Modbus Funktions Adressierung
Hex Data | Funktion | |||
---|---|---|---|---|
.. | 01 | .. | .. | Lese Ausgangsbit Status |
.. | 05 | .. | .. | Schreibe Ausgangsbit |
.. | 15 | .. | .. | Schreibe mehrfach Ausgangsbit |
.. | 02 | .. | .. | Lese Eingangsbit Status |
.. | 04 | .. | .. | Lese Input-Register Analog Eingang |
.. | 03 | .. | .. | Lese Holding-Register Analog Ausgang |
.. | 06 | .. | .. | Schreibe Holding-Register Analog Ausgang |
.. | 16 | .. | .. | Schreibe mehrfach Holding-Register (Daten für >16-bit) Analog Ausgang |
.. | 10 | .. | .. | Funktion noch offen |
.. | 0F | .. | .. | Funktion noch offen |
Modbus Rtu 2
Hardware Resources: Data register address
* RS485 communication interface * TTL communication interface * 2 optocoupler isolation input * 2 way optocoupler isolation output * A user button * A user LED * A power indicator * A STM32F030F4 microcontroller * 2 relay status indicators LED lights * Power supply terminal interface (12V power supply)
Modbus RTU Instructions:
Baud rate: 9600 8 NONE 1
Hexadecimal send
hexadecimal receive
Operation steps:
1. Software settings communication baud rate
2. Set the address (communication using the device address, the default address is 01)
Set the address from 01 to 09 or from Broadcast to 09
Hex Byte | Funktion |
---|---|
01 10 00 00 00 01 02 00 09 66 56 | Current address 01 is changed to 09 |
00 10 00 00 00 01 02 00 09 6B C6 | Broadcast Address Modified to 09 |
Read Address
Hex Byte | Funktion |
---|---|
00 03 00 00 00 01 85 db | Send to Device |
00 03 02 00 01 44 44 | Receive from Device 01 for Address |
Meaning of each byte:
Byte 1: address
byte 2: function
byte 3 4: register address
byte 5 6: register data
byte 7 8: CRC check
[address 1]
Switch Single
Hex Data | Funktion | |||||||
---|---|---|---|---|---|---|---|---|
Adresse | Funktion | Reghigh | Reglow | Data 1 | Data 2 | CRChigh | CRClow | Funktion |
01 | 05 | 00 | 00 | FF | 00 | 8C | 3A | 0 relay ON |
01 | 05 | 00 | 00 | 00 | 00 | CD | CA | 0 relay off |
01 | 05 | 00 | 01 | FF | 00 | DD | FA | No. 1 relay ON |
01 | 05 | 00 | 01 | 00 | 00 | 9C | 0A | No. 1 relay off |
01 | 05 | 00 | 02 | FF | 00 | 2D | FA | No. 2 relay ON |
01 | 05 | 00 | 02 | 00 | 00 | 6C | 0A | No. 2 relay off |
Switch all
Hex Data | Funktion | |||||||||
---|---|---|---|---|---|---|---|---|---|---|
Adresse | Funktion | Reghigh | Reglow | Data 1 | Data 2 | Data 3 | Data 4 | CRChigh | CRClow | Funktion |
01 | 0F | 00 | 00 | 00 | 08 | 01 | 00 | FE | 95 | Full off |
01 | 0F | 00 | 00 | 00 | 08 | 01 | FF | BE | D5 | Full on |
01 | 01 | 00 | 00 | 00 | 08 | BE | D5 | Send : Read all relay states | ||
01 | 01 | 01 | 00 | 51 | 88 | Return : Relay fully closed | ||||
01 | 01 | 01 | 03 | 11 | 89 | Return : All relays are on | ||||
01 | 02 | 00 | 00 | 00 | 08 | 79 | CC | Send : Read all input switch status | ||
01 | 02 | 01 | 00 | A1 | 88 | Return : 8 input states |
Modbus Rtu 4
Specifications:
* RS485 communication interface * TTL communication interface * 4 optocoupler isolation input * 4 way optocoupler isolation output * A user button * A user LED * A power indicator * A STM32F030F4 microcontroller * 4 relay status indicators LED lights * Power supply terminal interface (12V power supply)
Modbus RTU command
Baud Rate: 9600 8 NONE 1
Hex Byte | Funktion |
---|---|
00 06 40 00 00 01 5c 1b | Setting address is: 01 |
00 06 40 00 00 02 1c 1a | Setting address is: 02 |
00 03 40 00 00 01 90 1b | Read address |
Read the software version | |
00 03 00 04 00 01 c4 1a | [month] broadcast read (only by one device to address all practical, easy to test) |
