 制作出來的實物圖如下:
IMG20190723201043.jpg (3.77 MB, 下載次數: 56)
下載附件
2019-7-24 21:47 上傳
IMG20190722224919.jpg (3.86 MB, 下載次數: 56)
下載附件
2019-7-24 21:47 上傳
IMG20190722224905.jpg (3.79 MB, 下載次數: 39)
下載附件
2019-7-24 21:47 上傳
Altium Designer畫的原理圖和PCB圖如下:(51hei附件中可下載工程文件)
69e90d1eb769ad04.png (178.56 KB, 下載次數: 32)
下載附件
2019-7-24 21:47 上傳
459ac3044b45a0d9.png (194.69 KB, 下載次數: 41)
下載附件
2019-7-24 21:47 上傳
-17bf622e1f48d02f.png (221.38 KB, 下載次數: 41)
下載附件
2019-7-24 21:47 上傳
4ee4cf05a5624a3f.png (147.41 KB, 下載次數: 48)
下載附件
2019-7-24 21:47 上傳
單片機源程序如下:
- #include <reg52.h>
- #include <intrins.h>
- #include "12864.h"
- #include "ds1302.h"
- uint stwdh=35; //溫度上限
- uint stwdl=6; //溫度下限
- uint stsdh=85; //濕度上限
- uint stsdl=20; //濕度下限
- sbit fmq =P1^7; //蜂鳴器
- #define TX_ADR_WIDTH 5 // 5 uints TX address width
- #define RX_ADR_WIDTH 5 // 5 uints RX address width
- #define TX_PLOAD_WIDTH 32 // 20 uints TX payload
- #define RX_PLOAD_WIDTH 32 // 20 uints TX payload
- uint const TX_ADDRESS[TX_ADR_WIDTH]= {0x34,0x43,0x10,0x10,0x01}; //本地地址
- uint const RX_ADDRESS[RX_ADR_WIDTH]= {0x34,0x43,0x10,0x10,0x01}; //接收地址
- //***************************************NRF24L01寄存器指令*******************************************************
- #define READ_REG 0x00 // 讀寄存器指令
- #define WRITE_REG 0x20 // 寫寄存器指令
- #define RD_RX_PLOAD 0x61 // 讀取接收數據指令
- #define WR_TX_PLOAD 0xA0 // 寫待發數據指令
- #define FLUSH_TX 0xE1 // 沖洗發送 FIFO指令
- #define FLUSH_RX 0xE2 // 沖洗接收 FIFO指令
- #define REUSE_TX_PL 0xE3 // 定義重復裝載數據指令
- #define NOP 0xFF // 保留
- //*************************************SPI(nRF24L01)寄存器地址****************************************************
- #define CONFIG 0x00 // 配置收發狀態�����,CRC校驗模式以及收發狀態響應方式
- #define EN_AA 0x01 // 自動應答功能設置
- #define EN_RXADDR 0x02 // 可用信道設置
- #define SETUP_AW 0x03 // 收發地址寬度設置
- #define SETUP_RETR 0x04 // 自動重發功能設置
- #define RF_CH 0x05 // 工作頻率設置
- #define RF_SETUP 0x06 // 發射速率、功耗功能設置
- #define STATUS 0x07 // 狀態寄存器
- #define OBSERVE_TX 0x08 // 發送監測功能
- #define CD 0x09 // 地址檢測
- #define RX_ADDR_P0 0x0A // 頻道0接收數據地址
- #define RX_ADDR_P1 0x0B // 頻道1接收數據地址
- #define RX_ADDR_P2 0x0C // 頻道2接收數據地址
- #define RX_ADDR_P3 0x0D // 頻道3接收數據地址
- #define RX_ADDR_P4 0x0E // 頻道4接收數據地址
- #define RX_ADDR_P5 0x0F // 頻道5接收數據地址
- #define TX_ADDR 0x10 // 發送地址寄存器
- #define RX_PW_P0 0x11 // 接收頻道0接收數據長度
- #define RX_PW_P1 0x12 // 接收頻道0接收數據長度
- #define RX_PW_P2 0x13 // 接收頻道0接收數據長度
- #define RX_PW_P3 0x14 // 接收頻道0接收數據長度
- #define RX_PW_P4 0x15 // 接收頻道0接收數據長度
- #define RX_PW_P5 0x16 // 接收頻道0接收數據長度
- #define FIFO_STATUS 0x17 // FIFO棧入棧出狀態寄存器設置
- //**************************************************************************************
- uint wendu=0;
- uint shidu=0;
- unsigned int idata pm25=0;
- unsigned char idata RxBuf[32];
- unsigned int flag=0;
- uchar hor,min,sec,SetA=0,SetB=0;
- unsigned char year=17,month=2,date=11;
- unsigned int Alpm25=200;
- uchar initial_time[]={0x00,0x00,0x00};
- unsigned int guangzhao=0;
