Raghavan Naresh Sarangapani
Temperature Sensor DHT readings to FRDMk64f
Fork of
Hexi_Blinky_Example
by 
Hexiwear
Revision 20:6b29e61092b6, committed 2017-12-06
- Comitter:
- roborags
- Date:
- Wed Dec 06 22:52:56 2017 +0000
- Parent:
- 19:ffd78d964d9f
- Commit message:
- BLE Mesh Temperature Sensor FRDMK64f
Changed in this revision
--- a/ESP8266.lib Mon Sep 04 18:06:20 2017 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,1 +0,0 @@ -https://mbed.org/users/quevedo/code/ESP8266/#77388e8f0697
--- a/GT511C3.lib Mon Sep 04 18:06:20 2017 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,1 +0,0 @@ -https://mbed.org/users/tosihisa/code/GT511C3/#90c64cb9db58
--- a/main.cpp Mon Sep 04 18:06:20 2017 +0000
+++ b/main.cpp Wed Dec 06 22:52:56 2017 +0000
@@ -1,739 +1,50 @@
#include "mbed.h"
-#include "ESP8266.h" // Include header file from Author: Antonio Quevedo
#include "math.h"
#include "DHT.h"
-#include "GT511C3.hpp"
#include <string>
-#define APIKEY JJAOBK32WOINKT00 //Put "Write key" of your channel in thingspeak.com
-#define IP "184.106.153.149" // IP Address of "api.thingspeak.com\"
-#define WIFI_SSID "Redmi"
-#define WIFI_PASS "akash12345"
-#define FPS_ENROLL_PASS "Rags\n"
-
Serial FRDM_UART_Debug(USBTX,USBRX);
-
-ESP8266 ESP_8266_UART(PTC15, PTC14, 115200); // UART for ESP8266 Wifi module
-// Options are TX-RX - PTB11 - PTB10 , PTC17 - PTC16 , PTC15 - PTC14
+Serial FRDM_Data_Tx(PTC17,PTC16);
-SPI SPI_Bus(PTD2,PTD3,PTD1); // (MOSI MISO CLK)setup SPI interface
-DigitalOut SPI_CS_AMM(PTA2);
-DigitalOut SPI_CS_VOLT(PTB9);
-
-I2C I2C_Bus(PTE25,PTE24);
-
-AnalogIn AN_Thermo(PTB2); // Thermocouple Analog Input
-DigitalIn DG_Motion(PTC2); // Motion module Digital Input
-
-DHT DHT_Temp_Hum(PTC4,DHT22); //DHT Sensor
-
-GT511C3 FPS(PTC17, PTC16);
+DHT sensor(PTC10,DHT11); //DHT Sensor
-const int Light_I2C_Addr = 0x88;
-char ESP_8266_CMD_Send[255],ESP_8266_CMD_Recv[1000]; //ESP_8266_CMD_Send = string used to send command to ESP8266 & ESP_8266_CMD_Recv = string used to receive response from ESP8266
-
-float Amm_Out = 0;
-float Volt_Out = 0;
-float Light_Out = 0;
-float Thermo_Out = 0;
float Temp_Out = 0;
float Hum_Out = 0;
-int Motion_Out = 0;
-int Finger_Out = 0;
-float Pres_Out = 0;
-bool FPS_Auth = false;
+void AddEOL(char * s) {
+ char k;
+ k = strlen(s); // Finds position of NULL character
+ s[k] = 0; // Add NULL at the end
+}
-void ESP_8266_Init(void); // Function used to initialize ESP8266 wifi module
-void ESP_8266_TX_Data(void); // Function used to connect with thingspeak.com and update channel using ESP8266 wifi module
-void FPS_Func(void);
-int FPS_Wait_Time(int press,bool Det_Mot, unsigned long *ms_time);
int main()
{