Read the hardware version (PCB version) | |
00 03 00 04 00 01 c4 1a | broadcast read (only by one device to address all practical, easy to test) |
[address 1]
Hex Byte | Funktion |
---|---|
01 05 00 01 01 00 9d 9a | No. 1 relay ON |
01 05 00 01 00 00 9c 0a | No. 1 relay off |
01 05 00 02 01 00 6d 9a | No. 2 relay ON |
01 05 00 02 00 00 6c 0a | No. 2 relay off |
01 05 00 03 01 00 3c 5a | No. 3 relay ON |
01 05 00 03 00 00 3d ca | No. 3 relay off |
01 05 00 04 01 00 8d 9b | No. 4 relay ON |
01 05 00 04 00 00 8c 0b | No. 4 relay off |
01 05 00 ff 00 00 fd fa | Quanmie |
01 05 00 ff ff ff fc 4a | All light |
[address 2]
Hex Byte | Funktion |
---|---|
02 05 00 01 01 00 9d a9 | No. 1 relay ON |
02 05 00 01 00 00 9c 39 | No. 1 relay off |
02 05 00 02 01 00 6d a9 | No. 2 relay ON |
02 05 00 02 00 00 6c 39 | No. 2 relay off |
02 05 00 03 01 00 3c 69 | No. 3 relay ON |
02 05 00 03 00 00 3d f9 | No. 3 relay off |
02 05 00 04 01 00 8d a8 | No. 4 relay ON |
02 05 00 04 00 00 8c 38 | No. 4 relay off |
02 05 00 ff 00 00 fd c9 | Quanmie |
02 05 00 ff ff ff fc 79 | All light |
[address 1]
Hex Byte | Funktion |
---|---|
01 01 00 01 00 04 6c 09 | Send : No. 1 relay 1 channel status |
Return ...... | |
01 01 00 02 00 04 9c 09 | Send : No. 1 Relay 2 channel status |
Return ...... | |
01 01 00 03 00 04 CD C9 | Send : No. 1 Relay 3 channel status |
Return ...... | |
01 01 00 04 00 04 7C 08 | Send : No. 1 Relay 4 channel status |
DDS578R Energy Meter
MODBUS-RTU communication protocol Description:
1.the data format:
Address + function code + data + CRC check code
2.the register type
This meter uses two types of registers, individually addressed
The first is the data register, read-only, using the command code 0x04 to read.
The second category is the parameter register, readable and writable, using the command code 0x03
read, write parameters using 0x10
3.the data format
Float type data: Read the internal data within the meter in line with IEEE-754 standardv
floating-point number, data format is 32-bit 4-byte single-precision floating-point data format.
4、Data register list
Data register address | Register Description | ||||
---|---|---|---|---|---|
highByte | lowByte | Description | unit | Format | Mode |
00 | 00 | A phase voltage | V | Floating point | Read-only |
00 | 02 | B phase voltage | V | Floating point | Read-only |
00 | 04 | C phase voltage | V | Floating point | Read-only |
00 | 08 | A line current | A | Floating point | Read-only |
00 | 0A | B line current | A | Floating point | Read-only |
00 | 0C | C line current | A | Floating point | Read-only |
00 | 10 | Total active power | KWh | Floating point | Read-only |
00 | 12 | A phase active power | KWh | Floating point | Read-only |
00 | 14 | B phase active power | KWh | Floating point | Read-only |
00 | 16 | C phase active power | KWh | Floating point | Read-only |
00 | 18 | Total reactive power | KWh | Floating point | Read-only |
00 | 1A | A phase reactive power | Var | Floating point | Read-only |
00 | 1C | B phase areactive power | Var | Floating point | Read-only |
00 | 1E | C phase reactive power | Var | Floating point | Read-only |
00 | 2A | A phase power factor | Floating point | Read-only | |
00 | 2E | B phase power factor | Floating point | Read-only | |
00 | 2C | C phase power factor | Floating point | Read-only | |
00 | 36 | frequency | frequency | Floating point | Read-only |
01 | 00 | Total active electricity power | KWh | Floating point | Read-only |
04 | 00 | Total reactive electricity power | KWh | Floating point | Read-only |