Beijer ELECTRONICS GT-3911 Analog Input Module User Manual

User Manual for Beijer ELECTRONICS models including: GT-3911, GT-3911 Analog Input Module, GT-3911, Analog Input Module, Input Module, Module

User Manual

[PDF] User Manual GT-3911 Analog Input Module - Beijer Electronics

1 ch 3-phase AC measurement, Lx-Ly 500 VAC, 5 A, 12 bit resolution, cage clamp, not removable terminal. Doc ID: 81810. 2025-02-20. Page 2 ...

File Info : application/pdf, 30 Pages, 2.46MB

GT-3911 2025-02-20-en

User Manual GT-3911 Analog Input Module
1 ch 3-phase AC measurement, Lx-Ly 500 VAC, 5 A, 12 bit resolution, cage clamp, not removable terminal
Doc ID: 81810 2025-02-20

Copyright © 2025 Beijer Electronics AB. All rights reserved.
The information in this document is subject to change without notice and is provided as available at the time of printing. Beijer Electronics AB reserves the right to change any information without updating this publication. Beijer Electronics AB assumes no responsibility for any errors that may appear in this document. All examples in this document are only intended to improve understanding of the functionality and handling of the equipment. Beijer Electronics AB cannot assume any liability if these examples are used in real applications. In view of the wide range of applications for this software, users must acquire sufficient knowledge themselves in order to ensure that it is correctly used in their specific application. Persons responsible for the application and the equipment must themselves ensure that each application is in compliance with all relevant requirements, standards, and legislation in respect to configuration and safety. Beijer Electronics AB will accept no liability for any damage incurred during the installation or use of equipment mentioned in this document. Beijer Electronics AB prohibits all modification, changes, or conversion of the equipment.
Head Office Beijer Electronics AB Box 426 201 24 Malmö, Sweden www.beijerelectronics.com / +46 40 358600

Table of Contents
1. About This Manual ......................................................................................... 5 1.1. Symbols Used in This Manual ................................................................... 5
2. Safety ....................................................................................................... 6 2.1. Product Certifications ........................................................................... 6 2.2. General Safety Requirements .................................................................. 6
3. About the G-series System ............................................................................... 7 3.1. IO Process Data Mapping ........................................................................ 8
4. Specifications .............................................................................................. 9 4.1. Environment Specifications ..................................................................... 9 4.2. General Specifications ........................................................................... 9 4.3. Input Specifications ............................................................................. 10 4.4. Update Cycle of Process Data ................................................................. 11
5. Wiring Diagram ........................................................................................... 12 6. LED Indicator .............................................................................................. 13
6.1. LED Channel Status ............................................................................. 13 7. Mapping Data Into the Image Table .................................................................... 14
7.1. Input Image Value ............................................................................... 15 7.2. Output Image Value ............................................................................. 18 8. Parameter Data ........................................................................................... 23 9. Hardware Setup .......................................................................................... 26 9.1. Space Requirements ............................................................................ 26 9.2. Mount Module to DIN Rail ...................................................................... 27 9.3. Field Power and Data Pins ..................................................................... 29

Beijer Electronics, Doc ID: 81810

2025-02

About This Manual
1. About This Manual
This manual contains information on the software and hardware features of the Beijer Electronics GT-3911 Analog Input Module. It provides in-depth specifications, guidance on installation, setup, and usage of the product.
1.1. Symbols Used in This Manual
This publication includes Warning, Caution, Note and Important icons where appropriate, to point out safety-related, or other important information. The corresponding symbols should be interpreted as follows:
WARNING
The Warning icon indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury, and major damage to the product.
CAUTION
The Caution icon indicates a potentially hazardous situation which, if not avoided, could result in minor or moderate injury, and moderate damage to the product.
NOTE
The Note icon alerts the reader to relevant facts and conditions.
IMPORTANT
The Important icon highlights important information.

Beijer Electronics, Doc ID: 81810

2025-02

Safety
2. Safety
Before using this product, please read this manual and other relevant manuals carefully. Pay full attention to safety instructions! In no event will Beijer Electronics be responsible or liable for damages resulting from the use of this product. The images, examples and diagrams in this manual are included for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Beijer Electronics cannot take responsibility or liability for actual use based on the examples and diagrams.
2.1. Product Certifications
The product has the following product certifications.

2.2. General Safety Requirements
WARNING
· Do not assemble the products and wires with power connected to the system. Doing so cause an "arc flash", which can result in unexpected dangerous events (burns, fire, flying objects, blast pressure, sound blast, heat).
· Do not touch terminal blocks or IO modules when the system is running. Doing so may cause electric shock, short circuit or malfunction of the device.
· Never let external metallic objects touch the product when the system is running. Doing so may cause electric shock, short circuit or malfunction of the device.
· Do not place the product near inflammable material. Doing so may cause a fire. · All wiring work should be performed by an electrical engineer. · When handling the modules, ensure that all persons, the workplace and the
packing are well grounded. Avoid touching conductive components, the modules contain electronic components that may be destroyed by electrostatic discharge.
CAUTION
· Never use the product in environments with temperature over 60. Avoid placing the product in direct sunlight.
· Never use the product in environments with over 90% humidity. · Always use the product in environments with pollution degree 1 or 2. · Use standard cables for wiring.

2025-02

Beijer Electronics, Doc ID: 81810

3. About the G-series System

About the G-series System

System overview
· Network Adapter Module - The network adapter module forms the link between the field bus and the field devices with the expansion modules. The connection to different field bus systems can be established by each of the corresponding network adapter module, e.g., for MODBUS TCP, Ethernet IP, EtherCAT, PROFINET, CC-Link IE Field, PROFIBUS, CANopen, DeviceNet, CC-Link, MODBUS/Serial etc.
· Expansion Module - Expansion module types: Digital IO, Analog IO, and Special modules.
· Messaging - The system uses two types of messaging: Service messaging and IO messaging.

Beijer Electronics, Doc ID: 81810

2025-02

About the G-series System
3.1. IO Process Data Mapping
An expansion module has three types of data: IO data, configuration parameter, and memory register. The data exchange between the network adapter and the expansion modules is made via IO process image data by internal protocol.
Data flow between network adapter (63 slots) and expansion modules The input and output image data depend on the slot position and the data type of the expansion slot. The ordering of input and output process image data is based on the expansion slot position. Calculations for this arrangement are included in the manuals for network adapter and programmable IO modules. Valid parameter data depends on the modules in use. For example, analog modules have settings of either 0-20 mA or 4-20 mA, and temperature modules have settings such as PT100, PT200, and PT500. The documentation for each module provides a description of the parameter data.

2025-02

Beijer Electronics, Doc ID: 81810

4. Specifications

4.1. Environment Specifications

Operating temperature UL temperature Storage temperature Relative humidity Mounting Shock operating Vibration resistance Industrial emissions Industrial immunity Installation position Product certifications

-20°C - 60°C -20°C - 60°C -40°C - 85°C 5% - 90% non-condensing DIN rail IEC 60068-2-27 (15G) IEC 60068-2-6 (4 g) EN 61000-6-4: 2019 EN 61000-6-2: 2019 Vertical and horizontal CE, FCC

4.2. General Specifications

Power dissipation Isolation
Field power
Wiring Weight Module size

Max. 125 mA @ 5 VDC I/O to Logic: Photocoupler isolation Field power: Non-isolation Supply voltage: 24 VDC nominal Voltage range: 18 - 26.4 VDC Power dissipation: 0 mA @ 24 VDC I/O cable max. 2.0mm2 (AWG 14) 63 g 12 mm x 99 mm x 70 mm

Specifications

Beijer Electronics, Doc ID: 81810

2025-02

Specifications
4.2.1. Dimensions

Module dimensions (mm)
4.3. Input Specifications

WARNING
As a product used for high voltage and high current, RTB is not removable for safety purposes.