- //****************************************IO端口定義***************************************
- sbit MISO =P0^2;
- sbit MOSI =P0^4;
- sbit SCK =P0^1;
- sbit CE =P0^0;
- sbit CSN =P0^3;
- sbit IRQ =P0^5;
- sbit k1 =P2^0; //設置時間
- sbit k2 =P2^1; //設置參數上下限
- sbit k3 =P2^2; // +
- sbit k4 =P2^3; // -
- sbit k5 =P2^4; // 確認
- void Delay(unsigned int s);
- void inerDelay_us(unsigned char n);
- void init_NRF24L01(void);
- uint SPI_RW(uint uchar);
- uchar SPI_Read(uchar reg);
- void SetRX_Mode(void);
- uint SPI_RW_Reg(uchar reg, uchar value);
- uint SPI_Read_Buf(uchar reg, uchar *pBuf, uchar uchars);
- uint SPI_Write_Buf(uchar reg, uchar *pBuf, uchar uchars);
- unsigned char nRF24L01_RxPacket(unsigned char* rx_buf);
- void nRF24L01_TxPacket(unsigned char * tx_buf);
- void delay_ms(unsigned int z)
- {
- uint x,y;
- for(x=z;x>0;x--)
- for(y=110;y>0;y--);
- }
- //*****************************************長延時*****************************************
- void Delay(unsigned int s)
- {
- unsigned int i;
- for(i=0; i<s; i++);
- for(i=0; i<s; i++);
- }
- //******************************************************************************************
- uint bdata sta; //狀態標志
- sbit RX_DR =sta^6;
- sbit TX_DS =sta^5;
- sbit MAX_RT =sta^4;
- /******************************************************************************************
- /*延時函數
- /******************************************************************************************/
- void inerDelay_us(unsigned char n)
- {
- for(;n>0;n--) _nop_();
- }
- //****************************************************************************************
- /*NRF24L01初始化
- //***************************************************************************************/
- void init_NRF24L01(void)
- {
- inerDelay_us(100);
- CE=0; // chip enable
- CSN=1; // Spi disable
- SCK=0; // Spi clock line init high
- SPI_Write_Buf(WRITE_REG + TX_ADDR, TX_ADDRESS, TX_ADR_WIDTH); // 寫本地地址
- SPI_Write_Buf(WRITE_REG + RX_ADDR_P0, RX_ADDRESS, RX_ADR_WIDTH); // 寫接收端地址
- SPI_RW_Reg(WRITE_REG + EN_AA, 0x01); // 頻道0自動 ACK應答允許
- SPI_RW_Reg(WRITE_REG + EN_RXADDR, 0x01); // 允許接收地址只有頻道0�����,如果需要多頻道可以參考Page21
- SPI_RW_Reg(WRITE_REG + RF_CH, 0); // 設置信道工作為2.4GHZ�����,收發必須一致
- SPI_RW_Reg(WRITE_REG + RX_PW_P0, RX_PLOAD_WIDTH); //設置接收數據長度�����,本次設置為32字節
- SPI_RW_Reg(WRITE_REG + RF_SETUP, 0x07); //設置發射速率為1MHZ�����,發射功率為最大值0dB
- SPI_RW_Reg(WRITE_REG + CONFIG, 0x0f); // IRQ收發完成中斷響應�����,16位CRC ,主接收
- }
- /****************************************************************************************************
- /*函數:uint SPI_RW(uint uchar)
- /*功能:NRF24L01的SPI寫時序
- /****************************************************************************************************/
- uint SPI_RW(uint uchar)
- {
- uint bit_ctr;
- for(bit_ctr=0;bit_ctr<8;bit_ctr++) // output 8-bit
- {
- MOSI = (uchar & 0x80); // output 'uchar', MSB to MOSI
- uchar = (uchar << 1); // shift next bit into MSB..