- int SPI_High_byte = 0;
- int SPI_Low_byte = 0;
- float Temp_f_1 = 0.00;
- float Temp_f_2 = 0.00;
- int Temp_i_1 = 0;
- int Temp_i_2 = 0;
- int Temp_i_3 = 0;
- int Temp_i_4 = 0;
- char I2C_Cmd[3];
- int loop_count = 0;
- int FPS_Ret = 0;
- int FPS_Attempt = 1;
- int FPS_Enroll_ID = 0;
- unsigned long FPS_Param = 0;
- unsigned short FPS_Resp = 0;
- char FPS_Enroll_Pass[20];
- unsigned long FPS_Delay = 0;
FRDM_UART_Debug.baud(115200); // Baud rate used for communicating with Tera-term on PC
-
- ESP_8266_Init();
-
- SPI_Bus.format(8,0);
- SPI_Bus.frequency(1000000);
-
- I2C_Bus.frequency(100000); // set required i2c frequency
-
- FPS_Ret = FPS.Open();
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS NACK Open\r\n");
- }
- else
- {
- FRDM_UART_Debug.printf("FPS Init\r\n");
- FRDM_UART_Debug.printf("FPS F/W = %d , ISO_Size = %d , Serial Num = %s\r\n",FPS.FirmwareVersion,FPS.IsoAreaMaxSize,FPS.DeviceSerialNumber);
- }
+ FRDM_Data_Tx.baud(115200);
- FPS_Ret = FPS.CmosLed(1);
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS NACK LED Set\r\n");
- }
-
- wait(1);
- if(DG_Motion == 1)
- {
- FRDM_UART_Debug.printf("Motion detected, press Finger within 5 seconds to Start\r\n");
-
- FPS_Delay = 5000;
- FPS_Ret = FPS_Wait_Time(1,false,&FPS_Delay);
- if(FPS_Ret == 1)
- {
- FPS_Func();
- }
- }
- FRDM_UART_Debug.printf("Start sampling data\r\n"); // Starting point
while (1)
{
- Amm_Out = 0;
- Volt_Out = 0;
- Light_Out = 0;
- Thermo_Out = 0;
- Temp_Out = 0;
- Hum_Out = 0;
- Motion_Out = 0;
-
- // Copy Motion values
-
- Motion_Out = DG_Motion;
-
- // Ammeter
-
- SPI_High_byte = 0;
- SPI_Low_byte = 0;
- Temp_f_1 = 0.00;
- Temp_f_2 = 0.00;
- Temp_i_1 = 0;
- Temp_i_2 = 0;
- Temp_i_3 = 0;
- I2C_Cmd[0] = 0;
- I2C_Cmd[1] = 0;
- I2C_Cmd[2] = 0;
- loop_count = 0;
-
- SPI_CS_AMM = 0;
-
- SPI_High_byte = SPI_Bus.write(0);
- SPI_Low_byte = SPI_Bus.write(0);
-
- SPI_CS_AMM = 1;
-
- Temp_f_1 = (( SPI_High_byte & 0x1F ) << 7 ) | (( SPI_Low_byte >> 1 ));
-
- Temp_f_2= (float)(( Temp_f_1 * 1.00 ) / 4096.00 ); // Converting to volts
-
- Amm_Out = (float)(( Temp_f_2 - 0.50 ) * 1000.00);
-
- if(FPS_Auth)
- FRDM_UART_Debug.printf("Current value = %f mA\r\n", Amm_Out);
- wait_ms(100);
-
- // Voltmeter
-
- SPI_High_byte = 0;
- SPI_Low_byte = 0;
- Temp_f_1 = 0.00;
- Temp_f_2 = 0.00;
- Temp_i_1 = 0;
- Temp_i_2 = 0;
- Temp_i_3 = 0;
- I2C_Cmd[0] = 0;
- I2C_Cmd[1] = 0;
- I2C_Cmd[2] = 0;
- loop_count = 0;
-
- SPI_CS_VOLT = 0;
-
- SPI_High_byte = SPI_Bus.write(0);
- SPI_Low_byte = SPI_Bus.write(0);
-
- SPI_CS_VOLT = 1;
-
- Temp_f_1 = ((SPI_High_byte & 0x1f) << 7) | ((SPI_Low_byte >> 1));
-
- Temp_f_2 = (float)((Temp_f_1 * 33) / 4096); // show value in volts.
