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-/******************** (C) COPYRIGHT 2008 STMicroelectronics ********************

-* File Name          : readme.txt

-* Author             : MCD Application Team

-* Version            : V2.0.1

-* Date               : 06/13/2008

-* Description        : Description of the RTC Calendar 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.

-*******************************************************************************/

-

-Example description

-===================

-This example demonstrates and explains how to use the RTC peripheral. 

-As an application example, it demonstrates how to setup the RTC peripheral, in terms

-of prescaler and interrupts, to be used to keep time and to generate Second interrupt. 

-

-The Low Speed External (LSE) clock is used as RTC clock source. 

-The RTC clock can be output on the Tamper pin (PC.13). To enable this functionality,

-uncomment the corresponding line: #define RTCClockOutput_Enable in the main.c file.

-

-The RTC is in the backup (BKP) domain, still powered by VBAT when VDD is switched off,

-so the RTC configuration is not lost if a battery is connected to the VBAT pin. 

-A key value is written in backup data register1 (BKP_DR1) to indicate if the RTC

-is already configured.

-

-The program behaves as follows:

-1. After startup the program checks the backup data register1 value:

-    – register1 value not correct: (BKP_DR1 value is not correct or has not yet

-      been programmed when the program is executed for the first time) the RTC is

-      configured and the user is asked to set the time (entered on HyperTerminal).

-    – register1 value correct: this means that the RTC is configured and the time

-      is displayed on HyperTerminal.

-2. When an External Reset occurs the BKP domain is not reset and the RTC configuration

-   is not lost.

-3. When power on reset occurs:

-    – If a battery is connected to the VBAT pin: the BKP domain is not reset and

-      the RTC configuration is not lost.

-    – If no battery is connected to the VBAT pin: the BKP domain is reset and the

-      RTC configuration is lost.

-

-In the RTC interrupt service routine, a specific GPIO pin toggles every 1 s.

-The C library printf function is retargeted to the USART1, that is, the printf

-message is output to the HyperTerminal using USART1.

-

- 

-Directory contents

-==================

-platform_config.h    Evaluation board specific configuration file

-stm32f10x_conf.h     Library Configuration file

-stm32f10x_it.c       Interrupt handlers

-stm32f10x_it.h       Header for stm32f10x_it.c

-main.c               Main program

-

-

-Hardware environment

-====================

-This example runs on STMicroelectronics STM3210B-EVAL and STM3210E-EVAL evaluation

-boards and can be easily tailored to any other hardware.

-To select the STMicroelectronics evaluation board used to run the example, uncomment

-the corresponding line in platform_config.h file.

-

- + STM3210B-EVAL 

-    - Use LD1 led connected to PC.06.

-    - The USART1 signals (Rx, Tx) must be connected to a DB9 connector using a RS232

-       transceiver.

-    - Connect a null-modem female/female RS232 cable between the DB9 connector 

-       (CN6 on STM3210B-EVAL board) and PC serial port.

-    - Hyperterminal configuration:

-       - Word Length = 8 Bits

-       - One Stop Bit

-       - No parity

-       - BaudRate = 115200 baud

-       - flow control: None

-    - Connect a 3V battery on Vbat pin (already mounted on STM3210B-EVAL board)   

- 

- + STM3210E-EVAL

-    - Use LD1 led connected to PF.06.

-    - The USART1 signals (Rx, Tx) must be connected to a DB9 connector using a RS232

-       transceiver.

-    - Connect a null-modem female/female RS232 cable between the DB9 connector 

-       (CN12 on STM3210B-EVAL board) and PC serial port. 

-    - Hyperterminal configuration:

-       - Word Length = 8 Bits

-       - One Stop Bit

-       - No parity

-       - BaudRate = 115200 baud

-       - flow control: None

-    - Connect a 3V battery on Vbat pin (already mounted on STM3210E-EVAL board)  

-    

-    

-How to use it

-=============

-In order to make the program work, you must do the following :

-- Create a project and setup all your toolchain's start-up files

-- Compile the directory content files and required Library files :

-  + stm32f10x_lib.c

-  + stm32f10x_gpio.c

-  + stm32f10x_rcc.c

-  + stm32f10x_rtc.c

-  + stm32f10x_bkp.c

-  + stm32f10x_pwr.c

-  + stm32f10x_nvic.c

-  + stm32f10x_usart.c

-  + stm32f10x_flash.c

-  

-- Link all compiled files and load your image into target memory

-- Run the example

-

-

-******************* (C) COPYRIGHT 2008 STMicroelectronics *****END OF FILE******