WIGGY Input Impedance

[dereckbc]

Anyone know what the input impedance to a WIGGY is? Looked on the web and cannot find it. Or put another way how much current it draws when connected to 120 VAC.

 

[racerdave3]

Anyone know what the input impedance to a WIGGY is? Looked on the web and cannot find it. Or put another way how much current it draws when connected to 120 VAC.

Good question that I don't have the answer to, although I wouldn't suspect it to be all that much. You could plug the Wiggy in to test a receptacle then put a clamp on amp meter on one of the leads and see what it reads.

 

[360Youth]

Good question that I don't have the answer to, although I wouldn't suspect it to be all that much. You could plug the Wiggy in to test a receptacle then put a clamp on amp meter on one of the leads and see what it reads.

Wow! I don't know if you read my mind or I read your post.:grin:
I always liked using the recptacle adapter for reading curent through an appliance. It plugs into the recept. and is formed to clamp around and has a recept built into the end. Nice for not having to remove device just to draw an amp reading.

 

[iwire]

Or put another way how much current it draws when connected to 120 VAC.

For a meter it draws quite a bit even at 120 volt.

I will try to test mine when I get a chance, at 480 it draws a pretty good spark.

 

[guschash]

JUst use a female and male plug amd about of foot #12 cable. Strip the insulation off and use your clamp meter.

 

[dereckbc]

I would measure guys, but I am an engineer and do not own a WIGGY. I have lots of other toys, just no WIGGY. They are cheap enough, so I can't use that excuse.

Just curious from reading in another post that WIGGY can damage some circuits. Input impedance has to be the answer.

 

[don_resqcapt19]

I know that it is less than 30mA at 120 volts because it won't trip the GFPs that I use for heat trace protection.
Don

 

[LarryFine]

I will try to test mine when I get a chance, at 480 it draws a pretty good spark.

Of course, it does; it's an inductor.

 

[iwire]

Of course, it does; it's an inductor.

To be honest Larry I do not know what that really means.

All I know is it is a coil and has a large inrush current.

Is that what an inductor is?

 

[tallgirl]

To be honest Larry I do not know what that really means.

All I know is it is a coil and has a large inrush current.

Is that what an inductor is?

More or less.

An inductor is, generally speaking, anything that stores electrical energy in the magnetic field created around the inductor. A capacitor, on the other hand, stores energy in the electrical field between the two insultated conductors in the capacitor.

What happens with an inductor at the time the circuit is opened is the magnetic field in the inductor begins to collapse. This induces a current in the inductor, and that current has some voltage (I think this is Faraday's Law -- one of the EE's here can check me). If the induced voltage is high enough, arcing can occur. This, conveniently, is the basic principle behind the "breaker-point ignition" from when we were all kids.

In the case of the wiggy, energy is stored in the solenoid in the magnetic field which is surrounding it and which makes the plunger move to indicate voltage. When the test lead is removed from the test point, that magnetic field is no longer being maintained by current flowing through the conductors in the wiggy, it begins to collapse, thereby creating a voltage (E = dΦ/dt -- voltage is the change in magnetic flux with respect to time (the weird letter is "Phi", for anyone who cares))

What's needed, I'd think, is to replace the simple inductor in the wiggy with an RLC circuit with the solenoid being the inductor (L term), a capacitor to absorb the energy from the collapsing field (the C term) and a resistor to drain the energy stored in the L-C network (the R term).

 

[iwire]

Some test results.

Using my Fluke 87 DMM in series with a 120 volt circuit supplying an Ideal 61-065 Solenoid tester.

To read the 120 circuit the solenoid tester used 25.42 ma.

For the heck of it I tried the same thing with my Simpson 260.

To read the 120 volt circuit the Simpson 260 was fairly steady at 00.11 ma.

Jumping from 120 to 240 volts resulted in the following

The Solenoid tester required 52.8 ma

The Simpson 260 required 00.19 ma

I don't have 480 here at the house unless I backfeed a control transfomer.....

 

[tallgirl]

I don't have 480 here at the house unless I backfeed a control transfomer.....

