INGEPAC DA

Control

Data Sheet
Rev.D
No part of this publication may be reproduced by whatever means without the prior written permission of Ingeteam
Power Technology.

One of the main aims of Ingeteam Power Technology lies in the continuous improvement of the company’s
equipment and, therefore, the information contained in this catalogue may be modified without prior notification.

For further information, consult the corresponding manual or contact us directly.

 Table of contents

Table of contents
MODEL CODE SELECTION ...............................................................................................................4

GENERAL DESCRIPTION ..................................................................................................................5

GENERAL CONFIGURATION ............................................................................................................5

LOGICS ........................................................................................................................................................ 5

DATA ACQUISITION FUNCTIONS.....................................................................................................5

TIME SYNCHRONIZATION ...............................................................................................................5

SYNCHRONIZATION SNTP...............................................................................................................5

COMMUNICATION HARDWARE AND PROTOCOLS ..........................................................................6

Parallel Redundancy Protocol (PRP) ............................................................................................... 6

High-availability Seamless Redundancy (HSR)............................................................................. 6
Switch mode .......................................................................................................................................... 6
Link failover redundancy .................................................................................................................... 6

WEB SERVER..................................................................................................................................7

TECHNICAL SPECIFICATIONS ...........................................................................................................8

Communication ports ........................................................................................................................ 10

CONSTRUCTION FEATURES .......................................................................................................... 12

KEYPAD/LOCAL DISPLAY .............................................................................................................. 17

INTERCONNECTION DIAGRAMS.................................................................................................... 18

Pag. 3
 Model Code Selection

Model Code Selection

INGEPAC DA - P TC C F - -

MODEL
Control PTC

CONTROL FUNCTIONS
Yes B

ENCLOSURE
Surface mount 2/3 19" B
1/3 19" with display D
Surface mount 1/3 19" F
Front Panel 1/3 19" K
Front Panel 2/3 19" L

POWER SUPPLY
PS 24/48 Vdc | 24/48Vdc 8DIs | 5DOs A
PS 125/220 Vdc | 125Vdc 8DIs | 5DOs B
PS 125/220 Vdc | 220Vdc 8DIs | 5DOs C

REAR SERIAL PORT SP0

None C
RS232 D

REAR SERIAL PORT SP1

X None SP1
A GFO (Glasss Fibre Optic)
B PFO (Plastic Fibre Optic)
C RS232/RS485

REAR ETHERNET COMMUNICATIONS

F Ethernet RJ45 Note2 ETH2
G Ethernet LC ETH1
H LC (PRP/HSR) Note 3
I RJ45 (PRP/HSR) Note 3

TERMINAL TYPE
Pin terminal A

ADDITIONAL BOARDS/TYPE Note 1

X X None SLOT2
X C 24/48 Vdc 15 DI's | 8 DO's SLOT3
A C 125 Vdc 15 DI's | 8 DO's SLOT4
B C 220 Vdc 15 DI's | 8 DO's SLOT5
X M 24DI/ 16DOs (13NO/3NC) 24/48Vcc
A M 24DI/ 16DOs (13NO/3NC) 125 Vcc
B M 24DI/ 16DOs (13NO/3NC) 220 Vcc
X Z 24DI/ 16DOs (12NO/4NC) 24/48Vcc
A Z 24DI/ 16DOs (12NO/4NC) 125 Vcc
B Z 24DI/ 16DOs (12NO/4NC) 220 Vcc
X G 13DIs 24/48Vcc
A G 13DIs 125 Vcc
B G 13DIs 220 Vcc
X N 8DC (mA) 15DIs, 24/48Vcc
X U 8DC (4mA/4V) 15DIs, 24/48Vcc
X V 8DC (V) 15DIs, 24/48Vcc
A N 8DC (mA) 15DIs, 125Vcc
A U 8DC (4mA/4V) 15DIs, 125Vcc
A V 8DC (V) 15DIs, 125Vcc

