Identification
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
64512 | Info | 4 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
64512 | 2 | Serial Number | - | U32 | |
64514 | 1 | Product ID | - | U16_HEX | |
64515 | 1 | Product software version | - | U16_HEX |
Visualization
Measurement
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
0 | Info | 72 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
0 | 2 | Simple voltage : V1 | V | F32 | |
2 | 2 | Simple voltage : V2 | V | F32 | |
4 | 2 | Simple voltage : V3 | V | F32 | |
6 | 2 | Current : I1 | A | F32 | |
8 | 2 | Current : I2 | A | F32 | |
10 | 2 | Current : I3 | A | F32 | |
12 | 2 | Active Power phase 1 +/- : P1 | W | F32 | |
14 | 2 | Active Power phase 2 +/- : P2 | W | F32 | |
16 | 2 | Active Power phase 3 +/- : P3 | W | F32 | |
18 | 2 | Apparent Power phase 1 : S1 | VA | F32 | |
20 | 2 | Apparent Power phase 2 : S2 | VA | F32 | |
22 | 2 | Apparent Power phase 3 : S3 | VA | F32 | |
24 | 2 | Reactive Power phase 1 +/- : Q1 | var | F32 | |
26 | 2 | Reactive Power phase 2 +/- : Q2 | var | F32 | |
28 | 2 | Reactive Power phase 3 +/- : Q3 | var | F32 | |
30 | 2 | Power Factor phase 1 -: leading and + : lagging : PF1 | - | F32 | |
32 | 2 | Power Factor phase 2 -: leading and + : lagging : PF2 | - | F32 | |
34 | 2 | Power Factor phase 3 -: leading and + : lagging : PF3 | - | F32 | |
36 | 2 | Phi current voltage: phiI1h1V1h1 | ° | F32 | |
38 | 2 | Phi current voltage: phiI2h1V2h1 | ° | F32 | |
40 | 2 | Phi current voltage: phiI3h1V3h1 | ° | F32 | |
42 | 2 | System value V Sys : (V1 + V2 + V3 ) / 3 | V | F32 | |
44 | 2 | ||||
46 | 2 | System value I Sys : ( I1+I2+I3) / 3 | A | F32 | |
48 | 2 | ∑ current : Isum | A | F32 | |
50 | 2 | ||||
52 | 2 | ∑ Active Power +/- : P | W | F32 | |
54 | 2 | ||||
56 | 2 | ∑ Apparent Power : S | VA | F32 | |
58 | 2 | ||||
60 | 2 | ∑ Reactive Power +/- : Q | var | F32 | |
62 | 2 | ∑ Power Factor : -: leading et + : lagging : PF | - | F32 | |
64 | 2 | ||||
66 | 2 | Total system phase angle | ° | F32 | |
68 | 2 | ||||
70 | 2 | Frequency : F | Hz | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
200 | Info | 10 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
200 | 2 | Phase to Phase Voltage: U12 | V | F32 | |
202 | 2 | Phase to Phase Voltage: U23 | V | F32 | |
204 | 2 | Phase to Phase Voltage: U31 | V | F32 | |
206 | 2 | Average System value U Sys : (U12 + U23 + U31 ) / 3 | V | F32 | |
208 | 2 | Neutral Current : In | A | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
72 | Info | 10 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
72 | 2 | Total Positive Active Energy (no resetable) : Ea+ | kWh | F32 | |
74 | 2 | Total Negative Active Energy (no resetable) : Ea- | kWh | F32 | |
76 | 2 | Total Positive Reactive Energy (no resetable) : Er + | kvarh | F32 | |
78 | 2 | Total Negative Reactive Energy (no resetable) : Er - | kvarh | F32 | |
80 | 2 | Total Apparent Energy (no resetable) : Eap | kVAh | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
342 | Info | 40 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
342 | 2 | Total kWh (ea) | F32 | ||
344 | 2 | Total kvarh (er) | F32 | ||
346 | 2 | Total Positive active Energy Line1 : Ea+ | F32 | ||
348 | 2 | Total Positive active Energy Line2 : Ea+ | F32 | ||
350 | 2 | Total Positive active Energy Line3 : Ea+ | F32 | ||
352 | 2 | Total Negative active Energy Line1 : Ea- | F32 | ||
354 | 2 | Total Negative active Energy Line2 : Ea- | F32 | ||
356 | 2 | Total Negative active Energy Line3 : Ea- | F32 | ||
358 | 2 | Total active Energy Line1 : Ea | F32 | ||
360 | 2 | Total active Energy Line2 : Ea | F32 | ||
362 | 2 | Total active Energy Line3 : Ea | F32 | ||
364 | 2 | Total Positive reactive Energy Line1 : Er+ | F32 | ||
366 | 2 | Total Positive reactive Energy Line2 : Er+ | F32 | ||
368 | 2 | Total Positive reactive Energy Line3 : Er+ | F32 | ||
