amgladtsin 50e81bac72 Sorted repo for stm32 9 lat temu
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Makefile 50e81bac72 Sorted repo for stm32 9 lat temu
gdb.txt 50e81bac72 Sorted repo for stm32 9 lat temu
main.c 50e81bac72 Sorted repo for stm32 9 lat temu
main.c1 50e81bac72 Sorted repo for stm32 9 lat temu
main.h 50e81bac72 Sorted repo for stm32 9 lat temu
megacode.c 50e81bac72 Sorted repo for stm32 9 lat temu
readme.txt 50e81bac72 Sorted repo for stm32 9 lat temu
stm32_flash.ld 50e81bac72 Sorted repo for stm32 9 lat temu
stm32f0xx_conf.h 50e81bac72 Sorted repo for stm32 9 lat temu
stm32f0xx_it.c 50e81bac72 Sorted repo for stm32 9 lat temu
stm32f0xx_it.h 50e81bac72 Sorted repo for stm32 9 lat temu
stm32f10x_conf.h 50e81bac72 Sorted repo for stm32 9 lat temu
stm32f10x_it.c 50e81bac72 Sorted repo for stm32 9 lat temu
stm32f10x_it.h 50e81bac72 Sorted repo for stm32 9 lat temu
system_stm32f0xx.c 50e81bac72 Sorted repo for stm32 9 lat temu
system_stm32f10x.c 50e81bac72 Sorted repo for stm32 9 lat temu

readme.txt

/**
@page SPI_FLASH SPI SPI_FLASH example

@verbatim
******************** (C) COPYRIGHT 2011 STMicroelectronics *******************
* @file SPI/SPI_FLASH/readme.txt
* @author MCD Application Team
* @version V3.5.0
* @date 08-April-2011
* @brief Description of the SPI SPI_FLASH example.
******************************************************************************
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE
* TIME. AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY
* DIRECT, INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING
* FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE
* CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
******************************************************************************
@endverbatim

@par Example Description

This example provides a basic example of how to use the SPI firmware library
and an associate SPI FLASH driver to communicate with an M25P64 or M25P128 FLASH.

The first step consist in reading the SPI Flash ID. A comparison between the ID
read from SPI flash and the expected one is done and LED1 is turned on in case
of success otherwise LED2 is turned on.

Using this driver the program performs an erase of the sector to be accessed, a
write of a Tx_Buffer, defined in the main.c file, to the memory followed by a read
of the written data. Then data read from the memory stored in the Rx_Buffer are
compared with the expected values of the Tx_Buffer. The result of this comparison
is stored in the "TransferStatus1" variable.

A second erase of the same sector is done at the end, and a test is done to be
sure that all the data written there are erased further to the sector erase. All
the data location are read and checked with 0xFF value. The result of this test
is stored in "TransferStatus2" variable which is FAILED in case of error.

The SPI1 is configured as Master with an 8-bit data size. The SPI1 baudrate
is set to 18 Mbit/s (for Value line devices the baudrate is set to 12 Mbit/s).
The FLASH_WriteAddress and the FLASH_ReadAddress where the program start the write
and the read operations are defined in the main.c file.


@par Directory contents

- SPI/SPI_FLASH/stm32f10x_conf.h Library Configuration file
- SPI/SPI_FLASH/stm32f10x_it.c Interrupt handlers
- SPI/SPI_FLASH/stm32f10x_it.h Header for stm32f10x_it.c
- SPI/SPI_FLASH/main.c Main program
- SPI/SPI_FLASH/system_stm32f10x.c STM32F10x system source file

@par Hardware and Software environment

- This example runs on STM32F10x Connectivity line, High-Density, High-Density
Value line, Medium-Density, XL-Density, Medium-Density Value line, Low-Density
and Low-Density Value line Devices.

- This example has been tested with STMicroelectronics STM32100E-EVAL (High-Density
Value line), STM32100B-EVAL (Medium-Density Value line), STM3210E-EVAL
(High-Density and XL-Density) and STM3210B-EVAL (Medium-Density) evaluation
boards and can be easily tailored to any other supported device
and development board.
This example can't be tested with STM3210C-EVAL (Connectivity Line)
evaluation board (no SPI FLASH available).
To select the STMicroelectronics evaluation board used to run the example,
uncomment the corresponding line in stm32_eval.h file.

- STM32100E-EVAL Set-up
- Use LED1 and LED2 connected respectively to PF.06 and PF.07 pins
- M25P128 FLASH is already available on this board.
@note
- The SPI FLASH example is only working on STM32100E-EVAL Rev B.

- STM32100B-EVAL Set-up
- Use LED1 and LED2 connected respectively to PC.06 and PC.07 pins
- M25P128 FLASH is already available on this board.

- STM3210E-EVAL Set-up
- Use LED1 and LED2 connected respectively to PF.06 and PF.07 pins
- M25P64 FLASH is already available on this board.
@note The jumper 14 (USB Disconnect) must be set in position 1<->2 in order
to not interfere with SPI2 MISO pin PB14.

- STM3210B-EVAL Set-up
- Use LED1 and LED2 connected respectively to PC.06 and PC.07 pins
- M25P64 FLASH is already available on this board.


- Other platform Set-up
- Use STM3210B-EVAL hardware configuration defines.
- Connect LED1 and LED2 respectively to PD.07 and PD.13 pins
- Connect both SPI1 and SPI FLASH pins as following:
- Connect SPI1_NSS (PA.04) pin to SPI Flash chip select (pin1)
- Connect SPI1_SCLK (PA.05) pin to SPI Flash serial clock (pin6)
- Connect SPI1_MISO (PA.06) pin to SPI Flash serial data output (pin2)
- Connect SPI1_MOSI (PA.07) pin to SPI Flash serial data input (pin5)
- Connect SPI Flash Write Protect (pin3) to Vdd
- Connect SPI Flash Hold (pin7) to Vdd
- Connect SPI Flash Vcc (pin8) to Vdd
- Connect SPI Flash Vss (pin4) to Vss


@par How to use it ?

In order to make the program work, you must do the following :
- Copy all source files from this example folder to the template folder under
Project\STM32F10x_StdPeriph_Template
- Open your preferred toolchain
- Rebuild all files and load your image into target memory
- Run the example

@note
- Low-density Value line devices are STM32F100xx microcontrollers where the
Flash memory density ranges between 16 and 32 Kbytes.
- Low-density devices are STM32F101xx, STM32F102xx and STM32F103xx
microcontrollers where the Flash memory density ranges between 16 and 32 Kbytes.
- Medium-density Value line devices are STM32F100xx microcontrollers where
the Flash memory density ranges between 64 and 128 Kbytes.
- Medium-density devices are STM32F101xx, STM32F102xx and STM32F103xx
microcontrollers where the Flash memory density ranges between 64 and 128 Kbytes.
- High-density Value line devices are STM32F100xx microcontrollers where
the Flash memory density ranges between 256 and 512 Kbytes.
- High-density devices are STM32F101xx and STM32F103xx microcontrollers where
the Flash memory density ranges between 256 and 512 Kbytes.
- XL-density devices are STM32F101xx and STM32F103xx microcontrollers where
the Flash memory density ranges between 512 and 1024 Kbytes.
- Connectivity line devices are STM32F105xx and STM32F107xx microcontrollers.

*

© COPYRIGHT 2011 STMicroelectronics


*/