RESERVED
Reserved -

Support
Standar -
IP55 A
None B

RESERVED
-

Note 1: The maximum capacity of simultaneously activated digital outputs is 37

Note 2: The order in ETHs will be LC/RJ45 (FG) in the case of combination of both
Note 3: PRP/HSR only available for ETH-2

Pag. 4
 General description

Time Synchronization
General description
Several synchronization sources are permitted, with the following
The INGEPAC DA equipment is a control device with the priority:
possibility of logic based on IEC 61131-3 and local and remote
 IEEE 1588 v2
digital inputs and outputs, and IEC 61850 communications
 IRIG-B
 SNTP
General configuration  Communication protocols
 pacFactory
Setting Options  Local display
Language Spanish / English
Locking functional keys NO / YES

Locking control keys NO / YES

Synchronization SNTP
Funcional keys, remote mode NO / YES
Locking leds NO / YES The synchronization capability is available through the SNTP
Locking from commands NO / YES protocol.
B002 (without year) /
IRIG-B Format
B002 IEEE 1344 (with year)
The following parameters are allowed to be configured:
Local/remote mode Logic input  Main synchronization source (IP)
Not treated
Iberdrola  Secondary synchronization source (IP)
Local/Remote type
Exclusive
No frame  Unsynchronized time (seconds)
Flicker NO / YES
 Polling period to SNTP servers (minutes)

 Wait time for SNTP server response (seconds)

Logics

User Logic functions based on IEC 61131-3

Up to 96 user logic functions. Programming tools based on
IEC61131-3 ST (textual) and FBD (graphic) languages

There are two different types of logics:

Control logics:

 Only available in models with extended control functions.

 The logics are run in two different tasks, each with

different priorities: one for fast logics (2ms) and one for
slow logics (10ms).

 Freely configurable in the engineering process

The equipment will be synchronized with the main SNTP server as

long as it is available. In the case of not being able to be accessed,
Data Acquisition Functions it proceeds to synchronize with the secondary server.
The secondary SNTP server will become the source of computer
synchronization only during the time when the principal is not
They are stored in the non-volatile memory.
operational
Events
It records up to 4,000 events with the following info:

 Date and hour: Day/Month/Year Hour/Min/Sec.msec

 Event description

Pag. 5
 Communication hardware and protocols

 Independent ports
Communication hardware and  Link failover redundancy
protocols  Switch mode

Front Ethernet port (RJ45)

With options H and I of ethernet communications, PRP/HSR is
 Configuration and maintenance available.

Serial port (SP0) for maintenance purposes Parallel Redundancy Protocol (PRP)

Rear serial port for general purposes (RS232, RS485, GFO or The PRP is a redundancy communication protocol defined in the
PFO) and 2 rear Ethernet ports (RJ45 or LC) in the rear: IEC 62439-3 standard and it is one of the redundancy mechanism
recommended in IEC 61850 networks.

In PRP solutions two independent ethernet networks are used.

 DNP (serial and TCP-IP) Each device is attached to both networks and sends and receives
 IEC 60870-5-104 (TCP-IP) all the frames over both LANs simultaneously, consumes the first
frame and discards the duplicate. With this mechanism PRP
 IEC 60870-5-103 (serial)
ensures zero-packet loss and zero recovery time upon single
 IEC 60870-5-101 (serial) network failures.
 IEC 61850
 PROCOME (serial and TCP-IP) High-availability Seamless Redundancy (HSR)
 Modbus Server (serial and TCP-IP) The HSR is a redundancy communication protocol defined in the
 Modbus (RTU) as master. IEC 62439-3 standard and it is one of the redundancy mechanism
 Web services recommended in IEC 61850 networks.
 Embedded Web server
In the HSR protocol the device use two redundant ethernet ports
and the protocol is based on the simultaneous transmission and
reception of data via both independent ports. In the HSR networks
In the case of SP0 rear port, this port is only available for
no external switches are used, instead each device has two ring
configuration via PacFactory. ports, and all the devices are connected in a ring topology, with
PacFactory software is available for configuration and one port of the device connected to the previous device and the
maintenance, available for Windows environment. other connected to the following device.

