2, 83 Regenerative Braking Torque Limit 4 Level, 159
Preset Speed 2 Operation Mode, 180 Regenerative Power Ridethrough Control Level, 188
Preset Speed 3, 84 Regenerative Power Ridethrough Mode, 134
Preset Speed 3 Operation Mode, 180 Release Time, 143
Preset Speed 4, 84 Remote EOI Hardware, 33
Preset Speed 4 Operation Mode, 181 Remote Mode, 30
Preset Speed 5, 84 RES, 21, 22
Preset Speed 5 Operation Mode, 181 Reset, 50, 79
Preset Speed 6, 84 Restore User Settings, 75
Preset Speed 6 Operation Mode, 181 Retain Trip Record at Power Down, 182
Preset Speed 7, 84 Retry Selection, 135
Preset Speed 7 Operation Mode, 181 Retry/Restart, 53
Preset Speed 8, 131 Reverse Speed Limit Input, 156
Preset Speed 8 Operation Mode, 181 Reverse Speed Limit Input Level, 156
Preset Speed 9, 132 Ridethrough Time, 137
Preset Speed 9 Operation Mode, 181 ROM Fault, 249
Preset Speed Operation Mode, 179 Root Menu Mapping, 41
Preset Speed Operation Selection, 210 Root Menus, 41
Preset Speeds, 54 Rotary Encoder, 30
Primary Menus, 32 Rotation in Specified Direction ONLY, 157
Process Decreasing Rate, 150 RR, 21, 22, 44
Process Increasing Rate, 150 RR Input, 25
Process Lower-Limit, 149 RR Input Bias, 162
Process Upper-Limit, 149 RR Input Gain, 162
RR Input Point 1 Frequency, 110
Program Menu, 32
RR Input Point 1 Rate, 112
Program Mode Menu Navigation, 46
RR Input Point 1 Setting, 110
Prohibition, 49
RR Input Point 2 Frequency, 111
Protection, 52
RR Input Point 2 Rate, 112
PTC1 Thermal Selection, 189
RR Input Point 2 Setting, 111
PTC2 Thermal Selection, 190
RS485 4-Wire Protocol Selection (TSB/ModBus), 207
PtSt, 247
RS485 Protocol Selection, 204
Pulse Output Frequency, 194
RS485 Send Wait Time (RS485 4-Wire), 206
Pulse Width Modulation, 10
Run Frequency, 123
PWM Carrier Frequency, 133
Run Frequency Hysteresis, 124
Run Key, 30
Run Time, 43
Q Rush Relay Current Activation Time, 189
Qualified Personnel, 2 RX, 21, 23, 44
RX Input, 25
RX Input Bias, 162
R RX Input Gain, 162
RX Input Point 1 Frequency, 113
R, 21, 22 RX Input Point 1 Rate, 115
R/L1, 16 RX Input Point 1 Setting, 113
RAM Fault, 249 RX Input Point 2 Frequency, 114
Random Mode, 138 RX Input Point 2 Rate, 115
Reach Settings, 49 RX Input Point 2 Setting, 114
Read Error, 249 RX2, 44

H9 ASD Installation and Operation Manual 277

RX2 (AI1) Input Bias, 163 Speed at 0% Drooping Gain, 139
RX2 (AI1) Input Gain, 163 Speed at F320 Drooping Gain, 139
RX2 (AI1) Input Point 1 Frequency, 117 Speed Error, 248
RX2 (AI1) Input Point 1 Rate, 118 Speed Limit (torque=0) Band, 157
RX2 (AI1) Input Point 1 Setting, 116 Speed Limit (torque=0) Center Value, 156
RX2 (AI1) Input Point 2 Frequency, 117 Speed Limit (torque=0) Center Value Reference, 156
RX2 (AI1) Input Point 2 Rate, 119 Speed Loop Proportional Gain, 160
RX2 (AI1) Input Point 2 Setting, 117 Speed Loop Stabilization Coefficient, 160
Speed PID Switching Frequency, 161
Speed Reach Detection Band, 86
S Speed Reach Frequency, 86
Speed Reference Setpoints, 55, 56
S/L2, 16 ST, 21, 22
S1, 21, 22 Stall, 53
S2, 21, 22 Stall Prevention During Regeneration, 160
S3, 21, 22 Stall Prevention Factor 1, 154
S4, 21, 22 Stall Prevention Level, 182
Save User Settings, 75 Standard Mode Selection, 46
Second Speed Loop Proportional Gain, 160 Start Frequency, 123
Second Speed Loop Stabilization Coefficient, 161 Startup and Test, 27
Send Wait Time (2-wire), 203 Startup Wizard Parameter Requirements, 71
Setpoints, 59 Stepout Current Detection Level, 190
Short Circuit Detection At Start, 185 Stepout Current Detection Time, 190
Short Circuit Protection, 268 Stop-Reset Key, 31
Simple Positioning Completion Range, 151 SU+, 21, 23
Sink, 24 Supply Voltage Correction, 137
Sink/Source Setting Error, 248, 249 Switching Load Torque During Power Running, 142
Slip Frequency Gain, 151 Switching Load Torque During Regenerative
Source, 24 Braking, 142
SOUT, 252 Synchronized Acceleration Time, 139
S-Pattern 1, 165 Synchronized Deceleration Time, 138
S-Pattern 2, 165 System Configuration and Menu Options, 41
S-Pattern Acceleration Lower-Limit Adjustment, 168 System Grounding, 18
S-Pattern Acceleration Upper-Limit Adjustment, 168 System Integration Precautions, 7
S-Pattern Deceleration Lower-Limit Adjustment, 168 System Operation, 70
S-Pattern Deceleration Upper-Limit Adjustment, 168
Special, 56
Special Parameters, 57
Special Protection Parameters, 53 T
Speed 1 Operation Time, 177 T/L3, 16
Speed 10 Operation Time, 178 Tension Torque Bias Input, 154
Speed 11 Operation Time, 178 Terminal, 47
Speed 12 Operation Time, 178 Terminal Board, 21, 24
Speed 13 Operation Time, 179 Terminal Descriptions, 22
Speed 14 Operation Time, 179 Time Limit For Lower-Limit Frequency Operation, 125
Speed 15 Operation Time, 179 Torque, 44, 59
Speed 2 Operation Time, 177 Torque Bias Input Selection, 143
Speed 3 Operation Time, 177 Torque Command Selection, 154
Speed 4 Operation Time, 177 Torque Control, 59, 60
Speed 5 Operation Time, 177 Torque Current, 44
Speed 6 Operation Time, 177 Torque Limit Settings, 60
Speed 7 Operation Time, 178 Torque Reference, 44
Speed 8 Operation Time, 178 Torque Speed Limiting, 60
Speed 9 Operation Time, 178 Trace, 49, 50

