/**
******************************************************************************
* @file stm32f4xx_hal_i2c.c
* @author MCD Application Team
* @brief I2C HAL module driver.
* This file provides firmware functions to manage the following
* functionalities of the Inter Integrated Circuit (I2C) peripheral:
* + Initialization and de-initialization functions
* + IO operation functions
* + Peripheral State, Mode and Error functions
*
@verbatim
==============================================================================
##### How to use this driver #####
==============================================================================
[..]
The I2C HAL driver can be used as follows:
(#) Declare a I2C_HandleTypeDef handle structure, for example:
I2C_HandleTypeDef hi2c;
(#)Initialize the I2C low level resources by implementing the @ref HAL_I2C_MspInit() API:
(##) Enable the I2Cx interface clock
(##) I2C pins configuration
(+++) Enable the clock for the I2C GPIOs
(+++) Configure I2C pins as alternate function open-drain
(##) NVIC configuration if you need to use interrupt process
(+++) Configure the I2Cx interrupt priority
(+++) Enable the NVIC I2C IRQ Channel
(##) DMA Configuration if you need to use DMA process
(+++) Declare a DMA_HandleTypeDef handle structure for the transmit or receive stream
(+++) Enable the DMAx interface clock using
(+++) Configure the DMA handle parameters
(+++) Configure the DMA Tx or Rx stream
(+++) Associate the initialized DMA handle to the hi2c DMA Tx or Rx handle
(+++) Configure the priority and enable the NVIC for the transfer complete interrupt on
the DMA Tx or Rx stream
(#) Configure the Communication Speed, Duty cycle, Addressing mode, Own Address1,
Dual Addressing mode, Own Address2, General call and Nostretch mode in the hi2c Init structure.
(#) Initialize the I2C registers by calling the @ref HAL_I2C_Init(), configures also the low level Hardware
(GPIO, CLOCK, NVIC...etc) by calling the customized @ref HAL_I2C_MspInit() API.
(#) To check if target device is ready for communication, use the function @ref HAL_I2C_IsDeviceReady()
(#) For I2C IO and IO MEM operations, three operation modes are available within this driver :
*** Polling mode IO operation ***
=================================
[..]
(+) Transmit in master mode an amount of data in blocking mode using @ref HAL_I2C_Master_Transmit()
(+) Receive in master mode an amount of data in blocking mode using @ref HAL_I2C_Master_Receive()
(+) Transmit in slave mode an amount of data in blocking mode using @ref HAL_I2C_Slave_Transmit()
(+) Receive in slave mode an amount of data in blocking mode using @ref HAL_I2C_Slave_Receive()
*** Polling mode IO MEM operation ***
=====================================
[..]
(+) Write an amount of data in blocking mode to a specific memory address using @ref HAL_I2C_Mem_Write()
(+) Read an amount of data in blocking mode from a specific memory address using @ref HAL_I2C_Mem_Read()
*** Interrupt mode IO operation ***
===================================
[..]
(+) Transmit in master mode an amount of data in non-blocking mode using @ref HAL_I2C_Master_Transmit_IT()
(+) At transmission end of transfer, @ref HAL_I2C_MasterTxCpltCallback() is executed and user can
add his own code by customization of function pointer @ref HAL_I2C_MasterTxCpltCallback()
(+) Receive in master mode an amount of data in non-blocking mode using @ref HAL_I2C_Master_Receive_IT()
(+) At reception end of transfer, @ref HAL_I2C_MasterRxCpltCallback() is executed and user can
add his own code by customization of function pointer @ref HAL_I2C_MasterRxCpltCallback()
(+) Transmit in slave mode an amount of data in non-blocking mode using @ref HAL_I2C_Slave_Transmit_IT()
(+) At transmission end of transfer, @ref HAL_I2C_SlaveTxCpltCallback() is executed and user can
add his own code by customization of function pointer @ref HAL_I2C_SlaveTxCpltCallback()
(+) Receive in slave mode an amount of data in non-blocking mode using @ref HAL_I2C_Slave_Receive_IT()
(+) At reception end of transfer, @ref HAL_I2C_SlaveRxCpltCallback() is executed and user can
add his own code by customization of function pointer @ref HAL_I2C_SlaveRxCpltCallback()
(+) In case of transfer Error, @ref HAL_I2C_ErrorCallback() function is executed and user can
add his own code by customization of function pointer @ref HAL_I2C_ErrorCallback()
(+) Abort a master I2C process communication with Interrupt using @ref HAL_I2C_Master_Abort_IT()
(+) End of abort process, @ref HAL_I2C_AbortCpltCallback() is executed and user can
add his own code by customization of function pointer @ref HAL_I2C_AbortCpltCallback()
*** Interrupt mode or DMA mode IO sequential operation ***
==========================================================
[..]
(@) These interfaces allow to manage a sequential transfer with a repeated start condition
when a direction change during transfer
[..]
(+) A specific option field manage the different steps of a sequential transfer
(+) Option field values are defined through @ref I2C_XferOptions_definition and are listed below:
(++) I2C_FIRST_AND_LAST_FRAME: No sequential usage, functionnal is same as associated interfaces in no sequential mode
(++) I2C_FIRST_FRAME: Sequential usage, this option allow to manage a sequence with start condition, address
and data to transfer without a final stop condition
(++) I2C_FIRST_AND_NEXT_FRAME: Sequential usage (Master only), this option allow to manage a sequence with start condition, address
and data to transfer without a final stop condition, an then permit a call the same master sequential interface
several times (like @ref HAL_I2C_Master_Seq_Transmit_IT() then @ref HAL_I2C_Master_Seq_Transmit_IT()
or @ref HAL_I2C_Master_Seq_Transmit_DMA() then @ref HAL_I2C_Master_Seq_Transmit_DMA())
(++) I2C_NEXT_FRAME: Sequential usage, this option allow to manage a sequence with a restart condition, address
and with new data to transfer if the direction change or manage only the new data to transfer
if no direction change and without a final stop condition in both cases
(++) I2C_LAST_FRAME: Sequential usage, this option allow to manage a sequance with a restart condition, address
and with new data to transfer if the direction change or manage only the new data to transfer
if no direction change and with a final stop condition in both cases
(++) I2C_LAST_FRAME_NO_STOP: Sequential usage (Master only), this option allow to manage a restart condition after several call of the same master sequential
interface several times (link with option I2C_FIRST_AND_NEXT_FRAME).
