[问答]

如何通过Stm32f103并基于SPI完成的的OLED显示？

问答对人有帮助，内容完整，我也想知道答案 0 如何通过STM32f103并基于SPI完成的的OLED显示？ 0
2021-12-14 07:50:14　　评论淘帖0 邀请回答您可以邀请以下用户，快速回答问题 × heks 该类别下有 50 个回答。邀请回答 hgimtk 该类别下有 44 个回答。邀请回答新星之火12138 该类别下有 42 个回答。邀请回答 wang21cj 该类别下有 41 个回答。邀请回答 chm5 该类别下有 40 个回答。邀请回答 hjfjsdgfjdsf 该类别下有 37 个回答。邀请回答 fdjslkjd 该类别下有 35 个回答。邀请回答 uvysdfydad 该类别下有 35 个回答。邀请回答 werywer 该类别下有 35 个回答。邀请回答 h1654155957.9520 该类别下有 35 个回答。邀请回答 jenny042 该类别下有 34 个回答。邀请回答 dfzvzs 该类别下有 34 个回答。邀请回答维生素B2 该类别下有 34 个回答。邀请回答凤毛麟角该类别下有 34 个回答。邀请回答 hfgdzc 该类别下有 33 个回答。邀请回答 ggfvxv 该类别下有 33 个回答。邀请回答刘洋该类别下有 33 个回答。邀请回答 meihuacg 该类别下有 33 个回答。邀请回答 lining870815844 该类别下有 32 个回答。邀请回答 h1654155275.6678 该类别下有 32 个回答。邀请回答举报 jsqueh 相关推荐 • 怎样使用STM32F103的SPI或IIC接口实现显示功能呢 1124 • 如何通过SPI将STM32F103连接到ESP-12F？ 331 • 如何使用STM32F103的IIC信号线进行OLED显示 2898 • 如何用STM32F103使用OLED屏实现贪吃蛇游戏? 1672 • 如何使用STM32F103硬件SPI驱动AD5313？ 2366 • STM32F103的SPI普通操作方式是什么 790 • stm32f103如何使用dma和fpga进行spi通信？ 1012 • 怎样通过SPI总线去实现OLED屏幕显示呢 2074 • STM32F103和STM32F030的SPI其MISO配置有何不同 2610 • STM32F103内部2个SPI已用完，求模拟SPI用法。 3253 1个回答

答案对人有帮助，有参考价值 0 一、学号、姓名显示 1、按图示路径打开工程文件 2、按照图示连接芯片到板子上 3、在mian.c文件中把while函数中其他的注释掉然后加上下面两句 GUI_ShowCHinese(16,20,16,"Ð¡ãü",1); GUI_ShowString(28,0,"631807030104",16,1); 4、去字模转换软件将需要显示的字模转化出来并粘贴到oledfont.h文件里 5、效果图二、显示AHT20的温度以及湿度 1、使用刚才的工程，打开USER目录，并添加如下几个代码： bsp_i2c.c: #include "bsp_i2c.h" #include "delay.h" uint8_t ack_status=0; uint8_t readByte[6]; uint8_t AHT20_status=0; uint32_t H1=0; //Humility uint32_t T1=0; //Temperature uint8_t AHT20_OutData[4]; uint8_t AHT20sendOutData[10] = {0xFA, 0x06, 0x0A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF}; void IIC_Init(void) { GPIO_InitTypeDef GPIO_InitStructure; RCC_APB2PeriphClockCmd( RCC_APB2Periph_GPIOB, ENABLE ); GPIO_InitStructure.GPIO_Pin = GPIO_Pin_6\|GPIO_Pin_7; GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP ; //ÍÆÍìÊä³ö GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; GPIO_Init(GPIOB, &GPIO_InitStructure); IIC_SCL=1; IIC_SDA=1; } //²úÉúIICÆðÊ¼ÐÅºÅ void IIC_Start(void) { SDA_OUT(); //sdaÏßÊä³ö IIC_SDA=1; IIC_SCL=1; delay_us(4); IIC_SDA=0;//START:when CLK is high,DATA change form high to low delay_us(4); IIC_SCL=0;//Ç¯×¡I2C×ÜÏß£¬×¼±¸·¢ËÍ»ò½ÓÊÕÊý¾Ý } //²úÉúIICÍ£Ö¹ÐÅºÅ void IIC_Stop(void) { SDA_OUT();//sdaÏßÊä³ö