MicroPython ModBus TCP and RTU library supporting client and host mode
Forked from Exo Sense Py, based on PyCom Modbus and extended with other functionalities to become a powerfull MicroPython library
📚 The latest documentation is available at MicroPython Modbus ReadTheDocs 📚
This is a quickstart to install the micropython-modbus
library on a
MicroPython board.
A more detailed guide of the development environment can be found in SETUP, further details about the usage can be found in USAGE, descriptions for testing can be found in TESTING and several examples in EXAMPLES
python3 -m venv .venv
source .venv/bin/activate
pip install 'rshell>=0.0.30,<1.0.0'
pip install 'mpremote>=0.4.0,<1'
rshell -p /dev/tty.SLAB_USBtoUART --editor nano
Inside the rshell open a REPL and execute these commands inside the REPL
import machine
import network
import time
import mip
station = network.WLAN(network.STA_IF)
station.active(True)
station.connect('SSID', 'PASSWORD')
time.sleep(1)
print('Device connected to network: {}'.format(station.isconnected()))
mip.install('github:brainelectronics/micropython-modbus')
print('Installation completed')
machine.soft_reset()
For MicroPython versions below 1.19.1 use the upip
package instead of mip
import machine
import network
import time
import upip
station = network.WLAN(network.STA_IF)
station.active(True)
station.connect('SSID', 'PASSWORD')
time.sleep(1)
print('Device connected to network: {}'.format(station.isconnected()))
upip.install('micropython-modbus')
print('Installation completed')
machine.soft_reset()
After a successful installation of the package and reboot of the system as described in the installation section the following commands can be used to request a coil state of a target/client device. Further usage examples can be found in the examples folder and in the USAGE chapter
from ummodbus.tcp import ModbusTCPMaster
tcp_device = ModbusTCPMaster(
slave_ip='172.24.0.2', # IP address of the target/client/slave device
slave_port=502, # TCP port of the target/client/slave device
# timeout=5.0 # optional, timeout in seconds, default 5.0
)
# address of the target/client/slave device on the bus
slave_addr = 10
coil_address = 123
coil_qty = 1
coil_status = host.read_coils(
slave_addr=slave_addr,
starting_addr=coil_address,
coil_qty=coil_qty)
print('Status of coil {}: {}'.format(coil_status, coil_address))
For further details check the latest MicroPython Modbus TCP documentation example
from umodbus.serial import Serial as ModbusRTUMaster
host = ModbusRTUMaster(
pins=(25, 26), # given as tuple (TX, RX), check MicroPython port specific syntax
# baudrate=9600, # optional, default 9600
# data_bits=8, # optional, default 8
# stop_bits=1, # optional, default 1
# parity=None, # optional, default None
# ctrl_pin=12, # optional, control DE/RE
# uart_id=1 # optional, see port specific documentation
)
# address of the target/client/slave device on the bus
slave_addr = 10
coil_address = 123
coil_qty = 1
coil_status = host.read_coils(
slave_addr=slave_addr,
starting_addr=coil_address,
coil_qty=coil_qty)
print('Status of coil {}: {}'.format(coil_address, coil_status))
For further details check the latest MicroPython Modbus RTU documentation example
To use this package with the provided boot.py
and
main.py
file, additional modules are required,
which are not part of this repo/package. To install these modules on the
device, connect to a network and install them via upip
as follows
# with MicroPython version 1.19.1 or newer
import mip
mip.install('github:brainelectronics/micropython-modules')
# before MicroPython version 1.19.1
import upip
upip.install('micropython-brainelectronics-helpers')
Check also the README of the brainelectronics MicroPython modules, the INSTALLATION and the SETUP guides.
See USAGE and DOCUMENTATION
Refer to the following table for the list of supported Modbus functions.
ID | Â Description |
---|---|
1 | Read coils |
2 | Read discrete inputs |
3 | Read holding registers |
4 | Read input registers |
5 | Write single coil |
6 | Write single register |
15 | Write multiple coils |
16 | Write multiple registers |
Big thank you to giampiero7 for the initial implementation of this library.