Number of channels Indicators Maximum input voltage range
Input resistance voltage path Measuring current
Input resistance current path Resolution Input frequency range Measured values

3 Ch voltage input, 3 Ch current input via CT Status, VL1, VL2, VL3, IL1, IL2, IL3 VLN= 288 VAC VLL= 500 VAC 1200 k
5 A (max.) CT 1: 4000 (max.) 30 m
24 bits 45 - 65 Hz Angle, Voltage, Current, Power, Energy, Frequency, Power Factors

2025-02

Beijer Electronics, Doc ID: 81810

Measuring error

Voltage & current: 0.3 % @ 25 Voltage & current: 0.5 % @ -20 - 40 Voltage & current: 1 % @ -20 - 50 Voltage & current: 1.5 % @ -40 - 60 Frequency: ±0.1 Hz
Phase angle: ±0.6

Specifications

NOTE
The measuring accuracy is reduced, if the extended temperature range is used (-40 60 ).
If the input value is small, the error of calculation value can be large (please input 10% or more of the whole range).

4.4. Update Cycle of Process Data
Read data
RMS voltage Max. RMS voltage Min. RMS voltage RMS current Max. RMS current Min. RMS current Apparent power Active power Max. active power Min active power Reactive power Apparent energy Total apparent energy Active energy Total active energy Reactive energy Total reactive energy cos phi Supply network frequency Max. supply network frequency Min. supply network frequency Phase angle phi

Update time Max 300 us 300 us 300 us 300 us 300 us 300 us 250 us 350 us 350 us 350 us 2000 us 100 ms 100 ms 100 ms 100 ms 100 ms 100 ms 200 us 200 us 200 us 200 us 300 us

Beijer Electronics, Doc ID: 81810

2025-02

Wiring Diagram
5. Wiring Diagram

Pin no. 0 1 2 3 4 5 6 7 8 9

Signal description Voltage input 0 (L1) Voltage input 1 (L2) Voltage input 2 (L3) Voltage input common (neutral) Current input L1 Current input N1 Current input L2 Current input N1 Current input L3 Current input N3

2025-02

Beijer Electronics, Doc ID: 81810

6. LED Indicator

LED Indicator

LED no. 0 1 2 3 4 5 6

LED function / description Status Voltage input channel 1 Current input channel 1 Voltage input channel 2 Current input channel 2 Voltage input channel 3 Current input channel 3

6.1. LED Channel Status

Status Over voltage Under voltage Over current No signal
G-Bus status

LED Voltage input LED: Off Voltage input LED: Green Voltage input LED: Off Voltage input LED: Green Current input LED: Off Current input LED: Green Voltage input LED: Off Current input LED: Off Voltage input LED: Green Current input LED: Green Status LED: Off Status LED: Green

* Please refer to Input Image Data.(Error Byte)

LED color Green Green Green Green Green Green Green
Indicates Error occurred Normal operation Error occurred Normal operation Error occurred Normal operation Error occurred
Normal operation
Disconnection Connection

Beijer Electronics, Doc ID: 81810

2025-02

Mapping Data Into the Image Table

7. Mapping Data Into the Image Table

Byte 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

Output data Control byte 0 Control byte 1 Control byte 2 Control byte 3 Not used

Input data Status byte 0 Status byte 1 Status byte 2 Status byte 3 Error byte 0 Error byte 1 Error byte 2 Reserved Process value 1
Process value 2
Process value 3
Process value 4

2025-02

Beijer Electronics, Doc ID: 81810

Mapping Data Into the Image Table

7.1. Input Image Value

Status bytes

Status byte 0 Bit 7 RES Measure select
RES CON_ID Status byte 1 Bit 7 Reserved Measure select
CON_ID Status byte 2 Bit 7 Reserved Measure select
CON_ID

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Measure select

CON_ID

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

Resetting all min / max / energy values

CON_ID

Bit 6

Bit 5

Bit 4

Measure select

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

CON_ID

Bit 3 CON_ID

Bit 2

Bit 6

Bit 5

Bit 4

Measure Select

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

CON_ID

Bit 3 CON_ID

Bit 2

Bit 1 Bit 1 Bit 1

Bit 0 Bit 0 Bit 0

Beijer Electronics, Doc ID: 81810

2025-02

Mapping Data Into the Image Table

Status byte 3 Bit 7 Reserved Measure select
CON_ID

Bit 6

Bit 5

Bit 4

Measure select

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

CON_ID

Bit 3 CON_ID

Bit 2

Bit 1

Error bytes
Error byte 0 Bit 7 ERR_VL2 ERR_VL1
ERR_VL2
Error byte 1 Bit 7 ERR_IL1 ERR_VL3
ERR_IL1
Error byte 2 Bit 7 ERR_IL3 ERR_IL2