IIC_SCL=0; IIC_SDA=0;//STOP:when CLK is high DATA change form low to high delay_us(4); IIC_SCL=1; IIC_SDA=1;//·¢ËÍI2C×ÜÏß½áÊøÐÅºÅ delay_us(4); } //µÈ´ýÓ¦´ðÐÅºÅµ½À´ //·µ»ØÖµ£º1£¬½ÓÊÕÓ¦´ðÊ§°Ü // 0£¬½ÓÊÕÓ¦´ð³É¹¦ u8 IIC_Wait_Ack(void) { u8 ucErrTime=0; SDA_IN(); //SDAÉèÖÃÎªÊäÈë IIC_SDA=1;delay_us(1); IIC_SCL=1;delay_us(1); while(READ_SDA) { ucErrTime++; if(ucErrTime>250) { IIC_Stop(); return 1; } } IIC_SCL=0;//Ê±ÖÓÊä³ö0 return 0; } //²úÉúACKÓ¦´ð void IIC_Ack(void) { IIC_SCL=0; SDA_OUT(); IIC_SDA=0; delay_us(2); IIC_SCL=1; delay_us(2); IIC_SCL=0; } //²»²úÉúACKÓ¦´ð void IIC_NAck(void) { IIC_SCL=0; SDA_OUT(); IIC_SDA=1; delay_us(2); IIC_SCL=1; delay_us(2); IIC_SCL=0; } //IIC·¢ËÍÒ»¸ö×Ö½Ú //·µ»Ø´Ó»úÓÐÎÞÓ¦´ð //1£¬ÓÐÓ¦´ð //0£¬ÎÞÓ¦´ð void IIC_Send_Byte(u8 txd) { u8 t; SDA_OUT(); IIC_SCL=0;//ÀµÍÊ±ÖÓ¿ªÊ¼Êý¾Ý´«Êä for(t=0;t<8;t++) { IIC_SDA=(txd&0x80)>>7; txd<<=1; delay_us(2); //¶ÔTEA5767ÕâÈý¸öÑÓÊ±¶¼ÊÇ±ØÐëµÄ IIC_SCL=1; delay_us(2); IIC_SCL=0; delay_us(2); } } //¶Á1¸ö×Ö½Ú£¬ack=1Ê±£¬·¢ËÍACK£¬ack=0£¬·¢ËÍnACK u8 IIC_Read_Byte(unsigned char ack) { unsigned char i,receive=0; SDA_IN();//SDAÉèÖÃÎªÊäÈë for(i=0;i<8;i++ ) { IIC_SCL=0; delay_us(2); IIC_SCL=1; receive<<=1; if(READ_SDA)receive++; delay_us(1); } if (!ack) IIC_NAck();//·¢ËÍnACK else IIC_Ack(); //·¢ËÍACK return receive; } void IIC_WriteByte(uint16_t addr,uint8_t data,uint8_t device_addr) { IIC_Start(); if(device_addr==0xA0) //eepromµØÖ·´óÓÚ1×Ö½Ú IIC_Send_Byte(0xA0 + ((addr/256)<<1));//·¢ËÍ¸ßµØÖ· else IIC_Send_Byte(device_addr); //·¢Æ÷¼þµØÖ· IIC_Wait_Ack(); IIC_Send_Byte(addr&0xFF); //·¢ËÍµÍµØÖ· IIC_Wait_Ack(); IIC_Send_Byte(data); //·¢ËÍ×Ö½Ú IIC_Wait_Ack(); IIC_Stop();//²úÉúÒ»¸öÍ£Ö¹Ìõ¼þ if(device_addr==0xA0) // delay_ms(10); else delay_us(2); } uint16_t IIC_ReadByte(uint16_t addr,uint8_t device_addr,uint8_t ByteNumToRead) //¶Á¼Ä´æÆ÷»ò¶ÁÊý¾Ý { uint16_t data; IIC_Start(); if(device_addr==0xA0) IIC_Send_Byte(0xA0 + ((addr/256)<<1)); else IIC_Send_Byte(device_addr); IIC_Wait_Ack(); IIC_Send_Byte(addr&0xFF); //·¢ËÍµÍµØÖ· IIC_Wait_Ack(); IIC_Start(); IIC_Send_Byte(device_addr+1); //·¢Æ÷¼þµØÖ· IIC_Wait_Ack(); if(ByteNumToRead == 1)//LM75ÎÂ¶ÈÊý¾ÝÎª11bit { data=IIC_Read_Byte(0); } else { data=IIC_Read_Byte(1); data=(data<<8)+IIC_Read_Byte(0); } IIC_Stop();//²úÉúÒ»¸öÍ£Ö¹Ìõ¼þ return data; } /********** ÉÏÃæ²¿·ÖÎªIO¿ÚÄ£¿éI2CÅäÖÃ ´ÓÕâÒÔÏÂ¿ªÊ¼ÎªAHT20µÄÅäÖÃI2C º¯ÊýÃûÓÐIICºÍI2CµÄÇø±ð£¬Çë×¢Òâ£¡£¡£¡£¡£¡ * 2020/2/23×îºóÐÞ¸ÄÈÕÆÚ **********/ void read_AHT20_once(int T,int H) { delay_ms(10); reset_AHT20(); delay_ms(10); init_AHT20(); delay_ms(10); startMeasure_AHT20(); delay_ms(80); read_AHT20(T,H); delay_ms(5); } void reset_AHT20(void) { I2C_Start(); I2C_WriteByte(0x70); ack_status = Receive_ACK(); if(ack_status) printf("1"); else printf("1-n-"); I2C_WriteByte(0xBA); ack_status = Receive_ACK(); if(ack_status) printf("2"); else printf("2-n-"); I2C_Stop(); / AHT20_OutData[0] = 0; AHT20_OutData[1] = 0; AHT20_OutData[2] = 0; AHT20_OutData[3] = 0; / } void init_AHT20(void) { I2C_Start(); I2C_WriteByte(0x70); ack_status = Receive_ACK(); if(ack_status) printf("3"); else printf("3-n-"); I2C_WriteByte(0xE1); ack_status = Receive_ACK(); if(ack_status) printf("4"); else printf("4-n-"); I2C_WriteByte(0x08); ack_status = Receive_ACK(); if(ack_status) printf("5"); else printf("5-n-"); I2C_WriteByte(0x00); ack_status = Receive_ACK(); if(ack_status) printf("6"); else printf("6-n-"); I2C_Stop(); } void startMeasure_AHT20(void) { //------------ I2C_Start(); I2C_WriteByte(0x70); ack_status = Receive_ACK(); if(ack_status) printf("7"); else printf("7-n-"); I2C_WriteByte(0xAC); ack_status = Receive_ACK(); if(ack_status) printf("8"); else printf("8-n-"); I2C_WriteByte(0x33); ack_status = Receive_ACK(); if(ack_status) printf("9"); else printf("9-n-"); I2C_WriteByte(0x00); ack_status = Receive_ACK(); if(ack_status) printf("10"); else printf("10-n-"); I2C_Stop(); } void read_AHT20(int T,int H) { uint8_t i; for(i=0; i<6; i++) { readByte=0; } //------------- I2C_Start(); I2C_WriteByte(0x71); ack_status = Receive_ACK(); readByte[0]= I2C_ReadByte(); Send_ACK(); readByte[1]= I2C_ReadByte(); Send_ACK(); readByte[2]= I2C_ReadByte(); Send_ACK(); readByte[3]= I2C_ReadByte(); Send_ACK(); readByte[4]= I2C_ReadByte(); Send_ACK(); readByte[5]= I2C_ReadByte(); SendNot_Ack(); //Send_ACK(); I2C_Stop(); //-------------- if( (readByte[0] & 0x68) == 0x08 ) { H1 = readByte[1]; H1 = (H1<<8) \| readByte[2]; H1 = (H1<<8) \| readByte[3]; H1 = H1>>4; H1 = (H11000)/1024/1024; T1 = readByte[3]; T1 = T1 & 0x0000000F; T1 = (T1<<8) \| readByte[4]; T1 = (T1<<8) \| readByte[5]; T1 = (T12000)/1024/1024 - 500; AHT20_OutData[0] = (H1>>8) & 0x000000FF; AHT20_OutData[1] = H1 & 0x000000FF; AHT20_OutData[2] = (T1>>8) & 0x000000FF; AHT20_OutData[3] = T1 & 0x000000FF; } else { AHT20_OutData[0] = 0xFF; AHT20_OutData[1] = 0xFF; AHT20_OutData[2] = 0xFF; AHT20_OutData[3] = 0xFF; printf("Ê§°ÜÁË"); } printf("rn"); printf("ÎÂ¶È:%d%d.