Introduction:
The IRTEMP module from Freetronics is an infrared remote temperature sensor that can be incorporated into your Arduino / microcontroller projects. It can scan a temperature between -33 to +220 C, and can be operated using a 3.3 to 5V power supply. It can be powered directly from the Arduino 5V pin. This module can also provide an ambient temperature reading if required.
The Servo used in this project is a SG-5010 standard servo which will be utilised to display the temperature reading from the IRTEMP module.
The Servo used in this project is a SG-5010 standard servo which will be utilised to display the temperature reading from the IRTEMP module.
Parts Required:
Freetronics Eleven or any compatible Arduino.
Freetronics IRTEMP module
MG-995 or SG-5010 Standard servo
Mini Breadboard 4.5cm x 3.5cm
Protoshieldand female header pins (not essential - but makes it more tidy)
9V Battery and Battery Clip
Wiresto connect it all together
Gauge parts:
Paper (to print the face of the gauge), and some glue to stick it to the wood.
MDF Standard panel (3mm width) - for the top and base of the gauge.
Galvanized bracket (25x25x40mm)
Timber screws: Hinge-long threads csk head Phillips drive (4G x 12mm)
The Video:
The Arduino Sketch:
The above sketch was created using Fritzing.
Arduino Code:
You can download the Arduino IDE from this site.
The IRTemp gauge requires a driver library to be installed into the Arduino IDE.
The latest IRTemp driver library can be found here.
1 | /* ------------------------------------------------------- |
The code above was formatted using hilite.me
Notes:
Ambient temperature: If you want to get the ambient temperature from the IRTEMP module, then have a look at lines 58-59.
Servo Angles: You will notice on line 36, the maximum servo angle used was 175. This value was obtained through trial and error (see below).
Calibrating the servo angles
You may need to calibrate your servo in order to move through an angle of 0 to 180 degrees without straining the motor.Change the minAngle on line 35to a safe value (for example: 10), and the maxAngle on line 36 to a value like 170. Remove the comment tag (//) on line 76, and then run the sketch. Lower the minAngle until it reaches the minimum value on the gauge, making sure that the servo doesn't sound like it is straining to keep it in position.
Add the comment tag (//) back in, and then take out the comment tag for line 79. And follow a similar process, until you reach the maximum value on the gauge. Once again, make sure that the servo is not making a straining noise to hold it at that value. Make sure to add the comment tag back in, when you have finished the calibration.
In this example, the servo's minAngle value was 0, and maxAngle value was 175 after calibration, however, as you can see from the video, the physical range of the servo turned out to be 0 to 180 degrees.
Servo Angles: You will notice on line 36, the maximum servo angle used was 175. This value was obtained through trial and error (see below).
Calibrating the servo angles
You may need to calibrate your servo in order to move through an angle of 0 to 180 degrees without straining the motor.Change the minAngle on line 35to a safe value (for example: 10), and the maxAngle on line 36 to a value like 170. Remove the comment tag (//) on line 76, and then run the sketch. Lower the minAngle until it reaches the minimum value on the gauge, making sure that the servo doesn't sound like it is straining to keep it in position.
Add the comment tag (//) back in, and then take out the comment tag for line 79. And follow a similar process, until you reach the maximum value on the gauge. Once again, make sure that the servo is not making a straining noise to hold it at that value. Make sure to add the comment tag back in, when you have finished the calibration.
In this example, the servo's minAngle value was 0, and maxAngle value was 175 after calibration, however, as you can see from the video, the physical range of the servo turned out to be 0 to 180 degrees.
The Temperature Gauge Picture
The following gauge was created in Microsoft Excel using an X-Y chart. Data labels were manually repositioned in order to get the desired numerical effect.
No comments:
Post a Comment