When do you expect to have those test results for us? :grin:

What would be interesting is to put a storage scope across one of the test leads and whatever you're testing and measure the voltage spike when you remove that lead. I'm guessing the voltage exceeds 1kV, and judging from the size of spark, assuming I read you correctly, I wouldn't be surprised if the voltage exceeds 10kV.

 

[iwire]

When do you expect to have those test results for us? :grin:

Not sure where the control trans is located, it could be out in the unheated garage.....meanaing I ain't going out.

What would be interesting is to put a storage scope across one of the test leads and whatever you're testing and measure the voltage spike when you remove that lead.

I have a BK Precision 2120 scope, to be honest I really don't know how to use it, I also have (or maybe had) a storage unit that went with it. I think the storage unit went out during a clean up of the basement.

 

[tallgirl]

Not sure where the control trans is located, it could be out in the unheated garage.....meanaing I ain't going out.

Darn. Science has been thwarted again.

I have a BK Precision 2120 scope, to be honest I really don't know how to use it, I also have (or maybe had) a storage unit that went with it. I think the storage unit went out during a clean up of the basement.

If you fly me up there I'm sure I could figure out how to conduct this phase of our testing. Tell your boss it's "Very important safety testing."

The short answer is that you should have a high voltage probe of the kind that was typically used to diagnose CRTs that you'd have to connect to the lead on the wiggy. The other probe of the scope goes to the AC circuit you're testing. Set the scale on the meter to the appropriate level (I'd start at the top of the range for the scope), then see if the meter has an adjustable trigger you can set. Set the trigger high enough that it won't catch the 120 or 240v that will be present when the wiggy's lead isn't touching the 120 or 240v circuit, then see what shows up.

 

[don_resqcapt19]

Julie,

What happens with an inductor at the time the circuit is opened is the magnetic field in the inductor begins to collapse. This induces a current in the inductor, and that current has some voltage (I think this is Faraday's Law -- one of the EE's here can check me). If the induced voltage is high enough, arcing can occur. This, conveniently, is the basic principle behind the "breaker-point ignition" from when we were all kids.

A lot of old time electricians like me found out about that when using a flashlight continunity tester to test transformer windings...if you were touching the transformer leads when you disconnected the tester, you got bit.
Don

 

[tallgirl]

Julie,

A lot of old time electricians like me found out about that when using a flashlight continunity tester to test transformer windings...if you were touching the transformer leads when you disconnected the tester, you got bit.
Don

I think I found out when I was 8 years old I forget how I found this out, but I was into a lot of things as a child. How I survived to adulthood is a miracle!

I am surprised that wiggys don't have something built in to suppress the arc. Mine, which was a gift from an electrician in New Orleans, is a bit fried. If I ever get around to replacing it I'll open it up and see what the heck is actually inside one and if there is some way to suppress the arc with a big, fat capacitor and a resistor.

 

[dereckbc]

To read the 120 circuit the solenoid tester used 25.42 ma.


Jumping from 120 to 240 volts resulted in the following

The Solenoid tester required 52.8 ma

Bob, thanks that answers the question, the input impedance is roughly 4.6K-ohm.

It also tells me I can make a resistive equivilant by using a 4.7 K-ohm resistor. Only problem is to make it work up to 480-VAC would require a 50-watt resistor, otherwise 5-watt @ 120. Think I will stick with my ole trusty 50K-ohm home-brew.

 

[growler]

I am surprised that wiggys don't have something built in to suppress the arc.

Ideal makes a better version with Arc protection. Probably cost a few dollars more. I haven't used a wiggy in years.

 

[dereckbc]

I am surprised that wiggys don't have something built in to suppress the arc. If I ever get around to replacing it I'll open it up and see what the heck is actually inside one and if there is some way to suppress the arc with a big, fat capacitor and a resistor.

That would dampen the movement and prevent it from vibrating a key feature electricians look for.

There is nothing to a WIGGY. It is just a solenoid connected to a spring with a calibrated pointer/indicator. The higher the voltage, the more deflection in the movement.

 

[LarryFine]

One can also use a simple bulb as a load when measuring voltage. Even a night-light bulb will load a circuit enough to minimize false measurements due to inductive coupling.