BLDC开环调速源程序 - - Powered by Discuz!

/*
PG6键按下时，PA4 PA5指示灯亮，
PG7按下时PA4 PA5 指示灯灭。
无启停，上电开环调速，最大可设为100%，但要有一定的最少值
电机转动需要一点初始力
有感120度HALL。
开关控制采用上高下低有效电平设置
上桥臂采用PWM功能。
Designed by Cache.Lee
2013.4.2
*/
#include "stm8s.h"
#include "OLED12864.h"
#include "hall.h"
#define STM8_FREQ_MHZ 16
#define PWM_FREQUENCY 16000
static const u16 hArrPwmVal = ((u16)((STM8_FREQ_MHZ * (u32)1000000)/PWM_FREQUENCY));
//hArrPwmVal=1000
#define MINPWMPERCENT 10
#define MAXPWMPERCENT 100
#define MINVALUE MINPWMPERCENT*10
//hArrPwmVal=1000
//MINPWMPERCENT*hArrPwmVal/100简化为MINPWMPERCENT*10
#define MAXVALUE MAXPWMPERCENT*10
//MAXPWMPERCENT*hArrPwmVal/100简化MAXPWMPERCENT*0
void GPIO_int(void)//初始化按键，指示灯
{
GPIOG->DDR=GPIOG->DDR&0x3f;//PG6,PG7按键配置为输入模式
GPIOG->CR1=GPIOG->CR1|0xC0;//PG6,PG7按键配置为上拉输入
GPIOA->DDR=GPIOA->DDR|0x30;//PA4,PA5指示灯配置为输出模式
GPIOA->CR1=GPIOA->CR1|0x30;//PA4,PA5指示灯d配置为推挽模式
GPIOA->ODR=0x00;//点亮指示灯
}
void Clock_init(void)//时钟配置内部16M
{
CLK->CKDIVR=0;
}
void AD_int(void)//电位器 PF5 初始化 AIN13
{
u8 value;
u16 ADC_TDR_tmp;
ADC2->CSR = 13; //AIN13通道选择
//select 4MHz clock based on 16MHz fMaster (div4), single mode
ADC2->CR1 = 0x20;
ADC2->CR2 = 0x08;//数据右对齐
ADC2->TDRH=0x20;//AIN13 禁止施密特触发
ADC2->CR1 |= 0X01;//使能ADC
value=30;
while(value--); //等待ADC稳定
ADC2->CSR &= 0x7f;//清EOC标志
ADC2->CR1 |= 0x01;//启动AD
}
void PWM_IO_init(void)
{ //PB012 下桥臂0有效
GPIOB->DDR=GPIOB->DDR|0x7;//PB012配置为输出模式
GPIOB->CR1=GPIOB->CR1|0x7;//PB012推挽模式
GPIOB->ODR&=0xf8;//关闭下桥臂开关管
//PC123 上桥臂1有效
GPIOC->DDR=GPIOC->DDR|0x0E;//PC123配置为输出模式
GPIOC->CR1=GPIOC->CR1|0x0E;//PC123推挽模式
GPIOC->ODR&=~(0x0E);//关闭下桥臂开关管
}
void Tim1_init(void)
{
//计数器禁止、ARR预装载禁止、边沿对齐模式
TIM1->CR1 = 0x04;
TIM1->SMCR = 0;//禁止从模式
TIM1->IER = 0;//禁止所有中断
TIM1->CCER1 = 0; //禁止PWM输出
TIM1->CCER2 = 0;
TIM1->CCMR1 = 0x60; //PWM1模式，禁止预装载
TIM1->CCMR2 = 0x60;
TIM1->CCMR3 = 0x60;
//prescale = div1 @ 16MHz -> 62.5ns/count, Full scale = 4.09ms
TIM1->PSCRH = 0;
TIM1->PSCRL = 0;
TIM1->ARRH=hArrPwmVal/256; //PWM周期设定
TIM1->ARRL=hArrPwmVal%256;
//disable repetition counter
TIM1->RCR = 0;
TIM1->CCR1H=0;TIM1->CCR1L=0;//占空比输出均为0
TIM1->CCR2H=0;TIM1->CCR1L=0;
TIM1->CCR3H=0;TIM1->CCR1L=0;
//使能定时计数器
TIM1->CR1 |= 0x01;
}
main()
{
unsigned int tem_c=0;
unsigned char B_k1=0,B_k2=0;
unsigned int ADConverValue=0;
for(tem_c=0;tem_c<50000;tem_c++);
Clock_init();
GPIO_int();
LCD_Init();
LCD_Fill(0);
LCD_P8x16Str(12,0,"BLDC OPEN LOOP");
LCD_P8x16Str(10,3,"PWM:");
AD_int();
OutPwmValue=MINVALUE;
PWM_IO_init();
Tim1_init();
Init_TIM2();
TIM2_InitCapturePolarity();
enableInterrupts();
while (1)
{
if((GPIOG->IDR&0x80)==0x80)B_k1=0; //PG7为高电平，未有按键
else if(B_k1==0)//PG7按下时，指示灯亮
{
for(tem_c=0;tem_c<500;tem_c++);
if((GPIOG->IDR&0x80)==0x00)
{
B_k1=1;
GPIOA->ODR=0x30;
}
}
if((GPIOG->IDR&0x40)==0x40)B_k2=0; //PG6为高电平，未有按键
else if(B_k2==0)//PG7按下时，指示灯灭
{
for(tem_c=0;tem_c<500;tem_c++);
if((GPIOG->IDR&0x40)==0x00)
{
B_k2=1;
GPIOA->ODR=0x0;
}
}
if(ADC2->CSR&0x80)
{
ADC2->CSR &= (u8)(~0x80);//清除EOC标志
ADConverValue=ADC2->DRH*256+ADC2->DRL;
ADC2->CR1 |= 0x01;//启动AD
if(ADConverValue<MINVALUE)ADConverValue=MINVALUE;
else if(ADConverValue>MAXVALUE)ADConverValue=MAXVALUE;
OutPwmValue=ADConverValue;
Display_data(12,6,OutPwmValue/10,0);
//显示输出的100%，
//因为周期为：hArrPwmVal=1000，
//所以：占空比计算为outPwmValue/1000*100
//简化为OutPwmValue/10
}
if(FaultF==1)
{
ComHandler();FaultF=2;
}
}
}
@near @interrupt void TIM1_UPD_OVF_TRG_BRK_IRQHandler (void)
{
/* In order to detect unexpected events during development,
it is recommended to set a breakpoint on the following instruction.
*/
FaultF=1;
return;
}

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