Arduino Mega 互換ボード (SainSmart Mega 2560 R3 ATmega2560-16AU) を使用します。このボードには、rtc モジュール (v1.1 ds1307rtc) が取り付けられており、添付のコードで作業しています。TimeAlarms ライブラリを使用しました ( http://www.pjrc.com/teensy/td_libs_TimeAlarms.htmlからダウンロードしました)。) 1 時間ごとにアラームを鳴らします。アラームは 1 時間ごとに異なる分に発生するはずですが、テストのためにすべてを 12 分に設定しました。このコードは、USB、シリアル インターフェイス経由で設定できる正しい時刻を待っています。ほとんどの場合、コードは正常に機能しています。しかし、アラームが作動せず、LED が点滅しないことがあります。なぜ、いつこれが起こるのかわかりませんが、点滅している状態と機能していない状態の間で何の変化もありませんでした。また、正常に動作しない時間はわかりませんが、正しく動作することもありますが、失敗することもあります。失敗した場合、失敗した時間以降のすべての時間も失敗しているように見え、アラームはトリガーされません。TimeAlarms.h で 6 つのアラームの制限があることを知っており、このファイルの変数 dtNBR_ALARMS を 25 に設定します。
ご覧のとおり、rtc とシステム時刻を出力する printTime 関数を実装しましたが、常に両方とも正しいです。
私が間違っていること、または時々失敗する理由を知っている人はいますか?
#include <Time.h>
#include <TimeAlarms.h>
#include <Wire.h>
#include <DS1307RTC.h>
tmElements_t tm;
int pwm_2 = 2;
int pwm_3 = 3;
int pwm_4 = 4;
int pwm_5 = 5;
int pwm_6 = 6;
int pwm_7 = 7;
int pwm_8 = 8;
int pwm_9 = 9;
int pwm_10 = 10;
int pwm_11 = 11;
int pwm_12 = 12;
int pwm_13 = 13;
//delay in the for loops
int dly = 120;
// the setup routine runs once when you press reset:
void setup() {
Serial.begin(9600);
while (!Serial) ; // wait for serial
setSyncProvider(RTC.get); // the function to get the time from the RTC
RTC.read(tm);
setTime(tm.Hour,tm.Minute,tm.Second,tm.Day,tm.Month,tm.Year);
printTime();
//wait for time input via serial, time must be set at every system boot
while(tmYearToCalendar(tm.Year) < 2014) {
Serial.println("wait in time loop, you have to set a time, current time is not correct:");
printTime();
if (Serial.available()) {
time_t t = processSyncMessage();
Serial.println("wait in time loop");
if (t != 0) {
RTC.set(t); // set the RTC and the system time to the received value
setTime(t);
Serial.println("time is succesfully set to");
printTime();
break;
}
}
delay(1000);
}
Serial.println("Time is already set to:");
printTime();
//set alarms for all hours in UTC, not in CET
Alarm.alarmRepeat(0, 12, 0, shotAlarm);
Alarm.alarmRepeat(1, 12, 0, shotAlarm);
Alarm.alarmRepeat(2, 12, 0, shotAlarm);
Alarm.alarmRepeat(3, 12, 0, shotAlarm);
Alarm.alarmRepeat(4, 12, 0, shotAlarm);
Alarm.alarmRepeat(5, 12, 0, shotAlarm);
Alarm.alarmRepeat(6, 12, 0, shotAlarm);
Alarm.alarmRepeat(7, 12, 0, shotAlarm);
Alarm.alarmRepeat(8, 12, 0, shotAlarm);
Alarm.alarmRepeat(9, 12, 0, shotAlarm);
Alarm.alarmRepeat(10, 12, 0, shotAlarm);
Alarm.alarmRepeat(11, 12, 0, shotAlarm);
Alarm.alarmRepeat(12, 12, 0, shotAlarm);
Alarm.alarmRepeat(13, 12, 0, shotAlarm);
Alarm.alarmRepeat(14, 12, 0, shotAlarm);
Alarm.alarmRepeat(15, 12, 0, shotAlarm);
Alarm.alarmRepeat(16, 12, 0, shotAlarm);
Alarm.alarmRepeat(17, 12, 0, shotAlarm);
Alarm.alarmRepeat(18, 12, 0, shotAlarm);
Alarm.alarmRepeat(19, 12, 0, shotAlarm);
Alarm.alarmRepeat(20, 12, 0, shotAlarm);
Alarm.alarmRepeat(21, 12, 0, shotAlarm);
Alarm.alarmRepeat(22, 12, 0, shotAlarm);
Alarm.alarmRepeat(23, 12, 0, shotAlarm);
// declare pin 2-13 to be an output:
pinMode(pwm_2, OUTPUT); //red
pinMode(pwm_3, OUTPUT); //blue
pinMode(pwm_4, OUTPUT); //green
pinMode(pwm_5, OUTPUT); //red
pinMode(pwm_6, OUTPUT); //blue
pinMode(pwm_7, OUTPUT); //green
pinMode(pwm_8, OUTPUT); //red
pinMode(pwm_9, OUTPUT); //blue
pinMode(pwm_10, OUTPUT); //green
pinMode(pwm_11, OUTPUT); //red
pinMode(pwm_12, OUTPUT); //blue
pinMode(pwm_13, OUTPUT); //green
}
void shotAlarm() {
Serial.println("SHOTALARM");
analogWrite(pwm_2, 255);
analogWrite(pwm_5, 255);
analogWrite(pwm_8, 255);
analogWrite(pwm_11, 255);
analogWrite(pwm_3, 255);
analogWrite(pwm_4, 255);
analogWrite(pwm_6, 255);
