/****************************************************************************
* [url=home.php?mod=space&uid=288409]@file[/url] main.c
* [url=home.php?mod=space&uid=895143]@version[/url] V3.0
* $Revision: 2 $
* $Date: 15/02/06 10:22a $
* [url=home.php?mod=space&uid=247401]@brief[/url] Perform A/D Conversion with ADC single cycle scan mode.
* @note
* Copyright (C) 2014 Nuvoton Technology Corp. All rights reserved.
*
******************************************************************************/
#include <stdio.h>
#include "M058S.h"
#define PLL_CLOCK 50000000
/*---------------------------------------------------------------------------------------------------------*/
/* Define Function Prototypes */
/*---------------------------------------------------------------------------------------------------------*/
void SYS_Init(void);
void UART0_Init(void);
void AdcSingleCycleScanModeTest(void);
void SYS_Init(void)
{
/*---------------------------------------------------------------------------------------------------------*/
/* Init System Clock */
/*---------------------------------------------------------------------------------------------------------*/
/* Enable Internal RC 22.1184 MHz clock */
CLK_EnableXtalRC(CLK_PWRCON_OSC22M_EN_Msk);
/* Waiting for Internal RC clock ready */
CLK_WaitClockReady(CLK_CLKSTATUS_OSC22M_STB_Msk);
/* Switch HCLK clock source to Internal RC and HCLK source divide 1 */
CLK_SetHCLK(CLK_CLKSEL0_HCLK_S_HIRC, CLK_CLKDIV_HCLK(1));
/* Enable external XTAL 12 MHz clock */
CLK_EnableXtalRC(CLK_PWRCON_XTL12M_EN_Msk);
/* Waiting for external XTAL clock ready */
CLK_WaitClockReady(CLK_CLKSTATUS_XTL12M_STB_Msk);
/* Set core clock as PLL_CLOCK from PLL */
CLK_SetCoreClock(PLL_CLOCK);
/* Enable UART module clock */
CLK_EnableModuleClock(UART0_MODULE);
/* Enable ADC module clock */
CLK_EnableModuleClock(ADC_MODULE);
/* Select UART module clock source */
CLK_SetModuleClock(UART0_MODULE, CLK_CLKSEL1_UART_S_HXT, CLK_CLKDIV_UART(1));
/* ADC clock source is 22.1184 MHz, set divider to 7, ADC clock is 22.1184/7 MHz */
CLK_SetModuleClock(ADC_MODULE, CLK_CLKSEL1_ADC_S_HIRC, CLK_CLKDIV_ADC(7));
/*---------------------------------------------------------------------------------------------------------*/
/* Init I/O Multi-function */
/*---------------------------------------------------------------------------------------------------------*/
/* Set P3 multi-function pins for UART0 RXD and TXD */
SYS->P3_MFP &= ~(SYS_MFP_P30_Msk | SYS_MFP_P31_Msk);
SYS->P3_MFP |= SYS_MFP_P30_RXD | SYS_MFP_P31_TXD;
/* Disable the P1.0 - P1.3 digital input path to avoid the leakage current */
GPIO_DISABLE_DIGITAL_PATH(P1, 0xF);
/* Configure the P1.0 - P1.3 ADC analog input pins */
SYS->P1_MFP &= ~(SYS_MFP_P10_Msk | SYS_MFP_P11_Msk | SYS_MFP_P12_Msk | SYS_MFP_P13_Msk);
SYS->P1_MFP |= SYS_MFP_P10_AIN0 | SYS_MFP_P11_AIN1 | SYS_MFP_P12_AIN2 | SYS_MFP_P13_AIN3 ;
}
/*---------------------------------------------------------------------------------------------------------*/
/* Init UART */
/*---------------------------------------------------------------------------------------------------------*/
void UART0_Init()
{
/* Reset IP */
SYS_ResetModule(UART0_RST);
/* Configure UART0 and set UART0 Baudrate */
UART_Open(UART0, 115200);
}
/*---------------------------------------------------------------------------------------------------------*/