The main IEC 61850 services are: Switch mode

 Data set: Reports or Goose data. In the switch mode both ethernet ports act as an unmanaged
switch forwarding the network traffic.
 Report control block: Configuration of IEC 61850 client’s
communications. Buffered and Unbuffered report control The recommended network topology is a ring solution with external
blocks available.
managed switches to control the loop with the RSTP protocol in
 GOOSE (Generic Object Oriented Substation Events). the ring because the IED integrated switch does not implement
 Control: Different control models to carry out orders or that control. It is very important that the external switches have the
commands. RSTP protocol enabled because otherwise the loop topology can
 Setting group control block: Settings management cause communication problems in the network. In case of link-up
o All device settings available in the data model or link-down the communication can be temporary interrupted
and through IEC 61850 communication before the ring reconfiguration.

 Synchronization: SNTP defined by IEC 61850 Link failover redundancy

 Files service: Configuration and data files exchanger With the link failover redundancy the device uses two ethernet
between client and server. ports for a redundant communication. In this redundancy mode the
The data model used by the IEC 61850 is based on: device communicates by one of the ethernet ports and if there is a
link failure in that port, switches to the redundant port if the link
 IEC 61850-7-4 Compatible logical node classes and status of that port is active.
data classes
 IEC 61850-7-3 Common data classes In this redundancy, unlike the case of PRP redundancy, it should
Additionally the implementation in the DA platform supports: not be used two independent ethernet networks. The two Ethernet
ports of the equipment must be connected to different network
 GOOSE subscription switches, but must belong to the same network, so that the
 SNTP/NTP synchronisation. switches should be connected at some point in the network
 FTP/WEB access

With options F and G of ethernet communications, the mode of

operation of the rear ethernet ports (ETH1 and ETH2) is
configurable by software in one of these modes:

Pag. 6
 Web Server

Web Server

The relays have an internal Web server to access their monitoring

and configuration through a navigation application (recommended
Firefox or Google Chrome).

The web server will allow access to updated information on the

status of the relay as well as to modify the configuration of its
parameters. Among the functions available are the following:

Configuration of Parameters
From each specific section it is possible to visualize and change
the internal settings of the functionalities offered by the relay: TCP
/ IP configuration of the equipment, SNTP servers, synchronization
settings etc.

Maintenance of configuration and FW

Like FTP, the web page allows you to send configuration files and
access the update log.

Also allows to restart the relay and download the files of current
settings of the equipment

Visualization of relay status

In this section, show the current states of the inputs and outputs of
the relay.

Access to the Chronological Record

This section allows you to download and consult the chronological
record of events

Access Authentication
Can not access any functionality of the relay through the Web
server if the user has not previously authenticated correctly.

Pag. 7
 Technical specifications

Technical specifications

Auxiliary power supply

110-125-220 Vdc
DC operating range 85 – 300 Vdc
AC operating range 85 – 265 Vac
Burden 10 W + 0.5 W per active relay
24-48 Vdc
DC operating range 18 – 60 Vdc
Burden 10 W + 0.5 W per active relay

DC Analog inputs (mA/mV) XN, AN XU, AU XV, AV

Número de entradas 8 I DC 4 I DC + 4 V DC 8 V DC
Resolution 15 bits + 1 sign bit 15 bits + 1 sign bit 15 bits + 1 sign bit
Input impedance 66,5 Ω (Current)
66,5 Ω 50 kΩ
50 kΩ (Voltage)
Isolation (1 minute) 2000 Vrms 2000 Vrms 2000 Vrms
Precision (25⁰C) 0.05% 0.05% 0.05%
Nominal measuring range (±10%) ±25 mA ±25 mA / ±10 V ±10 V
Continuous load without destruction 40 mA (Current)
40 mA 40 V / 0.5 mA
40 V / 0.5 mA (Voltage)

