Since I could not get any further help in this forum I posted my inquiry in another forum and got some help there.
I plan to proceed with this repair as follows:
Replace C29 with a 100nF capacitor and the following arrangement on the board please see the picture below:
https://drive.google.com/file/d/1rawZObjUHn5G0N9kYmwuZh74IBhJnbcn/view?usp=sharing
I plan to made the following repair to the component side of the board as show in picture below (please note that the yellow indicates the reverse side of the board and red the component side):
https://drive.google.com/file/d/14H9IUYuVfTSsuLkNSSRaZmcEY9W4JkpG/view?usp=sharing
D39A pad does not look well either so I plan to solder it to both its pad and D33K.
I measured the value of the diodes and capacitors that were removed from the board and they are as follows:
D69 measures forward 0.500 and infinite reverse
D33 measures forward 0.520 and infinite reverse
D39 measures forward 0.509 and infinite reverse
D34 measures forward 0.508 and infinite reverse
D40 measures forward 0.482 and infinite reverse
Are any of these diode values out of line? I plan to reuse them so please let me know if they should not be reused and the reason. Thanks.
C34 rated 100μF measures 17 μF plan to replace with a 1800μF I have
D50 rated 100μF measures 54 nF plan to replace with a 1800μF I have
Both removed capacitors C34 and C50 seems to no longer hold their rated correct value, they also measure the same no matter how the meter lead are connected. I measured the new 1800μF capacitor that I have and the meter shows the correct rated value of the new capacitor and only if the leads of the meter are correctly attached to the capacitor. So the meter I am using is good and C34 and C50 are bad. Was this a contributing factor to the burned out? Was this caused by the burnt out? Are these capacitors the main cause of the intermittent operation of the oven?
I also measured the big C11 capacitor next to the rectifier section of the board. I did not remove C11 and measured it on the board. C11 is rated at 1000µF and measures 881 µF so pretty close. I know capacitors are not suppose to be measured on the board but I think this measurement is showing the true value of this capacitor even with the capacitor still attached to pcb.
