HRP Weighing

Platforms
SERIES
High Resolution Platforms

USER MANUAL
IMMU-31-07-07-18-EN

www.radwag.com
 JULY 2018

"The drawings, photos and graphics used are for illustrative purposes only." 2
 CONTENTS

1. GENERAL INFORMATION 4
1.1. Dimensions 4
1.2. Connectors Arrangement 6
1.3. Technical Specifications 9
1.4. Intended Use 9
1.5. Good Weighing Practice 10
1.6. Temperature Stabilization Time 11
1.7. Warranty Conditions 12
1.8. Supervision over Metrological Parameters 13
1.9. User Manual Significance 13
1.10. Operator Training 13
1.11. Maintenance 13
2. UNPACKING AND INSTALLATION 15
2.1. Place of Use 15
2.2. Unpacking and Installation 15
2.3. HRP 16, 32 Platform 16
2.4. HRP 62, 120 Platform 17
2.5. HRP 150, 300 Platform 21
2.6. HRP 300.1, 600, 1100 Platform 24
2.7. HRP 2000 Platform 29
3. ADJUSTMENT 34
3.1. Operator Start Mass 35
4. COMMUNICATION PROTOCOL 36
4.1. Communication with Module 36
4.2. Default Communication Parameters 36
4.3. HRP Configuration Using MWMH-Manager 37
4.4. Cooperation with Weighing Indicators 37
4.5. Cooperation with R-LAB Program 38
4.6. Radwag Communication Protocol 38
4.7. Commands Overview 40
4.8. Error Messages 52
4.9. Communication and Power Supply Cables 52
4.10. Platform Power Supply 55
5. TRANSPORT AND STORAGE 56
5.1. Delivery Check 56
5.2. Packaging 56
3
1. GENERAL INFORMATION

1.1. Dimensions

HRP 16, 32

HRP 62, 120

4
HRP 150, 300

HRP 300.1, 600, 1100

5
HRP 2000

1.2. Connectors Arrangement

HRP 16, 32

6
HRP 62, 120

HRP 150, 300, 300.1, 600, 1100

HRP 2000

7
Connectors arrangement for: HY 10.xx. HRP; PUE7.1.xx.HRP

No connector No connector HY10; PUE7.1;

PC + power supply

Connectors arrangement for: PL.xx HRP with Ethernet and IN/OUT

ETHERNET IN/OUT RS232, RS485

(optional connector) + power supply

Connectors arrangement for: PL.xx HRP with Profibus

Profibus OUT Profibus IN RS 232 + power supply

8
1.3. Technical Specifications

Power supply 12 ÷ 24 V DC

Operating temperature +10 - +40 °C

Relative humidity 15% ÷ 80%

IP 66/67 (for cleaning
Ingress protection
purposes)
Outputs supply voltage 12 ÷ 24 V DC

Max outputs current 100 mA

Control voltage range for outputs 12 ÷ 24 V DC

1.4. Intended Use

The series of HRP professional high resolution platforms suits every

single branch of industry. HRP series is perfect for applications
requiring high accuracy, precision and repeatability of measurement
in challenging industrial environment.
Automatic adjustment performed by means of an internal adjustment
weight is a warranty for a remarkably effective operation and
repeatability of indications. The automatic adjustment saves time and
lets to avoid performing the process manually, making it comfortable
and easy.

Features:
• Brand new design of the electromagnetic mechanism housed
in a stainless steel dust-proof and waterproof casing,
• High ingress protection IP67,
• Communication interfaces: RS 232,RS 485, Ethernet,
optionally: Profibus and IN/OUT for cooperation with
peripheral devices,
• Cooperation with HY 10, PUE 7.1 and PUE 5 indicators,
• Cooperation with MWMH-Manager software.

9
1.5. Good Weighing Practice

A. Prior the first use, carefully read this User Manual. Use the
platform only as intended;

B. Place weighed loads in the centre of the weighing pan;

YES NO

C. Load the weighing pan with loads of gross weight which does
not exceed maximum capacity;
D. In case of eccentric loading make sure that:
a) the weight of loads placed close to one of the pan edges
does not exceed ½ of max capacity,
b) the weight of loads placed in the pan corner does not
exceed 1/3 of max capacity.