-
- Volt_Out = (float)(Temp_f_2 - 16.5);
-
- if(FPS_Auth)
- FRDM_UART_Debug.printf("Voltage value = %f V\r\n", Volt_Out);
- wait_ms(100);
-
- //ambient light
-
- SPI_High_byte = 0;
- SPI_Low_byte = 0;
- Temp_f_1 = 0.00;
- Temp_f_2 = 0.00;
- Temp_i_1 = 0;
- Temp_i_2 = 0;
- Temp_i_3 = 0;
- I2C_Cmd[0] = 0;
- I2C_Cmd[1] = 0;
- I2C_Cmd[2] = 0;
- loop_count = 0;
-
- I2C_Cmd[0] = 0x01; //configuration register
- I2C_Cmd[1]= 0xCC; //configuration data
- I2C_Cmd[2]= 0x01; //configuration data
-
- I2C_Bus.write(Light_I2C_Addr, I2C_Cmd, 3);
-
- I2C_Cmd[0] = 0x00; // data register
-
- I2C_Bus.write(Light_I2C_Addr, I2C_Cmd, 1);
-
- wait_ms(100);
-
- I2C_Bus.read(Light_I2C_Addr, I2C_Cmd, 2);
-
- Temp_i_1= I2C_Cmd[0]>>4;
- Temp_i_2= (I2C_Cmd[0]-(Temp_i_1<<4))*256+I2C_Cmd[1];
-
- for(loop_count = 0,Temp_i_3 = 1 ; loop_count < Temp_i_1 ; Temp_i_3 = Temp_i_3 * 2,loop_count++);
-
- Light_Out= (Temp_i_2 * Temp_i_3) / 100;
-
- if(FPS_Auth)
- FRDM_UART_Debug.printf("Lux = %.2f\n\r", Light_Out);
- wait_ms(100);
-
- // Thermocouple
-
- SPI_High_byte = 0;
- SPI_Low_byte = 0;
- Temp_f_1 = 0.00;
- Temp_f_2 = 0.00;
- Temp_i_1 = 0;
- Temp_i_2 = 0;
- Temp_i_3 = 0;
- I2C_Cmd[0] = 0;
- I2C_Cmd[1] = 0;
- I2C_Cmd[2] = 0;
- loop_count = 0;
-
- Temp_f_1 = AN_Thermo.read_u16();
-
- Temp_f_1 = (( Temp_f_1 / 65536 ) * 330);
-
- Thermo_Out = Temp_f_1;
-
- if(FPS_Auth)
- FRDM_UART_Debug.printf("Thermocouple volt diff = %.2f C\r\n",Thermo_Out);
- wait_ms(100);
-
- // Temp and Humidity
+
+ int error = 0;
+ uint16_t Temp = 0;
+ error = sensor.readData();
+ if(error != 0)
+ FRDM_UART_Debug.printf("Error: %d\n", error);
- SPI_High_byte = 0;
- SPI_Low_byte = 0;
- Temp_f_1 = 0.00;
- Temp_f_2 = 0.00;
- Temp_i_1 = 0;
- Temp_i_2 = 0;
- Temp_i_3 = 0;
- I2C_Cmd[0] = 0;
- I2C_Cmd[1] = 0;
- I2C_Cmd[2] = 0;
- loop_count = 0;
-
- Temp_i_1 = DHT_Temp_Hum.readData();
- if (Temp_i_1 == 0) // Read success
- {
- //wait_ms(1000);
- Temp_f_1 = DHT_Temp_Hum.ReadTemperature(FARENHEIT);
- Temp_f_2 = DHT_Temp_Hum.ReadHumidity();
- }
- else // Read failure
- {
- Temp_f_1 = 0;
- Temp_f_2 = 0;
- }
-
- Temp_Out = Temp_f_1;
- Hum_Out = Temp_f_2;
-
- if(FPS_Auth)
- FRDM_UART_Debug.printf("Temperature = %4.2f F , Humidity = %4.2f \r\n",Temp_Out,Hum_Out);
- wait_ms(100);
-
- //if(FPS_Auth)
- FRDM_UART_Debug.printf("Sending Data to Server\r\n");
- ESP_8266_TX_Data();
-
- FPS_Delay = 15000;
-
-FPS_Check_Again:
- FPS_Ret = FPS_Wait_Time(1,true,&FPS_Delay);
- if(FPS_Ret == 1)
- {
- FRDM_UART_Debug.printf("Motion detected, press Finger within %d seconds to Authenticate and display data\r\n",FPS_Delay/1000);
