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Testing LED lights is simple with a digital multimeter, which will give you a clear reading of how strong each light is. The brightness of the LED while you test it will also indicate its quality. If you don't have a multimeter to use, a simple coin cell battery holder with leads will let you know if your LED lights are still working.

Method 1
Method 1 of 2:

Using a Multimeter

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  1. Basic multimeters measure just amps, volts, and ohms. To test LED lights you will need a multimeter with a diode setting. Check online or at your local hardware store for mid-to-high-range multimeters, which are more likely to have this feature than inexpensive models. [1]
    • A decent mid-range multimeter will likely cost between $50-100 USD.
    • Opt for a digital multimeter over an analog model, which will be harder to read and less reliable.
  2. The red and black test leads should be connected to the outlets on the front of the multimeter. The red lead is the positive charge. The black lead is the negative and should be plugged into the input labelled "COM." [2]
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  3. Turn the dial on the front of your multimeter clockwise to move it away from the "off" position. Keep turning it until you land on the diode setting. If it is not labelled explicitly, the diode setting may be represented by the diode circuit symbol. [3]
    • The diode symbol visually represents both its terminals, the cathode and the anode.
  4. Touch the black probe to the cathode end of the LED, which is usually the shorter prong. Next, touch the red probe to the anode, which should be the longer prong. Be sure to connect the black probe before the red probe, as the reverse might not give you an accurate reading. [4]
    • Make sure that the cathode and anode are not touching each other during this test, which may prevent the current from passing through the LED light and hinder your results.
    • The black and red probes should also not be touching each other during the test.
    • Making the connections should cause the LED to light up.
  5. When the probes are touching the cathode and anode, an undamaged Led light should display a voltage of approximately 1600 mV. If no reading appears on your screen during the test, start again to make sure the connections were made properly. If you have performed the test properly, this may be a sign that the LED light is not working. [5]
    • If your supply does not provide any output voltage, then the transformer needs to be replaced.
    • If you have voltage on the output then LED lights are not working and need to be replaced.
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  1. When you make the proper connections to test your LED, it should light up. After noting the reading on the digital screen, look at the LED itself. If it has a normal reading but looks dim, it is likely a low-quality LED. If it shines brightly, it is probably a high-efficiency LED light. [6]
Method 2
Method 2 of 2:

Testing with a Coin Cell Battery

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  1. Coin cell batteries are the safest option because they do not put out enough of a current to cause damage. Testing with any other type of battery may burn out your LED lights. Buy these batteries at pharmacies, department stores, hardware stores, or online. [7]
    • Use either CR2032 or CR2025 coin cell batteries.
  2. Buy one that is made to hold the type of coin cell battery (e.g., a CR2025) you'll be testing with. You can find these online or at some hardware or electronics stores. Make sure that the holder has red and black leads to test LED lights. [8]
    • Coin cell battery holders are usually used to add battery power to small projects like LED jewelry or clothing.
  3. To test your LED, touch the tip of the black probe to the cathode, or shorter end of the LED. Touch the tip of the red probe to the anode, which should be the longer end. Be sure that the two probes do not touch each other during this test, and that the cathode and anode do not touch each other. [9]
    • Some battery holders with leads will come with a small connector on the end, holding the tips of the two leads.
    • If your battery holder has a lead connector, test your LED by inserting the anode and cathode into the small openings that line up with the red and black leads.
  4. If the LED is functional and the lead connections have been made properly, your LED should light up when you test it. If it does not, separate and reconnect the leads and cathode/anode to try again. If your LED does not light up, it may be burnt out or defective. [10]
    • If your LED doesn't light up, try testing other LED lights right after it. If they light up, you can be sure that the first LED doesn't work.
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      About This Article

      Article Summary X

      All you need to test LED lights is a digital multimeter with a diode setting. First, connect the black and red test leads to the outlets on the front of the multimeter. Once the leads are connected, switch the dial on the front of the multimeter clockwise to reach the diode setting. This setting will either be labeled “diode” or have the diode circuit symbol, which looks like an arrow representing the cathode and anode. Put the black probe against the cathode of the LED, which is the shorter prong, and the red probe against the longer prong, the anode. When the probes are touching the cathode and anode of the LED, check that the value on the digital display of the multimeter is 1600 millivolts. If there is a different reading or no reading at all, this indicates that the LED light isn’t working properly. For more information on testing LED lights, like how to test with a coin cell battery, read on!

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      Reader Success Stories

      • Anonymous

        Mar 23, 2019

        "Great! Didn't realize my multimeter had a diode tester. It was bulb #12 (out of a string of 25). We keep small ..." more
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