/* Function: AdcSingleCycleScanModeTest */
/* */
/* Parameters: */
/* None. */
/* */
/* Returns: */
/* None. */
/* */
/* Description: */
/* ADC single cycle scan mode test. */
/*---------------------------------------------------------------------------------------------------------*/
void AdcSingleCycleScanModeTest()
{
uint8_t u8Option;
uint32_t u32ChannelCount;
int32_t i32ConversionData;
printf("\n");
printf("+----------------------------------------------------------------------+\n");
printf("| ADC single cycle scan mode sample code |\n");
printf("+----------------------------------------------------------------------+\n");
while(1)
{
printf("\n\nSelect input mode:\n");
printf(" [1] Single end input (channel 0, 1, 2 and 3)\n");
printf(" [2] Differential input (input channel pair 0 and 1)\n");
printf(" Other keys: exit single cycle scan mode test\n");
u8Option = getchar();
if(u8Option == '1')
{
/* Set the ADC operation mode as single-cycle, input mode as single-end and
enable the analog input channel 0, 1, 2 and 3 */
ADC_Open(ADC, ADC_ADCR_DIFFEN_SINGLE_END, ADC_ADCR_ADMD_SINGLE_CYCLE, 0xF);
/* Power on ADC module */
ADC_POWER_ON(ADC);
/* clear the A/D interrupt flag for safe */
ADC_CLR_INT_FLAG(ADC, ADC_ADF_INT);
/* start A/D conversion */
ADC_START_CONV(ADC);
/* Wait conversion done */
while(!ADC_GET_INT_FLAG(ADC, ADC_ADF_INT));
for(u32ChannelCount = 0; u32ChannelCount < 4; u32ChannelCount++)
{
i32ConversionData = ADC_GET_CONVERSION_DATA(ADC, u32ChannelCount);
printf("Conversion result of channel %d: 0x%X (%d)\n", u32ChannelCount, i32ConversionData, i32ConversionData);
}
}
else if(u8Option == '2')
{
/* Set the ADC operation mode as single-cycle, input mode as differential and
enable analog input channel 0 and 2 */
ADC_Open(ADC, ADC_ADCR_DIFFEN_DIFFERENTIAL, ADC_ADCR_ADMD_SINGLE_CYCLE, 0x5);
/* Power on ADC module */
ADC_POWER_ON(ADC);
/* clear the A/D interrupt flag for safe */
ADC_CLR_INT_FLAG(ADC, ADC_ADF_INT);
/* start A/D conversion */
ADC_START_CONV(ADC);
/* Wait conversion done */
while(!ADC_GET_INT_FLAG(ADC, ADC_ADF_INT));
for(u32ChannelCount = 0; u32ChannelCount < 2; u32ChannelCount++)
{
i32ConversionData = ADC_GET_CONVERSION_DATA(ADC, u32ChannelCount * 2);
printf("Conversion result of differential input pair %d: 0x%X (%d)\n", u32ChannelCount, i32ConversionData, i32ConversionData);
}
}
else
return ;
}
}
/*---------------------------------------------------------------------------------------------------------*/
/* MAIN function */
/*---------------------------------------------------------------------------------------------------------*/
int main(void)
{
/* Unlock protected registers */
SYS_UnlockReg();
/* Init System, IP clock and multi-function I/O */
SYS_Init();
/* Lock protected registers */
SYS_LockReg();
/* Init UART0 for printf */
UART0_Init();
/*---------------------------------------------------------------------------------------------------------*/
/* SAMPLE CODE */
/*---------------------------------------------------------------------------------------------------------*/
printf("\nSystem clock rate: %d Hz", SystemCoreClock);
/* Single cycle scan mode test */
AdcSingleCycleScanModeTest();
/* Disable ADC module */
ADC_Close(ADC);
/* Disable ADC IP clock */
CLK_DisableModuleClock(ADC_MODULE);
/* Disable External Interrupt */
NVIC_DisableIRQ(ADC_IRQn);
printf("\nExit ADC sample code\n");
while(1);
}
|