Registers
For double registers (4–5, 16–17, 28–29, 30–31, 32–33) the high register is sent first (big_Endian).
Partial counters (30–31, 34-35) can be reset by writing 0 in both registers in the same message.
R
Read Description
1
R
Firmware-Version
2
R
Modbus com. Number
of supported registers
3
R
Modbus com. Number
of supported flags
4–5
R
Baudrate
6
R
Not Used
7
R
Type / ASN function
8
R
Type / ASN function
9
R
Type / ASN function
10
R
Type / ASN function
11
R
Type / ASN function
12
R
Type / ASN function
13
R
Type / ASN function
14
R
Type / ASN function
15
R
HW vers. Modif.
16–17
R
Serial number
18
R
Not Used
19
R
Not Used
20
R
Not Used
21
R
Not Used
22
R
Status / Protect
23
R
Modbus Timeout
24
R/W
Modbus Address
1)
25
R
Error register
26
R
Not Used
27
R
Tariff register
28–29
R
WT1 total
Counter Energy Total
Tariff 1
30–31 R/W WT1 partial
Counter Energy Partial
Tariff 1
32–33
R
WT2 total
Counter Energy Total
Tariff 2
34–35 R/W WT2 partial
Counter Energy Partial
Tariff 2
Unit
Ex: 11 = FW 1.1
Will give 52
Will give 0
Ex: Baudrate High = 1
Baudrate Low = 49664
1 × 65536 + 49664 =
115'200 bps
Will give 0
Will give «AL»
Will give «E3»
Will give «D5»
Will give «FD»
Will give «10»
Will give «C»
Will give « »
Will give « »
Ex: 11 = HW 1.1
Unique 32 bit serial number
Will give 0
Will give 0
Will give 0
Will give 0
0 = no Problem
1 = problem with last
communication request
ms
Range 1–247
0 : No error
1 : Error Phase 1
2 : Error Phase 2
3 : Error Phase 1 + 2
4 : Error Phase 3
5 : Error Phase 1 + 3
6 : Error Phase 2 + 3
7 : Error Phase 1, 2 + 3
Will give 0
0 is Tariff 1
4 is tariff 2
10
2 kWh (multiplier 0,01)
–
Ex: WT1 total High = 13
WT1 total Low = 60383
13 × 65536 + 60383 =
912351 = 9123.51 kWh
10
kWh (multiplier 0,01)
–2
Ex: WT1 partial High =
13 WT1 partial Low
= 60383
13 × 65536 + 60383 =
912351 = 9123.51 kWh
10
kWh (multiplier 0,01)
–2
Ex: WT2 total High = 13
WT2 total Low = 60383
13 × 65536 + 60383 =
912351 = 9123.51 kWh
10
kWh (multiplier 0,01)
–2
Ex: WT2 partial High = 13
WT2 partial Low = 60383
13 × 65536 + 60383 =
912351 = 9123.51 kWh
R
Read Description
36
R
URMS phase 1
Effective Voltage of
Phase 1
37
R
IRMS phase 1
Effective Current of
Phase 1
38
R
PRMS phase 1
Effective active Power
of Phase 1
39
R
QRMS phase 1
Effective reactive Power
of Phase 1
40
R
cos phi phase 1
41
R
URMS phase 2
Effective Voltage of
Phase 2
42
R
IRMS phase 2
Effective Current of
Phase 2
43
R
PRMS phase 2
Effective active Power
of Phase 2
44
R
QRMS phase 2
Effective reactive Power
of Phase 2
45
R
cos phi phase 2
46
R
URMS phase 3
Effective Voltage of
Phase 3
47
R
IRMS phase 3
Effective Current of
Phase 3
48
R
PRMS phase 3
Effective active Power
of Phase 3
49
R
QRMS phase 3
Effective reactive Power
of Phase 3
50
R
cos phi phase 3
51
R
PRMS total
Effective active Power of
all phases
52
R
QRMS total
Effective reactive power
of all phases
The Modbus Address register is not writable with a broadcast
1)
message.
Unit
V
Ex: 230 = 230 V
10
A (multiplier 0,1)
–1
Ex: 314 = 31.4 A
10
kW (multiplier 0,01)
–2
Ex: 1545 = 15,45 kW
10
kvar (multiplier 0,01)
-2
Ex: 1545 = 15,45 kvar
10
(multiplier 0,01)
–2
Ex: 67 = 0,67
V
Ex: 230 = 230 V
10
A (multiplier 0,1)
–1
Ex: 314 = 31.4 A
10
kW (multiplier 0,01)
–2
Ex: 1545 = 15,45 kW
10
kvar (multiplier 0,01)
–2
Ex: 1545=15,45 kvar
10
(multiplier 0,01)
–2
Ex: 67 = 0,67
V
Ex: 230 = 230 V
10
A (multiplier 0,1)
–1
Ex: 314 = 31.4 A
10
kW (multiplier 0,01)
–2
Ex: 1545 = 15,45 kW
10
kvar (multiplier 0,01)
–2
Ex: 1545=15,45 kvar
10
(multiplier 0,01)
–2
Ex: 67 = 0,67
10
kW (multiplier 0,01)
–2
Ex: 1545 = 15,45 kW
10
kvar (multiplier 0,01)
–2
Ex: 1545 = 15,45 kvar