Bit 6

Bit 5

Bit 4

Bit 3

VL2_Error code

ERR_VL1

Phase 1 voltage input ERROR

0 = OK

1 = Error occurred

Phase 2 voltage input ERROR

0 = OK

1 = Error occurred

Bit 6

Bit 5

Bit 4

Bit 3

IL1_Error code

ERR_VL3

Phase 3 voltage input ERROR

0 = OK

1 = Error occurred

Phase 1 current input ERROR

0 = OK

1 = Error occurred

Bit 6

Bit 5

Bit 4

Bit 3

IL3_Error code

ERR_IL2

Phase 2 current input ERROR

0 = OK

1 = Error occurred

Bit 2

Bit 1

VL1_Error code

Bit 2

Bit 1

VL3_Error code

Bit 2

Bit 1

IL2_Error code

Bit 0
Bit 0 Bit 0 Bit 0

2025-02

Beijer Electronics, Doc ID: 81810

Mapping Data Into the Image Table

ERR_IL3 Error code

Phase 3 current input ERROR 0 = OK 1 = Error occurred 0 = No error 1 = Over input 2 = Under input 3 = No connect

Process value bytes

Process value 0-0 byte

Bit 7

Bit 6

Proc0[7 : 0]

Process value 0-1 byte

Bit 7

Bit 6

Proc0[15 : 8]

Process value 0-2 byte

Bit 7

Bit 6

Proc0[23 : 16]

Process value 0-3 byte

Bit 7

Bit 6

Proc0[31 : 24]

Process value 1-0 byte

Bit 7

Bit 6

Proc1[7 : 0]

Process value 1-1 byte

Bit 7

Bit 6

Proc1[15 : 8]

Process value 1-2 byte

Bit 7

Bit 6

Proc1[23 : 16]

Process value 1-3 byte

Bit 7

Bit 6

Proc1[31 : 24]

Proc1[32 : 24]

Bit 5

Bit 4

Bit 3

Process value 0 of status byte 0

Bit 5

Bit 4

Bit 3

Process value 0 of status byte 0

Bit 5

Bit 4

Bit 3

Process value 0 of status byte 0

Bit 5

Bit 4

Bit 3

Process value 0 of status byte 0

Bit 5

Bit 4

Bit 3

Process value 1 of status byte 1

Bit 5

Bit 4

Bit 3

Process value 1 of status byte 1

Bit 5

Bit 4

Bit 3

Process value 1 of status byte 1

Bit 5

Bit 4

Bit 3

Process value 1 of status byte 1

Bit 2 Bit 2 Bit 2 Bit 2 Bit 2 Bit 2 Bit 2 Bit 2

Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1

Bit 0 Bit 0 Bit 0 Bit 0 Bit 0 Bit 0 Bit 0 Bit 0

Beijer Electronics, Doc ID: 81810

2025-02

Mapping Data Into the Image Table

Process value 2-0 byte

Bit 7

Bit 6

Proc2[7 : 0]

Process value 2-1 byte

Bit 7

Bit 6

Proc2[15 : 8]

Process value 2-2 byte

Bit 7

Bit 6

Proc2[23 : 16]

Process value 2-3 byte

Bit 7

Bit 6

Proc2[31 : 24]

Process value 3-0 byte

Bit 7

Bit 6

Proc3[7 : 0]

Process value 3-1 byte

Bit 7

Bit 6

Proc3[15 : 8]

Process value 3-2 byte

Bit 7

Bit 6

Proc3[23 : 16]

Process value 3-3 byte

Bit 7

Bit 6

Proc3[31 : 24]