370 | 2 | Total Negative reactive Energy Line1 : Er- | F32 | ||
372 | 2 | Total Negative reactive Energy Line2 : Er- | F32 | ||
374 | 2 | Total Negative reactive Energy Line3 : Er- | F32 | ||
376 | 2 | Total reactive Energy Line1 : Er- | F32 | ||
378 | 2 | Total reactive Energy Line2 : Er- | F32 | ||
380 | 2 | Total reactive Energy Line3 : Er- | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
384 | Info | 12 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
384 | 2 | Partial active Energy : Ea | F32 | ||
386 | 2 | Partial reactive Energy : Er | F32 | ||
388 | 2 | Partial Positive active Energy : Ea+ | F32 | ||
390 | 2 | Partial Negative active Energy : Ea- | F32 | ||
392 | 2 | Partial Positive reactive Energy : Er+ | F32 | ||
394 | 2 | Partial Negative reactive Energy : Er- | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
82 | Info | 26 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
82 | 2 | Demand | - | F32 | |
84 | 2 | Total system power demand | W | F32 | |
86 | 2 | Maximum total system power demand | VA | F32 | |
88 | 12 | ||||
100 | 2 | Total system VA demand | VA | F32 | |
102 | 2 | Maximum total system VA demand | VA | F32 | |
104 | 2 | Neutral current demand | A | F32 | |
106 | 2 | Maximum neutral current demand | A | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
258 | Info | 12 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
258 | 2 | Phase 1 current demand | A | F32 | |
260 | 2 | Phase 2 current demand | A | F32 | |
262 | 2 | Phase 3 current demand | A | F32 | |
264 | 2 | Maximum phase 1 current demand | A | F32 | |
266 | 2 | Maximum phase 2 current demand | A | F32 | |
268 | 2 | Maximum phase 3 current demand | A | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
234 | Info | 18 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
234 | 2 | Ph-N Voltage total harmonic distortion : THD V1 | % | F32 | |
236 | 2 | Ph-N Voltage total harmonic distortion : THD V2 | % | F32 | |
238 | 2 | Ph-N Voltage total harmonic distortion : THD V3 | % | F32 | |
240 | 2 | Curent total harmonic distortion : THD I1 | % | F32 | |
242 | 2 | Curent total harmonic distortion : THD I2 | % | F32 | |
244 | 2 | Curent total harmonic distortion : THD I3 | % | F32 | |
246 | 2 | ||||
248 | 2 | Average System THD V | % | F32 | |
250 | 2 | Average System THD I | % | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
334 | Info | 8 | NONE | READ | READ |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
334 | 2 | Ph-Ph Voltage total harmonic distortion : THD U12 | % | F32 | |
336 | 2 | Ph-Ph Voltage total harmonic distortion : THD U23 | % | F32 | |
338 | 2 | Ph-Ph Voltage total harmonic distortion : THD U31 | % | F32 | |
340 | 2 | System THD U | % | F32 |
Settings
System
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
10 | Settings | 2 | USER | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
10 | 2 | System Type 1 2 3 |
- | F32 |
Modbus slave
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
20 | Settings | 2 | NONE | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
20 | 2 | Slave Address | - | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
18 | Settings | 2 | USER | READ | READ | WRITE | WRITE_MANY |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
18 | 2 | Parity and stop bit : 0 1 2 3 |
- | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
28 | Settings | 2 | USER | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
28 | 2 | Baudrate : 0 1 2 3 4 |
- | F32 |
Pulse output
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
12 | Settings | 2 | USER | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
12 | 2 | Pulse Width 60 100 200 |
- | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
22 | Settings | 2 | USER | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
22 | 2 | Pulse 1 weight 0 1 2 3 4 5 |
- | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
