After you've properly installed an electric fence, regular testing of the fence wires is an important maintenance task. For the best results, use a dedicated electric fence voltmeter for the job. If you just need to confirm whether a fence is on or off, use a non-contact voltmeter. Only use other methods—like a compass or a blade of grass—if absolutely necessary. Never underestimate the “zapping” power of an electric fence !
Steps
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Use an electric fence voltmeter for the job. This tool is specifically designed to detect voltage in electric fences, which makes it the easiest and most reliable tool to use for the job. If you have an electric fence, it's definitely worth the $30-$50 USD investment. [1] X Research source
- Most models include a handheld meter with a digital readout and a metal prong on the top, and an attached metal probe at the end of a wire.
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Move to the section of fence furthest from the charger. The charger (usually a small box) provides the electricity to the fence. By checking the voltage at the furthest point from it, you can be confident that the proper voltage is coursing through the fence. [2] X Research source
- Refer to the owner's manual or signage on the charger to determine the correct voltage range for your fence. Depending on the type of animals they are meant to control, electric fence voltages typically range from 2,000 to 10,000 volts.
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Touch the meter's probe to the ground wire, if there is one. If the fence has 2 or more wires, one of them is probably a ground wire. Use your owner's manual to identify it. If you're not sure, or if there is no ground wire on your type of fence, skip this step and move on to the step that describes sticking the probe into the ground. [3] X Research source
- Keep your hand on the plastic or rubber section of the probe, not the metal tip. Otherwise, your body (instead of the meter) will test the electric fence when you touch the other probe end to it!
- Some types of fencing ground directly into the earth instead of using a ground wire. [4] X Research source
- If necessary, contact the fence manufacturer or an electrician so you can identify the ground wire properly in the future. It's also good to have an expert make sure your ground wire is connected properly, as poor grounding is a major cause of electric fence malfunctions. [5] X Research source
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Stick the meter's probe into the soil if there isn't a ground wire. If your fence model doesn't use a ground wire, just stick the metal end of the probe several inches/centimeters deep into the soil. You can also do this if you're not sure which wire on the fence is the ground wire. [6] X Research source
- Stick as much of the metal tip of the probe into the ground as you can. Make sure you're not touching the metal tip with your fingers when you do the test, though!
- All single wire fences ground directly into the soil, but some multi-wire fences also lack a grounding wire.
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Touch the prong on the tester to each charged wire. With the probe still touching the ground wire or stuck in the soil, touch the metal prong on the tester to one of the charged wires. The digital readout should give you a voltage reading. Compare this reading to the recommended voltage for your fence model. [7] X Research source
- Repeat the test on each fence wire.
- The readouts are often in thousands, in which case a reading of 5.0 indicates 5000 volts.
- If the reading is above or below the recommended range for your fence, there is a problem with it and it should be serviced. [8] X Research source
- If you don't get any reading, make sure you turned the voltmeter on! If the meter is on, that means the fence has no charge.
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Repeat the test every 100 ft (30 m) closer to the charger. If you get a low voltage result, repeating the test closer to the charger may help you pinpoint where there is a problem. And, even if the voltage reading is good on your first test, repeating the test in other locations will confirm the result. [9] X Research source
- Just walk along the fence and, every 100 ft (30 m) or so, quickly repeat the test again.
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Purchase a non-contact voltmeter from any tool supplier. Non-contact voltmeters look a bit like extra thick pencils with flat sides. They have a translucent tip that usually blinks when the meter is on, and stays lit when voltage is detected nearby. The meter typically also beeps when voltage is detected. [10] X Research source
- As the name indicates, you don't need to touch a wire to check for voltage with this product. This makes them a safe and very useful tool for a variety of purposes.
- You can probably buy a non-contact voltmeter for less than $20 USD.
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Turn the voltmeter on and check for a blinking light at the tip. Make sure there's a battery installed and push the button to turn the meter on. You'll see a blinking light (often red) at the tip of the meter. This means it's on and ready to go! [11] X Research source
- Non-contact voltmeters are very simple tools, but you should always read the product instructions before using one for the first time.
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Point the meter at the fence when you're within 5 ft (1.5 m) of it. As soon as you get within a body length of an operating electric fence, the meter will probably start beeping and have a steady light at the tip. If not, move steadily closer to the fence, but don't make contact with it. [12] X Research source
- If you get within a few inches/centimeters of the fence wire(s) and the meter still doesn't light up and beep, you can be confident that there isn't voltage in the area.
- Keep in mind that non-contact voltmeters don't give you any information about the amount of voltage, they only reveal if there is or isn't any voltage coursing through the fence. Use an electric fence voltmeter if you want specific voltage readings.