%d",T1/100,(T1/10)%10,T1%10); printf("Êª¶È:%d%d.%d",H1/100,(H1/10)%10,H1%10); printf("rn"); T=T1; H=H1; } uint8_t Receive_ACK(void) { uint8_t result=0; uint8_t cnt=0; IIC_SCL = 0; SDA_IN(); delay_us(4); IIC_SCL = 1; delay_us(4); while(READ_SDA && (cnt<100)) { cnt++; } IIC_SCL = 0; delay_us(4); if(cnt<100) { result=1; } return result; } void Send_ACK(void) { SDA_OUT(); IIC_SCL = 0; delay_us(4); IIC_SDA = 0; delay_us(4); IIC_SCL = 1; delay_us(4); IIC_SCL = 0; delay_us(4); SDA_IN(); } void SendNot_Ack(void) { SDA_OUT(); IIC_SCL = 0; delay_us(4); IIC_SDA = 1; delay_us(4); IIC_SCL = 1; delay_us(4); IIC_SCL = 0; delay_us(4); IIC_SDA = 0; delay_us(4); } void I2C_WriteByte(uint8_t input) { uint8_t i; SDA_OUT(); for(i=0; i<8; i++) { IIC_SCL = 0; delay_ms(5); if(input & 0x80) { IIC_SDA = 1; //delaymm(10); } else { IIC_SDA = 0; //delaymm(10); } IIC_SCL = 1; delay_ms(5); input = (input<<1); } IIC_SCL = 0; delay_us(4); SDA_IN(); delay_us(4); } uint8_t I2C_ReadByte(void) { uint8_t resultByte=0; uint8_t i=0, a=0; IIC_SCL = 0; SDA_IN(); delay_ms(4); for(i=0; i<8; i++) { IIC_SCL = 1; delay_ms(3); a=0; if(READ_SDA) { a=1; } else { a=0; } //resultByte = resultByte \| a; resultByte = (resultByte << 1) \| a; IIC_SCL = 0; delay_ms(3); } SDA_IN(); delay_ms(10); return resultByte; } void set_AHT20sendOutData(void) { / -------------------------- * 0xFA 0x06 0x0A temperature(2 Bytes) humility(2Bytes) short Address(2 Bytes) * And Check (1 byte) * -------------------------/ AHT20sendOutData[3] = AHT20_OutData[0]; AHT20sendOutData[4] = AHT20_OutData[1]; AHT20sendOutData[5] = AHT20_OutData[2]; AHT20sendOutData[6] = AHT20_OutData[3]; // AHT20sendOutData[7] = (drf1609.shortAddress >> 8) & 0x00FF; // AHT20sendOutData[8] = drf1609.shortAddress & 0x00FF; // AHT20sendOutData[9] = getXY(AHT20sendOutData,10); } void I2C_Start(void) { SDA_OUT(); IIC_SCL = 1; delay_ms(4); IIC_SDA = 1; delay_ms(4); IIC_SDA = 0; delay_ms(4); IIC_SCL = 