我已经为我的遥控器解码了我的 IR 代码,并让它们在草图中运行时工作,请参阅 IR CODE。
我的 RFID 猫喂食器草图也运行良好,请参阅 RFID 代码。
然而,我无法将红外遥控器与任何其他阻塞功能一起使用,特别是这个 RFID 阅读器草图......每个 skecth 似乎都需要一直等待才能为信号做好准备。我想要做的是让 RFID 阅读器正常运行,但能够通过 IR 遥控器将其置于手动模式。任何帮助或指示将不胜感激。我有尝试将两者集成的代码,但它从来没有正常工作,请让我知道这是否有帮助,谢谢!
红外代码
#include <IRremote.h>
int RECV_PIN = 4;
IRrecv irrecv(RECV_PIN);
decode_results results;
void setup(){
irrecv.enableIRIn(); // Start the receiver
Serial.begin(2400);
}
// Compare two tick values, returning 0 if newval is shorter,
// 1 if newval is equal, and 2 if newval is longer
// Use a tolerance of 20%
int compare(unsigned int oldval, unsigned int newval) {
if (newval < oldval * .8) {
return 0;
}
else if (oldval < newval * .8) {
return 2;
}
else {
return 1;
}
}
// Use FNV hash algorithm: http://isthe.com/chongo/tech/comp/fnv/#FNV-param
#define FNV_PRIME_32 16777619
#define FNV_BASIS_32 2166136261
/* Converts the raw code values into a 32-bit hash code.
* Hopefully this code is unique for each button.
*/
unsigned long decodeHash(decode_results *results) {
unsigned long hash = FNV_BASIS_32;
for (int i = 1; i+2 < results->rawlen; i++) {
int value = compare(results->rawbuf[i], results->rawbuf[i+2]);
// Add value into the hash
hash = (hash * FNV_PRIME_32) ^ value;
}
return hash;
}
void loop() {
if (irrecv.decode(&results)) {
unsigned long hash = decodeHash(&results);
switch (hash) {
case 0x4AB0F7B6: // any button held down
Serial.println("Button Repeat");
break;
case 0x2D4AFCCE: // Power
Serial.println("Power");
break;
case 0xE8187BAA: // EQ
Serial.println("EQ");
break;
case 0x95D01E65: // CD/Tuner
Serial.println("CD/Tuner");
break;
case 0xE20BA29: // Mute
Serial.println("Mute");
break;
default:
Serial.print("Unknown ");
Serial.println(hash, HEX);
}
irrecv.resume(); // Resume decoding (necessary!)
}
}
射频识别码
/*** Cord Slatton
* date 12-13-2012 **/
#include <IRremote.h>
#define RFID_ENABLE 2 //to RFID ENABLE
#define CODE_LEN 10 //Max length of RFID tag
#define START_BYTE 0x0A
#define STOP_BYTE 0x0D
#define MOTOR_RUN_LENGTH 1000 //time, in ms, to run door motor
char tag[CODE_LEN];
int pwm_b = 11; //PWM control for motor outputs 3 and 4 is on digital pin 11
int dir_b = 13; //direction control for motor outputs 3 and 4 is on digital pin 13
int door_status = 1; // 1 == closed, 0 == open
//PIR sensor
const int sensorPIR = A0;
unsigned long rfidHitTime = 0; //when did we get last rfid hit?
unsigned long pirHitTime = 0; //when did we get last PIR hit?
unsigned int pirClose = 0;
unsigned int rfidClose = 0;
void setup() {
Serial.begin(2400); //parallax rfid reader seems to only like serial 2400
Serial.println("RoboFeeder Online");
//rfid
pinMode(RFID_ENABLE,OUTPUT);
//motor
pinMode(pwm_b, OUTPUT);
pinMode(dir_b, OUTPUT);
//PIR
pinMode(sensorPIR, INPUT);
digitalWrite(sensorPIR, LOW);
Serial.println("Warming up PIR...");
delay(10000);
Serial.println("PIR ready");
Serial.println("RoboFeeder startup test: Door");
openDoor();
delay(2500);
closeDoor();
Serial.println("RoboFeeder door test complete");
}
void loop() {
delay(1500);
enableRFID();
getRFIDTag(); //waiting function, till gets any tag
disableRFID();
openDoor();
sendCode();
Serial.flush();
clearCode();
}
/*** Clears out the memory space for the tag to 0s. */
void clearCode() {
for(int i=0; i<CODE_LEN; i++) {
tag[i] = 0;
}
}
/*** Sends the tag to the computer. */
void sendCode() {
Serial.print("TAG:");
for(int i=0; i<CODE_LEN; i++) {
Serial.print(tag[i]);
}
Serial.println("\r");
}
/**************************************************************/
/******************** RFID Functions ***********************/
/**************************************************************/
void enableRFID() {
digitalWrite(RFID_ENABLE, LOW);
}
void disableRFID() {
digitalWrite(RFID_ENABLE, HIGH);
}
/*** Blocking function, waits for and gets the RFID tag. */
void getRFIDTag() {
byte next_byte;
while(Serial.available() <= 0) {
if(door_status == 0){ //open
pirDetection();
rfidClose = millis() - rfidHitTime;
pirClose = millis() - pirHitTime;
Serial.print("RFID Close: ");
Serial.print(rfidClose);
Serial.print(" - PIR Close: ");
Serial.println(pirClose);
//if door has been open for more than a certain amount of time with no rfid hit and PIR no hit for certain time
if( (rfidClose > 30000) && (pirClose > 10000) ){
closeDoor();
}
}
}
pirHitTime = 0;
if((next_byte = Serial.read()) == START_BYTE) {
byte bytesread = 0;
while(bytesread < CODE_LEN) {
if(Serial.available() > 0) { //wait for the next byte
if((next_byte = Serial.read()) == STOP_BYTE) break;
tag[bytesread++] = next_byte;
}
}
rfidHitTime = millis(); //keep track of when last rfid hit was
}
}
/******************** Motor Functions ***********************/
void openDoor() {
if(door_status == 1){
motorRun(150);
digitalWrite(dir_b, HIGH); //Set motor direction, 1 low, 2 high
Serial.println("Door opening");
delay(MOTOR_RUN_LENGTH);
motorStop();
door_status = 1 - door_status;
}
}
void closeDoor() {
if(door_status == 0){
motorRun(150);
digitalWrite(dir_b, LOW); //Reverse motor direction, 1 high, 2 low
Serial.println("Door closing");
delay(MOTOR_RUN_LENGTH);
motorStop();
door_status = 1 - door_status;
}
}
void motorRun(int speed) {
analogWrite(pwm_b, speed); //set motor to run at speed variable value
}
void motorStop() {
analogWrite(pwm_b, 0); //set motor to run at 0
}
/******************** PIR Functions ***********************/
boolean pirDetection() {
//returns true if PIR analog reading has been rising for more than 10 cycles, false if has been falling
int counter = 0;
int pirSensorReading[10];
int avgReading = 0;
while(counter < 10){
pirSensorReading[counter] = analogRead(sensorPIR);
avgReading += pirSensorReading[counter];
counter++;
delay(300);
}
avgReading = avgReading/10;
Serial.print("Avg. PIR: ");
Serial.print(avgReading);
Serial.print(" - Last PIR: ");
Serial.println( pirSensorReading[9] );
if( (pirSensorReading[9] > avgReading+1) || (analogRead(sensorPIR) > 700) ){
pirHitTime = millis(); //keep track of when last PIR hit was
return true;
}
else if(pirSensorReading[9] <= avgReading){
return false;
}
}