Modbus is an industrial communication protocol. The RTU variant communicates over serial lines such as UART, RS-232, or RS-485. The full details of the Modbus protocol can be found at modbus.org. A good summary can also be found on Wikipedia.
This is an Arduino library that implements the master/client logic of the Modbus RTU protocol. It enables an Arduino or Arduino compatible board to send Modbus RTU requests to Modbus slave/server devices, and to process their responses.
This library implements the following function codes:
- 1 (Read Coils)
- 2 (Read Discrete Inputs)
- 3 (Read Holding Registers)
- 4 (Read Input Registers)
- 5 (Write Single Coil)
- 6 (Write Single Holding Register)
- 15 (Write Multiple Coils)
- 16 (Write Multiple Holding Registers).
This library will work with any Stream
object, like Serial
. A driver enable pin can be set up, enabling a half-duplex RS-485 transceiver to be used. Only SERIAL_8N1
, SERIAL_8E1
, SERIAL_8O1
, SERIAL_8N2
, SERIAL_8E2
, and SERIAL_8O2
configurations are supported; attempting to use any other configuration will cause the library to default to timings for SERIAL_8N1
.
There are some significant changes going from version 1.x.x to version 2.x.x of this library.
begin()
for the Serial object used needs to be run before runningbegin()
for the library itself, e.g.:Serial1.begin(38400); modbus.begin(38400);
- The read and write functions return an error value instead of a pass/fail
bool
. - The
getTimeoutFlag()
,clearTimeoutFlag()
, andclearExceptionResponse()
functions have been removed. - This library is also now dependent on ModbusADU and ModbusRTUComm.
This library has been tested with the following boards and cores:
Board Name | Core | Works |
---|---|---|
Arduino Due | Arduino SAM Boards (32-bits ARM Cortex-M3) by Arduino 1.6.12 |
Yes |
Arduino Giga | Arduino Mbed OS GIGA Boards by Arduino 4.1.5 |
Yes |
Arduino Leonardo | Arduino AVR Boards by Arduino 1.8.6 |
Yes |
Arduino Make Your UNO | Arduino AVR Boards by Arduino 1.8.6 |
Yes |
Arduino Mega 2560 | Arduino AVR Boards by Arduino 1.8.6 |
Yes |
Arduino Nano | Arduino AVR Boards by Arduino 1.8.6 |
Yes |
Arduino Nano 33 BLE | Arduino Mbed OS Nano Boards by Arduino 4.1.5 |
Yes |
Arduino Nano 33 IoT | Arduino SAMD Boards (32-bits ARM Cortex-M0+) by Arduino 1.8.14 |
Yes |
Arduino Nano ESP32 | Arduino ESP32 Boards by Arduino 2.0.13 |
Yes |
Arduino Nano ESP32 | esp32 by Espressif Systems 3.0.4 |
Yes |
Arduino Nano Every | Arduino megaAVR Boards by Arduino 1.8.8 |
Yes |
Arduino Nano Matter | Silicon Labs by Silicon Labs 2.1.0 |
No 1 |
Arduino Nano RP2040 Connect | Arduino Mbed OS Nano Boards by Arduino 4.1.5 |
No 2 |
Arduino Nano RP2040 Connect | Raspberry Pi Pico/RP2040 by Earle F. Philhower, III 4.0.1 |
Yes |
Arduino UNO R3 SMD | Arduino AVR Boards by Arduino 1.8.6 |
Yes |
Arduino UNO R4 Minima | Arduino UNO R4 Boards by Arduino 1.2.0 |
Yes |
Several functions return error codes. Here is what those error codes mean.
0
: Success1
: Invalid unit ID2
: Invalid buffer3
: Invalid quntity4
: Response timeout5
: Frame error6
: CRC error7
: Unknown communication error8
: Unexpected unit ID in response9
: Exception response10
: Unexpected function code in response11
: Unexpected response length12
: Unexpected byte count in response13
: Unexpected data address in response14
: Unexpected data value in response15
: Unexpected quantity in response
ModbusRTUMaster()
Creates a ModbusRTUMaster object and sets the serial port to use for data transmission. Optionally sets a driver enable pin. This pin will go
HIGH
when the library is transmitting. This is primarily intended for use with an RS-485 transceiver, but it can also be a handy diagnostic when connected to an LED.
ModbusRTUMaster(serial)
ModbusRTUMaster(serial, dePin)
ModbusRTUMaster(serial, dePin, rePin)
serial
: theStream
object to use for Modbus communication. Usually something likeSerial1
.dePin
: the driver enable pin. This pin is set HIGH when transmitting. If this parameter is set to-1
, this feature will be disabled. The default value is-1
. Allowed data types areint8_t
orchar
.rePin
: works exacly the same way asdePin
. This option is included for compatibility with RS-485 shields like the Arduino MKR 485 Shield.# include <ModbusRTUMaster.h> const int8_t dePin = A6; const int8_t rePin = A5; ModbusRTUMaster modbus(Serial1, dePin, rePin);
setTimeout()
Sets the maximum timeout in milliseconds to wait for a response after sending a request. The default is 500 milliseconds.
modbus.setTimeout(timeout)
modbus
: aModbusRTUMaster
object.
timeout
: the timeout duration in milliseconds. Allowed data types:unsigned long
.
begin()
Sets the data rate in bits per second (baud) for serial transmission. Optionally it also sets the data configuration. Note, there must be 8 data bits for Modbus RTU communication. The default configuration is 8 data bits, no parity, and one stop bit.