- SCK = 1; // Set SCK high..
- uchar |= MISO; // capture current MISO bit
- SCK = 0; // ..then set SCK low again
- }
- return(uchar); // return read uchar
- }
- /****************************************************************************************************
- /*函數:uchar SPI_Read(uchar reg)
- /*功能:NRF24L01的SPI時序
- /****************************************************************************************************/
- uchar SPI_Read(uchar reg)
- {
- uchar reg_val;
-
- CSN = 0; // CSN low, initialize SPI communication...
- SPI_RW(reg); // Select register to read from..
- reg_val = SPI_RW(0); // ..then read registervalue
- CSN = 1; // CSN high, terminate SPI communication
-
- return(reg_val); // return register value
- }
- /****************************************************************************************************/
- /*功能:NRF24L01讀寫寄存器函數
- /****************************************************************************************************/
- uint SPI_RW_Reg(uchar reg, uchar value)
- {
- uint status;
-
- CSN = 0; // CSN low, init SPI transaction
- status = SPI_RW(reg); // select register
- SPI_RW(value); // ..and write value to it..
- CSN = 1; // CSN high again
-
- return(status); // return nRF24L01 status uchar
- }
- /****************************************************************************************************/
- /*函數:uint SPI_Read_Buf(uchar reg, uchar *pBuf, uchar uchars)
- /*功能: 用于讀數據,reg:為寄存器地址�����,pBuf:為待讀出數據地址�����,uchars:讀出數據的個數
- /****************************************************************************************************/
- uint SPI_Read_Buf(uchar reg, uchar *pBuf, uchar uchars)
- {
- uint status,uchar_ctr;
-
- CSN = 0; // Set CSN low, init SPI tranaction
- status = SPI_RW(reg); // Select register to write to and read status uchar
-
- for(uchar_ctr=0;uchar_ctr<uchars;uchar_ctr++)
- pBuf[uchar_ctr] = SPI_RW(0); //
-
- CSN = 1;
-
- return(status); // return nRF24L01 status uchar
- }
- /*********************************************************************************************************
- /*函數:uint SPI_Write_Buf(uchar reg, uchar *pBuf, uchar uchars)
- /*功能: 用于寫數據:為寄存器地址�����,pBuf:為待寫入數據地址,uchars:寫入數據的個數
- /*********************************************************************************************************/
- uint SPI_Write_Buf(uchar reg, uchar *pBuf, uchar uchars)
- {
- uint status,uchar_ctr;
-
- CSN = 0; //SPI使能
- status = SPI_RW(reg);
- for(uchar_ctr=0; uchar_ctr<uchars; uchar_ctr++) //
- SPI_RW(*pBuf++);
- CSN = 1; //關閉SPI
- return(status); //
- }
- /****************************************************************************************************/
- /*函數:void SetRX_Mode(void)
- /*功能:數據接收配置
- /****************************************************************************************************/
- void SetRX_Mode(void)
- {
- CE=0;
- // SPI_RW_Reg(WRITE_REG + CONFIG, 0x0f); // IRQ收發完成中斷響應,16位CRC ,主接收
- CE = 1;
- inerDelay_us(130);
- }