E. Mind not to leave heavy loads on the weighing pan for longer
periods of time;
F. Avoid side shocks;

10
 NO NO

YES NO

G. In case of damage, immediately unplug the device from the

mains.
H. Platform to be decommissioned, should be decommissioned in
accordance with valid legal regulations;

1.6. Temperature Stabilization Time

Before start of the measuring processes, it is necessary to wait until

the platform reaches thermal stabilisation.
Platforms stored in much lower temperatures than the workroom
temperature, before being plugged to the mains (e.g. during winter
period), must be subjected to thermal stabilisation. The thermal
stabilisation period takes about 8 hours. During the thermal
stabilization, the indications on the screen can change. Potential
workroom temperature change shall occur gradually and slowly in the
course of the weighing instrument operation.

11
1.7. Warranty Conditions

A. RADWAG feels obliged to repair or exchange all elements that

appear to be faulty by production or by construction.
B. Defining defects of unclear origin and means of their
elimination can only be realized with assistance of
manufacturer and user representatives.
C. RADWAG does not bear any responsibility for damage or
losses resulting from unauthorized or inadequate performing of
production or service processes.
D. The warranty does not cover:
• mechanical damage caused by product exploitation other
than intended, damage of thermal and chemical origin,
damage caused by lightning, overvoltage in the power
network or other random event,
• damage caused by product exploitation other than
intended,
• mechanical damage, if service claims removing or
destroying protective stickers which secure the platform’s
housing against unauthorized access,
• damage caused by liquids, water and natural wear,
• damage caused by inappropriate setting or by electrical
wiring failures,
• damage caused by overloading of the mechanical
measuring system,
• inappropriate cleaning habits.
E. Loss of warranty takes place if:
• a repair is carried out outside RADWAG authorized service
point,
• service claims intrusion into mechanical or electronic
construction by unauthorized people,
• the platform does not bear company security stickers.
F. For detailed warranty conditions read the warranty certificate.

12
1.8. Supervision over Metrological Parameters

Metrological parameters need to be checked in determined time

intervals. Inspection frequency is conditioned by ambient conditions
in which the module is used, kind of carried out processes and
adopted quality management system.

1.9. User Manual Significance

Even if you are experienced and have worked with this type of device
before it is very important to read the installation manual carefully
before switching it on.

1.10. Operator Training

The platform should be utilized and supervised only by users who

have been trained to operate such type of a weighing instrument.

1.11. Maintenance

Caution:
• Be careful so as not to damage the mechanism.

• For maintenance use mild cleanser preventing corrosion.

• Avoid directing strong stream of water directly onto weighing

module's gasket membrane.

Cleaning Stainless Steel Components

Avoid using cleansers containing any corrosive chemicals, e.g.

bleach (including chlorine). Do not use cleansers containing abrasive
substances. Always remove the dirt using microfiber cloth to avoid
damage of protective coating.

In case of a daily maintenance:

• Remove the dirt using cloth dipped in warm water.
• For best results, add a little bit of dishwashing detergent.

Cleaning Powder-Coated Components

For preliminary cleaning process stage you need running water or

wet sponge featuring large holes, this will help you to remove loose,
heavy dirt.
13
Do not use cleansers containing abrasive substances.

Next, using cloth and cleanser-water solution (soap, dishwashing

liquid) gently rub the cleaned surface.

Avoid using cleanser without water since it may result with damage
of the cleaned surface, please mind that large amount of water mixed
with cleanser is a must.

Cleaning Aluminium Components

While cleaning aluminium components use products acid by nature,

e.g. spirit vinegar, lemon. Do not use cleansers containing abrasive
substances. Avoid using hard brush, this may cause scratches. It is
recommended to use microfibre cloth.

While polishing the surface use circular movements. Use clean, dry
cloth to make the surface shine. For best results, add a little bit of
dishwashing detergent.

14
2. UNPACKING AND INSTALLATION

2.1. Place of Use

* Make sure that the ambient temperature ranges between +10

°C ÷ +40 °C
* Make sure that the relative humidity is not higher than 80%,
* Slow temperature change in the course of operation,
* Ground the module’s base should static electricity affect the
weighing result.

