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Copy pathLGACSendDemo.ino
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LGACSendDemo.ino
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#include <IRremote.h>
#include <Wire.h>
IRsend irsend;
// not used
int RECV_PIN = 11;
IRrecv irrecv (RECV_PIN);
const int AC_TYPE = 0;
// 0 : TOWER
// 1 : WALL
//
int AC_HEAT = 0;
// 0 : cooling
// 1 : heating
int AC_POWER_ON = 0;
// 0 : off
// 1 : on
int AC_AIR_ACLEAN = 0;
// 0 : off
// 1 : on --> power on
int AC_TEMPERATURE = 27;
// temperature : 18 ~ 30
int AC_FLOW = 1;
// 0 : low
// 1 : mid
// 2 : high
// if AC_TYPE =1, 3 : change
//
const int AC_FLOW_TOWER[3] = {0, 4, 6};
const int AC_FLOW_WALL[4] = {0, 2, 4, 5};
unsigned long AC_CODE_TO_SEND;
int r = LOW;
int o_r = LOW;
byte a, b;
void ac_send_code(unsigned long code)
{
Serial.print("code to send : ");
Serial.print(code, BIN);
Serial.print(" : ");
Serial.println(code, HEX);
irsend.sendLG(code, 28);
}
void ac_activate(int temperature, int air_flow)
{
int AC_MSBITS1 = 8;
int AC_MSBITS2 = 8;
int AC_MSBITS3 = 0;
int AC_MSBITS4 ;
if ( AC_HEAT == 1 ) {
// heating
AC_MSBITS4 = 4;
} else {
// cooling
AC_MSBITS4 = 0;
}
int AC_MSBITS5 = temperature - 15;
int AC_MSBITS6 ;
if ( AC_TYPE == 0) {
AC_MSBITS6 = AC_FLOW_TOWER[air_flow];
} else {
AC_MSBITS6 = AC_FLOW_WALL[air_flow];
}
int AC_MSBITS7 = (AC_MSBITS3 + AC_MSBITS4 + AC_MSBITS5 + AC_MSBITS6) & B00001111;
AC_CODE_TO_SEND = AC_MSBITS1 << 4 ;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS2) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS3) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS4) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS5) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS6) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS7);
ac_send_code(AC_CODE_TO_SEND);
AC_POWER_ON = 1;
AC_TEMPERATURE = temperature;
AC_FLOW = air_flow;
}
void ac_change_air_swing(int air_swing)
{
if ( AC_TYPE == 0) {
if ( air_swing == 1) {
AC_CODE_TO_SEND = 0x881316B;
} else {
AC_CODE_TO_SEND = 0x881317C;
}
} else {
if ( air_swing == 1) {
AC_CODE_TO_SEND = 0x8813149;
} else {
AC_CODE_TO_SEND = 0x881315A;
}
}
ac_send_code(AC_CODE_TO_SEND);
}
void ac_power_down()
{
AC_CODE_TO_SEND = 0x88C0051;
ac_send_code(AC_CODE_TO_SEND);
AC_POWER_ON = 0;
}
void ac_air_clean(int air_clean)
{
if ( air_clean == 1) {
AC_CODE_TO_SEND = 0x88C000C;
} else {
AC_CODE_TO_SEND = 0x88C0084;
}
ac_send_code(AC_CODE_TO_SEND);
AC_AIR_ACLEAN = air_clean;
}
void setup()
{
Serial.begin(38400);
delay(1000);
Wire.begin(7);
Wire.onReceive(receiveEvent);
Serial.println(" - - - T E S T - - - ");
/* test
ac_activate(25, 1);
delay(5000);
ac_activate(27, 2);
delay(5000);
*/
}
void loop()
{
ac_activate(25, 1);
delay(5000);
ac_activate(27, 0);
delay(5000);
if ( r != o_r) {
/*
# a : mode or temp b : air_flow, temp, swing, clean, cooling/heating
# 18 ~ 30 : temp 0 ~ 2 : flow // on
# 0 : off 0
# 1 : on 0
# 2 : air_swing 0 or 1
# 3 : air_clean 0 or 1
# 4 : air_flow 0 ~ 2 : flow
# 5 : temp 18 ~ 30
# + : temp + 1
# - : temp - 1
# m : change cooling to air clean, air clean to cooling
*/
Serial.print("a : ");
Serial.print(a);
Serial.print(" b : ");
Serial.println(b);
switch (a) {
case 0: // off
ac_power_down();
break;
case 1: // on
ac_activate(AC_TEMPERATURE, AC_FLOW);
break;
case 2:
if ( b == 0 | b == 1 ) {
ac_change_air_swing(b);
}
break;
case 3: // 1 : clean on, power on
if ( b == 0 | b == 1 ) {
ac_air_clean(b);
}
break;
case 4:
if ( 0 <= b && b <= 2 ) {
ac_activate(AC_TEMPERATURE, b);
}
break;
case 5:
if (18 <= b && b <= 30 ) {
ac_activate(b, AC_FLOW);
}
break;
case '+':
if ( 18 <= AC_TEMPERATURE && AC_TEMPERATURE <= 29 ) {
ac_activate((AC_TEMPERATURE + 1), AC_FLOW);
}
break;
case '-':
if ( 19 <= AC_TEMPERATURE && AC_TEMPERATURE <= 30 ) {
ac_activate((AC_TEMPERATURE - 1), AC_FLOW);
}
break;
case 'm':
/*
if ac is on, 1) turn off, 2) turn on ac_air_clean(1)
if ac is off, 1) turn on, 2) turn off ac_air_clean(0)
*/
if ( AC_POWER_ON == 1 ) {
ac_power_down();
delay(100);
ac_air_clean(1);
} else {
if ( AC_AIR_ACLEAN == 1) {
ac_air_clean(0);
delay(100);
}
ac_activate(AC_TEMPERATURE, AC_FLOW);
}
break;
default:
if ( 18 <= a && a <= 30 ) {
if ( 0 <= b && b <= 2 ) {
ac_activate(a, b);
}
}
}
o_r = r ;
}
delay(100);
}
void receiveEvent(int howMany)
{
a = Wire.read();
b = Wire.read();
r = !r ;
}