- /******************************************************************************************************/
- /*函數:unsigned char nRF24L01_RxPacket(unsigned char* rx_buf)
- /*功能:數據讀取后放如rx_buf接收緩沖區中
- /******************************************************************************************************/
- unsigned char nRF24L01_RxPacket(unsigned char* rx_buf)
- {
- unsigned char revale=0;
- sta=SPI_Read(STATUS); // 讀取狀態寄存其來判斷數據接收狀況
- if(RX_DR) // 判斷是否接收到數據
- {
- CE = 0; //SPI使能
- SPI_Read_Buf(RD_RX_PLOAD,rx_buf,TX_PLOAD_WIDTH);// read receive payload from RX_FIFO buffer
- revale =1; //讀取數據完成標志
- }
- SPI_RW_Reg(WRITE_REG+STATUS,sta); //接收到數據后RX_DR,TX_DS,MAX_PT都置高為1�����,通過寫1來清楚中斷標志
- return revale;
- }
- /***********************************************************************************************************
- /*函數:void nRF24L01_TxPacket(unsigned char * tx_buf)
- /*功能:發送 tx_buf中數據
- /**********************************************************************************************************/
- /*void nRF24L01_TxPacket(unsigned char * tx_buf)
- {
- CE=0; //StandBy I模式
- SPI_Write_Buf(WRITE_REG + RX_ADDR_P0, TX_ADDRESS, TX_ADR_WIDTH); // 裝載接收端地址
- SPI_Write_Buf(WR_TX_PLOAD, tx_buf, TX_PLOAD_WIDTH); // 裝載數據
- SPI_RW_Reg(WRITE_REG + CONFIG, 0x0e); // IRQ收發完成中斷響應�����,16位CRC�����,主發送
- CE=1; //置高CE,激發數據發送
- inerDelay_us(10);
- }*/
- /********************************************************************
- du1302
- ***********************************************************************/
- void du_ds1302()
- {
- uchar k;
-
- // uchar taddr = 0x81;
- // for (k=0; k<3; k++)
- // {
- // now_time[k] = read_data_ds1302(taddr);/*格式為: 秒 分 時 日 月 星期 年 */
- // taddr+= 2;
- // }
- k= read_data_ds1302(0x81);
- k=bcd16(k);
- if(k<60) sec=k;
- if(k>=60)
- {
- k= read_data_ds1302(0x81);
- k=bcd16(k);
- if(k<60) sec=k;
- if(k>=60)
- {
- k= read_data_ds1302(0x81);
- k=bcd16(k);
- if(k<60) sec=k;
- if(k>=60)
- {
- write_data_ds1302(0x80,hexbcd(0)); //向DS1302內寫秒寄存器80H寫入初始秒數據00
- write_data_ds1302(0x82,hexbcd(0));//向DS1302內寫分寄存器82H寫入初始分數據00
- write_data_ds1302(0x84,hexbcd(8));//向DS1302內寫小時寄存器84H寫入初始小時數據12
- write_data_ds1302(0x86,hexbcd(11));//向DS1302內寫日期寄存器86H寫入初始日期數據07
- write_data_ds1302(0x88,hexbcd(2));//向DS1302內寫月份寄存器88H寫入初始月份數據01
- write_data_ds1302(0x8c,hexbcd(17));//向DS1302內寫年份寄存器8cH寫入初始年份數據10
- write_data_ds1302(0x8e,0x80);
- date=11;month=2;year=17;
- }
- }
- }
-
- k= read_data_ds1302(0x83);
- k=bcd16(k);
- //if(k<60)
- min=k;
-
- k=read_data_ds1302(0x85);
- k=bcd16(k);
- //if(k<24)
- hor=k;
-
- k=read_data_ds1302(0x87);
- k=bcd16(k);
- //if(k<24)
- date=k;
- k=read_data_ds1302(0x89);
- k=bcd16(k);
- //if(k<24)
- month=k;
- k=read_data_ds1302(0x8d);
- k=bcd16(k);
- //if(k<24)
- year=k;
- }
- void xianshishijian(void)
- {
- LCD_Setaddress(1,1);
- print("時間");
- LCD_write_dat(':');
- LCD_write_dat(hor/10+0x30);
- LCD_write_dat(hor%10+0x30);
- LCD_write_dat(':');
- LCD_write_dat(min/10+0x30);
- LCD_write_dat(min%10+0x30);
- LCD_write_dat(':');
- LCD_write_dat(sec/10+0x30);