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Test the entire length of the fence to check for problems. Whether your initial test indicates that the fence is “On” or “Off,” it's wise to check all along the fence to confirm your results. Walk the length of the fence while remaining within about 3–5 ft (0.91–1.52 m) of it. Either point the meter at it constantly, or at intervals of around 50–100 feet (15–30 m). [13] X Research source
- If you get the "on" indicator (lights and beeping) in some sections of fence and "off" in other sections, follow up with an electric fence voltmeter (if you have one) to see if you get variable voltage readings along the fence. If you do get variable readings, or if you don't have an electric fence voltmeter, call an electrician or electric fence installer.
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Attach electric fence indicator lights to any fencing you install. Indicator lights are small devices that you can easily attach to your electric fence at regular intervals. Whenever the fence is on, the indicator light will remain illuminated.
- Hook up the indicator lights according to the product instructions. Contact an electrician or electric fence installer if you need assistance.
- You should also buy and install clear warning signs (available at electric fence retailers) at regular intervals.
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Hold a compass near the fence to check for an electromagnetic field. Move the compass to within about 2–3 in (5.1–7.6 cm) of each wire on the fence. If the wire is charged, the magnetic field created by the charge should cause the compass arrow to vibrate.
- For the best results, hold the compass near each wire for 10-30 seconds. Most electric fence chargers send pulses in 10-30 second increments, and these will have a more noticeable effect on your compass.
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Listen for humming or buzzing sounds if it's quiet in the area. If you get within about 1 ft (30 cm) of the fence, you may be able to hear a humming or buzzing sound every 10-30 seconds, when the fence charger sends out a pulse. If you can, you'll know the fence is electrified.
- Not hearing anything, however, doesn't guarantee that the fence is off. You may simply be unable to hear any sounds caused by the pulses.
- A fence that buzzes, hums, or crackles noticeably likely has a short somewhere in the system. Have a qualified repair person inspect the fence. [14] X Research source
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Touch a fluorescent tube, if you have one handy, to the earth and fence. Scrape away any grass or hard dirt to expose a patch of loose soil. Place the 2 prongs at one end of the bulb into the soil. Touch the 2 prongs at the other end of the tube to a fence wire. If the fence is charged, the bulb should flicker. [15] X Research source
- Shop light fluorescent tubes that are around 3–4 ft (0.91–1.22 m) long work best for this job.
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Touch a plastic-handled screwdriver to the fence if you don't mind sparks. Choose a metal screwdriver with a thick plastic handle. Make sure you don't touch any part of the metal with your hand. Touch the screwdriver to each wire on the fence and watch for an electric arc that will leap from the wire to the screwdriver.
- If you don't notice any arcing immediately, run the screwdriver back and forth over the wire for 10-30 seconds. If there's still no arcing, the wire most likely has no charge.
- Test each wire on the fence with the screwdriver.
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Avoid touching the fence! If you touch a working electric fence, you'll feel a painful zap on your hand and possibly part of the way up your arm. This is dangerous and should be avoided. [16] X Research source
- Never grasp the wire with your hand. Clenching of the hands is one of the body's natural reflexes during an electric shock , and if this happens you may not be able to let go of the fence. This could lead to serious burns or other injuries.
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Tips
- Faulty grounding, usually due to improperly placed or non-functional ground rods, is the most common cause of problems with an electric fence. Always make sure you have installed ground rods according to the fence manufacturer's specifications. [17] X Research sourceThanks
- If grounding isn't the problem with your fence, contact the fence manufacturer or an electrician for assistance. [18] X Research sourceThanks
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Warnings
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References
- ↑ https://youtu.be/6U0FKJnBPYo?t=7
- ↑ https://youtu.be/w43D1LmTN30?t=30
- ↑ https://youtu.be/6U0FKJnBPYo?t=7
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/electric-fence-design/
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/quick-guide-to-troubleshooting-problems-with-electric-fences/
- ↑ https://youtu.be/w43D1LmTN30?t=30
- ↑ https://youtu.be/6U0FKJnBPYo?t=7
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/quick-guide-to-troubleshooting-problems-with-electric-fences/
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/quick-guide-to-troubleshooting-problems-with-electric-fences/
- ↑ https://youtu.be/NbSam4f3eaU?t=20
- ↑ https://youtu.be/NbSam4f3eaU?t=20
- ↑ https://youtu.be/NbSam4f3eaU?t=20
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/quick-guide-to-troubleshooting-problems-with-electric-fences/
- ↑ https://www.arrl.org/files/file/Technology/Electric_Fence/Electric_Fence_Procedure.pdf
- ↑ https://youtu.be/bcQeBofF_to?t=50
- ↑ https://www.healthfirst.ch/electrical-shocks-when-should-you-worry/
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/electric-fence-design/
- ↑ https://extension.umaine.edu/livestock/pasture-course/lesson-3/quick-guide-to-troubleshooting-problems-with-electric-fences/
- ↑ https://www.healthfirst.ch/electrical-shocks-when-should-you-worry/
- ↑ https://www.livescience.com/38024-electrocute-by-peeing-urine-electricity.html
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