0; delay_ms(4); } void I2C_Stop(void) { SDA_OUT(); IIC_SDA = 0; delay_ms(4); IIC_SCL = 1; delay_ms(4); IIC_SDA = 1; delay_ms(4); } bsp_i2c.h: #ifndef __BSP_I2C_H #define __BSP_I2C_H #include "sys.h" #include "delay.h" #include "usart.h" //Ê¹ÓÃIIC1 ¹ÒÔØM24C02,OLED,LM75AD,HT1382 PB6,PB7 #define SDA_IN() {GPIOB->CRL&=0X0FFFFFFF;GPIOB->CRL\|=(u32)8<<28;} #define SDA_OUT() {GPIOB->CRL&=0X0FFFFFFF;GPIOB->CRL\|=(u32)3<<28;} //IO²Ù×÷º¯Êý #define IIC_SCL PBout(6) //SCL #define IIC_SDA PBout(7) //SDA #define READ_SDA PBin(7) //ÊäÈëSDA //IICËùÓÐ²Ù×÷º¯Êý void IIC_Init(void); //³õÊ¼»¯IICµÄIO¿Ú void IIC_Start(void); //·¢ËÍIIC¿ªÊ¼ÐÅºÅ void IIC_Stop(void); //·¢ËÍIICÍ£Ö¹ÐÅºÅ void IIC_Send_Byte(u8 txd); //IIC·¢ËÍÒ»¸ö×Ö½Ú u8 IIC_Read_Byte(unsigned char ack);//IIC¶ÁÈ¡Ò»¸ö×Ö½Ú u8 IIC_Wait_Ack(void); //IICµÈ´ýACKÐÅºÅ void IIC_Ack(void); //IIC·¢ËÍACKÐÅºÅ void IIC_NAck(void); //IIC²»·¢ËÍACKÐÅºÅ void IIC_WriteByte(uint16_t addr,uint8_t data,uint8_t device_addr); uint16_t IIC_ReadByte(uint16_t addr,uint8_t device_addr,uint8_t ByteNumToRead);//¼Ä´æÆ÷µØÖ·£¬Æ÷¼þµØÖ·£¬Òª¶ÁµÄ×Ö½ÚÊý void read_AHT20_once(int T,int H); void reset_AHT20(void); void init_AHT20(void); void startMeasure_AHT20(void); void read_AHT20(int T,int H); uint8_t Receive_ACK(void); void Send_ACK(void); void SendNot_Ack(void); void I2C_WriteByte(uint8_t input); uint8_t I2C_ReadByte(void); void set_AHT20sendOutData(void); void I2C_Start(void); void I2C_Stop(void); #endif usart.c: #include "sys.h" #include "usart.h" //STM32F103ºËÐÄ°åÀý³Ì //¿âº¯Êý°æ±¾Àý³Ì /******* mcudev.taobao.com ³öÆ· *****/ // //Èç¹ûÊ¹ÓÃucos,Ôò°üÀ¨ÏÂÃæµÄÍ·ÎÄ¼þ¼´¿É. #if SYSTEM_SUPPORT_UCOS #include "includes.h" //ucos Ê¹ÓÃ #endif // //STM32¿ª·¢°å //´®¿Ú1³õÊ¼»¯ // // //¼ÓÈëÒÔÏÂ´úÂë,Ö§³Öprintfº¯Êý,¶ø²»ÐèÒªÑ¡Ôñuse MicroLIB #if 1 #pragma import(__use_no_semihosting) //±ê×¼¿âÐèÒªµÄÖ§³Öº¯Êý struct __FILE { int handle; }; FILE __stdout; //¶¨Òå_sys_exit()ÒÔ±ÜÃâÊ¹ÓÃ°ëÖ÷»úÄ£Ê½ void _sys_exit(int x) { x = x; } //ÖØ¶¨Òåfputcº¯Êý int fputc(int ch, FILE f) { while((USART1->SR&0X40)==0);//Ñ»··¢ËÍ,Ö±µ½·¢ËÍÍê±Ï USART1->DR = (u8) ch; return ch; } #endif /Ê¹ÓÃmicroLibµÄ·½·¨/ /* int fputc(int ch, FILE f) { USART_SendData(USART1, (uint8_t) ch); while (USART_GetFlagStatus(USART1, USART_FLAG_TC) == RESET) {} return ch; } int GetKey (void) { while (!