- LCD_write_dat(sec%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }
- void xianshiwsd(void)//顯示溫濕度
- {
- LCD_Setaddress(2,1);
- //if(wendu>=99)wendu=99;
- print("溫度");
- LCD_write_dat(':');
- LCD_write_dat(wendu/10+0x30);
- LCD_write_dat(wendu%10+0x30);
- LCD_write_dat(' ');
- print("濕度");
- LCD_write_dat(':');
- LCD_write_dat(shidu/10+0x30);
- LCD_write_dat(shidu%10+0x30);
- LCD_write_dat(' ');
- }
- void xianshiguangzhao(void)
- {
- LCD_Setaddress(4,1);
- print("光照");
- LCD_write_dat(':');
- LCD_write_dat(guangzhao/10000+0x30);
- LCD_write_dat(guangzhao%10000/1000+0x30);
- LCD_write_dat(guangzhao%1000/100+0x30);
- LCD_write_dat(guangzhao%100/10+0x30);
- LCD_write_dat(guangzhao%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat('L');
- LCD_write_dat('x');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }
- void xianshipm(void)
- {
- LCD_Setaddress(3,1);
- print("PM2.5");
- LCD_write_dat(':');
- LCD_write_dat(pm25/100+0x30);
- LCD_write_dat(pm25%100/10+0x30);
- LCD_write_dat(pm25%10+0x30);
- LCD_write_dat('u');
- LCD_write_dat('g');
- LCD_write_dat('/');
- LCD_write_dat('m');
- LCD_write_dat('3');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }
- void ShowSetTime(void)
- {
- LCD_clr();
- LCD_Setaddress(1,2);
- print("設置日期時間");
- LCD_Setaddress(3,1);
- print("日期");
- LCD_write_dat(':');
- LCD_write_dat(' ');
- LCD_write_dat(year/10+0x30);
- LCD_write_dat(year%10+0x30);
- LCD_write_dat('-');
- LCD_write_dat(month/10+0x30);
- LCD_write_dat(month%10+0x30);
- LCD_write_dat('-');
- LCD_write_dat(date/10+0x30);
- LCD_write_dat(date%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
-
- LCD_Setaddress(4,1);
- print("時間");
- LCD_write_dat(':');
- LCD_write_dat(' ');
- LCD_write_dat(hor/10+0x30);
- LCD_write_dat(hor%10+0x30);
- LCD_write_dat(':');
- LCD_write_dat(min/10+0x30);
- LCD_write_dat(min%10+0x30);
- LCD_write_dat(':');
- LCD_write_dat(sec/10+0x30);
- LCD_write_dat(sec%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }
- void ShowSetAlarmDat(void)
- {
- LCD_clr();
- LCD_Setaddress(1,2);
- print("設置上下限值");
- LCD_Setaddress(2,1);
- print("PM2.5");
- LCD_write_dat(':');
- LCD_write_dat(Alpm25/100+0x30);
- LCD_write_dat(Alpm25%100/10+0x30);
- LCD_write_dat(Alpm25%10+0x30);
- LCD_write_dat('u');
- LCD_write_dat('g');
- LCD_write_dat('/');
- LCD_write_dat('m');
- LCD_write_dat('3');
-
- LCD_Setaddress(3,1);
- print("溫度");
- LCD_write_dat(':');
- LCD_write_dat(' ');
- LCD_write_dat('H');
- LCD_write_dat('=');
- LCD_write_dat(stwdh/10+0x30);
- LCD_write_dat(stwdh%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat('L');
- LCD_write_dat('=');
- LCD_write_dat(stwdl/10+0x30);
- LCD_write_dat(stwdl%10+0x30);
- LCD_write_dat(' ');
-
- LCD_Setaddress(4,1);
- print("濕度");
- LCD_write_dat(':');
- LCD_write_dat(' ');
- LCD_write_dat('H');
- LCD_write_dat('=');
- LCD_write_dat(stsdh/10+0x30);
- LCD_write_dat(stsdh%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat('L');
- LCD_write_dat('=');
- LCD_write_dat(stsdl/10+0x30);
- LCD_write_dat(stsdl%10+0x30);