- FPS_Ret = FPS_Wait_Time(1,false,&FPS_Delay);
- if(FPS_Ret == 1)
- {
- FPS_Func();
- goto FPS_Check_Again;
- }
- else if(FPS_Delay > 99)
- {
- FRDM_UART_Debug.printf("Remaining delay is %d\r\n",FPS_Delay);
- goto FPS_Check_Again;
- }
- }
- else if(FPS_Delay > 99)
- {
- FRDM_UART_Debug.printf("Remaining delay is %d\r\n",FPS_Delay);
- goto FPS_Check_Again;
- }
-
- //wait(15);
-
- }
-}
-
-int FPS_Wait_Time(int press,bool Det_Mot, unsigned long *ms_time)
-{
- for(;*ms_time>99;)
- {
- if((FPS.IsPress() == press) || ((Det_Mot == true) && (DG_Motion == 1)))
- return 1;
- else
- {
- *ms_time-=100;
- wait_ms(100);
- }
- }
- return 0;
- /*
- for(;(FPS.IsPress() != press);wait_ms(100),*ms_time-=100);
- if(*ms_time >= 99)
- return 1;
- else
- return 0;
- */
-}
-
-void FPS_Func(void)
-{
- int Temp_i_1 = 0;
- int Temp_i_2 = 0;
- int Temp_i_3 = 0;
- int Temp_i_4 = 0;
- int loop_count = 0;
- int FPS_Ret = 0;
- int FPS_Attempt = 1;
- int FPS_Enroll_ID = 0;
- unsigned long FPS_Param = 0;
- unsigned short FPS_Resp = 0;
- unsigned long FPS_Delay = 0;
- char FPS_Enroll_Pass[20];
-
- FRDM_UART_Debug.printf("FPS Select Option:\r\n1. Verify ID \r\n2. Enroll ID\r\n3. Delete ID \r\n4. Quit \r\n");
- FRDM_UART_Debug.scanf("%d",&Temp_i_4);
-
- switch(Temp_i_4)
- {
- case 1:
-
- FRDM_UART_Debug.printf("FPS VERIFICATION\r\n");
- FRDM_UART_Debug.printf("FPS Press finger to start\r\n");
-
- FPS_Delay = 10000;
- FPS_Wait_Time(1,false,&FPS_Delay);
-
- //Verify
- FPS_Ret = FPS.Capture(1);
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS Verification failed, place finger properly\r\n");
- FPS_Auth = false;
- goto loop_end;
- }
-
- FRDM_UART_Debug.printf("FPS Captured\r\n");
-
- FPS_Ret = FPS.Identify();
- if(FPS_Ret != -1)
- {
- FRDM_UART_Debug.printf("FPS Authentication PASSED with ID = %d \r\n",FPS_Ret);
- FPS_Auth = true;
- goto loop_end;
- }
- else
- {
- FRDM_UART_Debug.printf("FPS Authentication FAILED \r\n");
- FPS_Auth = false;
- goto loop_end;
- }
- break;
+ Temp_Out = sensor.ReadTemperature(FARENHEIT);
- case 2:
- FRDM_UART_Debug.printf("FPS ENROLL\r\n");
-
- for(FPS_Attempt = 3;FPS_Attempt >= 1;FPS_Attempt --)
- {
- FRDM_UART_Debug.printf("FPS Enter Enroll passoword\r\n");
- FRDM_UART_Debug.scanf("%s",&FPS_Enroll_Pass[0]);
-
- if(FPS_Enroll_Pass == FPS_ENROLL_PASS)
- {
- FRDM_UART_Debug.printf("FPS Wrong Enroll passoword %d attempts left\r\n",FPS_Attempt);
- }
- else
- break;
- }
-
- if(FPS_Attempt < 1)
- {
- FRDM_UART_Debug.printf("FPS Enroll Password authentication failed \r\n");
