mem, there (as always I think) is two bug I had to correct in your library:
in the function updateNextTrigger,
I removed the check if next trigger is not yet in the future:
if the check is already in the future but you just changed the alarm to something else, the updatetrigger won't be effective immediately
because trying to set the alarm to 0 was leaving alarm in a strange state before.
all in all I am more and more convinced that 0 should be treated as a valid alarm value meaning 0:00:00 today, the main reason for that when setting an alarm to 24:00:00 (which currently work) if you read the value and apply the usual hour() minute() second() it reply 00:00:00 which is kind of wrong.
To avoid this I disabled the possibility to set an alarm at midnight : 00:00:00 and 24:00:00 are not valid time in my project
Hello
My name is Joe
I have made clock from this page "The TC18 – My IV-18 Based VFD Tube Clock – vonnieda.org" but it doesn't have alarm,so I would like to add it.
This is first time for me to do something with arduino,can someone add alarm part for clock sketch for me please.
I need to convert UTC time (from my LS00031 GPS unit) to local time (i.e +10.5 hours). Sure I could code this but I expect this has been done many times before. A pointer to existing code or library call would be much appreciated. TIA
Looked like part of the sample code is not finished?
time_t gpsTimeSync(){
// returns time if avail from gps, else returns 0
unsigned long fix_age = 0 ;
gps.get_datetime(NULL, NULL, &fix_age);
unsigned long time_since_last_fix;
if(fix_age < 1000)
return gpsTimeToArduinoTime(); // return time only if updated recently by gps
return 0;
}
Always returns False.
After commenting out a few lines...
time_t gpsTimeSync(){
// returns time if avail from gps, else returns 0
unsigned long fix_age = 0 ;
gps.get_datetime(NULL, NULL, &fix_age);
//unsigned long time_since_last_fix;
//if(fix_age < 1000)
return gpsTimeToArduinoTime(); // return time only if updated recently by gps
//return 0;
}
Seems to work...took a while before I got a synch....?
I figured "fix_age" wasn't working, so commented it out, but now I'm getting same time reported every time it starts (7:37:12 8 Jan 2000 from memory). I know the GPS is working as I've got another program that reads from it just fine, so I'm pretty sure the problem is in the way I'm using timeGPS, or with timeGPS itself.
I'd really like to nail this one ...!
PS: you say it took a while before you got synch ... can you estimate how long that was (a few secs, or mins or longer?)
I am having a problem compiling a sketch in Arduino 1.0 that compiled and uploaded just fine in Arduino 23. Any suggestions on how I can fix these errors:
C:\Arduino\arduino-1.0\libraries\TimeAlarms\TimeAlarms.cpp:25:22: error: WProgram.h: No such file or directory
C:\Arduino\arduino-1.0\libraries\TimeAlarms\TimeAlarms.cpp: In member function 'void TimeAlarmsClass::delay(long unsigned int)':
C:\Arduino\arduino-1.0\libraries\TimeAlarms\TimeAlarms.cpp:256: error: 'millis' was not declared in this scope
you need to read through "Readme.txt" file on the downlaod opage for Arduino 1.0. It explains a few changes that you will need to make, such as replacing "Wprogram.h" with "Arduino.h" in you programs and any libraries using it.
There may be a new version of the library posted to correct the problem - look wherever you got it. If not, find the file C:\Arduino\arduino-1.0\libraries\TimeAlarms\TimeAlarms.cpp and open it with notepad. At line 25 you'll find the reference to Wprogram.h which you can change to Arduino.h and save.
Hi there,
I'm making a self watering system, that has a reed switch that indicates if the water level is low, a moisture sensor for the soil, and a battery voltmeter to let me know when I should recharge my batteries, and a relay to turn on the pump.
Here is what I want to do.
Blink the LED if my battery gets below 7 volts - it would be nice to check this every 5 minutes or so.