- LCD_write_dat(' ');
- }
- void SetFun(void)
- {
- unsigned int i=2000;
- if((k1==0)||(k2==0))
- {
- Delay(5000) ;
- if((k1==0)&&(k2==0))
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x80,hexbcd(0)); //向DS1302內寫秒寄存器80H寫入初始秒數據00
- write_data_ds1302(0x82,hexbcd(0));//向DS1302內寫分寄存器82H寫入初始分數據00
- write_data_ds1302(0x84,hexbcd(8));//向DS1302內寫小時寄存器84H寫入初始小時數據12
- write_data_ds1302(0x86,hexbcd(11));//向DS1302內寫日期寄存器86H寫入初始日期數據07
- write_data_ds1302(0x88,hexbcd(2));//向DS1302內寫月份寄存器88H寫入初始月份數據01
- write_data_ds1302(0x8c,hexbcd(17));//向DS1302內寫年份寄存器8cH寫入初始年份數據10
- write_data_ds1302(0x8e,0x80);
- date=11;month=2;year=17;
- SetB=0;SetA=0;
- fmq=0;delay_ms(50);fmq=1;delay_ms(300);
- fmq=0;delay_ms(50);fmq=1;
- }
- while((k1==0)&&(k2==0));
-
- }
- if(k1==0)
- {
- Delay(5000) ;
-
- if(k1==0)
- {
- SetB=0;
- if(SetA<6) SetA++;
- else SetA=0;
- switch(SetA)
- {
- case 0: LCD_clr();break;
- case 1:
- case 2:
- case 3:
- case 4:
- case 5:
- case 6: ShowSetTime();break;
- }
- }
- while(k1==0);
- }
-
- if(k2==0)
- {
- Delay(5000) ;
-
- if(k2==0)
- {
- SetA=0;
- if(SetB<5) SetB++;
- else SetB=0;
- switch(SetB)
- {
- case 0: LCD_draw_clr();break;
- case 1:
- case 2:
- case 3:
- case 4:
- case 5: ShowSetAlarmDat();break;
- }
- }
- while(k2==0);
- }
-
- if(SetA!=0)
- {
- if(k3==0)
- {
- Delay(5000) ;
- if(k3==0)
- {
- switch(SetA)
- {
- case 1: sec++;if(sec>59) sec=0;break;
- case 2: min++;if(min>59) min=0;break;
- case 3: hor++;if(hor>23) hor=0;break;
- case 4:
- {
- if((month==1)||(month==3)||(month==5)||(month==7)||(month==8)||(month==10)||(month==12))
- {
- date++;
- if(date>31) date=1;
- }
- else if((month==4)||(month==6)||(month==9)||(month==11))
- {
- date++;
- if(date>30) date=1;
- }
- else if(month==2)
- {
- i=2000+year;
- if((i%100)==0)
- {
- if(i%400==0) {date++; if(date>29) date=1;}
- else {date++; if(date>28) date=1;}
- }
- else
- {
- if((i%4)==0) {date++; if(date>29) date=1;}
- else {date++; if(date>28) date=1;}
- }
- }
- else {date++; if(date>31) date=1;}
- }break;
- case 5:
- {
- month++;if(month>12) month=1;
- if(date>28)
- {
- if(month==2)
- {
- i=2000+year;
- if((i%100)==0)
- {
- if((i%400)==0) date=29;
- else date=28;
- }
- else
- {
- if((i%4)==0) date=29;
- else date=28;
- }
- }
- if((month==4)||(month==6)||(month==9)||(month==11))
- {
- if(date>30) date=1;
- }
- }
- }break;
- case 6:
- {
- year++;if(year>99) year=1;
- if(date>28)
- {
- if(month==2)
- {
- i=2000+year;
- if((i%100)==0)
- {
- if((i%400)==0) date=29;
- else date=28;
- }
- else
- {
- if((i%4)==0) date=29;
- else date=28;
- }
- }
- if((month==4)||(month==6)||(month==9)||(month==11))
- {
- if(date>30) date=1;
- }
- }
- }break;
- }
- }
- }
- if(k4==0)
- {
- Delay(5000) ;
- if(k4==0)
- {
- switch(SetA)
- {
- case 1: if(sec>0) sec--; break;
- case 2: if(min>0) min--; break;
- case 3: if(hor>0) hor--; break;
- case 4: if(date>1) date--; break;
- case 5:
- {
- if(month>1) month--;
- if(date>28)
- {
- if(month==2)
- {
- i=2000+year;
- if((i%100)==0)
- {
