Sensor driver for LSM9DS1 sensor written in C programming language. This repository contains the sensor driver files (.h and .c) to be included, or linked directly as a git submodule, in your project. The driver is MISRA compliant and the documentation can be generated using the Doxygen tool.
In order to clone
the complete content of the repository folder, use the command:
git clone https://github.com/STMicroelectronics/LSM9DS1-PID/
Some examples of driver usage can be found here.
The driver is platform-independent, you only need to define two functions for read and write transactions from the sensor hardware bus (ie. SPI or I²C) and an optional one to implement a delay of millisecond granularity. A few devices integrate an extra bit in the communication protocol in order to enable multi read/write access, this bit must be managed in the read and write functions defined by the user. Please refer to the read and write implementation in the reference examples.
- Include in your project the driver files of the sensor (.h and .c)
- Define in your code the read and write functions that use the I²C or SPI platform driver like the following:
/** Please note that is MANDATORY: return 0 -> no Error.**/
int32_t platform_write(void *handle, uint8_t reg, const uint8_t *bufp, uint16_t len)
int32_t platform_read(void *handle, uint8_t reg, uint8_t *bufp, uint16_t len)
/** Optional (may be required by driver) **/
void platform_delay(uint32_t millisec)
- Declare and initialize the structure of the device interface:
xxxxxxx_ctx_t dev_ctx; /** xxxxxxx is the used part number **/
dev_ctx.write_reg = platform_write;
dev_ctx.read_reg = platform_read;
dev_ctx.mdelay = platform_delay;
- If needed by the platform read and write functions, initialize the handle parameter:
dev_ctx.handle = &platform_handle;
Some integration examples can be found here.
- A standard C language compiler for the target MCU
- A C library for the target MCU and the desired interface (ie. SPI, I²C)
More Information: http://www.st.com
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