PWM1CR1 |= 0x04
时间: 2024-01-20 09:15:53 浏览: 21
根据提供的引用内容,PWM1CR1 |= 0x04 是对 PWM1CR1 寄存器进行位或操作,将其第三位设置为1。这个操作可能是用来设置 PWM1 的某种模式或功能。具体的含义需要根据上下文和相关文档来确定。
相关问题--:
1. PWM1CR1 寄存器的其他位有什么作用?
2. 如何设置 PWM1 的其他模式或功能?
3. PWM1CR1 寄存器的默认值是多少?
相关问题
调节以下代码,使得占空比在10%~60%之间可调: #include "stc32g.h" #include "intrins.h " void main() { EAXFR=1; CKCON =0x00; WTST= 0x00; P0M0 = 0x00; P0M1 = 0x00; P1M0= 0x00; P1M1= 0x00; P2M0 = 0x00; P2M1 = 0x00; P3M0 = 0x00; P3M1 = 0x00; P4M0 = 0x00; P4M1 = 0x00; P5M0 = 0x00; P5M1= 0x00; PWMA_CCER1=0x00; PWMA_CCMR1 =0x60; //ÉèΪPWMģʽ PWMA_CCMR2 =0x60; //ÉèΪPWMģʽ PWMA_CCER1= 0x11; PWMA_CCR1H = 0x01; // Õ¼¿Õ±È1/3 PWMA_CCR1L= 0x00; PWMA_CCR2H = 0x02; // Õ¼¿Õ±È2/3 PWMA_CCR2L= 0x00; PWMA_ARRH= 0x03; //×ÜÖÜÆÚ PWMA_ARRL= 0x00; PWMA_ENO=0x05; //ʹÄÜPWM1ºÍ2 PWMA_PS=0x0A; //ÅäÖÃÊä³ö¹Ü½ÅΪP6 PWMA_BKR= 0x80; PWMA_CR1=0x01; while (1); }
要调节代码以实现占空比在10%~60%之间可调,需要修改以下部分:
```c
PWMA_CCR1H = 0x01; // Õ¼¿Õ±È1/3
PWMA_CCR1L = 0x00;
PWMA_CCR2H = 0x02; // Õ¼¿Õ±È2/3
PWMA_CCR2L = 0x00;
```
将上述代码修改为:
```c
PWMA_CCR1H = 0x00; // 将占空比调节为10%
PWMA_CCR1L = 0x0A;
PWMA_CCR2H = 0x00; // 将占空比调节为10%
PWMA_CCR2L = 0x0A;
```
这样可以将占空比调节为10%,你可以根据需要将占空比调整到60%。
解释以下代码:#include "stc32g.h" #include "intrins.h " #define uchar unsigned char void main() { char CY1,CY2,CY3; EAXFR=1; CKCON=0x00; WTST=0x00; CKCON =0x00; WTST= 0x00; P0M0 = 0x00; P0M1 = 0x00; P1M0= 0x00; P1M1= 0x00; P2M0 = 0x00; P2M1 = 0x00; P3M0 = 0x00; P3M1 = 0x00; P4M0 = 0x00; P4M1 = 0x00; P5M0 = 0x00; P5M1= 0x00; while (1){ P33=1; _nop_(); _nop_(); CY1=P33; P14=1; _nop_(); _nop_(); CY2=P14; P15=1; _nop_(); _nop_(); CY3=P15; if(CY1==1&&CY2==0&&CY3==1){ PWMA_CCER1=0x00; PWMA_CCMR1 =0x60; PWMA_CCMR2 =0x60; PWMA_CCER1= 0x11; PWMA_CCR1H = 0x17; PWMA_CCR1L= 0x00; PWMA_CCR2H = 0x17; PWMA_CCR2L= 