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haoJin750TFT
Commit 08e48b36 authored by 时昊's avatar 时昊
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feat:修改trmerm驱动代码

parent 12245a9c
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Showing with 32 additions and 53 deletions
Firmware/Source/Device/Cmsemicon/BAT32A279/RTE/TrmerM/TrmerM.c
View file @ 08e48b36
/*
* TrmerM.c
*
* Created on: 2024�?2�?21�?
* Created on: 2024年2月21日
*/
#include <stdint.h>
// #include "gpio.h"
......@@ -25,21 +25,21 @@ typedef struct
// /*占空比精度千分之一*/
// extern void TimerB_PWM_Channel_Duty_Set(TIMERB_Channel_en_t enTimerBChannel, uint16_t u16Duty);
// extern void TimerB_PWM_Channel_Start(TIMERB_Channel_en_t enTimerBChannel);
// /*调用该函数后,仅重新调用开始函数功能即可正常使�?*/
// /*调用该函数后,仅重新调用开始函数功能即可正常使*/
// extern void TimerB_PWM_Channel_Stop(TIMERB_Channel_en_t enTimerBChannel);
// /*仅休眠时可调用,调用该函数后需要重新初始化相关通道才可以正常使用�?*/
// /*仅休眠时可调用,调用该函数后需要重新初始化相关通道才可以正常使用*/
// extern void TimerB_PWM_Channel_Sleep(TIMERB_Channel_en_t enTimerBChannel);
TMM_InitTypeDef TIMM_InitStructure[2] = {0};
static uint32_t cycle_pulse[2]; //一个周期的时钟�? //频率
static uint32_t high_level_Pulse[2][3]; //高电平时钟数 //占空�?
static uint32_t cycle_pulse[2]; //一个周期的时钟 //频率
static uint32_t high_level_Pulse[2][3]; //高电平时钟数 //占空
static uint32_t pwm_duty[2][3];
/**
* @brief 设置TimerM的定时器x的模式为比较输出
*
* @param counter 定时�?
* @param counter 定时
* @param freq 比较输出频率
* @return uint8_t 返回0成功,非0失败
*/
......@@ -48,32 +48,20 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
if (counter == TIMERM_COUNTER0)
{
TIMM_InitStructure[counter].TMM_Select = TMM0;
TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
TIMM_InitStructure[counter].TMM_Intp = TMM_Int_NONE; ///compare match interrupt enable A (IMIEA)
}
else if (counter == TIMERM_COUNTER1)
{
TIMM_InitStructure[counter].TMM_Select = TMM1;
TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_A|TMM_Channel_B;//|TMM_Channel_C|TMM_Channel_D;
TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
TIMM_InitStructure[counter].TMM_Intp = TMM_Int_NONE; ///compare match interrupt enable A (IMIEA)
}
else
{
return 1;
}
// TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
// TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
// TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
// TIMM_InitStructure[counter].TMM_Intp = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
TIMM_InitStructure[counter].TMM_Intp = TMM_Int_NONE; ///compare match interrupt enable A (IMIEA)
if (freq > 2000)
{
......@@ -95,7 +83,7 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
return 1;
}
TIMM_InitStructure[counter].TMM_CHA_Pulse = cycle_pulse[counter] & 0x0FFFF;//这里需要计算,调试�? period; //周期设置为period
TIMM_InitStructure[counter].TMM_CHA_Pulse = cycle_pulse[counter] & 0x0FFFF;//这里需要计算,调试 period; //周期设置为period
......@@ -115,34 +103,23 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
//uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t freq)//, uint32_t PWM_Clock //SystemCoreClock
//{
// SystemCoreClock = 64000000UL;
//
// if (counter == TIMERM_COUNTER0)
// {
// TIMM_InitStructure[counter].TMM_Select = TMM0;
//
// TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
// TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
// TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
// TIMM_InitStructure[counter].TMM_Intp = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
// }
// else if (counter == TIMERM_COUNTER1)
// {
// TIMM_InitStructure[counter].TMM_Select = TMM1;
// TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_B;
// TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
// TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
// TIMM_InitStructure[counter].TMM_Intp = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
// }
// else
// {
// return 1;
// }
//
//// TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
//// TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
//// TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
//// TIMM_InitStructure[counter].TMM_Intp = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
// TIMM_InitStructure[counter].TMM_Channel = TMM_Channel_A|TMM_Channel_B|TMM_Channel_C|TMM_Channel_D;
// TIMM_InitStructure[counter].TMM_Mode = TMM_Mode_PWM;
// TIMM_InitStructure[counter].TMM_CounterClear = TM_Clear_Match_TMGRA; //when TM is matched with TMGRA, TM0 is cleared
// TIMM_InitStructure[counter].TMM_Intp = TMM_Int_IMIA; ///compare match interrupt enable A (IMIEA)
//
// if (freq > 2000)
// {
......@@ -164,7 +141,7 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
// return 1;
// }
//
// TIMM_InitStructure[counter].TMM_CHA_Pulse = cycle_pulse[counter] & 0x0FFFF;//这里需要计算,调试�? period; //周期设置为period
// TIMM_InitStructure[counter].TMM_CHA_Pulse = cycle_pulse[counter] & 0x0FFFF;//这里需要计算,调试 period; //周期设置为period
//
//
//
......@@ -187,9 +164,9 @@ uint8_t TimerM_PWM_counter_Output_Init(TIMERM_PWM_Counter_en_t counter, uint16_t
/**
* @brief 设置timerM定时器x通道x的占空比
*
* @param counter 定时�?
