Posts By: Scott Brown

Master Samurai Tech Radio, Episode 4

Posted on August 26, 2015 by - MST Radio

podcast1 200- New credit card readers for the EMV technology; merchant (appliance service company) liability for fraud if not using the new readers.
- Square has already issued the new EMV readers.
- Electrolux buying GE Appliances - complications, lawsuit, implications for the appliance market. Samsung and LG brought into the fray!
- First military veteran scholarship awarded! If you're a veteran, apply for a full-tuition scholarship in the Fundamentals of Appliance Repair training course -
- Customer education: How to spot a parts changing monkey.
- Tech education: rinse aid vs. vinegar; GFCIs vs. surge suppressors

Send us your tech tip, war story, topic idea and, if we use it in the show, we'll give you and your company a shoutout! Free advertising, build cred with your customers!

Be sure to subscribe on iTunes!

Master Samurai Tech Radio, Episode 3

Posted on August 19, 2015 by - MST Radio

podcast1 200In this scintillating episode:
- Industry news
- Passed 4 million views on our YouTube channel! You may have been one of them!
- Correction on loading meters
- Meter current draw, input impedance, and why you should care
- Ghost voltages and open neutrals
- Lord Wiggington propositions an outlet for his wiggy
- Subscribe to our podcast on iTunes

Here are your helpful links to items we talked about in this episode:

Yale Appliance Blog post on "Affordable Luxury" appliances.

MST blog post "The Low Down on Loading Meters and DMMs"

The Low Down on Loading Meters and DMMs

Posted on August 17, 2015 by - Tech Talk

Do you know the difference between a loading meter and a non-loading digital multimeter (DMM)? Both are critical troubleshooting tools for appliance repair and both belong in your tool bag. In this post, I'll explain the difference between these two types of meters and the situations when you would want to use each type of meter. Read, watch, and be illumined!


The Importance of Input Impedance

Most digital multimeters sold today are for testing electrical and electronic systems, such as those commonly found in appliance repair, and have high impedance input circuits, typically greater than one megohm (1 million ohms). Impedance is the term used to describe total circuit resistance which includes regular resistance, as well as resistance from reactive components such as capacitors and inductors.

Fun math fact you can use to impress the ladies: The symbol used for impedance in mathematical equations is Z. Total input impedance, Z, is the sum of resistance, R, plus capacitive reactance, Xc, plus inductive reactance, Xl.

Z = R + Xc + Xl

Once you know the total impedance, Z, you can treat it just like you would total resistance, R, in any of the Ohm's law equations.

The takeaway point here is that impedance is the term for all types of resistance in electric circuits.

A DMM’s high input impedance means that when it is placed across a circuit, it will have little impact on that circuit because it will draw hardly any current, not even measurable using common equipment. You want this for most voltage measurement applications, and it is especially important for sensitive electronics or control circuits. On these types of circuits, if you draw any measurable current with your meter, you could affect the circuit by inducing a failure mode known as "loading down,” and your measurements would be meaningless.

In contrast, other troubleshooting tools such as solenoid testers generally have low impedance input circuitry of around 10 K-ohms (10,000 ohms) or less, which means that they will draw some current when placed in a circuit. These are called loading meters because in drawing significant current they are, by definition, placing a load on the circuit being tested. While these meters aren't fooled by ghost voltages, they should only be used for testing power circuits or other circuits where the low impedance will not load down the circuit voltage or alter circuit performance. Their great strength, however, lies in the very fact that they aren't fooled by ghost voltages or open neutrals.

Ghost voltages and open neutrals are two of the major landmines waiting to trip you up while you're troubleshooting a tricky circuit on a service call. For this very reason, I always keep a loading meter in my tool bag.

I’ve encountered techs who don’t see the need for loading meters, but they learn real fast after they've wasted a lot of time or gotten their asses kicked on a service call chasing ghosts or open neutrals. If it hasn't happened to you yet, then this just means you have some fun learning experiences to look forward to!

Open neutrals are pretty self-explanatory – where the neutral side of a circuit is open either due to a break in the wire or high resistance (burnt, corroded, loose, etc.) connection. But let's talk more about those scary-sounding ghost voltages.

What are Ghost Voltages and Where are they Encountered?

Ghost voltages occur from having energized circuits and non-energized wiring (such as a “dead” wire that should be energized but has an open connection to either Line or Neutral) close together, such as in those wire harness bundles commonly found in all major appliances today. This can result in a buildup of static charge that a high-impedance meter (a DMM) will read as voltage if you place its leads between the open circuit and the neutral conductor. A low-impedance loading meter, on the other hand, will not be fooled by this ghost voltage because its high current draw will immediately discharge the static buildup.

Ghost voltages can sometimes be 80% of the actual Line voltage. Spooky! So in a 120 vac power circuit, ghost voltages will often be in the 75 to 95 vac range. In some of my videos, you'll hear me refer to these as "junk voltage." Same thing. If you don't recognize ghost or junk voltage when you see it, you'll end up wasting additional time on service calls chasing your tail and going down rabbit holes. Or worse, you'll get completely faked out and confused, unable to solve the problem.

Examples of common places you'll encounter ghost voltages in appliance repair situations are a wire with an open thermal fuse that’s near a live wire or an open neutral wire in a wire harness.

So hopefully you can see from what we’ve talked about that one of the desirable characteristics of a loading meter (also called a LoZ meter, by the way) is that it have as low an input impedance as possible or practical and, as a result, a high current draw.

With a DMM, on the other hand, you want as high an input impedance as you can afford so it draws hardly any current and thus doesn’t affect, or load down, the circuit being tested.

Now that you have a background on loading versus non-loading meters and low input versus high input impedances, let's watch a video showing a practical comparison of a couple of different types of meters. It gets really crazy as I use one meter to measure other meters. It’s Meter Mania!



Master Samurai Tech Radio, Episode 2

Posted on August 11, 2015 by - MST Radio

podcast1 200Topics covered:

- We're now listed on iTunes! Subscribe here.
- Industry News: Whirlpool Internet-connected laundry set, GE refrigerator/coffee brewer, GE dryer service bulletin
- MST News: Jobs listing, Affiliate program
- Tech Talk: Which Wiggy and why? When to use the Wiggy?

Link to the Wiggy (loading meter) that the Samurai uses and talks about in the podcast:

Master Samurai Tech Radio, Episode 1

Posted on August 6, 2015 by - MST Radio

podcast1 200- 1 About this podcast: a podcast by appliance techs, for appliance techs
- 2 About the Samurai Tech Academy
- 3 MST news
- 3.1 About Appliantology, features.
- 3.1.1 Grasshoppers moderated at Appliantology.
- 3.2 New course bundles
- 3.3 Jobs listings and resumes for students and grads
- 4 Tech talk
- 4.1 Voltage Sniffers vs. Loading Meters vs. Non-loading digital multimeters