Joe Zacaroli
AC and lights remotely controlled over Wifi, or set to automatic
Revision 1:7fff8f0dce62, committed 2016-06-17
- Comitter:
- jzacaroli
- Date:
- Fri Jun 17 15:35:04 2016 +0000
- Parent:
- 0:e5aa1648b1c5
- Commit message:
- AC/Lights over Wifi
Changed in this revision
| DS1820.lib | Show annotated file Show diff for this revision Revisions of this file |
| main.cpp | Show annotated file Show diff for this revision Revisions of this file |
diff -r e5aa1648b1c5 -r 7fff8f0dce62 DS1820.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/DS1820.lib Fri Jun 17 15:35:04 2016 +0000 @@ -0,0 +1,1 @@ +https://developer.mbed.org/teams/SmOuse/code/DS1820/#cf4f0ea711a7
diff -r e5aa1648b1c5 -r 7fff8f0dce62 main.cpp
--- a/main.cpp Wed Jun 15 14:58:38 2016 +0000
+++ b/main.cpp Fri Jun 17 15:35:04 2016 +0000
@@ -1,18 +1,266 @@
-#include "mbed.h"
+/* Simpler prog based on the serial passthrough code to enable a command line driven test of esp8266
+* wifi modules.
+* NB this uses the mbed sleep() command to form a low power system but on some MCUs this is a problem
+* this works fine on an lpc1768 but not as yet on the KL25Z
+*/
-DigitalOut myled(LED1);
+#include "mbed.h"
+#include "DS1820.h"
+
Serial pc(USBTX, USBRX); // serial terminal for the pc connection
Serial dev(PTE0,PTE1); // for KL25Z... asuming one can't use the PTA1 version which is the stdio
+DigitalOut led1(LED1); // two leds
+DigitalOut led2(LED2); // to allow visual check of bidirectional comms
+DigitalOut led3(LED3); //third led to check status of loading
+DigitalOut rst(PTD7); // single digital pin to drive the esp8266 reset line
+
+
+PwmOut Lights(PTE31); // Output to the lighting system
+AnalogIn V1(PTB0); // Input from the LDR voltage level telling us brightness information
+
+const int MAX_PROBES = 1;
+DS1820* probe[MAX_PROBES];
+DigitalOut fan(PTB11);
+
+bool AUTO = false; //Sets whether we are sending data to the server or not
+float Temp = 0;
+int Dummy = 0;
+float intensity = 0;
+int LightStatus = 0;
+int START = 0;
+
+// subroutine to run anytime a serial interrupt arrives from the device
+// this basically passes everything thatthe device produces on to the pc terminal screen
+/*void dev_recv()
+{
+
+ led1 = !led1;
+ while(dev.readable()) {
+ pc.putc(dev.getc());
+
+ }
+}*/
+// subroutine to service the serial interrupt on the pc connection
+// this is a bit more complex - it takes what the use sends on the pc and copies it on to the device
+// the esp should echo these straight back to the the pc if all is well
+// this also detects the end of command character which is ascii 13 (0x0d) adn adds a linefeed after it =asscii 10 (0x0a)
+/*void pc_recv()
+{
+ char c;
+ led2 = !led2;
+ while(pc.readable()) {
+ c = pc.getc();
+ dev.putc(c);
+ // pc.putc(c); // echo back
+ if(c==13) {
+ dev.putc(10); // send the linefeed to complement the carriage return generated by return key on the pc
+ pc.putc(10);
+ }
+ }
+}
+*/
+void NEWMESSAGE()
+{
+ char message;
+ pc.putc('#');
+ while (dev.readable()) {
+ message= (char)dev.getc();
+ pc.putc(message);
+ if(message==':') {
+ message= (char)dev.getc();
+ break;
+ }
+ }
+ if(message == 'G') {
+ START = 1;
+ }
+ if(message == 'Q') {
+ AUTO=!AUTO;
+ pc.printf("AUTO=!AUTO\r\n",AUTO);
+ pc.putc(message);
+ }
+ if(message == 'K') {
+ fan = 1;
+ pc.putc(message);
+ }
+ if(message == 'L') {
+ fan = 0;
+ pc.putc(message);
+ }
+ if(message == 'Z') {
+ Lights = 0;
+ LightStatus = 0;
+ pc.putc(message);
+ }
+ if(message == 'X') {
+ Lights = 0.1;
+ LightStatus = 1;
+ pc.putc(message);
+ }
+ if(message == 'Y') {
+ Lights = 0.5;
+ LightStatus = 2;
+ pc.putc(message);
+ }
+ if(message == 'W') {
+ Lights = 1;
+ LightStatus = 3;
+ pc.putc(message);
+ }
+}
+
int main()
{
pc.baud(115200);
-// dev.baud(115200);
+ dev.baud(115200);
+ printf("Start \r\n");
+ rst=0;
+ wait(3);
+ rst = 1; // send the esp8266 reset
