Fridge Door Detector Alarm
Fridge Door Detector Alarm
Fridge Door Detector Alarm
Fridge Door Detector Alarm
Fridge Door Detector Alarm
Fridge Door Detector Alarm
Fridge Door Detector Alarm
Fridge Door Detector Alarm
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Has it ever happened to you to go to the fridge and discover that its door is slightly opened ... and probably most your food went to the trash ... Ghhhrr that jammed door that needs an extra push to make it close properly .......

This instructables will show you how to make an alarm system that will beep a buzzer if you leave the fridge door opened for a long time to remind to you to close the door. All new fridges on the market have this option built in, but some may want to upgrade their old fridges.

This video shows the system in action:


  • The Fridge Door Detector Alarm is easy to make - uses only 8 components including the batteries!
  • Easy to set to your preferences for the time that the door is left opened - fully customizable!
  • Cheap - less than 5kg potatos.
  • Easy to install - installation means sticking a small box inside your fridge using sticky tape!
  • Easy to maintain - change batteries just every four-five months!
  • Encourages thinking and logic problem solving for the young electricians that will try to make it!
  • Finally - saves electricity costs if you forget the door opened for a long time.

  • Update History:
  • 1st Oct 2012 - Added several schematics in steps 4 and 5.
  • 4th Oct 2012 - Visually changed the code appearance in step 3.
  • 7th Oct 2012 - Instructions made more clear in step 3.
  • NEW: 8th Oct 2012 - Major changes in the ATtiny85 code: better power mode - enabled power save mode to reduce consumption. New code in step 3.
  • NEW: 9th Oct 2012 - Added description for how to set the circuit sensitivity up. See step 7.
  • Step 1: The Idea

    Fridge Door Detector Alarm
    What the Fridge Door Detector Alarm does is to detect whether there is some ambient light in the food compartment of your fridge or freezer. This happens when you open the door and the Fridge Door Detector Alarm system senses some light that may be coming from the bulb light in the fridge or from the door opening itself.

    The Brain

    I use an ATtiny85 microcontroller which is easy to program with an Arduino if you have one ;) Than you can write the code that will suit your needs perfectly - for example one may want to hear the buzzer 2- seconds after opening the door ... or maybe 45 or 2 minutes - you decide!

    Using a microcontroler minimises the use of external elements which saves you time and cost!

    The Components
  • ATtiny85 microcontroller
  • Arduino Uno
  • Prototyping board + wires
  • Buzzer
  • Switch
  • Plastic box
  • 180 kOhms resistor
  • 0-100 kOhms variable resistor
  • LDR - light dependent resistor
  • Batteries
  • Empty PCB to solder the schematic
  • Board holder for the ATtiny

  • The Tools
  • Soldering iron
  • Double sided sticky tape
  • Cable cutters and knife
  • Step 2: ATtiny85 Programming Hardware Connections

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    As shown on the diagram:

    ATtiny pin Arduino Uno pin

    1 10
    5 11
    6 12
    7 13
    4 GND
    8 5V

    Step 3: Programming Software Development

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    You can follow my steps or alternatively here is a link that will show you how to connect the ATtiny to the Arduino: http://hlt.media.mit.edu/?p=1695

    Steps to connect ATtiny85 to Arduino Uno for programming:
  • Download this file: https://github.com/damellis/attiny/zipball/Arduino1
  • Unzip and put the "attiny" folder in the "hardware" folder where tha Arduino is installed on your PC. The path looks like this: Documents > Arduino > hardware > attiny> (Other downloaded files... etc)
  • Start the Arduino Application and open the ArduinoISP from the FIle>Examples menu
  • Upload the sketch to the Arduino Uno.
  • Now change the following settings:
  • Check the ATtiny85 (8 Mhz) checkbox in the Tools > Board menu.
  • Check the: "Arduino as ISP" in the Tools > Programmer menu.
  • I have uploaded two versions of the software.

    The first works on Arduino Uno only and this is because I made the experimental circuit on the Arduino firstly. See the pictures for the camponent arangement that I made. You have a choice of lots of pins for the inputs and outputs, so it depends on you how you name them in the coding. I used pin A0 for the analogue input from the LDR and then I have pins 2, 3 and 4 for the rest of the circuit.

    YOU can skip connecting all components to the Arduino if you prefer. There is no need to do it, you can go straight on the ATtiny programming.