Usage can, transfer several bytes one by one using HAL_I2C_Master_Seq_Transmit_IT(option I2C_FIRST_AND_NEXT_FRAME then I2C_NEXT_FRAME)
or HAL_I2C_Master_Seq_Receive_IT(option I2C_FIRST_AND_NEXT_FRAME then I2C_NEXT_FRAME)
or HAL_I2C_Master_Seq_Transmit_DMA(option I2C_FIRST_AND_NEXT_FRAME then I2C_NEXT_FRAME)
or HAL_I2C_Master_Seq_Receive_DMA(option I2C_FIRST_AND_NEXT_FRAME then I2C_NEXT_FRAME).
Then usage of this option I
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基于stm32实现解析激光雷达数据包并在lcd上显示.zip(本人专注嵌入式领域) (274个子文件)
test.bin 22KB
stm32f4xx_hal_i2c.c 226KB
stm32f4xx_hal_tim.c 207KB
stm32f4xx_hal_rcc_ex.c 150KB
stm32f4xx_hal_spi.c 118KB
stm32f4xx_hal_tim_ex.c 64KB
stm32f4xx_ll_rcc.c 50KB
stm32f4xx_hal_flash_ex.c 49KB
stm32f4xx_hal_rcc.c 41KB
stm32f4xx_hal_dma.c 39KB
stm32f4xx_ll_utils.c 31KB
w25qxx.c 29KB
system_stm32f4xx.c 26KB
stm32f4xx_hal_flash.c 24KB
stm32f4xx_hal_pwr_ex.c 22KB
stm32f4xx_hal_pwr.c 19KB
stm32f4xx_hal.c 19KB
stm32f4xx_hal_gpio.c 19KB
stm32f4xx_ll_usart.c 18KB
stm32f4xx_hal_cortex.c 18KB
stm32f4xx_ll_dma.c 18KB
stm32f4xx_hal_exti.c 15KB
stm32f4xx_ll_gpio.c 11KB
stm32f4xx_hal_dma_ex.c 10KB
LCD_ASCII.c 10KB
main.c 8KB
stm32f4xx_ll_exti.c 7KB
stm32f4xx_hal_flash_ramfunc.c 6KB
stm32f4xx_it.c 6KB
stm32f4xx_hal_i2c_ex.c 5KB
lcd.c 5KB
oled.c 5KB
spi.c 5KB
syscalls.c 4KB
gpio.c 3KB
i2c.c 3KB
sysmem.c 3KB
tim.c 3KB
usart.c 2KB
stm32f4xx_hal_msp.c 2KB
readFlash.c 2KB
MPU6050.c 776B
delay.c 351B
NeatoXV_11.c 119B
Debug test.cfg 924B
.cproject 26KB
main.d 5KB
oled.d 5KB
lcd.d 5KB
w25qxx.d 5KB
readFlash.d 5KB
NeatoXV_11.d 5KB
stm32f4xx_it.d 5KB
delay.d 5KB
stm32f4xx_hal_msp.d 5KB
usart.d 5KB
gpio.d 5KB
spi.d 5KB
i2c.d 5KB
tim.d 5KB
stm32f4xx_ll_utils.d 4KB
stm32f4xx_ll_usart.d 4KB
stm32f4xx_ll_gpio.d 4KB
stm32f4xx_ll_dma.d 4KB
stm32f4xx_ll_exti.d 4KB
stm32f4xx_ll_rcc.d 4KB
stm32f4xx_hal_flash_ramfunc.d 3KB
stm32f4xx_hal_flash_ex.d 3KB
stm32f4xx_hal_i2c_ex.d 3KB
stm32f4xx_hal_cortex.d 3KB
stm32f4xx_hal_rcc_ex.d 3KB
stm32f4xx_hal_pwr_ex.d 3KB
stm32f4xx_hal_tim_ex.d 3KB
stm32f4xx_hal_dma_ex.d 3KB
stm32f4xx_hal_flash.d 3KB
stm32f4xx_hal_gpio.d 3KB
stm32f4xx_hal_exti.d 3KB
stm32f4xx_hal_tim.d 3KB
stm32f4xx_hal_pwr.d 3KB
stm32f4xx_hal_dma.d 3KB
stm32f4xx_hal_rcc.d 3KB
stm32f4xx_hal_i2c.d 3KB
stm32f4xx_hal_spi.d 3KB
stm32f4xx_hal.d 3KB
system_stm32f4xx.d 3KB
LCD_ASCII.d 175B
MPU6050.d 167B
syscalls.d 44B
sysmem.d 40B
test.elf 1MB
stm32f401xc.h 698KB
stm32f4xx_hal_rcc_ex.h 425KB
stm32f4xx_ll_rcc.h 333KB
stm32_hal_legacy.h 204KB
core_cm33.h 169KB
core_armv8mml.h 162KB
core_cm7.h 142KB
core_cm4.h 119KB
stm32f4xx_hal_tim.h 111KB
core_cm3.h 107KB
共 274 条
- 1
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