(USART1->SR & USART_FLAG_RXNE)); return ((int)(USART1->DR & 0x1FF)); } / #if EN_USART1_RX //Èç¹ûÊ¹ÄÜÁË½ÓÊÕ //´®¿Ú1ÖÐ¶Ï·þÎñ³ÌÐò //×¢Òâ,¶ÁÈ¡USARTx->SRÄÜ±ÜÃâÄªÃûÆäÃîµÄ´íÎó u8 USART_RX_BUF[USART_REC_LEN]; //½ÓÊÕ»º³å,×î´óUSART_REC_LEN¸ö×Ö½Ú. //½ÓÊÕ×´Ì¬ //bit15£¬ ½ÓÊÕÍê³É±êÖ¾ //bit14£¬ ½ÓÊÕµ½0x0d //bit13~0£¬ ½ÓÊÕµ½µÄÓÐÐ§×Ö½ÚÊýÄ¿ u16 USART_RX_STA=0; //½ÓÊÕ×´Ì¬±ê¼Ç void uart_init(u32 bound){ //GPIO¶Ë¿ÚÉèÖÃ GPIO_InitTypeDef GPIO_InitStructure; USART_InitTypeDef USART_InitStructure; NVIC_InitTypeDef NVIC_InitStructure; RCC_APB2PeriphClockCmd(RCC_APB2Periph_USART1\|RCC_APB2Periph_GPIOA, ENABLE); //Ê¹ÄÜUSART1£¬GPIOAÊ±ÖÓ //USART1_TX PA.9 GPIO_InitStructure.GPIO_Pin = GPIO_Pin_9; //PA.9 GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF_PP; //¸´ÓÃÍÆÍìÊä³ö GPIO_Init(GPIOA, &GPIO_InitStructure); //USART1_RX PA.10 GPIO_InitStructure.GPIO_Pin = GPIO_Pin_10; GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN_FLOATING;//¸¡¿ÕÊäÈë GPIO_Init(GPIOA, &GPIO_InitStructure); //Usart1 NVIC ÅäÖÃ NVIC_InitStructure.NVIC_IRQChannel = USART1_IRQn; NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority=3 ;//ÇÀÕ¼ÓÅÏÈ¼¶3 NVIC_InitStructure.NVIC_IRQChannelSubPriority = 3; //×ÓÓÅÏÈ¼¶3 NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE; //IRQÍ¨µÀÊ¹ÄÜ NVIC_Init(&NVIC_InitStructure); //¸ù¾ÝÖ¸¶¨µÄ²ÎÊý³õÊ¼»¯VIC¼Ä´æÆ÷ //USART ³õÊ¼»¯ÉèÖÃ USART_InitStructure.USART_BaudRate = bound;//Ò»°ãÉèÖÃÎª9600; USART_InitStructure.USART_WordLength = USART_WordLength_8b;//×Ö³¤Îª8Î»Êý¾Ý¸ñÊ½ USART_InitStructure.USART_StopBits = USART_StopBits_1;//Ò»¸öÍ£Ö¹Î» USART_InitStructure.USART_Parity = USART_Parity_No;//ÎÞÆæÅ¼Ð£ÑéÎ» USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;//ÎÞÓ²¼þÊý¾ÝÁ÷¿ØÖÆ USART_InitStructure.USART_Mode = USART_Mode_Rx \| USART_Mode_Tx; //ÊÕ·¢Ä£Ê½ USART_Init(USART1, &USART_InitStructure); //³õÊ¼»¯´®¿Ú USART_ITConfig(USART1, USART_IT_RXNE, ENABLE);//¿ªÆôÖÐ¶Ï USART_Cmd(USART1, ENABLE); //Ê¹ÄÜ´®¿Ú } void USART1_IRQHandler(void) //´®¿Ú1ÖÐ¶Ï·þÎñ³ÌÐò { u8 Res; #ifdef OS_TICKS_PER_SEC //Èç¹ûÊ±ÖÓ½ÚÅÄÊý¶¨ÒåÁË,ËµÃ÷ÒªÊ¹ÓÃucosIIÁË. OSIntEnter(); #endif if(USART_GetITStatus(USART1, USART_IT_RXNE) != RESET) //½ÓÊÕÖÐ¶Ï(½ÓÊÕµ½µÄÊý¾Ý±ØÐëÊÇ0x0d 0x0a½áÎ²) { Res =USART_ReceiveData(USART1);//(USART1->DR); //¶ÁÈ¡½ÓÊÕµ½µÄÊý¾Ý if((USART_RX_STA&0x8000)==0)//½ÓÊÕÎ´Íê³É { if(USART_RX_STA&0x4000)//½ÓÊÕµ½ÁË0x0d { if(Res!