    Basic software understanding - READ THIS TO SEE HOW THE SOFTWARE WORKS

    The basic program concept is that every second there is a pin that powers the LDR and some current flows through it and the variable resistor. Then the middle point between the LDR and the variable resistor is measured from the microcontroller and the measurement (voltage between 0 and 5 volts) is compared to a set value (2.5 volts in my case) and a logic decision is made.

    In one case nothing happens and the measurement continues on and on.

    In the other case an LED lights up to show that the door has been opened. At the same time a timer starts counting seconds and if it reaches the set number of seconds (i.e. 10 seconds), then a beep sounds until the door is closed. While seconds are counted down and the beeps sound, measurements are also taken to see what is the situation with the door. We will be using an Arduinho Uno to program the ATtiny85.


    For the Attiny Version 02:

    /* Fridge Door Alarm Detector Version 02 Written by Pavel Mihaylov and Tatqna Mihaylova 11 September 2012 This version is ready to be uploaded to ATtiny85 microcontroller using Arduino Uno as a programmer. */ int pwr = 1; //(Could be pin 3 on Arduino) hard pin 6 on ATtiny int alarm = 4; //(Could be pin 4 on Arduino) hard pin 3 on ATtiny int door = 2; //(Could be pin 5 on Arduino) hard pin 7 on ATtiny int LDR = 3; //(Could be pin A0 on Arduino) hard pin 2 on ATtiny int time_door_open = (3)*1000; //Time that sets the beep alarm on after the fridge door is opened int time = 50; //Time delay int time_tone = 40; //Time delay to make the beep tone int time_tone2 = 20; //Time delay to make the beep tone float trig = 4.5; //Trigger level for the LDR float LDRval = 0; //Initial value of the LDR measurement level int door_left = 0; //Variable to set whether the door is left opened (1) or closed (0) extern volatile unsigned long timer0_overflow_count; //This is required to know when a rollover occurs void setup() { pinMode(pwr, OUTPUT); pinMode(alarm, OUTPUT); pinMode(door, OUTPUT); pinMode(LDR, INPUT); } //Main program loop void loop() { if(read_light()) { door_left = 1; timer0_overflow_count = 0; unsigned long start = millis(); // This is the time countdown when the door is opened while( (millis() - start)

    For the ATtiny Version 03:

    Changes to v02 - basically sleep mode is enabled. The ATtiny sleeps on every cycle for the duration of 4 seconds. While sleeping power consumption is very small - in the order of 7uA.

    /* Fridge Door Alarm Detector Version 03 Written by Pavel Mihaylov and Tatqna Mihaylova 09 October 2012 This version is ready to be uploaded to ATtiny85 microcontroller using Arduino Uno as a programmer. For full instructions see: http://www.instructables.com/id/Fridge-Door-Detector-Alarm/ */ // Following lines are essential to enable sleep mode #include #include #ifndef cbi #define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit)) #endif #ifndef sbi #define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit)) #endif volatile boolean f_wdt = 1; int pwr = 1; //(Could be pin 3 on Arduino) hard pin 6 on ATtiny int alarm = 4; //(Could be pin 4 on Arduino) hard pin 3 on ATtiny int door = 2; //(Could be pin 5 on Arduino) hard pin 7 on ATtiny int LDR = 3; //(Could be pin A0 on Arduino) hard pin 2 on ATtiny int time_door_open = (3)*300; //Time that sets the beep alarm on after the fridge door is opened int time = 50; //Time delay int time_tone = 40; //Time delay to make the beep tone int time_tone2 = 20; //Time delay to make the beep tone float trig = 3.5; //Trigger level for the LDR float LDRval = 0; //Initial value of the LDR measurement level int door_left = 0; //Variable to set whether the door is left opened (1) or closed (0) extern volatile unsigned long timer0_overflow_count; //This is required to know when a rollover occurs //Pins setup void setup() { pinMode(pwr, OUTPUT); pinMode(alarm, OUTPUT); pinMode(door, OUTPUT); pinMode(LDR, INPUT); setup_watchdog(8); // approximately 4 seconds sleep // 0=16ms, 1=32ms,2=64ms,3=128ms,4=250ms,5=500ms 6=1 sec,7=2 sec, 8=4 sec, 9= 8sec } //Main program loop void loop() { // if (f_wdt==1) { // wait for timed out watchdog / flag is set when a watchdog timeout occurs f_wdt=0; // reset flag // if(read_light()) //In case the door is opened this statement will be true { door_left = 1; timer0_overflow_count = 0; unsigned long start = millis(); // This is the time countdown when the door is opened while( (millis() - start)