86 | Settings | 2 | USER | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
86 | 2 | Pulse1 Energy Type 1 2 4 5 6 8 |
- | F32 |
Demand
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
2 | Settings | 2 | USER | READ | READ | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
2 | 2 | Demand Period 5 8 10 15 20 30 60 |
- | F32 |
Commands
Reset
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
61456 | Commands | 1 | NONE | WRITE | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
61456 | 1 | Reset Maximum Demand 0x0000 0x0003 |
- | U16_HEX |
Password
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
14 | Commands | 2 | NONE | NONE | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
14 | 2 | Password Lock 9999 |
- | F32 |
Dec start address | Hex start address | Type | Size | Lock level | Locked fcts | Unlocked fcts |
---|---|---|---|---|---|---|
24 | Commands | 2 | USER | NONE | WRITE |
Dec address | Hex address | Words count | Description | Unit | Data type |
---|---|---|---|---|---|
24 | 2 | Password | - | F32 |
Instructions
Modbus Protocol Overview
The format for each byte in RTU mode is: Coding System: 8-bits per byte Data Format: 4 bytes (2 registers) per parameter. Floating-point format (as per IEEE 754) Most significant register first Error checking: 2 Bytes Cyclical Redundancy Check (CRC) MODBUS frame: 1 start bit 8 data bits, least significant bit sent first 1 bit for even/odd parity (or no parity) 1 stop bit if parity is used; 1 or 2 bits if no parity |
Data Coding
All data values in the COUNTIS M34 are transferred as 32 bits IEEE754 floating point numbers, (input and output). All registers read requests and data write requests must specify an even number of registers. The maximum number of registers that can be read in a single READ command is 80 (which means 40 values). Exceeding this limit will result in a MODBUS exception response. Data transmission speed is selectable between 2400, 4800, 9600, 19200 and 38400 bauds. |
Modbus protocol Input registers for electrical values data
Input registers must be used to read the values in the device (Modbus protocol function code 04). The following table details the electrical values registers. Please note the addresses are according to JBUS protocol. If your supervisor, BMS or software expects MODBUS addresses, add +1 to the JBUS register addresses Any parameter with a cross (X) will return the value zero because it is not applicable for this particular wiring system / network type: 4W : 4 wires (3P + N, 3 phases + neutral) 3W : 3 wires (3P, 3 phases no neutral) 2W : 2 wires (1P+N, single-phase with neutral) |
Modbus Protocol Holding Registers for setup data
Holding registers are used to write and display the device configuration settings. The holding register parameters may be read or changed with a write command using the Modbus Protocol. Each parameter is held in two consecutive registers. Modbus Protocol Function Code 03 is used to read these parameters and function code 16 have to be used for writing. Write only one parameter per message. |
Password
Some of the parameters described below are password protected and thus require the password to be entered at the Password register before they can be changed. The default password is 0000. When the password has been entered it will timeout in one minute unless the Password or Password Lock register is read to reset the timeout timer. Once the required changes have been made to the protected parameters the password lock should be reapplied by a) Allowing the password to timeout, or b) Writing any value to the Password Lock register, or c) Power cycling the instrument. |
Conventions
(1) Positive power factor value means inductive, negative value means capacitive. (2) The total system power demand calculation is for both import – export power. (3) Total kWh / kVarh equals to import + export energy. |