=0x0a)USART_RX_STA=0;//½ÓÊÕ´íÎó,ÖØÐÂ¿ªÊ¼ else USART_RX_STA\|=0x8000; //½ÓÊÕÍê³ÉÁË } else //»¹Ã»ÊÕµ½0X0D { if(Res==0x0d)USART_RX_STA\|=0x4000; else { USART_RX_BUF[USART_RX_STA&0X3FFF]=Res ; USART_RX_STA++; if(USART_RX_STA>(USART_REC_LEN-1))USART_RX_STA=0;//½ÓÊÕÊý¾Ý´íÎó,ÖØÐÂ¿ªÊ¼½ÓÊÕ } } } } #ifdef OS_TICKS_PER_SEC //Èç¹ûÊ±ÖÓ½ÚÅÄÊý¶¨ÒåÁË,ËµÃ÷ÒªÊ¹ÓÃucosIIÁË. OSIntExit(); #endif } #endif usart.h: #ifndef __USART_H #define __USART_H #include "stdio.h" #include "sys.h" //STM32F103ºËÐÄ°åÀý³Ì //¿âº¯Êý°æ±¾Àý³Ì /******** mcudev.taobao.com ³öÆ· *****/ // //STM32¿ª·¢°å //´®¿Ú1³õÊ¼»¯ #define USART_REC_LEN 200 //¶¨Òå×î´ó½ÓÊÕ×Ö½ÚÊý 200 #define EN_USART1_RX 1 //Ê¹ÄÜ£¨1£©/½ûÖ¹£¨0£©´®¿Ú1½ÓÊÕ extern u8 USART_RX_BUF[USART_REC_LEN]; //½ÓÊÕ»º³å,×î´óUSART_REC_LEN¸ö×Ö½Ú.Ä©×Ö½ÚÎª»»ÐÐ·û extern u16 USART_RX_STA; //½ÓÊÕ×´Ì¬±ê¼Ç //Èç¹ûÏë´®¿ÚÖÐ¶Ï½ÓÊÕ£¬Çë²»Òª×¢ÊÍÒÔÏÂºê¶¨Òå void uart_init(u32 bound); #endif 2、然后向HARDWARE加入stm32f10x_usart.c，该文件在STM32F10x_FWLibsrc中 3、然后把main.c改为以下： #include "delay.h" #include "sys.h" #include "oled.h" #include "gui.h" #include "test.h" #include "usart.h" #include "bsp_i2c.h" int main(void) { int H,T; int H1=0,T1=0; int a,b,c,d; H=&H1; T=&T1; delay_init(); //ÑÓÊ±º¯Êý³õÊ¼»¯ NVIC_PriorityGroupConfig(NVIC_PriorityGroup_2); //ÉèÖÃNVICÖÐ¶Ï·Ö×é2:2Î»ÇÀÕ¼ÓÅÏÈ¼¶£¬2Î»ÏìÓ¦ÓÅÏÈ¼¶ OLED_Init(); //³õÊ¼»¯OLED OLED_Clear(0); //ÇåÆÁ£¨È«ºÚ£© uart_init(115200); //´®¿Ú³õÊ¼»¯Îª115200 IIC_Init(); while(1) { read_AHT20_once(T,H); GUI_ShowCHinese(16,10,16,"ÎÂ¶È:",1); a=T/10; b=T%10; GUI_ShowNum(60,10,a,2,16,1); GUI_ShowString(80,10,".",16,1); GUI_ShowNum(82,10,b,2,16,1); GUI_ShowCHinese(16,30,16,"Êª¶È:",1); c=H/10; d=H%10; GUI_ShowNum(60,30,c,2,16,1); GUI_ShowString(80,30,".",16,1); GUI_ShowNum(82,30,d,2,16,1); } } 注意：把温度和：的字符加到oled.h下面 4、效果图：三、上下滑动显示长字符 1、还是用之前的工程文件，然后将mian.c程序改为如下：（字符根据需要自行更改） #include "delay.h" #include "sys.h" #include "oled.h" #include "gui.h" #include "test.h" int main(void) { delay_init(); //ÑÓÊ±º¯Êý³õÊ¼»¯ NVIC_PriorityGroupConfig(NVIC_PriorityGroup_2); //ÉèÖÃNVICÖÐ¶Ï·Ö×é2:2Î»ÇÀÕ¼ÓÅÏÈ¼¶£¬2Î»ÏìÓ¦ÓÅÏÈ¼¶ OLED_Init(); //³õÊ¼»¯OLED OLED_Clear(0); //ÇåÆÁ£¨È«ºÚ£© hile(1) { GUI_ShowCHinese(20,25,16,"»¶ÓÀ´µ½ÖØ½»´ó",1);//这里更改字符 delay_ms(50); roll(); } } } 3、效果图*

2021-12-14 09:49:29 评论举报张娜