- goto loop_end;
- }
-
- FRDM_UART_Debug.printf("FPS Enroll passoword Authenticated\r\n");
-
- for(FPS_Enroll_ID = 0; FPS_Enroll_ID <20 ;FPS_Enroll_ID++)
- {
- FPS_Ret = FPS.CheckEnrolled(FPS_Enroll_ID);
- if(FPS_Ret == 0)
- continue;
- else
- break;
- }
-
- FRDM_UART_Debug.printf("FPS Enroll ID %d\r\n",FPS_Enroll_ID);
-
- if(FPS_Enroll_ID < 20)
- {
- FRDM_UART_Debug.printf("FPS Starting enrolling, place finger on Sensor when LED glows\r\n");
-
- FPS_Ret = FPS.CmosLed(0);
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS Enroll Failed try again\r\n");
- goto loop_end;
- }
-
- FPS_Param = FPS_Enroll_ID;
-
- FPS_Ret = FPS.SendRecv(FPS.CMD_EnrollStart,&FPS_Param,&FPS_Resp);
- if((FPS_Ret != 0) || (FPS_Resp != FPS.CMD_Ack))
- {
- FRDM_UART_Debug.printf("FPS Enroll Failed try again\r\n");
- goto loop_end;
- }
-
- Temp_i_1 = 1;
-
- for(Temp_i_2 = 1;Temp_i_2 < 10 ; Temp_i_2++)
- {
- for(;Temp_i_1 <= 3 ; Temp_i_1++,Temp_i_2 = 1)
- {
- FPS_Delay = 10000;
- FPS_Wait_Time(0,false,&FPS_Delay);
-
- FPS_Ret = FPS.CmosLed(1);
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS Enroll Failed trying again\r\n");
- continue;
- }
-
- for(Temp_i_3 = 1;Temp_i_3 <= 10;Temp_i_3++)
- {
-
- FRDM_UART_Debug.printf("FPS Place finger on Sensor NOW %d\r\n",Temp_i_1);
- FPS_Delay = 10000;
- FPS_Wait_Time(1,false,&FPS_Delay);
-
- if(FPS.Capture(1) == 0)
- break;
-
- wait_ms(500);
- }
-
- if(Temp_i_2 > 10)
- {
- FRDM_UART_Debug.printf("FPS Enroll Failed trying again\r\n");
- continue;
- }
-
- FPS_Ret = FPS.Enroll_N(Temp_i_1);
- if(FPS_Ret != 0)
- {
- FRDM_UART_Debug.printf("FPS Enroll Failed trying again\r\n");
- continue;
- }
-
- FPS_Ret = FPS.CmosLed(0);
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS Enroll Failed trying again\r\n");
- continue;
- }
-
- FRDM_UART_Debug.printf("FPS REMOVE finger on Sensor NOW\r\n");
- }
- }
-
- FPS_Ret = FPS.CheckEnrolled(FPS_Enroll_ID);
- if(FPS_Ret == 0)
- {
- FRDM_UART_Debug.printf("FPS Enroll PASSED\r\n");
- goto loop_end;
- }
- else
- {
- FRDM_UART_Debug.printf("FPS Enroll FAILED\r\n");
- goto loop_end;
- }
- }
- else
- {
- FRDM_UART_Debug.printf("FPS All ID's are full, swithcing to ID delete mode\r\n");
- goto delete_fps_id;
- }
- break;
+ Temp = Temp_Out;
+ FRDM_Data_Tx.printf("%d\n",Temp);
+ FRDM_UART_Debug.printf("Temp is %f\r\n",Temp_Out);
- case 3:
- // Delete ID
-delete_fps_id:
- FRDM_UART_Debug.printf("FPS DELETE ID, enter option select\r\n1. Delete specific ID \r\n2. Delete All \r\n3. Quit\r\n");