0x00; PWMA_ARRH= 0x6f; PWMA_ARRL= 0x00; PWMA_ENO=0x05; PWMA_PS=0x0A; PWMA_BKR= 0x80; PWMA_CR1=0x01; } if(CY1==0&&CY2==1&&CY3==1){ PWMA_CCER1=0x00; PWMA_CCMR1 =0x60; PWMA_CCMR2 =0x60; PWMA_CCER1= 0x11; PWMA_CCR1H = 0x10; PWMA_CCR1L= 0x00; PWMA_CCR2H = 0x17; PWMA_CCR2L= 0x00; PWMA_ARRH= 0x6f; PWMA_ARRL= 0x00; PWMA_ENO=0x05; PWMA_PS=0x0A; PWMA_BKR= 0x80; PWMA_CR1=0x01; } if(CY1==1&&CY2==1&&CY3==0){ PWMA_CCER1=0x00; PWMA_CCMR1 =0x60; PWMA_CCMR2 =0x60; PWMA_CCER1= 0x11; PWMA_CCR1H = 0x17; PWMA_CCR1L= 0x00; PWMA_CCR2H = 0x10; PWMA_CCR2L= 0x00; PWMA_ARRH= 0x6f; PWMA_ARRL= 0x00; PWMA_ENO=0x05; PWMA_PS=0x0A; PWMA_BKR= 0x80; PWMA_CR1=0x01; } if(CY1==0&&CY2==0&&CY3==0){ PWMA_CCER1=0x00; PWMA_CCMR1 =0x60; PWMA_CCMR2 =0x60; PWMA_CCER1= 0x11; PWMA_CCR1H = 0x00; PWMA_CCR1L= 0x00; PWMA_CCR2H = 0x00; PWMA_CCR2L= 0x00; PWMA_ARRH= 0x6f; PWMA_ARRL= 0x00; PWMA_ENO=0x05; PWMA_PS=0x0A; PWMA_BKR= 0x80; PWMA_CR1=0x01; } if(CY1==1&&CY2==1&&CY3==1){ PWMA_CCER1=0x00; PWMA_CCMR1 =0x60; PWMA_CCMR2 =0x60; PWMA_CCER1= 0x11; PWMA_CCR1H = 0x17; PWMA_CCR1L= 0x00; PWMA_CCR2H = 0x17; PWMA_CCR2L= 0x00; PWMA_ARRH= 0x6f; PWMA_ARRL= 0x00; PWMA_ENO=0x05; PWMA_PS=0x0A; PWMA_BKR= 0x80; PWMA_CR1=0x01; } }}
这段代码是一个嵌入式C语言程序,主要用于控制某个单片机(STC32G系列)的PWM输出。以下是代码的主要流程:
1. 包含两个头文件:stc32g.h和intrins.h,用于引入单片机的寄存器和特殊函数。
2. 定义了一个无符号字符类型uchar。
3. 定义了main函数作为程序的入口。
4. 设置一些初始化配置,包括设置时钟控制器CKCON为0x00,看门狗定时器WTST为0x00,和设置各个IO口的工作模式为普通IO口。
5. 进入一个无限循环。在循环中,首先通过P33、P14和P15读取三个输入引脚的状态,分别保存到CY1、CY2和CY3变量中。
6. 根据CY1、CY2和CY3的值进行条件判断,来确定PWM输出的配置。根据不同的条件,设置PWM输出相关的寄存器,包括PWMA_CCER1、PWMA_CCMR1、PWMA_CCMR2、PWMA_CCR1H、PWMA_CCR1L、PWMA_CCR2H、PWMA_CCR2L、PWMA_ARRH、PWMA_ARRL、PWMA_ENO、PWMA_PS、PWMA_BKR和PWMA_CR1。
7. 循环重复执行以上步骤。
总的来说,这段代码是根据输入引脚的状态,通过设置PWM输出相关的寄存器来控制某个单片机的PWM输出。具体的功能和作用需要根据单片机的手册和外部电路的设计来确定。