If the water level goes below a certain point, I also want the LED to blink - want to check the value while pumping water
If the moisture is < 900, start the pump for 5 seconds, wait 10 seconds, then check the moisture sensor. If it's still <900 continue until it isn't
I want to run this code every 3 days (don't want too much water going to my plant)
I've been trying to work with the Time library to do the following:
check battery level every 5 minutes
wait 10 seconds for another moisture reading before starting the pump again
Run the code after 36 hours
I've taken out the time code from the sketch because I wanted to show that this working how I want it, just not with respect to the time I'm looking for.
Just getting a little frustrated with all these times. Any help or suggestions would be greatly appreciated.
/*
* Gardening Project v1.2
* Combining the capacitive sensor, moisture sensor, pump and led indicator.
* Reading how much water is in the container.
* Reading how much moisture is in the ground.
* Pumping water if moisture is dry.
* LED
* Red - low battery , blink
*/
#include <Bounce.h>
#include <Time.h>
#include <TimeAlarms.h>
#define LED 9 // LED on pin 9
#define SWITCH 10 // Defines the Reed switch on digital pin 10
int reed_val = 0; // used to store the input of the reed switch
Bounce bouncer = Bounce( SWITCH,10 );
// Volt monitoring
int batteryPin = 1;
float vout = 0;
int value = 0;
float R1 = 991; // !! resistance of R1 !!
float R2 = 995; // !! resistance of R2 !!
float vin = 0;
// Moisture Sensor
int moistureSensor = 5; // Sensor pin 5, other pin connected to GRN through a 10k resistor
int moisture_val; // Storing the current value of the Sensor pin
int waterpump = 7; // Initializing pin 7 for waterpump
void setup() {
Serial.begin(9600);
pinMode(SWITCH, INPUT); // Defines the switch as an input
digitalWrite(SWITCH, HIGH);
pinMode(LED,OUTPUT); // LED as an output
pinMode(waterpump,OUTPUT); // Setting waterpump to output
digitalWrite(waterpump,LOW); // waterpump off
}
void loop() {
analogReference(EXTERNAL);
bouncer.update();
int reed_val= bouncer.read();
moisture_val = analogRead(moistureSensor);
// Volt Monitoring
value = analogRead(batteryPin);
vout= (value * 5)/1024.0; //voltage coming out of the voltage divider
vin = vout / (R2/(R1+R2)); //voltage to display
// Debugging with LCD
Serial.print("V: "); // Print out V:
Serial.println(vin); // This is where the number of volts are displayed
Serial.print("M: ");
Serial.println(moisture_val);
Serial.print("Reed: ");
Serial.print(reed_val);
delay(100);
if (vin < 7.0) {
digitalWrite(waterpump,LOW);
digitalWrite(LED,HIGH); // LED turns on
delay(200);
digitalWrite(LED,LOW);
delay(200);
}
// Reed Switch monitoring
if (reed_val==HIGH) {
Serial.println("Fill Water");
digitalWrite(waterpump,LOW);
digitalWrite(LED,HIGH);
delay(200);
digitalWrite(LED,LOW);
delay(200);
}
// Check whether input is LOW (switch closed)
if (moisture_val < 900 && reed_val==LOW) {
Serial.println ("Turning on pump"); // Debugging or adding add to LCD
digitalWrite(waterpump,HIGH); // waterpump on
delay(5000);
}
digitalWrite(waterpump,LOW);
}
I don't see that you need the Time or TimeAlarm libraries at all.
What you want to do can be done with a pencil and paper (variables on the Arduino) and a watch/clock (the millis() function on the Arduino).
On each pass through loop, see if it is time to check the battery level. If it is, check the battery level, and set the lastChecked time to now.
See if it is time to turn the water on. If it is, turn the water on and set the lastWaterOn time to now.
Do the same for moisture reading.
The 3 day pause affects everything? The plant dries out and dies during that 3 days, and that's OK? The battery does dead in that 3 days, and that's OK?
If you turn the system off for 3 days (i.e. do nothing in that time) and then check the water level, and it is fine, so you turn off for three days again, it could take a long time before you check the battery level. So, be careful that you check everything before going into do-nothing-for-three days mode.
