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DataStream DS800
Technical Documentation Configuring Modbus Meters
SYN-TEC-0110N
Author: Richard Laxton Date: 26-May-2015
SYN-TEC-0110N 1
Revision List
Rev Date Author Review Comments
A 21-Jan-2010 RL DN Initial Version
B 27-May-2010 RL DN Meter added
C 01-Mar-2011 RL DN Wi-LEM updated
D 04-Apr-2011 RL DN Added Wi-Zone
E 28-Jun-2011 RL DN Added Wi-Temp and IFRO pulse counter
F 18-Oct-2011 SW RL Added EM21 & EM24 Meters
G 18-Feb-2013 SW RL Added Crompton Ci3 Meter
H 06-Aug-2013 DN SW LEM scaling correction
I 13-Nov-2013 SW DN Added Smart X835 Meter
J 13-Dec-2013 RL DN Added Selec Meters
H 07-Apr-2014 RL DN Added ND Multicube MC352 Meter
I 29-May-2014 RL DN Added ND Cube 350 and Rail 350
J 16-June-2014 DN RL Added Circutor CVM-MINI meter. Corrected Carlo Gavazzi/Eaton settings.
K 28-July-2014 SW RL Added Crompton Instruments / TE Energy DRB-80-3P-MOD.
L 16-Oct-2014 RL DN Added Smartrail X835-2C and SDM120C
M 21-Jan-2015 SW DN Added Smartrail X835 Total Active Energy Register
N 26-May-2015 SW DN Corrected register addresses for Crompton Ci3 meters
Note: All the settings in this document are taken from manufacturer’s datasheets. Please refer to the current manufacturer’s datasheet for your meter, as values may change without notice to Synetica. Synetica recommends testing and verifying the Modbus values with the telnet menus of your DataStream.
Contact Details
Address: ............. Synetica Limited Hilton House 40 High Street, Stone, Staffordshire ST15 8AU United Kingdom Telephone: ......... +44 (0) 1785 818919 Fax: .................... +44 (0) 870 705 2387 E-mail: ................ [email protected]
SYN-TEC-0110N 3
Contents Revision List ................................................................................................................ 1
Contact Details ............................................................................................................ 1
Wi-LEM W4 ................................................................................................................. 4
Wi-Pulse - Dual Channel Pulse Counter ........................................................................... 5
Wi-Zone - Temperature and Humidity Sensor .................................................................. 6
Wi-Temp - Dual Temperature Sensor .............................................................................. 7
Socomec Diris A20/A40 ................................................................................................ 8
Autometer IC970 ......................................................................................................... 9
Schneider Powerlogic PM710 ...................................................................................... 10
Schneider PowerLogic PM9C ....................................................................................... 10
IME Nemo D4L .......................................................................................................... 11
IME IFRO Pulse Acquisition Module .............................................................................. 11
Northern Design Rail 310 ............................................................................................ 12
Carlo Gavazzi EM21 .................................................................................................... 13
Carlo Gavazzi EM24 .................................................................................................... 14
Crompton Ci3 ............................................................................................................ 14
SmartRail X835 and X835-MID ..................................................................................... 15
Eaton EM22 .............................................................................................................. 16
