repo_id
stringclasses 1
value | file_path
stringlengths 55
93
| content
stringlengths 18
151
| __index_level_0__
int64 0
0
|
---|---|---|---|
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | PORTB = (unsigned char)~(C_PB_Data); // PORTB数据缓冲区=0x00(PB7~PB0输出低电平) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | PORTA = (unsigned char)~(C_PA_Data); // PORTA数据缓冲区=0x00(PA7~PA0输出低电平) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMCR = C_IIC_En; // 启用IIC接口 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | MSR = (unsigned char)~(C_MIF); // 清除MIF标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | MCR = C_IIC_TX; // 选择TX模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | MFDR = C_FD_Div22; // IIC模式频率 = CPU时钟/22 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMCR = C_IIC_En; // 启用IIC接口 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMCR = (C_IIC_En | C_Master_En); // 启用IIC接口并设置主模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMDR = 0xA0; // 将数据0xA0加载到串行接口模式数据寄存器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | F_Wait_Loop(); // 等待传输数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMCR = C_IIC_En; // 启用IIC接口 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMCR = (C_IIC_En | C_Master_En); // 启用IIC接口并设置主模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMDR = 0xA1; // 将数据0xA1加载到串行接口模式数据寄存器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | F_Wait_Loop(); // 等待传输数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | MCR = C_IIC_RX; // 选择RX模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | F_Wait_Loop(); // 等待传输数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | R_Temp0 = SIMDR; // TX -> RX,必须读取无效数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | SIMCR = C_IIC_En; // 主模式切换到从模式以生成停止信号 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | MSR = (unsigned char)~(C_MIF); // 清除MIF标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Master.c | CLRWDT(); // 清除看门狗定时器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | unsigned char R_IIC_Data; // 用于存储IIC数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | unsigned char R_ACK; // 用于存储ACK/NACK标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | unsigned char R_Temp0; // 临时变量 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | CLRWDT(); // 清除看门狗定时器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | while (!(MSR & 0x80)); // 轮询MCF标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | F_Wait_Loop(); // 等待主设备发送地址 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | if (MSR & 0X40) // 检查主设备是否调用地址 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | PORTBbits.PB0 = 1; // 如果地址当前匹配,PB0=1 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | PORTBbits.PB0 = 0; // 清除PB0 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | if (!(MSR & 0x04)) // 检查主设备命令 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | PORTA = SIMDR; // 将接收到的数据发送到PORTA | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MSR = (unsigned char)~(C_MIF); // 清除MIF标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | else if (MSR & 0x04) // 检查主设备命令 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | if (R_ACK == 0x00) // 确认是否进入TX状态,R_Temp2=1用于检查前一个数据的ACK/NAK,第一个数据跳过检查 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MCR = C_IIC_TX; // 选择TX模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | SIMDR = R_IIC_Data; // 发送数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_IIC_Data++; // 数据递增 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_ACK = 0x01; // 设置ACK标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | if (MSR & 0x01) // 检查TXAK,如果是ACK则传输下一个数据,NAK将停止传输 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MCR = 0x00; // 停止传输,必须设置RX模式并读取无效数据以释放SCL信号 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_Temp0 = SIMDR; // 读取无效数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_IIC_Data = 0x00; // 重置数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_ACK = 0x00; // 重置ACK标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MSR = (unsigned char)~(C_MIF); // 清除MIF标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MCR = C_IIC_TX; // 选择TX模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | SIMDR = R_IIC_Data; // 发送数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_IIC_Data++; // 数据递增 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_ACK = 0x01; // 设置ACK标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | IOSTC = C_PC_Output; // 设置所有PORTC为输出模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | IOSTB = C_PB_Output; // 设置所有PORTB为输出模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | IOSTA = C_PA_Output; // 设置所有PORTA为输出模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | PORTC = (unsigned char)~(C_PC_Data); // PORTC数据缓冲区=0x00(PC1~PC0输出低电平) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | PORTB = (unsigned char)~(C_PB_Data); // PORTB数据缓冲区=0x00(PB7~PB0输出低电平) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | PORTA = (unsigned char)~(C_PA_Data); // PORTA数据缓冲区=0x00(PA7~PA0输出低电平) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | SIMCR = C_IIC_En; // 启用IIC接口 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MSR = (unsigned char)~(C_MIF); // 清除MIF标志 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MCR = C_IIC_RX | C_ACK; // 选择RX模式并发送ACK | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MFDR = C_FD_Div22; // IIC模式频率 = CPU时钟/22 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | MADR = 0x2A; // 设置从地址b'0010101x,x=0写,x=1读 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | SIMDR = 0x00; // 初始化串行接口模式数据寄存器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | R_IIC_Data = 0x00; // 初始化IIC数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | CLRWDT(); // 清除看门狗定时器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\IIC_Slave.c | F_Check_Master_CMD(); // 检查主设备命令 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | #include <ny8.h> // 包含NY8A051F微控制器的头文件 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | #include "NY8_constant.h" // 包含NY8A051F的宏定义 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | PORTB = 0x00; // 设置所有PB端口输出低电平 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | IOSTB = C_PB_Output; // 配置PB端口为输出模式 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | DISI(); // 禁用所有未屏蔽的中断 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | INTE = 0x00; // 禁用中断使能寄存器 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | CMPCR = 0x0A; // 设置时钟倍频器和分频器(使用I_HRC的4MHz/4T) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | PCONbits.LVDEN = 1; // 启用LVD | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | PCON1 = C_LVD_3P0V; // 设置LVD阈值为3.0V(LVDS[3:0] = 0101b) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | while(1) // 无限循环,持续检查LVD状态 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | if(PCON1 & 0x40) // 检查LVDOUT是否被设置(VDD低于LVD阈值) | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | PORTBbits.PB0 = 1; // 设置PB0为高电平,表示LVD事件 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | PORTBbits.PB0 = 0; // 如果VDD高于LVD阈值,设置PB0为低电平 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\LVD.c | CLRWDT(); // 清除看门狗定时器,防止WDT超时复位 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | #include <ny8.h> // 包含NY8A051F微控制器的头文件 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | #include "ny8_constant.h" // 包含NY8A051F的宏定义 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | unsigned int R_OSCCAL_TEMP; // 用于临时存储OSCCAL值 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | unsigned char R_OSCCALH_SAVE; // 用于保存OSCCALH的默认值 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | unsigned char R_OSCCALL_SAVE; // 用于保存OSCCALL的默认值 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | unsigned char R_Direction; // 用于指示增加或减少的方向 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | #define a 0 // 定义宏a | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | #define r 1 // 定义宏r | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | #define PWM_DUTY_0x02 0x02 // 定义PWM占空比为50%的值 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | void F_LoadtoOSCCAL(void); // 加载到OSCCAL的子程序声明 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | void F_RestoretoOSCCAL(void); // 恢复到OSCCAL的子程序声明 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | void delay(int); // 延时子程序声明 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | void isr(void) __interrupt(0) // 中断服务例程 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | BPHCON = ~C_PB_PHB; // 使能PB0~5的上拉电阻 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | APHCON = C_PA5_PLB; // 使能PA0~4,PA6~7的上拉电阻 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | PORTC = 0; // 清除PORTC数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | PORTB = 0; // 清除PORTB数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | PORTA = 0; // 清除PORTA数据 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | IOSTC = C_PC_Output; // 设置PORTC为输出 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | IOSTB = C_PB_Input; // 设置PORTB为输入 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | R_OSCCALH_SAVE = OSCCALH & 0x07; // 保存OSCCALH的默认值 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | R_OSCCALL_SAVE = OSCCALL; // 保存OSCCALL的默认值 | 0 |
C://Users//IDEA//Desktop//workplace//LiuCode | C://Users//IDEA//Desktop//workplace//LiuCode//Liu\OSCALL.c | R_OSCCAL_TEMP = R_OSCCALL_SAVE | (R_OSCCALH_SAVE << 8); // 保存[OSCCALH:OSCCALL]到R_OSCCALH_TEMP | 0 |