DIY Polarity Tester positive negative finder
Ever encountered difficulty in knowing if you've connected the wires right? Tired of pulling out your multimeter every time? Need something more compact and simpler to help you out? If you do, then this Instructable is for you!
Read on to learn how to make a very simple, handy and useful polarity checker.
NOTE: Do not be afraid! You won't need to order anything. Everything used here can be found in old electronics and this is so simple that even beginners can make this.
In order to build a simple polarity checker, you need the following ingredients:
Two (2) LEDs (green and red or any other color)
Four (4) rectifier diodes (1N4007)/any other will do fine
One (1) 1 kilo-ohm resistor
A small breadboard (optional)
Wires
A small project box/enclosure
Soldering iron + Solder wire
Heat shrink tubing or heat-shrinkless sleeve
Some screws
Some cardboard or an acrylic sheet
The circuit for the polarity checker is very easy, just follow the diagram while making it.
In the diagram, R1 represents the 1K-ohm resistor while the D3, D4, D5 and D6 represent the diodes (1N4007). The D1 and D2 are the red and green LEDs respectively.
Also, to make the test leads, you may use the leads from an old multimeter or make them yourself using the caps from old pens or thumbtacks (the ones with the colored plastic heads). As soon as I make them myself, I'll put it up here; That's a promise!
Another thing! I did not use a breadboard while making this, because I could not find one which was small enough to fit into my project box, but you can use a breadboard if you want to! It would make the job easier and save you the time. It took me to cut the wires, solder them and then put on the wire sleeve.
If you are using a project box similar to mine which does not have a cover, then use the cardboard or the acrylic sheet to make. Simply trace the outline of the project box onto the cardboard or acrylic sheet and then cut it out. Align it with the screw holes of the project box and use a pin (or directly the screws) to make holes in the cardboard. A soldering iron or drill may be used to make holes in the acrylic sheet.
After completing the circuit, enclose it in your project box and tighten the screws!
Once you have made the circuit, test it by putting the leads on the terminals of any battery or DC power source. If the positive test lead is kept on the positive terminal of the battery and the negative lead on the negative terminal, then the green LED will light up. The opposite will occur (i.e. the red LED will light up) if the test leads are reversed (i.e. the positive lead on the negative terminal and negative lead on positive terminal).
If the LEDs do not light up, then:
Check if you have installed them correctly.
Refer to the wiring diagram in the previous step.
(The negative terminal of an LED is usually on the side on which the LED is flat, as in the given picture.)
Once you solve the problems (if there are any!), the polarity checker is ready! Please do not be afraid to connect it to higher voltage and current sources. I have connected this polarity tester uptill 12 Volts, 2.5 Amps and 6 Volts, 6 Amps and it has worked fine. The diodes and the resistor give a lot of resistance and hence, prevent damage.
P.S. If you need any help regarding this, want to make some suggestions for improvement or have any questions then please do not hesitate to contact me.
Good luck and Happy Polarity Checking!
DIY Polarity Tester positive negative finder
Ever encountered difficulty in knowing if you've connected the wires right? Tired of pulling out your multimeter every time? Need something more compact and simpler to help you out? If you do, then this Instructable is for you!
Read on to learn how to make a very simple, handy and useful polarity checker.
NOTE: Do not be afraid! You won't need to order anything. Everything used here can be found in old electronics and this is so simple that even beginners can make this.
In order to build a simple polarity checker, you need the following ingredients:
Two (2) LEDs (green and red or any other color)
Four (4) rectifier diodes (1N4007)/any other will do fine
One (1) 1 kilo-ohm resistor
A small breadboard (optional)
Wires
A small project box/enclosure
Soldering iron + Solder wire
Heat shrink tubing or heat-shrinkless sleeve
Some screws
Some cardboard or an acrylic sheet
The circuit for the polarity checker is very easy, just follow the diagram while making it.
In the diagram, R1 represents the 1K-ohm resistor while the D3, D4, D5 and D6 represent the diodes (1N4007). The D1 and D2 are the red and green LEDs respectively.
Also, to make the test leads, you may use the leads from an old multimeter or make them yourself using the caps from old pens or thumbtacks (the ones with the colored plastic heads). As soon as I make them myself, I'll put it up here; That's a promise!
Another thing! I did not use a breadboard while making this, because I could not find one which was small enough to fit into my project box, but you can use a breadboard if you want to! It would make the job easier and save you the time. It took me to cut the wires, solder them and then put on the wire sleeve.
If you are using a project box similar to mine which does not have a cover, then use the cardboard or the acrylic sheet to make. Simply trace the outline of the project box onto the cardboard or acrylic sheet and then cut it out. Align it with the screw holes of the project box and use a pin (or directly the screws) to make holes in the cardboard. A soldering iron or drill may be used to make holes in the acrylic sheet.
After completing the circuit, enclose it in your project box and tighten the screws!
Once you have made the circuit, test it by putting the leads on the terminals of any battery or DC power source. If the positive test lead is kept on the positive terminal of the battery and the negative lead on the negative terminal, then the green LED will light up. The opposite will occur (i.e. the red LED will light up) if the test leads are reversed (i.e. the positive lead on the negative terminal and negative lead on positive terminal).
If the LEDs do not light up, then:
Check if you have installed them correctly.
Refer to the wiring diagram in the previous step.
(The negative terminal of an LED is usually on the side on which the LED is flat, as in the given picture.)
Once you solve the problems (if there are any!), the polarity checker is ready! Please do not be afraid to connect it to higher voltage and current sources. I have connected this polarity tester uptill 12 Volts, 2.5 Amps and 6 Volts, 6 Amps and it has worked fine. The diodes and the resistor give a lot of resistance and hence, prevent damage.
P.S. If you need any help regarding this, want to make some suggestions for improvement or have any questions then please do not hesitate to contact me.
Good luck and Happy Polarity Checking!
No comments:
Post a Comment