Selec MRJ385 (EasyWire) ............................................................................................ 16
Selec MFM384 .......................................................................................................... 17
ND Multicube - Slave MC352 ....................................................................................... 18
Northern Design Rail 350 ............................................................................................ 19
Northern Design Cube 350 .......................................................................................... 19
Circutor CVM-MINI .................................................................................................... 20
Crompton Instruments / TE Energy DRB-80-3P-MOD ...................................................... 21
SDM120C ................................................................................................................. 22
Smartrail X835-2C ...................................................................................................... 23
SYN-TEC-0110N 4
Wi-LEM W4
Example: Active Energy Consumption Phase Sum [ModbusTemplate X] ;Name = Wi-LEM 100A Active Energy Sum Type = 3 Register Address = 6 (*) Data Type = S32 (*) Word Order = HH Pre Offset = 0 Units Multiplier = 0.0025 (**) Post Offset = 0 Units = kWh (*) Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units
0 Active Energy Phase 1 S32 Wh
2 Active Energy Phase 2 S32 Wh
4 Active Energy Phase 3 S32 Wh
6 Active Energy Sum S32 Wh
8 Reactive Energy Phase 1 S32 VARh
10 Reactive Energy Phase 2 S32 VARh
12 Reactive Energy Phase 3 S32 VARh
14 Reactive Energy Sum S32 VARh
16 Apparent Energy Phase 1 U32 VAh
18 Apparent Energy Phase 2 U32 VAh
20 Apparent Energy Phase 3 U32 VAh
22 Apparent Energy Sum U32 VAh
27 Frequency U16 Hz
43 Max Current in Interval Phase 1 U16 A
44 Max Current in Interval Phase 2 U16 A
45 Max Current in Interval Phase 3 U16 A
46 Min Voltage Phase 1 U16 V
47 Min Voltage Phase 2 U16 V
48 Min Voltage Phase 3 U16 V
204 Signal Strength SH8 RSSI
(**) Multiplier values are dependent on Current Rating:
Meter Rating: 20A 100A 200A 500A 1000A 2000A
Active Energy (kWh) 0.0005 0.0025 0.005 0.0125 0.025 0.05
Reactive Energy (kVARh) 0.0005 0.0025 0.005 0.0125 0.025 0.05
Apparent Energy (kVAh) 0.0005 0.0025 0.005 0.0125 0.025 0.05
Voltage (Vrms) 0.04 0.04 0.04 0.04 0.04 0.04 Current (Arms) 0.0033 0.0167 0.033 0.083 0.167 0.333
Frequency (Hz) 0.0625 0.0625 0.0625 0.0625 0.0625 0.0625
SYN-TEC-0110N 5
Example:
[ModbusTemplate X] ;Name = Wi-LEM/Pulse/Zone Signal Strength Type = 3 Register Address = 204 Data Type = SH8 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = RSSI Fuel Type = 0
Example:
[ModbusTemplate X] ;Name = Wi-LEM 500A Max Current Phase 2 Type = 3 Register Address = 44 Data Type = U16 Word Order = HH Pre Offset = 0 Units Multiplier = 0.083 Post Offset = 0 Units = A Fuel Type = 0
Wi-Pulse - Dual Channel Pulse Counter
Example: Cumulative Pulse Count [ModbusTemplate X] ;Name = Wi-Pulse Channel 1: 1 pulse = 1m
3
Type = 3 Register Address = 160 (*) Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 (**) Post Offset = 0 Units = m3 (**) Fuel Type = 1 (**)
(*) Common values available are:
Register Description Data Type Units
160 Cumulative Pulse Count Channel 1 U32 counts
162 Cumulative Pulse Count Channel 2 U32 counts
204 Signal Strength SH8 RSSI
(**) Unit Multiplier, Units and Fuel Type depends on what is being metered, and what the originating pulses are measuring.
Example:
[ModbusTemplate X] ;Name = Wi-Pulse Channel 2: 1 pulse = 0.01ft
3 Gas
Type = 3 Register Address = 162 Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 0.01 Post Offset = 0 Units = ft3 Fuel Type = 1
Channel 1
Channel 2
SYN-TEC-0110N 6
Wi-Zone - Temperature and Humidity Sensor
