/micropython-mcp230xx

Micropython I2C-based manipulation of the MCP series GPIO expander, derived from Adafruit_MCP230xx

Primary LanguagePythonGNU Affero General Public License v3.0AGPL-3.0

micropython-mcp230xx

Micropython I2C-based manipulation of the MCP series GPIO expanders MCP23017 and MCP23008, derived from the Adafruit_MCP230xx.py module of https://github.com/adafruit/Adafruit_Python_GPIO

This has been tested with ESP8266 running Micropython 1.8.7 on MCP23017 only, but hopefully works also for MCP23008 if you have one. Please post an issue if you have success.

To use, wire up the GPIO expander chip following this loom...

  • MCP23017 Pins
    • 9 => 3.3V supply
    • 10 => GND
    • 12 => ESP8266 GPIO5 (NodeMCU D1) [I2C SCL Signal]
    • 13 => ESP8266 GPIO3 (NodeMCU D2) [I2C SDA Signal]
    • 12 => 10kOhm resistor => 3.3V Supply [I2C SCL Pull-up]
    • 13 => 10kOhm resistor => 3.3V Supply [I2C SDA Pull-up]
    • 18 => 10kOhm resistor => 3.3V Supply [Reset pin in 'run' configuration]

Also choose the address of each MCP23017, e.g.

  • Addressing pins for address 0x20
    • 15 => 10kOhm resistor => GND
    • 16 => 10kOhm resistor => GND
    • 17 => 10kOhm resistor => GND

The mappings between pins and I2C addresses are...

Pin pull table

If you wish to use a different I2C address, or a different GPIO-numbered SDA or SCL pin than the default then pass that in to the constructor.

The default constructor arguments mean that MCP23017() is equivalent to MPC23017(address=0x20, gpioScl=5, gpioSda=4).

A handy visual reference is this from mathworks, although I recommend that for ESP8266 the chip power should be provided by 3.3V not 5V, to make sure logic levels are correct and that the serial data line doesn't overload SDA.

MCP Pinout

For example, the following will set the output values of pins 10-15 and read the logic value (True or False) of pins 0-9

import mcp

io = mcp.MCP23017()

# controls some output pins
outPins = list(range(10,16))
nextVals = {}
for pinNum in outPins:
    io.setup(pinNum, mcp.OUT)
    nextVals[pinNum] = True
io.output_pins(nextVals)

# monitors and prints some input pins
inPins = list(range(0,10))
for pinNum in inPins:
    io.setup(pinNum, mcp.IN)
while True:
    print(io.input_pins(inPins))