    For the Arduino Version 01:

    /* Fridge Door Alarm Detector Version 01 Written by Pavel Mihaylov and Tatqna Mihaylova 11 September 2012 This version is ready to be uploaded to Arduino Uno microcontroller using Arduino Uno as a programmer. */ int led = 2; int pwr = 3; int alarm = 4; int door = 5; int LDR = A0; int time_door_open = (3)*1000; // value in brackets is in seconds int time = 500; int time2 = time*2; int time_tone = 80; //make the beep tone int tx = 1; //set this to 1 if you want to monitor the serial port debugging info, 0 otherwise float trig = 2.5; float LDRval = 0; int door_left = 0; //whether the door is left opened (1) or closed (0) extern volatile unsigned long timer0_overflow_count; // the setup routine runs once when you press reset: void setup() { // initialize the digital pin as an output. if(tx) Serial.begin(9600); pinMode(led, OUTPUT); pinMode(pwr, OUTPUT); pinMode(alarm, OUTPUT); pinMode(door, OUTPUT); pinMode(LDR, INPUT); } // the loop routine runs over and over again forever: void loop() { if (tx) delay(time); if (tx){ Serial.print("--------------------------------------------\n");} read_light(); if(read_light()) { if (tx) delay(time); if (tx){ Serial.print("Door just opened!\n");} digitalWrite(door, HIGH); door_left = 1; int n = 0; timer0_overflow_count = 0; unsigned long start = millis(); while( (millis() - start) > Alarm triggered!\n");} alarm_sound(); } else { if (tx) delay(time); if (tx){ Serial.print("Alarm not triggered!\n");} } } else { if (tx) delay(time); if (tx){ Serial.print("Door stays closed!\n");} } delay(time2); } //Function to read the light sensor (LDR) and return either 0 (door is closed) or 1 (door is opened) int read_light() { digitalWrite(led, HIGH); // turn the LED on by making the voltage High digitalWrite(pwr, HIGH); // turn the pwr pin on by making the voltage high to allow a measurement to be taken delay(30); // wait for some time LDRval = analogRead(LDR); // read the sensor value delay(10); // wait for some time digitalWrite(led, LOW); // turn the LED off by making the voltage LOW digitalWrite(pwr, LOW); // turn the pwr pin off by making the voltage low LDRval = LDRval/1024*5; // sensor value is in the range 0 to 1023 and we need it between 0 and 5 - this is the calculation required if (tx) { Serial.print("\nLDR value in volts = "); Serial.println(LDRval); } if(LDRval=0; i--) { digitalWrite(alarm, HIGH); //make beep sound delay(i); digitalWrite(alarm, LOW); //make beep sound } digitalWrite(alarm, LOW); //make beep sound delay(time_tone); digitalWrite(alarm, LOW); //make beep sound for(i = 18; i>=0; i--) { digitalWrite(alarm, HIGH); //make beep sound delay(i); digitalWrite(alarm, LOW); //make beep sound } digitalWrite(alarm, LOW); //make beep sound delay(time_tone); digitalWrite(alarm, LOW); //make beep sound delay(1500); looop1++; read_light(); } delay(2000); //second beep loop now begins looop1 = 0; while(read_light() && looop1=0; i--) { digitalWrite(alarm, HIGH); //make beep sound delay(i); digitalWrite(alarm, LOW); //make beep sound } digitalWrite(alarm, LOW); //make beep sound delay(time_tone); digitalWrite(alarm, LOW); //make beep sound for(i = 18; i>=0; i--) { digitalWrite(alarm, HIGH); //make beep sound delay(i); digitalWrite(alarm, LOW); //make beep sound } digitalWrite(alarm, LOW); //make beep sound delay(time_tone); digitalWrite(alarm, LOW); //make beep sound for(i = 18; i>=0; i--) { digitalWrite(alarm, HIGH); //make beep sound delay(i); digitalWrite(alarm, LOW); //make beep sound } delay(1000); looop1++; read_light(); } //now go on if door is still opened if(read_light()) { delay(3000); //time to restart the two beep loops alarm_sound(); } else { // digitalWrite(alarm, LOW); if (tx) delay(time); if (tx){ Serial.print("Door was just closed by the angry guy!\n");} digitalWrite(door, LOW); } }
    Fridge Door Detector Alarm
    Fridge_Door_Detector_Alarm_Arduino_Uno_v01.zip1 KB
    Fridge Door Detector Alarm
    Fridge_Door_Detector_Alarm_ATtiny85_v02.zip1 KB
    Fridge Door Detector Alarm
    Fridge_Door_Detector_Alarm_ATtiny85_v03_Sleep_Enabled.zip2 KB