Digital outputs:
Independent standard and trip outputs
Carry Continuous 8 A at 25 ºC except relay 5, 5A at 25ºC
Make (1 s.) 30 A
Trip or close capacity (L/R = 40 ms)
 48Vdc 0.55A (DO 5 of CPU 0.2A)
 125Vdc 0.3A (DO 5 of CPU 0.1A)
 220Vdc 0.2A (DO 5 of CPU 0.07A)
With resistive load
 48Vdc 2A (DO 5 of CPU 1A)
 125Vdc 1.1A (DO 5 of CPU 0.5A)
 220Vdc 0.8A (DO 5 of CPU 0.3A)
Operating time 5.5ms

Digital inputs: 24 / 48Vdc 125 Vdc 250 Vdc

Voltage levels 19-72 Vdc 88-300 Vdc 172-300 Vdc
Inactive below: 9 Vdc 82 Vdc 165 Vdc
Burden <3mA <3mA <3mA

Pag. 8
 Technical specifications

Irig-B input

IRIG-B input
Input Demodulated
Input level TTL
Cable type 2 shielded wires
Insulation 2,000 V

PPS input (pulse per second)

Input Demodulated
Input level TTL
Cable type 2 shielded wires
Insulation 2,000 V

Environmental conditions
Operating temperature -40 to +65 ºC
Storage temperature -40 to +85 ºC
Relative humidity Up to 95% without condensation

Tropicalized

Printed circuit boards are lacquered to protect against corrosion and biological factors in humid environments. Depending on the
type of card different methods are used, dipping or selective varnishing and different varnishes. It is a treatment that deposits a
layer of low surface energy that repels moisture and some types of dirt. This procedure is made by demand, in the order

Pag. 9
 Technical specifications

Communication ports
Front communication port
Ethernet RJ45
 RJ45 connector RJ45 female
 Cable type Shielded
 Cable length 100 m max.
 Insulation 1 kV
 Communication speed 10/100 Mbps
USB
 Version Compatible with USB 2.0
 Operating Mode Master mode
 Speed 480Mbps (high-speed), 12mbps (full-speed) or 1.5Mbps (low-speed)

Rear serial communication port types

RS232/RS485 configurable by SW
RS232
 RS232C connector DTE 9 pin female D type, EIA 232
RS485
 RS485 connector DTE 9 pin female D type
Glass fiber optic
 GFO connector ST
 Wavelength 820 nm
 Permissible Attenuation 8 db with 62,5 /125 µm cristal fiber
 Multimode GFO 62,5 /125 µm
 Maximum distance 1,5 Km
Plastic fiber optic
 POF connector HP Standard
 Wavelength 660 nm
24,7 db with 1mm plastic wire
 Permissible Attenuation
22 db with 200 µm silica wire
115 m with 1mm plastic wire
 Maximum distance
1,9 Km with 200 µm silica wire
SP0 rear port RS232
 RS232C connector DTE 9 pin female D type, EIA 232

Rear RJ45 Ethernet

RJ45 connector RJ45 female
Cable type Shielded
Cable length 100 m max.
Insulation 1500 V
Communication speed 10/100 Mbps
Rear LC Ethernet
LC connector LC duplex
Wavelength 1310 nm
Permitted attenuation: 8 db
Multimode GFO 62.5/125µm and 50/125µm
Communication speed 100 Mbps
Maximum distance 1.5 km

