In this 3D animation, Bryan Orr with HVAC School explains how to test a run capacitor properly while the HVAC system is under load. He covers the importance of capacitors for motor efficiency and reliability.
This video provides a step-by-step process for testing capacitors under load using a multimeter to measure amperage and voltage. Bryan shares the formula to calculate microfarads and explains what capacitor readings indicate a need for replacement. This easy-to-follow tutorial is useful for both maintenance and service calls.
Bryan emphasizes safety and meter accuracy as critical factors. He also mentions the free under-load capacitor testing calculator available in the HVAC School mobile app. Whether you're a beginner or a seasoned technician, this 3D video provides valuable tips for assessing capacitor performance. Check out HVAC School for more in-depth training!
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Read all the tech tips, take the quizzes, and find our handy calculators at https://www.hvacrschool.com/ or the HVAC School Mobile App on the Google Play Store (https://hvacrschool.com/play-store) or App Store (https://hvacrschool.com/app-store).
This video provides a step-by-step process for testing capacitors under load using a multimeter to measure amperage and voltage. Bryan shares the formula to calculate microfarads and explains what capacitor readings indicate a need for replacement. This easy-to-follow tutorial is useful for both maintenance and service calls.
Bryan emphasizes safety and meter accuracy as critical factors. He also mentions the free under-load capacitor testing calculator available in the HVAC School mobile app. Whether you're a beginner or a seasoned technician, this 3D video provides valuable tips for assessing capacitor performance. Check out HVAC School for more in-depth training!
Buy your virtual tickets or learn more about the 5th Annual HVACR Training Symposium at https://hvacrschool.com/symposium24.
Read all the tech tips, take the quizzes, and find our handy calculators at https://www.hvacrschool.com/ or the HVAC School Mobile App on the Google Play Store (https://hvacrschool.com/play-store) or App Store (https://hvacrschool.com/app-store).
In this video, we're talking about run capacitors specifically focusing on how to test them under load. Run capacitors play a huge role in Motors running efficiently, cool and reliably by storing and releasing current resulting in a controlled phase shifted current on the start winding of the motor. To test a capacitor under load, you need to Ure the system is running, but remember safety first. Always wear the proper personal protective equipment when doing so and only do so when you can do so safely.
This underload test is a handy way to test a capacitor with the unit running and is really useful as part of a regular maintenance procedure. I Still suggest a usual bench test in many cases and as a final check before actually replacing a capacitor. Once the underload Test shows failed or out of specification, an accurate multimeter is essential for this task. Its purpose is is to measure both the voltage and amperage reliably and must be done for the results to be accurate.
take an amperage reading on the wire that connects to start on the motor. For a compressor, this is the wire connected to Herm on a dual capacitor and for the fan, it's the wire connected to fan on the Dual capacitor. However, a common mistake is getting skewed readings due to interference from other circuits. To avoid this, always ensure the wire is centered in the amp clamp and isolated as much as you can.
So now the simple formula: measure the amperage on the start wire and multiply it by the fixed number 2652. Next, measure the voltage across the capacitor being tested and divide by that voltage number. So once again, amperage on the start winding multiplied by 2652 divided by the voltage across that capacitor. Repeat for both the compressor and the fan capacitors.
Keep in mind, once again, a good meter and proper clamp placement is essential. But what do these measurements mean If the capacitance or MFD or microfarads you measured is less than 10% of the expected value, generally, that's when going to replace at that point I'm also going to do a bench test to confirm. Keep in mind this is the standard I use. Some will look at the plus or minus value range on the capacitor as the guide, but keep in mind that this plus or minus value is just the out of thee boox acceptable range from the manufacturer.
If the microfarads is above the expected rating, don't rush to conclusions often. it might just be a measurement error. Capacitors do not fail with a higher rating than they came with out of the box. To make this easier and to guide the entire process, the HVAC School app has a free calculator you can use for underload capacitor testing that provides all of this information so you don't need to remember the equation.
Contrary to what some may say, having a fully functional capacitor is very important for the longevity and efficiency of the HVAC system. And capacitor testing on Maintenance and Service is a really good practice. Thanks for watching if you're willing, give this video a thumbs up and drop us a comment Don't forget to hit that Bell icon to stay updated with all of our future videos. And as a quick reminder: HVAC School isn't just a YouTube channel. Dive deeper with us at our main website Hvacr School.com Curious for more knowledge on the go? We've got you covered! Tune in the HVAC School podcast available on all your favorite podcast apps and while you're at it, join our thriving Facebook group! Also, don't miss out on our free mobile applications available for both iPhone and Android We're all about Community Vortex, Byx.
Thank you for this!!
U need more than a Thumbs up.Great video.truly great knowledge being imparted by U.
I have the exact meter that he keeps showing. It always read like .2-.4 amps when not around a wire or anything. and I don’t know why. Is this because it’s a true rms?? Or is it broken? Are you in Nepean ?
Thanks great videos💪🏼👨🏻🔧
I didn’t know the % printed on capacitor was just acceptable error for new ones.
I use this test in the hvac school app like there’s no tomorrow ❤ Service area Barrhaven??
Thanks from an engineer who appreciates all that tradesmen know and do.
Channels like yours have done so much to legitimize the HVAC trade. Gone are the beer can cold old-timers just winging it. I realize now, most of what I was taught was wrong but enough to get by. Thank you
I teach all the new guys this and they are blown away 🎉
I did not know the plus or minus percentage was an out of the box spec.
We often recommend replacing the blower motors that have been running with extremely low capicitors as they often fail within a month or so of changing a run cap.
Have you experienced this and is there a percentage where you'd recommend replacing the motor in this situation?
TY in advance Bryan.
Thank you so much for the class ❤
Excellent can you do contactor as well. Nice golden nuggets you dropped in this video. Small but mighty
I get the practicality of a specific number that is easy to remember, and I love the way you can prove functional capacitance indirectly. For those interested, recall that Z=1/(2*Pi*f*C), and that Z=V/I. So, rearrange and you get C =I/(2*pi*f*V). Then note that you want the answer in microfarads, not farads, so multiply by 10^6. You get C= 10^6/(376.99)* (I/V), when in the 60Hz environment of North America. The constant simplifies to 2652. What I find interesting is that you don't need the phase shift angle of current to voltage to calculate this value, and you don't seem to need RMS values. Presumably the waveform is close enough to a sine wave, and the capacitance is so close to a pure -90 deg phase shift, that those details wash out.
Good stuff!!! Thank you!!
These videos are great for reviewing with my technicians. Thank you!!