First post here.

I've spent nearly 30 hours taking this unit apart, measuring key H.V. components (diode, magnetron, capacitor), door switches, thermostats, and flame sensors.

Checked for loose wiring/connectors, bad fuses, and broken wires inside their PVC or cloth insulation jackets.

Performed Key Panel, Smart Board, and Sensor tests; but I still cannot locate the reason(s) why it's not heating. Both the H.V. cap and diode have been replaced even though the originals tested out ok.

Utility supply was measured at 119.3VAC


The H.V. tranny tested out with the following results:

Primary winding: .4Ω

Secondary winding: 68.5Ω (schematic shows nominal as 79Ω) This was measured from the white wire on the tranny to ground.

Filament winding: 0Ω

Primary winding to ground: Infinite

Filament winding to ground: Infinite


The Magnetron tested out with the following results:

Resistance between the two filament terminals: .1Ω

Resistance from filament to Magnetron chassis: Infinite


Now, I don't have a meter that will accurately measure resistance (milli-ohms) in the windings; but the schematic lists them as 430mΩ on the primary and 100mΩ on one of the secondary legs.

Anyone have some ideas??? I'm completely stumped on this one.

Thanks,
FalconEddy

Already did that. Getting 119.3VAC from the utility to the H.V. primary. I tested it off the big switching relay on the Smartboard. It went from a few millivolts right up to 119.3VAC right after engaging the start button.

I also measured amperage during operation. No surprise that it was only between 3.5A to 4.5A.

Next step(s)?

At this point I'm tempted to change out the magnetron (I have a replacement here) just to see if I was getting false 'good' readings when I tested it. But, that still doesn't explain the low current draw. . . does it?

. . Falcon

Yes.

Sorry if I wasn't clear enough about that in my first reply.

Voltage was measured both on the wiring at the smartboard relay, and the primary terminals where the wires make the connection.

I've already measured all pertinent wiring from end to end without being connected to ensure there were no open conditions.

. . Falcon

Although the original diode appears to be open, two other diodes I have (right out of the factory sealed package) both also test open (in both directions). Since my meters will see the forward voltage higher than 2 volts, this HV diode cannot be checked on them. My three meters will all check smaller diodes and bridge rectifiers (1N4004, 1N4007, Vishay GBPC606-E4) with no problem (which does me absolutely no good in this case), and I've verified all three meters are working accurately.

I've also got a vintage Simpson meter (non-digital) around here somewhere, but haven't been able to locate it. Hopefully, my wife didn't take it to the Goodwill store with my o-scope that only needed a new probe. :eek:

As I initially mentioned, note that I have used one of the new replacement HV diodes with the same results; as well as a new HV cap.

. . Falcon

According to all tests performed and their results it looks to me that the first failure suspect is the magnetron.

Gene.