* @param counter 定时
* @param ch 通道
* @param duty 占空�? xxxx/1000 千分�?
* @param duty 占空比 xxxx/1000 千分之
* @param ActiveLevel 0负占空比 1正占空比
* @return uint8_t 返回0成功,非0失败
*/
......@@ -201,7 +178,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
switch (ch)
{
case TIMERM_CHB:
TIMM_InitStructure[counter].TMM_CHB_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF; //TM计数达到TMGRB. 占空�?:duty2/period
TIMM_InitStructure[counter].TMM_CHB_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF; //TM计数达到TMGRB. 占空:duty2/period
TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMInitLevel = TMM_PWMInitLevel_High;
TIMM_InitStructure[counter].TMM_PWM.TMM_CHB.TMM_PWMActiveLevel = ActiveLevel;
if (counter == TIMERM_COUNTER0)
......@@ -217,7 +194,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
break;
case TIMERM_CHC:
TIMM_InitStructure[counter].TMM_CHC_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF; //TM计数达到TMGRC. 占空�?:duty2/period
TIMM_InitStructure[counter].TMM_CHC_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF; //TM计数达到TMGRC. 占空:duty2/period
TIMM_InitStructure[counter].TMM_PWM.TMM_CHC.TMM_PWMInitLevel = TMM_PWMInitLevel_High;
TIMM_InitStructure[counter].TMM_PWM.TMM_CHC.TMM_PWMActiveLevel = ActiveLevel;
if (counter == TIMERM_COUNTER0)
......@@ -232,7 +209,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
break;
case TIMERM_CHD:
TIMM_InitStructure[counter].TMM_CHD_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF; //TM计数达到TMGRD. 占空�?:duty3/period
TIMM_InitStructure[counter].TMM_CHD_Pulse = ((cycle_pulse[counter]) ) & 0x0FFFF; //TM计数达到TMGRD. 占空:duty3/period
TIMM_InitStructure[counter].TMM_PWM.TMM_CHD.TMM_PWMInitLevel = TMM_PWMInitLevel_High;//TMM_PWMInitLevel_High;//
TIMM_InitStructure[counter].TMM_PWM.TMM_CHD.TMM_PWMActiveLevel = ActiveLevel;//TMM_PWMActiveLevel_Low;//TMM_PWMActiveLevel_High;//
if (counter == TIMERM_COUNTER0)
......@@ -250,13 +227,15 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
return 1;
//break;
}
TMM_Init(&TIMM_InitStructure[counter]);
GPIO_InitStruct.GPIO_Mode = GPIO_Mode_OUT;
GPIO_InitStruct.GPIO_Level = GPIO_Level_LOW;
GPIO_InitStruct.GPIO_OType = GPIO_OType_PP;
GPIO_InitStruct.GPIO_PuPd = GPIO_PuPd_NOPULL;
GPIO_Init(GPIO_PORT1,&GPIO_InitStruct);
TMM_Init(&TIMM_InitStructure[counter]);
if (counter == TIMERM_COUNTER0)
{
TMM0_Start(ENABLE);
......@@ -270,7 +249,7 @@ uint8_t TimerM_PWM_CH_Output_init(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Ch
return 1;
}
GPIO_Init(GPIO_PORT1,&GPIO_InitStruct);
high_level_Pulse[counter][ch] = ((cycle_pulse[counter]) ) & 0x0FFFF;
pwm_duty[counter][ch] = 1000;
......@@ -287,7 +266,7 @@ extern void TMM1_Set_Counter(uint8_t ch,uint16_t value);
*
* @param counter 定时器x
* @param ch 通道x
* @param duty 占空�? 千分之一
* @param duty 占空 千分之一
* @return uint8_t 返回0成功,非0失败
*/
uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_en_t ch, uint16_t duty )
......@@ -325,11 +304,11 @@ uint8_t TimerM_PWM_set_duty(TIMERM_PWM_Counter_en_t counter, TIMERM_PWM_Channel_
*
* @param counter 定时器x
* @param freq PWM频率
* @return uint8_t 0成功 �?0失败
* @return uint8_t 0成功 0失败
*
* @note 频率范围有两种,50~2000 2001~最大,如果初始话的频率和目标频率在一个区间可以使用TimerM_PWM_set_freq2函数来优雅的切换频率�?
* @note 频率范围有两种,50~2000 2001~最大,如果初始话的频率和目标频率在一个区间可以使用TimerM_PWM_set_freq2函数来优雅的切换频率
* 如果不在一个频率区间就需要使用TimerM_PWM_set_freq来不优雅的切换频率,
* 如果看不懂注释也使用TimerM_PWM_set_freq来切换频率�?
* 如果看不懂注释也使用TimerM_PWM_set_freq来切换频率
*/
uint8_t TimerM_PWM_set_freq(TIMERM_PWM_Counter_en_t counter, uint16_t freq )
{
......
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