Frankly, I think you have some contradictory requirements, which might explain your difficulties implementing them.
Are you suggesting not to use the Time library at all? Instead use millis() ?
One of the reasons I would like to use the Time library is due to the draw of mA. If I use the code without the Time library I'm drawing about 30mA, then when the relay turns on it uses up to 90mA.
If I'm counting using the Time library I seem to be only using 20mA while it's counting, then of course it uses the same 90mA when the relay kicks in.
My thought was that as long as I'm checking the battery every 5 minutes or so, if the battery drops below 7 volts, I will be notified by a blinking LED and go and charge it. Since this is outside of the 3 day pause, i would be notified at least within 5 minutes and not have to wait for a full 3 days before I found out.
The plant is a palm and it's winter...so I doubt the plant is going to completely dry out in 3 days, plus I figured this should save battery power. I can change the amount of time to check later if I find it drying out too fast. I understand what you're saying about checking every three days, perhaps I should start with every day to check.
Battery check - every 5 minutes
Waterlevel check - once every day
Moisture check - once every day
Yes , I want to wake the Arduino every 5 minutes to check the battery and water level.
Not sure what you mean about incrementing a counter for the number of times the timer has disturbed you sleep?
Yes, stay awake and blink the LED if the voltage is low.
Wake the Arduino every 24 hours and check if the moisture value is below 900 (900 is wet soil). If it needs watering, turn on pump for 5 seconds, then wait 5 seconds before reading the value again. If it needs watering, turn on pump for another 5 seconds, then wait 5 seconds before reading value again. Continue this procedure until the value is above 900.
The Arduino starts. It does some stuff, and goes to sleep. 5 minutes later, the alarm goes off. That's 1. It does some stuff, and goes to sleep. 5 minutes later, the alarm goes off. That's 2. It does some stuff, and goes to sleep. 5 minutes later, the alarm goes off. That's 3...
That is counting. When the counter gets to 12, that's 1 hour. When it gets to 288, that's 1 day.
Thanks for all your help.
I have it working as you suggested (sort of).
The one thing that has me a bit stumped right now is that I can't seem to get the waterpump to turn on and off every 5 seconds (while it's within the Water (); function) so that it can re-check the moisture value and the reed switch value.
I have listed the code that I have so far.
You'll notice that I have the "Battery" function set to run every 5 seconds ( this is for testing purposes only). Normally I will have this set for Alarm.timerRepeat(0,5,0,Battery);
The Counter == 5 in the loop is also for testing purposes only. Normally this would be set as you suggested.
if (Counter == 12) {
Water();
Counter = 0;
}
/*
* Gardening Project v1.2.3
* Combining the capacitive sensor, moisture sensor, pump and led indicator.
* Reading how much water is in the container.
* Reading how much moisture is in the ground.
* Pumping water if moisture is dry.
* LED
* Red - low battery , blink
*/
#include <Bounce.h>
#include <Time.h>
#include <TimeAlarms.h>
#define LED 9 // LED on pin 9
#define SWITCH 10 // Defines the Reed switch on digital pin 10
int reed_val = 0; // used to store the input of the reed switch
Bounce bouncer = Bounce( SWITCH,10 );
int Counter = 0; // Set counter
int waterCounter = 0; // Set watering counter
// Volt monitoring
int batteryPin = 1;
float vout = 0;
int value = 0;
float R1 = 991; // !! resistance of R1 !!
float R2 = 995; // !! resistance of R2 !!