- FRDM_UART_Debug.scanf("%d",&Temp_i_1);
-
- switch (Temp_i_1)
- {
- case 1:
- case 2:
- for(FPS_Attempt = 3;FPS_Attempt >= 1;FPS_Attempt --)
- {
- FRDM_UART_Debug.printf("FPS Enter Enroll passoword\r\n");
- FRDM_UART_Debug.scanf("%s",&FPS_Enroll_Pass[0]);
-
- if(FPS_Enroll_Pass == FPS_ENROLL_PASS)
- {
- FRDM_UART_Debug.printf("FPS Wrong Enroll passoword %d attempts left\r\n",FPS_Attempt);
- }
- else
- break;
- }
-
- FRDM_UART_Debug.printf("FPS Password Authenticated\r\n");
-
- if(Temp_i_1 == 1)
- {
- FRDM_UART_Debug.printf("FPS Enter ID to delete\r\n");
- FRDM_UART_Debug.scanf("%d",&Temp_i_2);
-
-
- FPS_Ret = FPS.DeleteID(Temp_i_2);
- if(FPS_Ret != 0)
- {
- FRDM_UART_Debug.printf("FPS Unable to delete ID %d\r\n",Temp_i_2);
- break;
- }
- else
- FRDM_UART_Debug.printf("FPS ID %d has been deleted\r\n",Temp_i_2);
- }
- else if(Temp_i_1 == 2)
- {
- for(FPS_Enroll_ID = 0; FPS_Enroll_ID <20 ;FPS_Enroll_ID++)
- {
- FPS_Ret = FPS.DeleteID(FPS_Enroll_ID);
- }
-
- for(FPS_Enroll_ID = 0; FPS_Enroll_ID <20 ;FPS_Enroll_ID++)
- {
- FPS_Ret = FPS.CheckEnrolled(FPS_Enroll_ID);
- if(FPS_Ret != 0)
- continue;
- else
- break;
- }
-
- if(FPS_Enroll_ID == 20)
- {
- FRDM_UART_Debug.printf("FPS All ID's deleted\r\n");
- }
- else
- {
- FRDM_UART_Debug.printf("FPS Delete ALL failed at ID %d\r\n",FPS_Enroll_ID);
- }
- }
-
- break;
- case 3:
- default:
- goto loop_end;
- break;
- }
-
- break;
-
- case 4:
- default:
- goto loop_end;
- }
-loop_end:
- FRDM_UART_Debug.printf("FPS Loop End reached\r\n");
-
- FPS_Ret = FPS.CmosLed(1);
- if(FPS_Ret == -1)
- {
- FRDM_UART_Debug.printf("FPS LED ON Failed Loop End\r\n");
- //continue;
- }
-
-}
-
-
-
-void ESP_8266_Init(void)
-{
- FRDM_UART_Debug.printf("Initializing and Reset ESP\r\n");
-
- ESP_8266_UART.Reset(); //RESET ESP
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 400); //receive a response from ESP
- //if(FPS_Auth)
- //FRDM_UART_Debug.printf(ESP_8266_CMD_Recv); //Print the response onscreen
- wait(2);
-
- strcpy(ESP_8266_CMD_Send,"AT");
- ESP_8266_UART.SendCMD(ESP_8266_CMD_Send);
- if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Send);
- //wait(2);
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 400);
- if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Recv);
- wait(0.1);
-
- strcpy(ESP_8266_CMD_Send,"AT+CWMODE=1");
- ESP_8266_UART.SendCMD(ESP_8266_CMD_Send);
- if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Send);
- wait(2);
-
-
- if(!strcmp(ESP_8266_CMD_Recv,"WIFI CONNECTED"))
- {
- strcpy(ESP_8266_CMD_Send,"AT+CWJAP=\"");