2.2. Unpacking and Installation

Cut the adhesive tape. Take the device out of the packaging.
Open the accessory box, take the device components out of it and
install them.
Be particularly careful while unpacking the device and installing its
components so as not to cause any damages to the platform
mechanism. Do it in accordance with the description below.

Upon completing mechanical installation, carry out electrical

connections. Depending on the preferred communication type,
connect communication cables to the appropriate connectors (for
connectors description refer to section 1.2 of this user manual). It is
recommended to use original communication cables supplied by
RADWAG. Nominal voltage of the power supply (specified on the
power supply data plate) has to be compatible with the mains
nominal voltage.

15
2.3. HRP 16, 32 Platform

1. Take the platform out of the packaging.

2. Install the weighing pan.

3. Connect the indicator or computer to the weighing module.

For detailed description of connectors refer to section 1.2. of this
user manual.

4. Place the platform at the place of use on a flat

and even surface. Keep it far away from any sources of heat.

5. Level the device, to do it turn

its feet left/right. Keep turning the feet
until the air bubble takes central position.

YES NO

16
2.4. HRP 62, 120 Platform

1. Take the platform out of the packaging, make sure that you
touch 'OUTER FRAME' only.

2. Connect the indicator or computer to the weighing module.

For detailed description of connectors refer to section 1.2. of this
user manual.

17
3. Install weighing pan receivers, fit them into lever seats.

18
4. Disassemble transport lock by undoing screws and removing
fixing washers.

5. Place the device on a flat and even surface. Keep it far away
from any sources of heat (do not assemble the weighing
pan).

19
6. Screw foot no. 3 so that feet no. 1, 2, 4 form a plain surface
on which platform frame is based.
7. Level the platform using feet no. 1, 2 and 4 until the air
bubble takes central position.

YES NO

8. Unscrew foot no. 3 so that it rests on the ground. Do not

exert stress on platform frame. Do not change the level of
the platform (the air bubble has to remain in central position).
9. Install the weighing pan (5).

20
 10. Connect the scale to the power supply.

2.5. HRP 150, 300 Platform

1. Take the platform out of the packaging, make sure that you
touch 'OUTER FRAME' only.

21
2. Connect the indicator or computer to the weighing module.
For detailed description of connectors refer to section 1.2. of this
user manual.

3. Install weighing pan receivers, fit them into lever seats.

4. Disassemble transport lock by undoing screws and removing

fixing washers.

22
5. Place the device on a flat and even surface. Keep it far away
from any sources of heat (do not assemble the weighing
pan).

6. Screw foot no. 3 so that feet no. 1, 2, 4 form a plain surface

on which platform frame is based.
7. Level the platform using feet no. 1, 2 and 4 until the air
bubble takes central position.

23
 YES NO

8. Unscrew foot no. 3 so that it rests on the ground. Do not

exert stress on platform frame. Do not change the level of
the platform (the air bubble has to remain in central position).
9. Install the weighing pan (5).

10. Connect the scale to the power supply.

2.6. HRP 300.1, 600, 1100 Platform

1. Take the platform out of the packaging, make sure that you
touch 'OUTER FRAME' only.

24
 2. Connect the indicator or computer to the weighing module.
For detailed description of connectors refer to section 1.2. of this
user manual.

3. Install weighing pan receivers (4), fit them into lever seats(5).

25
4. Disassemble transport lock by undoing screws and removing
fixing washers (6).

26
5. Place the device on a flat and even surface. Keep it far away
from any sources of heat (do not assemble the weighing
pan).

6. Screw foot no. 3 so that feet no. 1, 2, 4 form a plain surface

on which platform frame is based.
7. Level the platform using feet no. 1, 2 and 4 until the air
bubble takes central position.

YES NO

8. Unscrew foot no. 3 so that it rests on the ground. Do not

exert stress on platform frame. Do not change the level of
the platform (the air bubble has to remain in central position).
9. Install the weighing pan (7).

27
10. Connect the scale to the power supply.

28
2.7. HRP 2000 Platform

1. Take the platform out of the packaging using hoist.

Procedure:
• Unscrew 4 screws presented in the figure below.