Bit 5

Bit 4

Bit 3

Process value 2 of status byte 2

Bit 5

Bit 4

Bit 3

Process value 2 of status byte 2

Bit 5

Bit 4

Bit 3

Process value 2 of status byte 2

Bit 5

Bit 4

Bit 3

Process value 2 of status byte 2

Bit 5

Bit 4

Bit 3

Process value 3 of status byte 3

Bit 5

Bit 4

Bit 3

Process value 3 of status byte 3

Bit 5

Bit 4

Bit 3

Process value 3 of status byte 3

Bit 5

Bit 4

Bit 3

Process value 3 of status byte 3

Bit 2 Bit 2 Bit 2 Bit 2 Bit 2 Bit 2 Bit 2 Bit 2

7.2. Output Image Value

Control byte 0 Bit 7 RESET

Bit 6

Bit 5

Measure select

Bit 4

Bit 3 CON_ID

Bit 2

Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1
Bit 1

Bit 0 Bit 0 Bit 0 Bit 0 Bit 0 Bit 0 Bit 0 Bit 0
Bit 0

2025-02

Beijer Electronics, Doc ID: 81810

Mapping Data Into the Image Table

Measure select

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

RESET

Resetting all of the min/max energy values

CON_ID

Control byte 1

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Reserved

Measure select

CON_ID

Measure select

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

CON_ID

Control byte 2

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Reserved

Measure select

CON_ID

Measure select

0 = Voltage

1 = Current

2 = Power

3 = PF

4 = Phase angle

5 = Frequency

6 = Energy

7 = Reserved

CON_ID

Control byte X3

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Reserved

Measure select

CON_ID

Bit 1 Bit 1 Bit 1

Bit 0 Bit 0 Bit 0

Beijer Electronics, Doc ID: 81810

2025-02

Mapping Data Into the Image Table

Measure select CON_ID

0 = Voltage 1 = Current 2 = Power 3 = PF 4 = Phase angle 5 = Frequency 6 = Energy 7 = Reserved CON_ID

CON_ID

Measured value

Measure select = Voltage

RMS voltage L1-N

RMS voltage L2-N

RMS voltage L3-N

Max. RMS voltage L1-N

Max. RMS voltage L2-N

Max. RMS voltage L3-N

Min. RMS voltage L1-N

Min. RMS voltage L2-N

Min. RMS voltage L3-N

Reserved

CON_ID

Measured value

Measure select = Current

RMS Current L1-N

RMS Current L2-N

RMS Current L3-N

Max. RMS Current L1-N

Max. RMS Current L2-N

Max. RMS Current L3-N

Min. RMS Current L1-N

Min. RMS Current L2-N

Min. RMS Current L3-N

Reserved

2025-02

Data type
uint32 uint32 uint32 uint32 uint32 uint32 uint32 uint32 uint32

Scaling
0.01 V 0.01 V 0.01 V 0.01 V 0.01 V 0.01 V 0.01 V 0.01 V 0.01 V

Data type
uint32 uint32 uint32 uint32 uint32 uint32 uint32 uint32 uint32

Scaling
0.001 A 0.001 A 0.001 A 0.001 A 0.001 A 0.001 A 0.001 A 0.001 A 0.001 A

Beijer Electronics, Doc ID: 81810

CON_ID

Measured value

Measure select = Power

Apparent power L1

Apparent power L2

Apparent power L3

Active power L1

Active power L2

Active power L3

Max. active power L1

Max. active power L2

Max. active power L3

Min. active power L1

Min. active power L2

Min. active power L3

Reactive power L1

Reactive power L2

Reactive power L3

CON_ID

Measured value

Measure select = Energy

Apparent energy L1

Apparent energy L2

Apparent energy L3

Total apparent energy

Active energy L1

Active energy L2

Active energy L3

Total active energy

Reactive energy L1

Reactive energy L2

Reactive energy L3

Total reactive energy

Reserved

CON_ID

Measured value

Beijer Electronics, Doc ID: 81810

Mapping Data Into the Image Table

Data type
uint32 uint32 uint32 int32 int32 int32 int32 int32 int32 int32 int32 int32 int32 int32 int32 Data type
uint32 uint32 uint32 uint32 int32 int32 int32 int32 int32 int32 int32 int32

Scaling
0.01VA 0.01VA 0.01VA 0.01W 0.01W 0.01W 0.01W 0.01W 0.01W 0.01W 0.01W 0.01W 0.01VAR 0.01VAR 0.01VAR Scaling
Set the parameter