modbus.begin(baud)
modbus.begin(baud, config)
modbus
: aModbusRTUMaster
object.baud
: the baud rate to use for Modbus communication. Common values are:1200
,2400
,4800
,9600
,19200
,38400
,57600
, and115200
. Allowed data types:unsigned long
.config
: the serial port configuration to use. Valid values are:
SERIAL_8N1
: no parity (default)
SERIAL_8N2
SERIAL_8E1
: even parity
SERIAL_8E2
SERIAL_8O1
: odd parity
SERIAL_8O2
In the 2.0.0+ version of this library,
begin()
for the serial port used with the modbus object must be run seperately.void setup() { Serial1.begin(38400, SERIAL_8E1); modbus.begin(38400, SERIAL_8E1) }
readCoils()
reads coil values from a slave/server device.
modbus.readCoils(unitId, startAddress, buffer, quantity)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are1
-246
.startAddress
: the address of the first coil to read. Allowed data types:uint16_t
.buffer
: an array in which to place the read coil values. Allowed data types: array ofbool
.quantity
: the number of coil values to read. This value must not be larger than the size of the array. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.bool coils[8]; uint8_t error = modbus.readCoils(1, 0, coils, 8);
readDiscreteInputs()
reads discrete input values from a slave/server device.
modbus.readDiscreteInputs(unitId, startAddress, buffer, quantity)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are1
-246
.startAddress
: the address of the first discrete input to read. Allowed data types:uint16_t
.buffer
: an array in which to place the read discrete input values. Allowed data types: array ofbool
.quantity
: the number of discrete input values to read. This value must not be larger than the size of the array. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.bool discreteInputs[8]; uint8_t error = modbus.readDiscreteInputs(1, 0, discreteInputs, 8);
readHoldingRegisters()
reads holding register values from a slave/server device.
modbus.readHoldingRegisters(unitId, startAddress, buffer, quantity)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are1
-246
.startAddress
: the address of the first holding register to read. Allowed data types:uint16_t
.buffer
: an array in which to place the read holding register values. Allowed data types: array ofuint16_t
.quantity
: the number of holding register values to read. This value must not be larger than the size of the array. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.uint16_t holdingRegisters[8]; uint8_t error = modbus.readHoldingRegisters(1, 0, holdingRegisters, 8);
readInputRegisters()
reads input register values from a slave/server device.
modbus.readInputRegisters(unitId, startAddress, buffer, quantity)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are1
-246
.startAddress
: the address of the first input register to read. Allowed data types:uint16_t
.buffer
: an array in which to place the read input register values. Allowed data types: array ofuint16_t
.quantity
: the number of input register values to read. This value must not be larger than the size of the array. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.uint16_t inputRegisters[8]; uint8_t error = modbus.readInputRegisters(1, 0, inputRegisters, 8);
writeSingleCoil()
writes a single coil value to a slave/server device.
modbus.writeSingleCoil(unitId, address, value)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are0
-246
.0
indicates a broadcast message.address
: the address of the coil to write to. Allowed data types:uint16_t
.value
: the value to write to the coil. Allowed data types:bool
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.
writeSingleHoldingRegister()
writes a single holding register value to a slave/server device.
modbus.writeSingleHoldingRegister(unitId, address, value)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are0
-246
.0
indicates a broadcast message.address
: the address of the holding register to write to. Allowed data types:uint16_t
.value
: the value to write to the holding register. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.
writeMultipleCoils()
writes multiple coil values to a slave/server device.
modbus.writeMultipleCoils(unitId, startingAddress, buffer, quantity)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are0
-246
.0
indicates a broadcast message.startAddress
: the address of the first coil to write to. Allowed data types:uint16_t
.buffer
: an array of coil values. Allowed data types: array ofbool
.quantity
: the number of coil values to write. This value must not be larger than the size of the array. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.bool coils[2] = {true, false}; uint8_t error = modbus.writeMultipleCoils(1, 0, coils, 2);
writeMultipleHoldingRegisters()
writes multiple holding register values to a slave/server device.
modbus.writeMultipleHoldingRegisters(unitId, startingAddress, buffer, quantity)
modbus
: aModbusRTUMaster
object.unitId
: the id number of the device to send this request to. Valid values are0
-246
.0
indicates a broadcast message.startAddress
: the address of the first holding register to write to. Allowed data types:uint16_t
.buffer
: an array of holding register values. Allowed data types: array ofuint16_t
.quantity
: the number of holding register values to write. This value must not be larger than the size of the array. Allowed data types:uint16_t
.Error code. Data type:
ModbusRTUMasterError
oruint8_t
.
See error codes.uint16_t holdingRegisters[2] = {42, 328}; uint8_t error = modbus.writeMultipleHoldingRegisters(1, 0, holdingRegisters, 2);
getExceptionResponse()
Gets the last exception response that has occured.
When a valid Modbus request is sent, and the recipient slave/server device cannot process it, it responds with an exception code. This response is called an exception resonse, and it can be helpful in diagnosing issues.
modbus.getExceptionResponse()
modbus
: aModbusRTUMaster
object.Exception code. Data type:
uint8_t
.
0
: None1
: Illegal function2
: Illegal data address3
: Illegal data value4
: Server device failureDetails on exeption responses can be found in the Modbus Application Protocol Specification. More exeption responses exist than are listed here, but these are the most common.
Footnotes
-
Arduino Nano RP2040 Connect
This board has trouble receiving Modbus messages when using theArduino Mbed OS Nano Boards
core by Arduino.
It seems that there is some sort of timing issue.
It can technically be made to work if you tell the library that it is operating at a lower baud rate than the serial port assigned to the library is actually operating at. However, this would cause the library to operate with unknown timing tolerances, possibly well outside the Modbus specification. ↩ -
Arduino Nano Matter
As of this writing (2024-09-07),flush()
is not properly implemented with Serial on this board.
ModbusRTUMaster depends onflush()
to know when to set the DE and RE pins LOW after a message is sent. ↩