• Screw 4 screws with eyelets. Using cords and hoist

take the platform out of the packaging and place in
the place of use on a flat and even surface. Keep it
far away from any sources of heat.

29
 • Upon locating the platform in the place of use,
unscrew the screws with eyelets.

2. Disassemble the top of the weighing platform (3).

3. Connect the indicator or computer to the weighing module. For

detailed description of connectors refer to section 1.2. of this user
manual.

30
4. Disassemble transport locks (5).

5. Set the bumpers. Loosen the nuts in all four corners.

Unscrew the screws and set 1 mm gap. Tighten the nuts.

6. Place the device on a flat and even surface. Keep it far away
from any sources of heat (do not assemble the weighing
pan).

31
7. Screw foot no. 3 so that feet no. 1, 2, 4 form a plain surface
on which platform frame is based.
8. Level the platform using feet no. 1, 2 and 4 until the air
bubble takes central position.

YES NO

9. Unscrew foot no. 3 so that it rests on the ground. Do not

exert stress on platform frame. Do not change the level of
the platform (the air bubble has to remain in central position).
10. Install the weighing pan (3).

32
11. Connect the scale to the power supply.

33
 3. ADJUSTMENT
In order to ensure the highest weighing accuracy, it is recommended
to periodically correct indications by entering a corrective factor to
module memory, the said factor must be referred to a mass standard.
Adjustment has to be carried out before weighing process, after a
long break between measurements series or when ambient
temperature changes rapidly. The adjustment has to be carried out
for unloaded weighing pan and stable working conditions (no drafts
or vibrations). An error message is displayed when one of the above
conditions is not fulfilled. In such case, unload the weighing pan or
eliminate other distorting factors and repeat the adjustment. Do not
use the module until the adjustment is carried out. Follow the
displayed messages. HRP platforms are equipped with an internal
weight, the adjustment can be carried out using either this weight or
an external one.

There are three types of adjustment process:

• adjustment using external weight
• automatic internal adjustment initiated by the balance (at a
specified time interval and in the case of an ambient
temperature change)
• internal adjustment initiated by an operator

The adjustment procedure using external weight can be carried out

using:
• MWMH-Manager - program for platforms and modules
operation
• weighing indicator connected to the module

Internal adjustment can be initiated using:

• MWMH-Manager - program for platforms and modules
operation
• weighing indicator connected to the module
• IC command of the communication protocol
• command of the Profibus protocol
• command of the Modbus protocol

CAUTION
Verified HRP platforms cannot be adjusted using external weight.

34
 3.1. Operator Start Mass

You can determine zero point of HRP platforms. Option can be set
using:
• MWMH-Manager - program for platforms and modules
operation
• weighing indicator connected to the module

CAUTION
Determination of start mass carried out by an operator is not
available for verified platforms.

35
4. COMMUNICATION PROTOCOL

4.1. Communication with Module

HRP Platforms can communicate with RADWAG-manufactured

weighing indicators, computer applications and industrial controllers
via RS232, Ethernet and, optionally, via RS485 and Profibus
connectors.
Communication protocols of the modules:
• Radwag communication protocol
• Modbus RTU (RS485)
• Modbus TCP (Ethernet)
• Profibus
Modbus - Profibus communication has been described in a separate
user manual.
In addition, the platform can be equipped with digital inputs and
outputs which enable taring, zeroing, dosing start and stop, threshold
signalling and dosing process controlling.

Caution:
HRP platforms with Profibus are not equipped with digital IN/OUT,
RS485 and Ethernet.

4.2. Default Communication Parameters

• RS 232
Baud rate 57600
Data bits 8
Parity none
Stop bits 1

• RS 485
Baud rate 57600
Data bits 8
Parity none
Stop bits 1
Module address 1

• TCP/IP
IP address 192.168.0.2
Subnet mask 255.255.255.0
Default gateway 192.158.0.1
Port 4001

36
4.3. HRP Configuration Using MWMH-Manager

„MWMH-Manager” is a computer software operating in MS

Windows environment, intended for operation and configuration of
parameters of HRP platforms and MWSH, MWMH, MWLH
magnetoelectric weighing modules. The program facilitates the
following: mass readout, taring, zeroing, setting filters, adjustment,
setting communication parameters, simulation of digital inputs and
outputs operation.
„MWMH-Manager” software enables communication with peripheral
devices using RS232, RS485 and Ethernet. MWMH-Manager
software has been described in a separate user manual.