278 H9 ASD Installation and Operation Manual

Trace Cycle, 201
V
Trace Data 1, 201
V/f 5-Point Setting Frequency 1, 101
Trace Data 2, 201
V/f 5-Point Setting Frequency 2, 102
Trace Data 3, 201
V/f 5-Point Setting Frequency 3, 103
Trace Data 4, 201
V/f 5-Point Setting Frequency 4, 103
Trace Selection, 200 V/f 5-Point Setting Frequency 5, 104
Traverse, 58 V/f 5-Point Setting Voltage 1, 102
Traverse Acceleration Time, 233 V/f 5-Point Setting Voltage 2, 103
Traverse Deceleration Time, 233 V/f 5-Point Setting Voltage 3, 103
Traverse Jump Step, 233 V/f 5-Point Setting Voltage 4, 103
Traverse Selection, 233 V/f 5-Point Setting Voltage 5, 104
Traverse Step, 233 V/f Pattern, 81
Trip Code, 44 V/I, 44, 54
Trip History, 253 V/I Analog Input Broken Wire Detection Level, 189
Trip History (read-only), 50, 51 V/I Input, 25
V/I Input Bias, 161
Trip Settings, 53
V/I Input Gain, 161
Trouble Shooting, 244
V/I Input Point 1 Frequency, 106
Type Reset, 50, 79
V/I Input Point 1 Rate, 107
Typeform Error, 250
V/I Input Point 1 Setting, 105
V/I Input Point 2 Frequency, 106
V/I Input Point 2 Rate, 108
U V/I Input Point 2 Setting, 106
U/T1, 16 V/I Settings, 54
UC, 247 V/T2, 16
UL 1995, 254 Vector Control, 13
Under-Voltage Trip, 187 Vector Motor Model, 59
Under-Voltage Trip Detection Time, 188 Version (read-only), 51
Under-Voltage/Ridethrough, 53 Viewing Trip Information, 253
UP/DOWN Frequency (down) Frequency Step, 129 Virtual Input Terminal 1 Selection, 230
Virtual Input Terminal 2 Selection, 230
UP/DOWN Frequency (down) Response Time, 129
Virtual Input Terminal 3 Selection, 230
UP/DOWN Frequency (up) Frequency Step, 129
Virtual Input Terminal 4 Selection, 230
UP/DOWN Frequency (up) Response Time, 128
Voltage and Frequency Rating of the Motor, 71
UP/DOWN Frequency Functions, 54
Volts per Hertz Setting, 72
Up/Down Frequency Operation, 130
V-Phase Over-Current, 251
UP1, 252
UP2, 252
U-Phase Over-Current, 251 W
Upper Limit Frequency, 81 W/T3, 16
Upper-Limit Frequency, 71 Warranty Card, 2
User Notification Codes, 245 Wizard Finish, 73
Utilities, 49 W-Phase Over-Current, 251

H9 ASD Installation and Operation Manual 279

TOSHIBA
TOSHIBA INTERNATIONAL CORPORATION
INDUSTRIAL DIVISION

13131 West Little York Road, Houston, TX 77041-5807

US (800) 231-1412 CAN (800) 872-2192 MEX 01 (800) 527-1204
FAX: (713) 466-8773
http://www.toshiba.com/ind/
Printed in the U.S.A.