- if((i%400)==0) date=29;
- else date=28;
- }
- else
- {
- if((i%4)==0) date=29;
- else date=28;
- }
- }
- if((month==4)||(month==6)||(month==9)||(month==11))
- {
- if(date>30) date=1;
- }
- }
- }break;
- case 6:
- {
- if(year>1) year--;
- if(date>28)
- {
- if(month==2)
- {
- i=2000+year;
- if((i%100)==0)
- {
- if((i%400)==0) date=29;
- else date=28;
- }
- else
- {
- if((i%4)==0) date=29;
- else date=28;
- }
- }
- if((month==4)||(month==6)||(month==9)||(month==11))
- {
- if(date>30) date=1;
- }
- }
- }break;
- }
- }
- }
- switch(SetA)
- {
- case 1:
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x80, hexbcd(sec));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(4,7);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(4,7);
- LCD_write_dat(sec/10+0x30);
- LCD_write_dat(sec%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }break;
- case 2:
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x82, hexbcd(min));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(4,5);
- LCD_write_dat(':');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(10);
- LCD_Setaddress(4,5);
- LCD_write_dat(':');
- LCD_write_dat(min/10+0x30);
- LCD_write_dat(min%10+0x30);
-
- }break;
- case 3:
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x84, hexbcd(hor));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(4,4);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(4,4);
- LCD_write_dat(hor/10+0x30);
- LCD_write_dat(hor%10+0x30);
-
- }break;
- case 4:
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x86, hexbcd(date));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(3,7);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(3,7);
- LCD_write_dat(date/10+0x30);
- LCD_write_dat(date%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }break;
- case 5:
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x88, hexbcd(month));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(3,5);
- LCD_write_dat('-');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(10);
- LCD_Setaddress(3,5);
- LCD_write_dat('-');
- LCD_write_dat(month/10+0x30);
- LCD_write_dat(month%10+0x30);
- if(month==2)
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x86, hexbcd(date));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(3,7);
- LCD_write_dat(date/10+0x30);
- LCD_write_dat(date%10+0x30);
- }
-
- }break;
- case 6:
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x8c, hexbcd(year));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(3,4);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(3,4);
- LCD_write_dat(year/10+0x30);
- LCD_write_dat(year%10+0x30);
- if(month==2)
- {
- write_data_ds1302(0x8e,0x00);
- write_data_ds1302(0x86, hexbcd(date));
- write_data_ds1302(0x8e,0x80);
- LCD_Setaddress(3,7);
- LCD_write_dat(date/10+0x30);
- LCD_write_dat(date%10+0x30);
- }
-
- }break;
- }
-
- }
-
- /*************************************設置上下限參數*******************************/
- if(SetB!=0)
- {
- if(k3==0)
- {
- Delay(5000) ;
- if(k3==0)
- {