float vin = 0;
// Moisture Sensor
int moistureSensor = 5; // Sensor pin 5, other pin connected to GRN through a 10k resistor
int moisture_val; // Storing the current value of the Sensor pin
int waterpump = 7; // Initializing pin 7 for waterpump
void setup() {
Serial.begin(9600);
pinMode(SWITCH, INPUT); // Defines the switch as an input
digitalWrite(SWITCH, HIGH);
pinMode(LED,OUTPUT); // LED as an output
pinMode(waterpump,OUTPUT); // Setting waterpump to output
digitalWrite(waterpump,LOW); // waterpump off
// Time
setTime(0,0,0,13,12,11);
Alarm.timerRepeat(5,Battery);
}
void loop() {
// Display the countdown timer
digitalClockDisplay();
Alarm.delay(1000); // wait one second between clock display
if (Counter == 5) {
Water();
Counter = 0;
}
}
// Start of Functions
void Water() {
analogReference(EXTERNAL);
bouncer.update();
int reed_val= bouncer.read();
moisture_val = analogRead(moistureSensor);
Serial.print("M: ");
Serial.println(moisture_val);
// Check whether input is LOW (switch closed)
if (moisture_val < 900 && reed_val==LOW) {
Serial.println ("Turning on pump"); // Debugging or adding add to LCD
digitalWrite(waterpump,HIGH); // waterpump on
Alarm.delay(5000);
bouncer.update();
int reed_val= bouncer.read();
moisture_val = analogRead(moistureSensor);
if (reed_val==HIGH) {
return;
}
}
}
void Battery() {
// Volt Monitoring
analogReference(EXTERNAL);
value = analogRead(batteryPin);
vout= (value * 5)/1024.0; //voltage coming out of the voltage divider
vin = vout / (R2/(R1+R2)); //voltage to display
while (vin < 7.0) {
digitalWrite(waterpump,LOW);
digitalWrite(LED,HIGH); // LED turns on
Alarm.delay(200);
digitalWrite(LED,LOW);
Alarm.delay(200);
}
// Debugging with LCD
Serial.print("V: "); // Print out V:
Serial.println(vin); // This is where the number of volts are displayed
// Reed Switch monitoring
bouncer.update();
int reed_val= bouncer.read();
while (reed_val==HIGH) {
Serial.println("Fill Water");
digitalWrite(waterpump,LOW);
digitalWrite(LED,HIGH);
Alarm.delay(200);
digitalWrite(LED,LOW);
Alarm.delay(200);
bouncer.update();
int reed_val= bouncer.read();
if (reed_val==LOW) {
return;
}
}
Counter++;
}
void digitalClockDisplay() {
// digital clock display of the time
Serial.print(hour());
printDigits(minute());
printDigits(second());
Serial.println();
}
void printDigits(int digits) {
Serial.print(":");
if(digits < 10)
Serial.print('0');
Serial.print(digits);
}
Apparently you do know how to use the Serial.print() function to print values. Use it to print messages, too. How often does Battery() get called. What is the value of Counter in loop?
I don't see anything in your code that puts the Arduino to sleep between Alarm calls to Battery.
Is there any incompatibility between these libraries? #include <Wire.h> #include <Time.h> #include <TimeAlarms.h>
I am working on Arduino 1.0, Windows 7. My aim is to build an intervallometer. It works fine but I do some calculations based on the time from Arduino was started (millis()). The use of Alarm.timerRepeat appears usefull for me. It compiles well alone, but when I try to use this function into my original project, it has no effects: project compiles, but my function is never call.
I was wondering if some libraries were using same ressources (same timer ?).
Hey all just wanting to know if it is possible to parse variable via the functions specified in the setting of alarms.
I have included an example below as i am unsure how to explain it. Not going to be my arduino for a few days and really really want to know if it will work for when i am :D.
Thanking you in advanced.
#include <Time.h>
#include <TimeAlarms.h>
void setup()
{
int length = 1000;
Serial.begin(9600);
setTime(8,29,0,1,1,11); // set time to Saturday 8:29:00am Jan 1 2011
// create alarm
Alarm.alarmRepeat(8,30,0, MorningAlarm(length));
}
void loop(){
digitalClockDisplay();
Alarm.delay(1000); // wait one second between clock display
}
void MorningAlarm(int slen){
Serial.println("Alarm sounding.");
Alarm.delay(slen);
}
void digitalClockDisplay()
{
// digital clock display of the time
Serial.print(hour());
printDigits(minute());
printDigits(second());
Serial.println();
}
void printDigits(int digits)
{
Serial.print(":");
if(digits < 10)
Serial.print('0');
Serial.print(digits);
}