+ wait(1);
+
- printf("Hello...\r\n");
+ // pc.attach(&pc_recv, Serial::RxIrq); // attach the two interrupt services
+ // dev.attach(&dev_recv, Serial::RxIrq);
+ wait(5);
+ dev.printf("AT+RST\r\n");
+ wait(10);
+ dev.printf("AT+CWJAP=\"BTHub3-WXWX\",\"fdd6f7c682\"\r\n"); //Don't necessarily need this line as it already should connect
+ wait(10);
+ dev.printf("AT+CIPMUX=1\r\n");
+ wait(1);
+ dev.printf("AT+CIPSTART=4,\"TCP\",\"192.168.1.95\",333\r\n");
+ wait(2);
+ /*dev.printf("AT+CIPSEND=4,4\r\n");
+ wait(1);
+ dev.printf("TEST\r\n");
+ wait(1);*/
+
+ dev.attach(&NEWMESSAGE); //Interrupts and tells us to carry on sending data or not
+
+
+
+
+
while(1) {
- myled = 1;
- wait(1.2);
- myled = 0;
- wait(0.2);
+ if(START == 0) {
+ Dummy = 1 - Dummy;
+ //pc.printf("Off");
+ }
+
+ else if(START == 1) {
+ pc.printf("Start = 1\r\n");
+
+ if(AUTO) {//***************AUTOMATIC MODE***********************//
+
+ pc.printf("AUTO\r\n");
+ //Code which reads temperature and sets fan on/off accordingly
+ int i;
+ int devices_found=0;
+ // Initialize the probe array to DS1820 objects
+ for (i = 0; i < MAX_PROBES; i++)
+ probe[i] = new DS1820(D0);
+ // Initialize global state variables
+ probe[0]->search_Rom_setup();
+ // Loop to find all devices on the data line
+ while (probe[devices_found]->search_Rom() and devices_found<MAX_PROBES-1)
+ devices_found++;
+ // If maximum number of probes are found,
+ // bump the counter to include the last array entry
+ if (probe[devices_found]->Rom[0] != 0xFF)
+ devices_found++;
+
+ if (devices_found==0)
+ printf("No devices found");
+ else {
+
+ probe[0]->convert_temperature(DS1820::all_devices);
+ for (i=0; i<devices_found; i++) {
+ Temp = probe[i]->temperature('c');
+ if(Temp>27) {
+ fan = 1;
+ } else {
+ fan = 0;
+ }
+ }
+ }
+
+
+
+ // Code reads a voltage from an LDR and sets brightness of inside lighting accordingly
+
+ float v = 3.3*V1.read();
+
+ if(v<1) {
+ intensity = 0.1;
+ LightStatus = 1;
+ } else if(v<1.6) {
+ intensity = 0.5;
+ LightStatus = 2;
+ } else if(v<2.2) {
+ intensity = 1;
+ LightStatus = 3;
+ } else {
+ intensity = 0;
+ LightStatus = 0;
+ }
+ Lights = intensity;
+
+ pc.printf("reached here");
+
+
+ // if(AUTO) { //This is here to make sure that we're still on AutoMode before sending back data
+ pc.printf("ALights = %d\r\n",LightStatus);
+ pc.printf("ATemp = %3.1f\r\n",Temp);
+ pc.printf("AFan = %d\r\n",fan.read());
+
+ char msg[80];
+ sprintf(msg,"Temp %3.1f\r\nFan %d\r\nLights %d\r\n",Temp,fan.read(),LightStatus);
+ dev.printf("AT+CIPSEND=4,%d\r\n",strlen(msg));
+ wait(0.2);
+ dev.printf("%s",msg);
+ wait(5);
+ // }
+
+
+ } else { //***********************MANUAL MODE**************************//
+ Dummy = 1-Dummy;
+ pc.printf("MANUAL\r\n");
+
+ int i;
+ int devices_found=0;
+ // Initialize the probe array to DS1820 objects
+ for (i = 0; i < MAX_PROBES; i++)
+ probe[i] = new DS1820(D0);
+ // Initialize global state variables
+ probe[0]->search_Rom_setup();
+ // Loop to find all devices on the data line
+ while (probe[devices_found]->search_Rom() and devices_found<MAX_PROBES-1)
+ devices_found++;
+ // If maximum number of probes are found,
+ // bump the counter to include the last array entry
+ if (probe[devices_found]->Rom[0] != 0xFF)
+ devices_found++;
+ if (devices_found==0)
+ printf("No devices found");
+ else {
+ probe[0]->convert_temperature(DS1820::all_devices);
+ for (i=0; i<devices_found; i++) {
+ Temp = probe[i]->temperature('c');
+ }
+ }
+ pc.printf("mLights = %d\r\n",LightStatus);
+ pc.printf("mTemp = %3.1f\r\n",Temp);
+ pc.printf("mFan = %d\r\n",fan.read());
+
+ char msg[80];
+ sprintf(msg,"Temp %3.1f\r\nFan %d\r\nLights %d\r\n",Temp,fan.read(),LightStatus);
+ dev.printf("AT+CIPSEND=4,%d\r\n",strlen(msg));
+ wait(0.2);
+ dev.printf("%s",msg);
+ wait(5);
+ }
+ }
+
}
-}
+}
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