4.4. Cooperation with Weighing Indicators

HRP platforms are compatible with the following indicators: HY 10,

PUE 5 and PUE 7.1. Communication between the devices is
established via RS232, RS485 and Ethernet connectors.
Combination of the HRP platform and indicator results in high
resolution weighing instrument with applications intended for
industry. Weighing indicator enables full access to module
parameters and allows carrying out adjustment procedure.

PUE HY10 Indicator PUE 5 Indicator

PUE 7.1 Indicator

37
4.5. Cooperation with R-LAB Program

R-LAB program is a computer application that enables mass value

readout carried out on connected modules, measurements collection,
taring and zeroing.
The program enables connection with the HRP platform via RS232
and Ethernet connectors.

4.6. Radwag Communication Protocol

General information
• A character-based communication protocol (platform-indicator,
computer) is designed for establishing communication
between a RADWAG weighing instrument and a peripheral
device via RS-232C, RS 484 or Ethernet interface.

• The protocol consists of commands sent from a peripheral

device to the platform and responses from the weighing
device.

• Responses are sent from the platform each time a command is

received.

• Commands, forming the communication protocol, enable

obtaining data on platform status and facilitate influencing
weighing instrument operation, e.g.: acquiring measurement
results from the platform, zeroing, etc.

Command Command overview

Z Zeroing
T Taring
OT Give tare value
UT Set tare
Send stable measurement result in basic
S
measuring unit
Immediately send measurement result in basic
SI
measuring unit
Send stable measurement result in current
SU
measuring unit

38
 Immediately send measurement result in current
SUI
measuring unit
Switch on continuous transmission in basic
C1
measuring unit
Switch off continuous transmission in basic
C0
measuring unit
Switch on continuous transmission in current
CU1
measuring unit
Switch off continuous transmission in current
CU0
measuring unit
DH Set min checkweighing threshold
UH Set max checkweighing threshold
ODH Give value of min checkweighing threshold
OUH Give value of max checkweighing threshold
NB Give balance serial number
UI Give accessible units
US Set unit
UG Give current unit
BN Give balance type
FS Give max capacity
RV Give program version
A Set AUTOZERO
PC Send all implemented commands
FIS Set filter
GIN Give status of inputs settings
GOUT Give status of outputs settings
SOUT Set outputs
IC Internal adjustment
PS Send module settings

Caution: Each command must end with CR LF characters.

39
 Response format

XX_A CR LF command understood and in progress

XX_D CR LF command carried out (appears only after the XX_A command)

XX_I CR LF command understood but not accessible at this moment

XX _ ^ CR LF command understood but max threshold is exceeded

XX _ v CR LF command understood but min threshold is exceeded

XX _ OK CR LF command carried out

ES_CR LF command not recognised

time limit exceeded while waiting for stable measurement result
XX _ E CR LF
(time limit is a characteristic module parameter)

XX - name of a sent command

_ - space

4.7. Commands Overview

Zeroing

Format: Z CR LF

Response options:

Z_A CR LF - command understood and in progress

Z_D CR LF - command carried out
Z_A CR LF - command understood and in progress
Z_^ CR LF - command understood but zeroing range is exceeded
Z_A CR LF - command understood and in progress
- time limit exceeded while waiting for stable measurement
Z_E CR LF
result
Z_I CR LF - command understood but not accessible at this moment

Taring

Format: T CR LF

40
 Response options:

T_A CR LF - command understood and in progress

T_D CR LF - command carried out
T_A CR LF - command understood and in progress
T_v CR LF - command understood but taring range is exceeded
T_A CR LF - command understood and in progress
- time limit exceeded while waiting for stable measurement
T_E CR LF
result
T_I CR LF - command understood but not accessible at this moment

Give tare value

Format: OT CR LF

Response: OT_TARE CR LF - command carried out

Response format:

1 2 3 4-12 13 14 15 16 17 18 19

O T space tare space unit space CR LF

Tare - 9 characters, right justification

unit - 3 characters, left justification

Caution: Tare value is always given in adjustment unit.