Example: Temperature in Fahrenheit [ModbusTemplate X] ;Name = Wi-Zone Temperature Fahrenheit Type = 3 Register Address = 107 Data Type = U16 Word Order = HH Pre Offset = 0 Units Multiplier = 0.1 Post Offset = 0 Units = DegF Fuel Type = 0
Example: Temperature in Celsius [ModbusTemplate X] ;Name = Wi-Zone Temperature Celsius Type = 3 Register Address = 107 Data Type = U16 Word Order = HH Pre Offset = -320 Units Multiplier = 0.0556 Post Offset = 0 Units = DegC Fuel Type = 0
Example: Humidity [ModbusTemplate X] ;Name = Wi-Zone Humidity Type = 3 Register Address = 108 Data Type = U16 Word Order = HH Pre Offset = 0 Units Multiplier = 0.1 Post Offset = 0 Units = %Rh Fuel Type = 0
Register Description Data Type Units / Multiplier
107 Temperature U16 0.1 Fahrenheit
108 Humidity U16 0.1 % Rh
204 Signal Strength SH8 RSSI
SYN-TEC-0110N 7
Wi-Temp - Dual Temperature Sensor
Example: Temperature in Fahrenheit [ModbusTemplate X] ;Name = Wi-Temp Probe 1 Fahrenheit Type = 3 Register Address = 91 Data Type = U16 Word Order = HH Pre Offset = 0 Units Multiplier = 0.1 Post Offset = 0 Units = DegF Fuel Type = 0
Example: Temperature in Celsius [ModbusTemplate X] ;Name = Wi-Temp Probe 1 Celsius Type = 3 Register Address = 91 Data Type = U16 Word Order = HH Pre Offset = -320 Units Multiplier = 0.0556 Post Offset = 0 Units = DegC Fuel Type = 0
Register Description Data Type Units / Multiplier
91 Temperature Probe 1 U16 0.1 Fahrenheit
92 Temperature Probe 2 U16 0.1 Fahrenheit
204 Signal Strength SH8 RSSI
Probe 1 Probe 2
SYN-TEC-0110N 8
Socomec Diris A20/A40
Example: Active Energy + [ModbusTemplate X] ;Name = Diris A20 Total Active Energy (kWh) Type = 3 Register Address = 856 (*) Data Type = U32 (*) Word Order = HH Pre Offset = 0 Units Multiplier = 1 (*) Post Offset = 0 Units = kWh (*) Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units / Multiplier
856 Active Energy Sum U32 kWh
768 Current Phase 1 U32 mA
770 Current Phase 2 U32 mA
772 Current Phase 3 U32 mA
782 Phase-Neutral Voltage Phase 1 U32 0.01 V
784 Phase-Neutral Voltage Phase 2 U32 0.01 V
786 Phase-Neutral Voltage Phase 3 U32 0.01 V
788 Frequency U32 0.01 Hz
Example: [ModbusTemplate X] ;Name = Diris A20 Current Phase 3 (A) Type = 3 Register Address = 772 Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 0.001 Post Offset = 0 Units = A Fuel Type = 3
Example: [ModbusTemplate X] ;Name = Diris A20 Voltage Phase 1 (V) Type = 3 Register Address = 782 Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 0.01 Post Offset = 0 Units = V Fuel Type = 3
SYN-TEC-0110N 9
Autometer IC970
Example: Import Energy [ModbusTemplate X] ;Name = Autometer IC970 Import Energy (kWh) Type = 4 Register Address = 352 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Does Not Support: NO PARITY
Note: Uses Input Registers (type 4), not the usual Holding Registers (type 3), so set the TYPE to 4 and subtract 30001 from the documented address e.g. register 30353 becomes 352
(*) Common values available are:
Register Description Data Type Units
352 Active Energy Sum F32 kWh
80 Current Phase 1 F32 A
82 Current Phase 2 F32 A
84 Current Phase 3 F32 A
88 Current Sum F32 A
16 Phase-Neutral Voltage Phase 1 F32 V
18 Phase-Neutral Voltage Phase 2 F32 V
20 Phase-Neutral Voltage Phase 3 F32 V
78 Frequency F32 Hz
Example:
[ModbusTemplate X] ;Name = Autometer IC970 Current Sum (A) Type = 4 Register Address = 88 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = A Fuel Type = 3
Example:
[ModbusTemplate X] ;Name = Autometer IC970 Voltage Phase 1 (V) Type = 4 Register Address = 16 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = V Fuel Type = 3
SYN-TEC-0110N 10
Schneider Powerlogic PM710
Example: Total Real Energy [ModbusTemplate X] ;Name = PM710 Real Energy Total (kWh) Type = 3 Register Address = 999 (*) Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh (*) Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units