    Step 4: Arduino Fridge Door Detector Alarm

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    On Arduino:

    Pin A0 is the analogue input pin.
    Digital pins: 2 is the power pin: each time a measurement of the light is taken, the red LED lights up (this is only for debugging); 3 is just another pin that does the same as pin 2; 4 - there is the buzzer alarm output; 5 - the yellow LED lights up when the fridge door is opened.

    I did both the Arduino and ATtiny circuits on the same breadbord. Both are separate from each other, I only took power supplies from the Arduino for the ATtiny.



    Step 5: ATtiny85 Fridge Door Detector Alarm

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    On ATtiny:

    Pin 2 - Middle point between the LDR and the 0-100kOhms variable resistor
    Pin 3 - Positive terminal for the buzzer
    Pin 4 - Ground, also negative terminal for the buzzer
    Pin 6 - 0-100kOhms variable resistor
    Pin 7 - LED and a current limiting resistor - I used a 100kOhms to limit the power consumption and still be able to see the LED light up
    Pin 8 - Power 2 to 5 V DC

    Now test test test!

    Step 6: Setting The Alarm Time

    Fridge Door Detector Alarm
    The only thing that you would like to change in the code is the time that is needed befor the buzzer starts making beep sounds after you open the fridge door.

    On line 16 in the code, there is a variable called time_door_open.

    It determines this time after you open the door and until you hear the beep sound. It depends on the clock frequency how many seconds the delay will be. I wrote 1000, which on the Arduino Uno would mean 1000 milliseconds = 1 second. But on the ATtiny this is about 9-10 seconds.

    Set this variable to the suitable time that you want the delay to be!

    int time_door_open = (3)*1000 will make the delay 25 seconds.

    Step 7: Setting The Light Detection Sensitivity

    Fridge Door Detector Alarm
    There are two ways to set the light detection senor sensitivity.
  • Analogue - using the potentiometer on the board
  • Digitally - by changing the trig value in the code
  • The trig variable can take any number between 0.00 and 5.00. It is a floating point number, so you can use 3.56 for example.

    Make trig higher (closer to 5.00) to set the sensitivity higher i.e. when you want the sensor to trigger the output if a very little amount of light is present.

    Make trig lower (closer to 0.00) to set the sensitivity lower i.e. when you want the sensor to trigger the output if quite a lot of light is present.

    Step 8: FInal Circuit Diagram

    Fridge Door Detector Alarm
    Here is the final diagram for the ATtiny connections. You can change the order of all pins with the software for the optimum components arangement when you start soldering. I would not reccomend you to change the place of pin 2 - the analogue input .... just because I tried with all other pins and only this one works as an analogue input!

    Step 9: Soldering Time!!!

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    I'm not showing the soldering process itself, there is the final result!

    It is best to solder a holder for the microcontroller, just in case that you want to reprogram it. You'll be able to unplug it, not desolder.

    Step 10: Power And Test

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Test the soldered circuit!

    I use three batteries AA type. Their overal voltage is 4.5 V which is just perfect for the ATtiny.

    Measuring the consumption gives 1mA current up to 2mA with the buzzer sounding. If you use a 3200mAh batteries, this means you will have to change them at intervals = 3200/1.5 [overal consumption] = 2133 hours = 3 months. Not bad!


    Step 11: Fit It All In A Box

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Drill holes for the switch, LED, LDR and the buzzer sound.

    Make it all fit in one box.

    I had to cut off the mounting brackets on the sides of the buzzer to make it fit in.

    Step 12: Final Touches

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Finally attach the switch that connects the battery pack to the 8th pin of the ATtiny and the buzzer. At this stage your circuit should be operating completely and without any problems.

    Step 13: Tape It To The Fridge

    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Fridge Door Detector Alarm
    Finally use some double-sided adhesive tape to mount the alarm system in the fridge!

    Flip the switch and it is done.
     
     

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