Data type

Scaling

2025-02

Mapping Data Into the Image Table

Measure select = Power factor

Power factor L1

Power factor L2

Podwr factor L3

Reserved

CON_ID

Measured value

Measure Select = Frequency

Supply network frequency L1

Supply network frequency L2

Supply network frequency L3

Max. supply network frequency L1

Max. supply network frequency L2

Max. supply network frequency L3

Min. supply network frequency L1

Min. supply network frequency L2

Min. supply network frequency L3

Reserved

int32

0.01

int32

0.01

int32

0.01

Data type
uint32 uint32 uint32 uint32 uint32 uint32 uint32 uint32 uint32

Scaling
0.01 Hz 0.01 Hz 0.01 Hz 0.01 Hz 0.01 Hz 0.01 Hz 0.01 Hz 0.01 Hz 0.01 Hz

2025-02

Beijer Electronics, Doc ID: 81810

Parameter Data

8. Parameter Data

Valid Parameter length: 5 Bytes

Byte#0 Byte#1
Byte#2 Byte#3 Byte#4

Bit#7

Bit#6 Bit#5 Bit#4 Bit#3

Bit#2

Bit#1

Bit#0

CT sensor 1 : x

Value for the current transformer ratio divisor

Bit#7

Bit#6 Bit#5 Bit#4 Bit#3

Bit#2

Bit#1

Bit#0

Frequency

Scaling for energy values CT sensor 1 : x

0 = 45 - 55 Hz

0 = 1m Wh/VARh/VAh

Value for the current transformer ratio divisor

1 = 55 - 65 Hz

1 = 0.01 Wh/VARh/VAh

2 = 0.1 Wh/VARh/VAh

3 = 1 Wh/VARh/VAh

4 = 0.01k Wh/VARh/VAh

5 = 0.1k Wh/VARh/VAh

6 = 1k Wh/VARh/VAh

7 = Reserved

Bit#7

Bit#6 Bit#5 Bit#4 Bit#3

Bit#2

Bit#1

Bit#0

Overvoltage threshold Lx (value) resolution 0.2 V

Overvoltage threshold = 250 V + value * 0.2 V (max. 300 V)

Bit#7

Bit#6 Bit#5 Bit#4 Bit#3

Bit#2

Bit#1

Bit#0

Undervoltage threshold Lx (value) resolution 0.5 V

Undervoltage threshold = 0 V + value * 0.5 V (max. 125 V)

Bit#7

Bit#6 Bit#5 Bit#4 Bit#3

Bit#2

Bit#1

Bit#0

Overcurrent threshold Lx (value) Resolution 2 mA

Overcurent threshold = 0.8 A + value * 0.002 A (max. 1.3 A)

NOTE
Set frequency to get the correct power factor and energy.

Beijer Electronics, Doc ID: 81810

2025-02

Parameter Data

NOTE
The reactive power measurement is negative when the load is capacitive, and when the load is inductive. The sign of the reactive power can therefore be used to reflect the sign of the power factor.

Power factor = (Sign fundamental reactive power) * (abs (Active power)) / Apparent power)

Example of setting
Read data: Phase1 RMS Voltage / RMS Current / Apparent power / Active power. Input value: 220 V, 1000 A, PF 0.5. Parameter: CT 1: 1000, input frequency 55-65 Hz, overvoltage threshold 260 V, other is Default(0). Overvoltage threshold = (260 V (user setting value) 250 V (default setting value)) / 0.2 V. Resolution: 0.2 V. Overcurrent threshold = 1000 A (user setting CT 1: 1000) = ((1 A (user setting value) - 0.8 (default setting value)) / 0.001) * 1000 (CT). Resolution: 0.001 A. All of default value is 0. 1. Set the Parameter.

Parameter CT sensor 1 : x (12 bit) Scaling for energy values (3 bit) Frequency (1 bit) Overvoltage threshold Lx (8 bit) Undervoltage threshold Lx (8 bit) Overcurrent threshold Lx(8 bit) All of parameter

Value 001111101000 (bit) Set CT 1000 000 (bit) Set 1m Wh/VARh/VAh 1 (bit) Set 55-65 Hz 00110010 (bit) Set 260 V 00000000 (bit) Set 0 V (default) 00000000 (bit) Set 0.8 A (default) E8 83 32 00 00 (Byte hex)