999 Active Energy Sum F32 kWh
1033 Current Phase 1 F32 A
1035 Current Phase 2 F32 A
1037 Current Phase 3 F32 A
1059 Phase-Neutral Voltage Phase 1 F32 V
1061 Phase-Neutral Voltage Phase 2 F32 V
1063 Phase-Neutral Voltage Phase 3 F32 V
1019 Frequency F32 Hz
Schneider PowerLogic PM9C
Example: Active Energy Total [ModbusTemplate X] ;Name = PM9C Active Energy Total (kWh) Type = 3 Register Address = 1038 Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
SYN-TEC-0110N 11
IME Nemo D4L
Example: 3 phase positive active energy [ModbusTemplate X] ;Name = D4L 3-Phase Positive Active Energy (kWh) Type = 3 Register Address = 805 Data Type = U32 Word Order = HH Pre Offset = 0 ; Units multiplier depends on KTA*KTV Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
IME IFRO Pulse Acquisition Module
Example: Pulse Counts on Input 1 Connected to a meter with 1 pulse = 1 kWh
[ModbusTemplate X] ;Name = Pulse Counts on Input 1 Type = 3 Register Address = 2048 Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Register Description Data Type
2048 Counter 1 U32
2052 Counter 2 U32
2056 Counter 3 U32
2060 Counter 4 U32
2064 Counter 5 U32
2068 Counter 6 U32
2072 Counter 7 U32
2076 Counter 8 U32
SYN-TEC-0110N 12
Northern Design Rail 310
Example: Meter 1 kWh [ModbusTemplate X] ;Name = ND Rail 310 Meter 1 (kWh) Type = 3 Register Address = 7680 (*) Data Type = U32 Word Order = HH Pre Offset = 0 ; Depends on scaling factor, Ke in address 7688 Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units
7680 Energy Meter Phase 1 U32 kWh 7682 Energy Meter Phase 2 U32 kWh 7684 Energy Meter Phase 3 U32 kWh 7686 Energy Meter Sum U32 kWh
SYN-TEC-0110N 13
Carlo Gavazzi EM21
Example: 3 phase positive active energy [ModbusTemplate X] ;Name = EM21-Phase Positive Active Energy (kWh) Type = 3 Register Address = 52 (*) Data Type = S32 Word Order = HL Pre Offset = 0 Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
Default Comms: 9600, 8N1 Note: Uses non-standard Modbus labelling: (A-) (B+) instead of (A+) (B-). Use (A+) from the DataStream and connect to (B+) of the meter. Likewise, (B-) to (A-). (*) Common values available are:
Register Description Data Type Units / Multiplier
0 Phase-Neutral Voltage Phase 1 S32 0.1 V 2 Phase-Neutral Voltage Phase 2 S32 0.1 V 4 Phase-Neutral Voltage Phase 3 S32 0.1 V 12 Current Phase 1 S32 0.001 A
14 Current Phase 2 S32 0.001 A
16 Current Phase 3 S32 0.001 A
49 Power Factor S16 0.001 pf
51 Frequency S16 Hz
52 3 Phase Active Energy Sum S32 0.1 kWh
54 3 Phase Reactive Energy Sum S32 0.1 kVarh
SYN-TEC-0110N 14
Carlo Gavazzi EM24
Example: 3 phase positive active energy [ModbusTemplate X] ;Name = EM24-Phase Positive Active Energy (kWh) Type = 3 Register Address = 62 Data Type = U32 Word Order = HL Pre Offset = 0 Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
Crompton Ci3
Example: Active Energy Sum [ModbusTemplate X] ;Name = Crompton Ci3 (kWh) Type = 4 Register Address = 72 (*) Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Note: Uses Input Registers (type 4), not the usual Holding Registers (type 3), so set the TYPE to 4 and subtract 30001 from the documented address e.g. register 30073 becomes 72
(*) Common values available are:
Register Description Data Type Units
72 Import Wh F32 kWh
74 Export Wh F32 kWh
6 Current Phase 1 F32 A
8 Current Phase 2 F32 A
10 Current Phase 3 F32 A
0 Phase-Neutral Voltage Phase 1 F32 V
2 Phase-Neutral Voltage Phase 2 F32 V
4 Phase-Neutral Voltage Phase 3 F32 V
70 Frequency F32 Hz
SYN-TEC-0110N 15
SmartRail X835 and X835-MID
Example: Total Active Energy [ModbusTemplate X] ;Name = SmartRail X835 (kWh) Type = 4 Register Address = 342 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Note: Uses Input Registers (type 4), not the usual Holding Registers (type 3), so set the TYPE to 4 and subtract 30001 from the documented address e.g. register 30343 becomes 342.
