I2C is a two-wire protocol for communicating between devices. At the physical level it consists of 2 wires: SCL and SDA, the clock and data lines respectively.
I2C objects are created attached to a specific bus. They can be initialized when created, or initialized later on.
This library is designed to support different I2C driver implementations. At present below drivers are supported:
- CH341 (CH341A, etc)
The interface is similar to that of MicroPython’s machine.I2C
Example usage:
from i2cpy import I2C
i2c = I2C() # create I2C peripheral
i2c.writeto(42, b'123') # write 3 bytes to peripheral with 7-bit address 42
i2c.readfrom(42, 4) # read 4 bytes from peripheral with 7-bit address 42
i2c.readfrom_mem(42, 8, 3) # read 3 bytes from memory of peripheral 42,
# starting at memory address 8 in the peripheral
i2c.writeto_mem(42, 2, b'\x10') # write 1 byte to memory of peripheral 42,
# starting at memory address 2 in the peripheralIf you prefer an “int” interface to the “bytes” interface, you can easily write wrapper functions youself. For example,
# assume you already have a gloal i2c object
def i2c_write(addr: int, memaddr: int, *args):
i2c.writeto_mem(addr, memaddr, bytes(args))
def i2c_read(addr: int, memaddr: int, nbytes: int) -> list[int]:
got = i2c.readfrom_mem(addr, memaddr, nbytes)
return list(got)The i2cpy Python module itself can be simply pip installed,
pip intall i2cpy
And for the underlying I2C implementations you still need to install their corresponding drivers.
The CH341 series chip (like CH341A) is USB bus converter which converts USB to UART, parallel port, and common synchronous serial communication interfaces (I2C, SPI). The chip is manufactured by the company Qinheng Microelectronics.
The ch341 driver shipped with this library is a Python interface to CH341’s official DLLs.
You need the driver DLL files, which are downloadable from Qinheng’s website.
Windows: https://www.wch-ic.com/downloads/CH341PAR_ZIP.html
On Windows it’s recommended to place them under Windows System32 folder. Or if you place them under a different directory, you can add that directory to PATH environment variable.
Linux: https://www.wch-ic.com/downloads/CH341PAR_LINUX_ZIP.html
On Linux you need to build the kernel module from source under the downloaded zipball’s driver sub-directory like,
$ cd driver
$ sudo make && sudo make installAlso you need to either place the libch347.so file for your platform to system supported path like /usr/local/lib, or you make the so file loadable by adding its directory to LD_LIBRARY_PATH environment variable.
MacOS: https://www.wch-ic.com/download/CH341SER_MAC_ZIP.html
I don’t use this library on Mac myself. But let me know if it does not work, and I can give it a try on Mac.
Example usage:
from i2cpy import I2C
i2c = I2C() # ch341 is the default driver
i2c = I2C(driver="ch341") # explicitly specify driver
i2c = I2C(0, driver="ch341") # override usb id on Windows
i2c = I2C("/dev/ch34x_pis0", driver="ch341") # override usb device on LinuxConstructor.
- Parameters:
- id (
Union[str,int,None]) – Identifies a particular I2C peripheral. Allowed values depend on the particular driver implementation. - freq (
int) – I2C bus baudrate, defaults to 400000 - driver (
Optional[str]) – I2C driver name. It corresponds to the I2C driver sub module name shipped with this library. For example “foo” means module “i2cpy.driver.foo”. If not specified, it looks at environment variable “I2CPY_DRIVER”. And if that’s not defined or empty, it finally falls back to “ch341”. - auto_init (
bool) – Call init() on object initialization, defaults to True
- id (
Initialize the I2C bus.
Close the I2C bus.
Scan all I2C addresses between start and stop inclusive and return a list of those that respond. A device responds if it pulls the SDA line low after its address (including a write bit) is sent on the bus.
- Parameters:
- start (
int) – start address, defaults to 0x08 - stop (
int) – stop address, defaults to 0x77
- start (
- Return type:
List[int] - Returns: a list of addresses that respond to scan
Write the bytes from buf to the peripheral specified by addr.
- Parameters:
- addr (
int) – I2C peripheral deivce address - buf (
Buffer) – bytes to write
- addr (
Read nbytes from the peripheral specified by addr.
- Parameters:
- addr (
int) – I2C peripheral device address - nbytes (
int) – number of bytes to read
- addr (
- Return type:
bytes - Returns: the bytes read
Write buf to the peripheral specified by addr starting from the memory address specified by memaddr.
- Parameters:
- addr (
int) – I2C peripheral device address - memaddr (
int) – memory address - buf (
Buffer) – bytes to write - addrsize (
int) – _description_, defaults to 8
- addr (
Read nbytes from the peripheral specified by addr starting from the memory address specified by memaddr.
- Parameters:
- addr (
int) – I2C peripheral device address - memaddr (
int) – memory address - nbytes (
int) – number of bytes to read - addrsize (
int) – _description_, defaults to 8
- addr (
- Return type:
bytes - Returns: the bytes read
Read into buf from the peripheral specified by addr starting from the memory address specified by memaddr. The number of bytes read is the length of buf.
- Parameters:
- addr (
int) – I2C peripheral device address - memaddr (
int) – memory address - buf (
bytearray) – buffer to store the bytes read - addrsize (
int) – _description_, defaults to 8
- addr (