2025-02

Beijer Electronics, Doc ID: 81810

Parameter Data

2. Set the Control byte (see chapter Output image value).

Control byte #0
Control byte #1
Control byte #2
Control byte #3

Bit#7 RES 0 Reserved 0 Reserved 0 Reserved 0

Bit#6 Bit#5 Bit#4

Measure select (Voltage)

Measure select (Current)

Measure select (Power)

Bit#3 Bit#2 Bit#1 Bit#0

CON_ID (RMS voltage L1-N)

CON_ID (RMS current L1-N)

CON_ID (Apparent power L1)

CON_ID (Active power L1)

3. Check the Status byte. When Status byte and Control byte are the same, the Process value is updated.

Status byte #0
Status byte #0
Status byte #0
Status byte #0

Bit#7 RES 0 Reserved 0 Reserved 0 Reserved 0

Bit#6 Bit#5 Bit#4

Measure select (Voltage)

Measure select (Current)

Measure select (Power)

Bit#3 Bit#2 Bit#1 Bit#0

CON_ID (RMS voltage L1-N)

CON_ID (RMS current L1-N)

CON_ID (Apparent power L1)

CON_ID (Active power L1)

4. Check the Process value.
Process value#0 (RMS Voltage) Process value#1 (RMS Current) Process value#2 (Apparent power) Process value#3 (Active power)

000055F0(Dword hex) 22000(Dec) 220 V 000F4240(Dword hex) 1000000(Dec) 1000 A 014FB180(Dword hex) 22000000(Dec) 220 kVA 00A7D8C0(Dword hex) 11000000(Dec) 110 kW

Beijer Electronics, Doc ID: 81810

2025-02

Hardware Setup
9. Hardware Setup
CAUTION
· Always read this chapter before installing the module! · Hot surface! The surface of the housing can become hot during operation. If the
device is used in high ambient temperatures, always let the device cool down before touching it. · Working on energized devices can damage the equipment! Always turn off the power supply before working on the device.
9.1. Space Requirements
The following drawings show the space requirements when installing the G-series modules. The spacing creates space for ventilation, and prevents conducted electromagnetic interference from influencing the operation. Installation position is valid vertical and horizontal. The drawings are illustrative and may be out of proportion.
CAUTION
NOT following the space requirements may result in damaging the product.

2025-02

Beijer Electronics, Doc ID: 81810

Hardware Setup
9.2. Mount Module to DIN Rail
The following chapters describe how to mount the module to the DIN rail.
CAUTION
The module must be fixed to the DIN rail with the locking levers.
9.2.1. Mount GL-9XXX or GT-XXXX Module
The following instructions apply to these module types: · GL-9XXX · GT-1XXX · GT-2XXX · GT-3XXX · GT-4XXX · GT-5XXX · GT-7XXX GN-9XXX modules have three locking levers, one at the bottom and two on the side. For mounting instructions, refer to Mount GN-9XXX Module.

Mount to DIN rail

Dismount from DIN rail

Beijer Electronics, Doc ID: 81810

2025-02

Hardware Setup
9.2.2. Mount GN-9XXX Module
To mount or dismount a network adapter or programmable IO module with the product name GN-9XXX, for example GN-9251 or GN-9371, see the following instructions:
Mount to DIN rail
Dismount from DIN rail

2025-02

Beijer Electronics, Doc ID: 81810

Hardware Setup
9.3. Field Power and Data Pins
Communication between the G-series network adapter and the expansion module, as well as system / field power supply of the bus modules is carried out via the internal bus. It is comprised of 2 Field Power Pins and 6 Data Pins.
WARNING
Do not touch the data and field power pins! Touching can result in soiling and damage by ESD noise.

Pin no. P1 P2 P3 P4 P5 P6 P7 P8

Name System VCC System GND Token output Serial output Serial input Reserved Field GND Field VCC

Description System supply voltage (5 VDC) System ground Token output port of processor module Transmitter output port of processor module Receiver input port of processor module Reserved for bypass token Field ground Field supply voltage (24 VDC)

Beijer Electronics, Doc ID: 81810

2025-02

Antenna House XSL Formatter V7.4 MR2 Amazon Linux 2 Graviton2 : 7.4.3.63807 (2024-03-22T11:49 09) Antenna House PDF Output Library 7.4.1901