- switch(SetB)
- {
- case 1: stsdl++;if(stsdl>90) stsdl=0;break;
- case 2: stsdh++;if(stsdh>90) stsdh=0;break;
- case 3: stwdl++;if(stwdl>60) stwdl=0;break;
- case 4: stwdh++;if(stwdh>60) stwdh=0;break;
- case 5: Alpm25++;if(Alpm25>990) Alpm25=20;break;
- }
- }
- }
- if(k4==0)
- {
- Delay(5000) ;
- if(k4==0)
- {
- switch(SetB)
- {
- case 1: if(stsdl>0) stsdl--; break;
- case 2: if(stsdh>0) stsdh--; break;
- case 3: if(stwdl>0) stwdl--; break;
- case 4: if(stwdh>0) stwdh--; break;
- case 5: if(Alpm25>20) Alpm25--; break;
- }
- }
- }
- switch(SetB)
- {
- case 1:
- {
- LCD_Setaddress(4,7);
- LCD_write_dat('=');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(4,7);
- LCD_write_dat('=');
- LCD_write_dat(stsdl/10+0x30);
- LCD_write_dat(stsdl%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- }break;
- case 2:
- {
- LCD_Setaddress(4,5);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(4,5);
- LCD_write_dat(stsdh/10+0x30);
- LCD_write_dat(stsdh%10+0x30);
-
- }break;
- case 3:
- {
- LCD_Setaddress(3,7);
- LCD_write_dat('=');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(3,7);
- LCD_write_dat('=');
- LCD_write_dat(stwdl/10+0x30);
- LCD_write_dat(stwdl%10+0x30);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
-
- }break;
- case 4:
- {
- LCD_Setaddress(3,5);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(3,5);
- LCD_write_dat(stwdh/10+0x30);
- LCD_write_dat(stwdh%10+0x30);
- }break;
- case 5:
- {
- LCD_Setaddress(2,4);
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- LCD_write_dat(' ');
- delay_ms(20);
- LCD_Setaddress(2,4);
- LCD_write_dat(Alpm25/100+0x30);
- LCD_write_dat(Alpm25%100/10+0x30);
- LCD_write_dat(Alpm25%10+0x30);
- }break;
- }
-
- }
-
-
-
- if(k5==0)
- {
- Delay(5000) ;
-
- if(k5==0)
- {
- SetB=0;SetA=0;
- LCD_clr();
- }
- }
-
-
- }
- //************************************主函數************************************************************
- void main(void)
- {
- init_ds1302();
- LCD_init();
- LCD_draw_clr();
-
- init_NRF24L01() ;
- delay_ms(1);
- Delay(6000);
-
- k1=1;
- k2=1;
- k3=1;
- k4=1;
- while(1)
- {
- if((SetA==0)&&(SetB==0))
- {
- flag++;
- du_ds1302() ; //讀取1302時間
- xianshishijian(); //顯示時間
- SetRX_Mode(); //設置2401 接收模式
- if(nRF24L01_RxPacket(RxBuf)) //讀取2401 接收寄存器
- {
- if(RxBuf[1]==0xaa) //數據處理
- {
- wendu=RxBuf[3];
-
- shidu=RxBuf[5];
- guangzhao=RxBuf[7]*10000+ RxBuf[8]*1000 +RxBuf[9]*100+RxBuf[10]*10+RxBuf[11];
- pm25= RxBuf[12]*100+RxBuf[13];
- }
- xianshiwsd();
- xianshipm();
- xianshiguangzhao();
- flag=0;
- }
- /////以下為設置 上下限報警程序
- if((pm25<995)&&(pm25>0))
- {
- if((wendu>stwdh )||(wendu<stwdl)||(shidu>stsdh)||(shidu<stsdl)||(pm25>Alpm25) ) fmq=0;
- else fmq=1;
- }
- if(flag>=250) //超過250未連接 顯示通訊連接
- {
- LCD_draw_clr();
- LCD_Setaddress(2,1);
- print("通訊連接中。。。");
- flag=0;
- }
- }
- SetFun(); //設置參數
- }
- }
0.png (4.74 KB, 下載次數: 44)
下載附件
2019-7-25 04:03 上傳
所有資料51hei提供下載:
無線數據采集系統.rar
(2.95 MB, 下載次數: 111)
2019-7-24 21:48 上傳
點擊文件名下載附件
下載積分: 黑幣 -5
|
QQ好友和群
QQ空間
騰訊微博
騰訊朋友
收藏
淘帖
頂
踩