Weight 3Kg

Pag. 10
 Technical specifications

Tests

Electromagnetic
Emissions
Conducted radio-electric emissions measurement. EN55022 Class: A
Radiated radio-electric emissions measurements EN55022 Class: A
Insulation
Dielectric withstand IEC 60255-27 2 kVac
Insulation resistance measurement IEC 60255-27 500Vdc,>100Mohm
Impulse voltage IEC 60255-27 +5kV/+1kV
Immunity
Electrostatic discharges IEC 61000-4-2 Level 4 +8kV/+15kV
20 V/m 80-1000MHz
Radiofrequency electromagnetic fields IEC 61000-4-3
10V/m 1400-2700 MHz
Radiated electromagnetic interference from transceivers IEEE 37.90.2 35 V/m
Fast transient bursts IEC 61000-4-4 Level 4 +4kV,5KHz
Level 4 CM +4kV DM +2kV
Surges IEC 61000-4-5

Conducted disturbances induced by radiofrequency fields IEC 61000-4-6 Level 3 10Vrms

Power Electromagnetic field at industrial frequency (50 Hz) IEC 61000-4-8 Level 5 100A/m 1000A/m 1s
Pulsed magnetic field IEC 61000-4-9 1000 A/m
Dampened oscillatory magnetic fields IEC61000-4-10 Level 5 100A/m
Damped oscillatory waves IEC 61000-4-18 Level 3 +2.5kV/+1kV
Ripple IEC 61000-4-17 15%
Dips, variations and no-voltages IEC 61000-4-29 0%: 225 ms
DM: 150 Vrms
Low frequency signals immunity IEC 60255-22-7
CM: 300 Vrms
Mechanical
Vibration sinusoidal Endurance IEC 60255-21-1/EN60068-2-6 Class 1
Clase 2 Response
Vibration sinusoidal Response IEC 60255-21-1/EN60068-2-6
Clase 1 Endurance
5-200 HZ
Vibration random EN 60068-2-64
ASD 1 m2/s3
Shock and bump IEC 60255-21-2/EN60068-2-27 Class 1
Seismic IEC 60255-21-3 Class 2
Drop ETSI EN 300 019-2-2
Frontal: IP4X
IP protection grade: UNE EN 20 324 Total: IP2X
Frontal with cover: IP55
Climatic
Damp heat steady state IEC60068-2-78 40ºC+2ºC,93% 4 days
Damp heat cyclic state IEC60068-2-30 6 cycles (12+12), 55ºC
Dry heat IEC60068-2-2 85°C, 16 hours
Cold IEC60068-2-1 -40°C, 16 hours
Change of Temperature IEC60068-2-14 -25ºC / 70ºC

Pag. 11
 Construction features

Construction features

1/3 19” chassis with display

IP55 Cover

Pag. 12
Construction features

1/3 19” surface mounting

Pag. 13
2/3 19” Surface mounting

Pag. 14
 Rear views

INGEPAC DA-PTC 1/3 19”

Pag. 15
INGEPAC DA-PTC 2/3 19”

Pag. 16
 Keypad/Local display

Keypad/Local display

Fig. 1.1 19/3” chassis

• 1 colour status led.

• Graphic display.
• 12 functional keys.
• 2 operating keys for opening and closing commands.
• 1 key for local / remote
• 7 operational keys.
• 24 general use led indication with interchangeable labels.
• Ethernet communication (ETH_0).

Pag. 17
 Interconnection diagrams

Interconnection diagrams

Module Types
CPU Module

The digital inputs of the CPU module have polarity. It is indicated on the diagram.
IRIG-B

Pag. 18
Interconnection diagrams

Digital inputs / outputs module

XC, AC and BC modules 15DI/ 8DOs (8NO)

Pag. 19
Interconnection diagrams

XM, AM and BM modules 24DI/ 16DOs (13NO/3NC)

Pag. 20
Interconnection diagrams

XZ, AZ and BG Modules 24DI/ 16DO (12NO/4NC)

Pag. 21
Interconnection diagrams

Módulos XG, AG y BG 13ED

Pag. 22
Interconnection diagrams

Pag. 23
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