analogWrite(pwm_7, 255);
analogWrite(pwm_9, 255);
analogWrite(pwm_10, 255);
analogWrite(pwm_12, 255);
analogWrite(pwm_13, 255);
for(int a = 0; a < 60; a = a+1) {
for (int i = 0; i < 255; i = i + 1) {
analogWrite(pwm_2, i); //red
analogWrite(pwm_5, i); //red
analogWrite(pwm_8, i); //red
analogWrite(pwm_11, i); //red
delay (5);
}
for (int i = 255; i > 0; i = i - 1) {
analogWrite(pwm_2, i); //red
analogWrite(pwm_5, i); //red
analogWrite(pwm_8, i); //red
analogWrite(pwm_11, i); //red
delay (5);
}
}
}
void loop() {
Alarm.delay(0);
Serial.println("new loop");
printTime();
analogWrite(pwm_2, 0);
analogWrite(pwm_5, 0);
analogWrite(pwm_8, 0);
analogWrite(pwm_11, 0);
analogWrite(pwm_3, 255);
analogWrite(pwm_4, 255);
analogWrite(pwm_6, 255);
analogWrite(pwm_7, 255);
analogWrite(pwm_9, 255);
analogWrite(pwm_10, 255);
analogWrite(pwm_12, 255);
analogWrite(pwm_13, 255);
for (int i = 255; i > 0; i = i - 1) {
analogWrite(pwm_4, i); //green
analogWrite(pwm_7, i); //green
analogWrite(pwm_10, i); //green
analogWrite(pwm_13, i); //green
Alarm.delay (dly);
}
for (int i = 0; i < 255; i = i + 1) {
analogWrite(pwm_2, i); //red
analogWrite(pwm_5, i); //red
analogWrite(pwm_8, i); //red
analogWrite(pwm_11, i); //red
Alarm.delay (dly);
}
for (int i = 255; i > 0; i = i - 1) {
analogWrite(pwm_3, i); //blue
analogWrite(pwm_6, i); //blue
analogWrite(pwm_9, i); //blue
analogWrite(pwm_12, i); //blue
Alarm.delay (dly);
}
for (int i = 0; i < 255; i = i + 1) {
analogWrite(pwm_4, i); //green
analogWrite(pwm_7, i); //green
analogWrite(pwm_10, i); //green
analogWrite(pwm_13, i); //green
Alarm.delay (dly);
}
for (int i = 255; i > 0; i = i - 1) {
analogWrite(pwm_2, i); //red
analogWrite(pwm_5, i); //red
analogWrite(pwm_8, i); //red
analogWrite(pwm_11, i); //red
Alarm.delay (dly);
}
for (int i = 0; i < 255; i = i + 1) {
analogWrite(pwm_3, i); //blue
analogWrite(pwm_6, i); //blue
analogWrite(pwm_9, i); //blue
analogWrite(pwm_12, i); //blue
Alarm.delay (dly);
}
Alarm.delay(0);
}
void printTime() {
if (RTC.read(tm)) {
Serial.print("Ok, RTC Time = ");
print2digits(tm.Hour);
Serial.write(':');
print2digits(tm.Minute);
Serial.write(':');
print2digits(tm.Second);
Serial.print(", Date (D/M/Y) = ");
Serial.print(tm.Day);
Serial.write('/');
Serial.print(tm.Month);
Serial.write('/');
Serial.print(tmYearToCalendar(tm.Year));
Serial.println();
}
else {
if (RTC.chipPresent()) {
Serial.println("The DS1307 is stopped. Please run the SetTime");
Serial.println("example to initialize the time and begin running.");
Serial.println();
}
else {
Serial.println("DS1307 read error! Please check the circuitry.");
Serial.println();
}
}
Serial.print("Ok, System Time = ");
print2digits(hour());
Serial.write(':');
print2digits(minute());
Serial.write(':');
print2digits(second());
Serial.print(", Date (D/M/Y) = ");
Serial.print(day());
Serial.write('/');
Serial.print(month());
Serial.write('/');
Serial.print(year());
Serial.println();
}
void print2digits(int number) {
if (number >= 0 && number < 10) {
Serial.write('0');
}
Serial.print(number);
}
/* code to process time sync messages from the serial port */
#define TIME_HEADER "T" // Header tag for serial time sync message
unsigned long processSyncMessage() {
unsigned long pctime = 0L;
const unsigned long DEFAULT_TIME = 1357041600; // Jan 1 2013
if(Serial.find(TIME_HEADER)) {
pctime = Serial.parseInt();
return pctime;
if( pctime < DEFAULT_TIME) { // check the value is a valid time (greater than Jan 1 2013)
pctime = 0L; // return 0 to indicate that the time is not valid
}
}
return pctime;
}