Set tare

Format: UT_TARE CR LF, where TARE - tare value.

Response options:

UT_OK CR LF - command carried out

UT_I CR LF - command understood but not accessible at this moment

ES CR LF - command not recognised (tare format incorrect)

Caution: Use dot in tare format as decimal point.

41
Send stable measurement result in basic measuring unit

Format: S CR LF

Response options:

S_A CR LF - command understood and in progress

- time limit exceeded while waiting for stable measurement
S_E CR LF
result
S_I CR LF - command understood but not accessible at this moment
- command carried out, immediate response: mass value in
MASS FRAME
basic measuring unit
Response format:

1 2-3 4 5 6 7-15 16 17 18 19 20 21
stability
S space space character mass space unit CR LF
marker

Example:
S CR LF - command sent from a computer

S _ A CR LF - command understood and in progress

- command carried out
response: mass value in basic
measuring unit
S _ _ _ _ - _ _ _ _ _ _ 8 . 5 _ g _ _ CR LF
- command carried out, immediate
response: mass value in basic
measuring unit
where: _ - space

Immediately send measurement result in basic measuring unit

Format: SI CR LF

Response options:
- command understood but not accessible at this moment
SI_I CR LF
- command carried out, immediate response: mass value in
MASS FRAME basic measuring unit

Response format:
42
 1 2 3 4 5 6 7-15 16 17 18 19 20 21
stability
S I space space character mass space unit CR LF
marker

Example:

S I CR LF - command sent from a computer

- command carried out, immediate
S I _ ? _ _ _ _ _ _ _ 1 8 . 5 _ k g _ CR LF response: mass value in basic measuring
unit
where: _ - space

Send stable measurement result in current measuring unit

Format: SU CR LF

Response options:

SU_A CR LF - command understood and in progress

SU_E CR LF - time limit exceeded while waiting for stable measurement result

SU_I CR LF - command understood but not accessible at this moment

- command carried out, immediate response: mass value in basic
MASS FRAME
measuring unit
Response format:
1 2 3 4 5 6 7-15 16 17 18 19 20 21
stability
S U space space stability mass space unit CR LF
marker

Example:
S U CR LF - command sent from a computer

S U _ A CR LF - command understood and in progress

- command carried out, immediate
S U _ _ _ - _ _ 1 7 2 . 1 3 5 _ N _ _ CR LF response: mass value in current measuring
unit.
where: _ - space

Immediately send measurement result in current measuring unit

43
Format: SUI CR LF

Response options:

SUI_I CR LF - command understood but not accessible at this moment

MASS FRAME - immediate response: mass value in basic measuring unit

Response format:
1 2 3 4 5 6 7-15 16 17 18 19 20 21
stability
S U I space stability mass space unit CR LF
marker

Example:

S U I CR LF - command sent from a computer

- command carried out, immediate
S U I ? _ - _ _ _ 5 8 . 2 3 7 _ k g _ CR LF response: mass value in basic measuring
unit
where: _ - space

Switch on continuous transmission in basic measuring unit

Format: C1 CR LF

Response options:

C1_I CR LF - command understood but not accessible at this moment

C1_A CR LF - command understood and in progress

- command carried out, immediate response: mass value in basic
MASS FRAME
measuring unit
Response format:
1 2 3 4 5 6 7-15 16 17 18 19 20 21
stability
S I space space character mass space unit CR LF
marker

Switch off continuous transmission in basic measuring unit

Format: C0 CR LF

Response options:

44
C0_I CR LF - command understood but not accessible at this moment

C0_A CR LF - command understood and carried out

Switch on continuous transmission in current measuring unit

Format: CU1 CR LF

Response options:

CU1_I CR LF - command understood but not accessible at this moment

CU1_A CR LF - command understood and in progress

MASS FRAME - response: mass value in current measuring unit

Response format:
1 2 3 4 5 6 7-15 16 17 18 19 20 21
stability
S U I space character mass space unit CR LF
marker