(*) Common values available are:
Register Description Data Type Units
6 Current Phase 1 F32 A
8 Current Phase 2 F32 A
10 Current Phase 3 F32 A
12 Power Phase 1 F32 W
14 Power Phase 2 F32 W
16 Power Phase 3 F32 W
70 Frequency F32 Hz
72 Import Wh since last reset F32 kWh
74 Export Wh since last reset F32 kWh
84 System Power Demand F32 W
342 Total active energy F32 kWh
SYN-TEC-0110N 16
Eaton EM22
Example: Imported active energy sum [ModbusTemplate X] ;Name = Eaton EM22 Total Import Active Energy (kWh) Type = 3 Register Address = 34 Data Type = S32 Word Order = HL Pre Offset = 0 Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
Register Description Data Type Units / Multiplier
0 Voltage Phase–Neutral S32 0.1 V
6 Total Current Sum S32 0.001 A
34 Active Energy Sum S32 0.1 kWh
36 Active Energy Load 1 S32 0.1 kWh
38 Active Energy Load 2 S32 0.1 kWh
40 Reactive Energy Sum S32 0.1 kVarh
Selec MRJ385 (EasyWire)
Example: Imported active energy sum [ModbusTemplate X] ;Name = Selec MRJ385 Total Import Active Energy (kWh) Type = 4 Register Address = 96 Data Type = F32 Word Order = HL Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Register Description Data Type Units
96 Import Active Energy Sum F32 kWh
16 Current Phase 1 F32 A
18 Current Phase 2 F32 A
20 Current Phase 3 F32 A
112 Import Reactive Energy Sum F32 kvarh
0 Phase-Neutral Voltage Phase 1 F32 V
2 Phase-Neutral Voltage Phase 2 F32 V
4 Phase-Neutral Voltage Phase 3 F32 V
56 Frequency F32 Hz
Passcode: 1000 DOES NOT SUPPORT DELTA/3WIRE
SYN-TEC-0110N 17
Selec MFM384
Example: Imported active energy sum [ModbusTemplate X] ;Name = Selec MFM384 Total Active Energy (kWh) Type = 4 Register Address = 58 Data Type = F32 Word Order = HL Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Register Description Data Type Units
58 Active Energy Sum F32 kWh
16 Current Phase 1 F32 A
18 Current Phase 2 F32 A
20 Current Phase 3 F32 A
62 Reactive Energy Sum F32 kvarh
0 Phase-Neutral Voltage Phase 1 F32 V
2 Phase-Neutral Voltage Phase 2 F32 V
4 Phase-Neutral Voltage Phase 3 F32 V
56 Frequency F32 Hz
Passcode: 1000
SYN-TEC-0110N 18
ND Multicube - Slave MC352
The following refers to a Slave Module attached to a Multicube Master – each Slave is considered an individual Modbus meter with its own device ID.
These values can also be read directly from the master unit using a different register map.
Example: Active energy sum [ModbusTemplate X] ;Name = ND Multicube MC352 Active Energy (kWh) Type = 3 Register Address = 7680 Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = (see scaling value in tables below) Post Offset = 0 Units = kWh Fuel Type = 3
Register Description Data Type Units Scale
7680 Active Energy Sum U32 kWh *
7684 Reactive Energy Sum U32 kvarh *
7688 Current Phase 1 U16 A **
7689 Current Phase 2 U16 A **
7690 Current Phase 3 U16 A **
7691 Phase-Neutral Voltage Phase 1 U16 V ***
7692 Phase-Neutral Voltage Phase 2 U16 V ***
7693 Phase-Neutral Voltage Phase 3 U16 V ***
7696 Frequency U16 Hz 0.1
7701 System Power Factor U16 pf 0.001
Scaling Values (read the following Modbus registers and refer to the manufacturer’s manuals):
Note Register Description Data Type
* 7737 Energy U16
** 7733 Current U16 *** 7734 Phase Voltage U16
SYN-TEC-0110N 19
Northern Design Rail 350
Example: Active Energy Sum [ModbusTemplate X] ;Name = ND Rail 350 Active Energy (kWh) Type = 3 Register Address = 514 (*) Data Type = U32 Word Order = HH Pre Offset = 0 ;Depends on scaling factor, Ke in address 512 Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units
514 Active Energy Sum U32 kWh 522 Import Reactive Energy Sum U32 kvarh
