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-/**
-  @page DMA_ADC_TIM1 DMA ADC1 TIM1 example
-  
-  @verbatim
-  ******************** (C) COPYRIGHT 2011 STMicroelectronics *******************
-  * @file    DMA/ADC_TIM1/readme.txt 
-  * @author  MCD Application Team
-  * @version V3.5.0
-  * @date    08-April-2011
-  * @brief   Description of the DMA ADC1 TIM1 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 description of how to use a DMA channel to transfer
-continuously a data from a peripheral (ADC1) to another peripheral (TIM1) supporting
-DMA transfer.
-The ADC channel14 is configured to be converted continuously. TIM1_CH1 is configured
-to generate a PWM signal on its output.
-The dedicated DMA1 channel5 is configured to transfer in circular mode the last ADC 
-channel14 converted value to the TIM1_CCR1 register. The DMA channel request is driven
-by the TIM1 update event. The duty cycle of TIM1_CH1 output signal is then changed
-each time the input voltage value on ADC channel14 pin is modified.
-The duty cycle variation can be visualized on oscilloscope on the TIM1_CH1 pin
-PA.08 while changing the analog input on ADC channel14 using the potentiometer.
-
-@par Directory contents 
-
-  - DMA/ADC_TIM1/stm32f10x_conf.h    Library Configuration file
-  - DMA/ADC_TIM1/stm32f10x_it.c      Interrupt handlers
-  - DMA/ADC_TIM1/stm32f10x_it.h      Interrupt handlers header file
-  - DMA/ADC_TIM1/main.c              Main program
-  - DMA/ADC_TIM1/system_stm32f10x.c  STM32F10x system source file
-  
-@par Hardware and Software environment 
-
-  - This example runs on STM32F10x Connectivity line, High-Density, Medium-Density, 
-    XL-Density, High-Density Value line, Medium-Density Value line, Low-Density 
-    and Low-Density Value line Devices.
-  
-  - This example has been tested with STMicroelectronics STM32100B-EVAL (Medium-Density
-    Value line), STM3210C-EVAL (Connectivity 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.
-
-  - STM32100B-EVAL Set-up 
-    - Connect a variable power supply 0-3.3V to ADC Channel14 mapped on pin 
-      PC.04 (potentiometer RV2)
-    - Connect an oscilloscope to TIM1_CH1 (PA.08) pin 
-    
-  - STM3210C-EVAL Set-up 
-    - Connect a variable power supply 0-3.3V to ADC Channel14 mapped on pin 
-      PC.04 (potentiometer RV1)
-    - Connect an oscilloscope to TIM1_CH1 (PA.08) pin  
-
-  - STM3210E-EVAL Set-up 
-    - Connect a variable power supply 0-3.3V to ADC Channel14 mapped on pin 
-      PC.04 (potentiometer RV1)
-    - Connect an oscilloscope to TIM1_CH1 (PA.08) pin  
-
-  - STM3210B-EVAL Set-up 
-    - Connect a variable power supply 0-3.3V to ADC Channel14 mapped on pin 
-      PC.04 (potentiometer RV1)
-    - Connect an oscilloscope to TIM1_CH1 (PA.08) pin       
-
-  - STM32100E-EVAL Set-up 
-    - Connect a variable power supply 0-3.3V to ADC Channel14 mapped on pin 
-      PC.04 (potentiometer RV1)
-    - Connect an oscilloscope to TIM1_CH1 (PA.08) pin  
-	
-	
-@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.
-    
- * <h3><center>&copy; COPYRIGHT 2011 STMicroelectronics</center></h3>
- */