- strcat(ESP_8266_CMD_Send,WIFI_SSID);
- strcat(ESP_8266_CMD_Send,"\",\"");
- strcat(ESP_8266_CMD_Send,WIFI_PASS);
- strcat(ESP_8266_CMD_Send,"\"");
-
- ESP_8266_UART.SendCMD(ESP_8266_CMD_Send);
- //if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Send);
wait(5);
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 400);
- //if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Recv);
+
}
- else
- FRDM_UART_Debug.printf("Wifi was preconfigured\r\n");
-
- strcpy(ESP_8266_CMD_Send,"AT+CIPMUX=0");
- ESP_8266_UART.SendCMD(ESP_8266_CMD_Send);
- //if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Send);
- //wait(2);
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 400);
- //if(FPS_Auth)
- FRDM_UART_Debug.printf(ESP_8266_CMD_Recv);
-
-}
-
-void ESP_8266_TX_Data(void)
-{
-
- //ESP updates the Status of Thingspeak channel//
-
- strcpy(ESP_8266_CMD_Send,"AT+CIPSTART=");
- strcat(ESP_8266_CMD_Send,"\"TCP\",\"");
- strcat(ESP_8266_CMD_Send,IP);
- strcat(ESP_8266_CMD_Send,"\",80");
-
- ESP_8266_UART.SendCMD(ESP_8266_CMD_Send);
- if(FPS_Auth)
- FRDM_UART_Debug.printf("S\r\n%s",ESP_8266_CMD_Send);
- //wait(2);
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 1000);
- if(FPS_Auth)
- FRDM_UART_Debug.printf("R\r\n%s",ESP_8266_CMD_Recv);
- wait(1);
-
- /*
- float Amm_Out = 0;
- float Volt_Out = 0;
- float Light_Out = 0;
- float Thermo_Out = 0;
- float Temp_Out = 0;
- float Hum_Out = 0;
- int Motion_Out = 0;
- */
- sprintf(ESP_8266_CMD_Send,"GET https://api.thingspeak.com/update?key=JJAOBK32WOINKT00&field1=%d&field2=%d&field3=%f&field4=%f&field5=%f&field6=%f&field7=%f&field8=%f\r\n"
- ,Motion_Out,Finger_Out,Amm_Out,Volt_Out,Light_Out,Thermo_Out,Temp_Out,Hum_Out);
-
- int i=0;
- for(i=0;ESP_8266_CMD_Send[i]!='\0';i++);
- i++;
- char cmd[255];
-
- sprintf(cmd,"AT+CIPSEND=%d",i); //Send Number of open connection and Characters to send
- ESP_8266_UART.SendCMD(cmd);
- if(FPS_Auth)
- FRDM_UART_Debug.printf("S\r\n%s",cmd);
- while(i<=20 || ESP_8266_CMD_Recv == ">")
- {
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 1000);
- wait(100);
- i++;
- }
- //if(FPS_Auth)
- FRDM_UART_Debug.printf("R\r\n%s",ESP_8266_CMD_Recv);
-
- ESP_8266_UART.SendCMD(ESP_8266_CMD_Send); //Post value to thingspeak channel
- if(FPS_Auth)
- FRDM_UART_Debug.printf("S\r\n%s",ESP_8266_CMD_Send);
-
- while(i<=20 || ESP_8266_CMD_Recv == "OK")
- {
- ESP_8266_UART.RcvReply(ESP_8266_CMD_Recv, 1000);
- wait(100);
- i++;
- }
- //if(FPS_Auth)
- FRDM_UART_Debug.printf("R\r\n%s",ESP_8266_CMD_Recv);
-
-}
-
+}
\ No newline at end of file