Switch off continuous transmission in current measuring unit

Format: CU0 CR LF

Response options:

CU0_I CR LF - command understood but not accessible at this moment

CU0_A CR LF - command understood and carried out

Set min checkweighing threshold

Format: DH_XXXXX CR LF, where: _ - space, XXXXX - mass format

Response options:

DH_OK CR LF - command carried out

ES CR LF - command not recognised (mass format incorrect)

Set max checkweighing threshold

45
Format: UH_XXXXX CR LF, where: _ - space, XXXXX - mass format

Response options:

UH_OK CR LF - command carried out

ES CR LF - command not recognised (mass format incorrect)

Give value of min checkweighing threshold

Format: ODH CR LF

Response: DH_MASA CR LF - command carried out

Response format:

1 2 3 4-12 13 14 15 16 17 18 19
D H space mass space unit space CR LF

Mass - 9 characters, right justification

Unit - 3 characters, left justification

Give value of max checkweighing threshold

Format: OUH CR LF

Response: UH_MASA CR LF - command carried out

Response format:

1 2 3 4-12 13 14 15 16 17 18 19
U H space mass space unit space CR LF

Mass - 9 characters, right justification

Unit - 3 characters, left justification

Give scale serial number

Format: NB CR LF
Response options:

46
 NB_A_”Serial No.” CR LF - command understood, response: serial number.

NB_I CR LF - command understood but not accessible at this

moment.

”Serial No.” – serial number of the device, Inserted in between

inverted commas.

Example:
NB CR LF – command sent from a computer.
NB_A_”123456” CR LF – scale serial number - 123456.

Give accessible units

Format: UI CR LF
Response options:
UI_”x1,x2, … xn”_OK<CR><LF> - command carried out, response: accessible
units.
UI_I <CR><LF> - command understood but not accessible at this
moment.

x - unit symbol, separated by means of commas.

Example:
UI CR LF - give available units.
UI_”kg,N,lb,u1,u2”_OK CR LF - response: available units.

Set current unit

Format: US_x CR LF
Response options:
US_ x_OK CR LF - command carried out, response: set unit.
- error in-course of command execution, no parameter or
US_E CR LF
incorrect format.
US_I CR LF - command understood but not accessible at this moment.

x - parameter, units symbols: g, kg, N, lb, oz, ct, u1, u2, next.

Caution:
If x=next the command swaps to another available unit on the list (it
simulates key pressing).
47
 Example:
US_kg CR LF - set „kg” unit.
US_kg_OK CR LF - „kg” set as a current unit.

Give current unit

Format: UG CR LF
Response options:
UG_x_OK<CR><LF> - command carried out, response: set unit.
UG_I <CR><LF> - command understood but not accessible at this moment.

x - parameter, unit symbol.

Example:
UG CR LF - give current unit.
UG_kg_OK CR LF – currently set unit is „kg”.

Give module type

Format: BN CR LF
Response options:
BN_A_”x” CR LF - command understood, response: weighing device type.
BN_I CR LF - command understood but not accessible at this moment.

x - weighing device type (inserted in between inverted commas).

Example:
BN CR LF - give weighing device type.
BN_A_”C32” CR LF – weighing device type: „C32”.

Give max capacity

Format: FS CR LF
Response options:
FS_A_”x” CR LF - command understood, response: max capacity.
FS_I CR LF - command understood but not accessible at this moment.

x – Max capacity value (in between inverted commas).

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 Example:
FS CR LF - give Max capacity.
FS_A_”3.000” CR LF – Max capacity: „3.000”.

Give program version

Format: RV CR LF
Response options:
RV_A_”x” CR LF - command understood, response: program version.
RV_I CR LF - command understood but not accessible at this moment.

x – program version (in between inverted commas).

Example:
RV CR LF - give program version.
RV_A_”1.0.0” CR LF – response program version „1.0.0”.

Set autozero

Format: A_n CR LF
Response options:
A_OK CR LF - command carried out.
- error in-course of command execution, no parameter or
A_E CR LF
incorrect format.
A_I CR LF - command understood but not accessible at this moment.

n - parameter, decimal value determining autozero settings:

0 – autozero off.
1 – autozero on.