Northern Design Cube 350
Example: Active Energy Sum [ModbusTemplate X] ;Name = ND Cube 350 Active Energy (kWh) Type = 3 Register Address = 514 (*) Data Type = U32 Word Order = HH Pre Offset = 0 ; Depends on scaling factor, Ke in address 512 Units Multiplier = 0.1 Post Offset = 0 Units = kWh Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units
514 Active Energy Sum U32 kWh 522 Import Reactive Energy Sum U32 kvarh
SYN-TEC-0110N 20
Circutor CVM-MINI
Example: Active Energy Sum [ModbusTemplate X] ;Name = Circutor Active Energy (kWh) Type = 3 Register Address = 60 (*) Data Type = U32 Word Order = HH Pre Offset = 0 Units Multiplier = 0.001 Post Offset = 0 Units = kWh Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units / Multiplier
60 Active Energy Sum (Import) U32 0.001 kWh 0 Voltage Phase 1 U32 0.1 V 10 Voltage Phase 2 U32 0.1 V
20 Voltage Phase 3 U32 0.1 V
2 Current Phase 1 U32 0.001 A
12 Current Phase 2 U32 0.001 A
22 Current Phase 3 U32 0.001 A
28 Power Factor U32 0.01 pf
40 Frequency U32 0.1 Hz
62 Inductive reactive energy (Import) U32 0.001 kVarLh
64 Capacitive reactive energy (Import) U32 0.001 kVarCh
86 Apparent Energy (Import) U32 0.001 kVAh
80 Temperature U32 0.1 DegC
SYN-TEC-0110N 21
Crompton Instruments / TE Energy DRB-80-3P-MOD
Example: Active Energy Sum [ModbusTemplate X] ;Name = DRB-80-3P (kWh) Type = 3 Register Address = 4131 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
(*) Common values available are:
Register Description Data Type Units
4131 Active Energy Sum F32 kWh
4279 Current Phase 1 F32 A
4281 Current Phase 2 F32 A
4283 Current Phase 3 F32 A
4119 Power Phase 1 F32 V
4123 Power Phase 2 F32 V
4127 Power Phase 3 F32 V
4303 Frequency F32 Hz
4157 System Power Demand F32 kW
SYN-TEC-0110N 22
SDM120C
Example: Import Active Energy Sum [ModbusTemplate X] ;Name = SDM120C (Import kWh) Type = 4 Register Address = 72 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Note: Uses Input Registers (type 4), not the usual Holding Registers (type 3), so set the TYPE to 4 and subtract 30001 from the documented address e.g. register 30053 becomes 52
(*) Common values available are:
Register Description Data Type Units
0 Voltage F32 V
16 Current F32 A
12 Active Power F32 W
18 Apparent Power F32 VA
24 Reactive Power F32 VAr
30 Power Factor F32 pf
70 Frequency F32 Hz
72 Import Active Energy Sum F32 kWh
74 Export Active Energy Sum F32 kWh
342 Total Active Energy Sum F32 kWh
SYN-TEC-0110N 23
Smartrail X835-2C
Example: Total Active Energy Sum for Circuit L [ModbusTemplate X] ;Name = Smart X835-2C (kWh) Type = 4 Register Address = 2342 Data Type = F32 Word Order = HH Pre Offset = 0 Units Multiplier = 1 Post Offset = 0 Units = kWh Fuel Type = 3
Note: Uses Input Registers (type 4), not the usual Holding Registers (type 3), so set the TYPE to 4 and subtract 30001 from the documented address e.g. register 30343 becomes 342
(*) Common values available are:
Circuit P Register Description Data Type Units
72 Import Active Energy Sum F32 kWh
74 Export Active Energy Sum F32 kWh
6 Current Phase 1 F32 A
8 Current Phase 2 F32 A
10 Current Phase 3 F32 A
12 Power Phase 1 F32 W
14 Power Phase 2 F32 W
16 Power Phase 3 F32 W
70 Frequency F32 Hz
342 Total Active Energy Sum F32 kWh
Circuit L
Register Description Data Type Units
2072 Import Active Energy Sum F32 kWh
2074 Export Active Energy Sum F32 kWh
2006 Current Phase 1 F32 A
2008 Current Phase 2 F32 A
2010 Current Phase 3 F32 A
2012 Power Phase 1 F32 W
2014 Power Phase 2 F32 W
2016 Power Phase 3 F32 W
2070 Frequency F32 Hz
2342 Total Active Energy Sum F32 kWh