Example:
A_1 CR LF - turn autozero function on.
A_OK CR LF – autozero function is on.

Send all implemented commands

Format: PC CR LF
Response:
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 PC_A_"Z,T,S,SI,SU,SUI…" - command carried out, all implemented
commands have been sent.
Set filter
Format: FIS_n <CR><LF>
Response options:
FIS_OK <CR><LF> - command carried out
- error in-course of command execution, no
FIS_E <CR><LF>
parameter or incorrect format
- command understood but not accessible at
FIS_I <CR><LF>
this moment
n - parameter, decimal value determining filter number
n→ 1 – very fast
2 – fast
3 – average
4 – slow
5 – very slow
Caution:
The numbering is assigned to a particular filter name and it is identical for
all balance types.
The command changes settings for a current working mode if, for a
particular balance type, filter settings are assigned to the working mode.
Example:
Command: FIS_3<CR><LF> - set average filter
Response: FIS_OK<CR><LF> - average filter set
Give status of inputs settings
Format: GIN CR LF
Response: GIN_XXXXX CR LF - where: XXXXX- status of inputs settings starting from
input 5 and ending with input 1 0-input not set 1-input set

Response format:
1 2 3 4 5-9 10 11

G I N space inputs status CR LF

-5 characters signalling
Inputs status inputs status: character No.
5 input 5 …character No. 9

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 input 1
Give status of outputs settings
Format: GOUT CR LF
Response: GOUT_XXXX CR LF - where XXXX-status of outputs settings starting from
output 4 and ending with output 1 0-output not set
1-output set
Response format:
1 2 3 4 5 6-9 10 11

G O U T space outputs status CR LF

-4 characters signalling outputs

Inputs status status: character No. 6 output 4
…character No. 9 input 1
Set outputs
Format: SOUT_XXXX CR LF, where: _ - space, XXXXX – outputs status
setting
active-1 or not active-0 starting from output No.4 to output No. 1.
Response options:
SOUT_OK CR LF - command carried out
- command not recognised (incorrect
ES CR LF
outputs mask format )
Internal adjustment
Format: IC CR LF
Response options:
IC_A CR LF - command understood and in progress
IC_D CR LF - adjustment completed
IC_A CR LF - command understood and in progress
- time limit exceeded while waiting for stable
IC_E CR LF
measurement result
- command understood but not accessible at this
IC_I CR LF
moment
Send module settings
Format: PS <CR><LF>
Response options:
Example:
Command: PS <CR><LF> - send module settings
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 PS_A<CR><LF>
Response: … - scale settings
PS_D<CR><LF>

4.8. Error Messages

-Err2- Value beyond zero range

-Err3- Value beyond tare range
-Err8- Zeroing/taring operation time exceeded
-NULL- Zero value from converter
-FULL- Measuring range (Max. capacity) exceeded
-LH- Start mass error

4.9. Communication and Power Supply Cables

HRP-computer RS232 cable

RS485 HRP cable

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RS232 HRP-HY10,PUE 5 cable + power supply

Ethernet HRP-HY10,PUE 5 cables

53
Ethernet HRP- Ethernet Switch, Pue 7.1 cable

HRP IN/OUT cable

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Caution:

Colours of wires for cable of M12 standard. The figure presents

exemplary cable type.

4.10. Platform Power Supply

To supply HRP platform use SYS-1544-2415-T3-HRP power supply

that is included in the set with the module. In case of communication
via PT0348 or PT0375 cables, the power supply has to be plugged to
the connector that terminates the cable. In case of communication
via Ethernet or Profibus, the power supply has to be plugged directly
to the connector No. 3 .

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5. TRANSPORT AND STORAGE

5.1. Delivery Check

Upon delivery it is necessary to check the package and the device,

make sure that your package bears no signs of damage.

5.2. Packaging

Keep all package elements should your device be transported in the

future.
Remember that only original packaging can be used for shipping
purposes. Prior packing, uncouple any cables, remove any separable
components (weighing pan, shields, inserts). The device components
shall be packed into an original packaging, thus being protected
against potential damage during transportation.

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