Thir timtam75 . . . . . . . . ( ohhhh my, my I theem to have developed a lispth.)
Now, in just looking at that board, which just seems to be JUST for the power switching relays and their linear power supply support.
Top left corner, we can see the two pin Euro connectors with the AC line voltage input and its BLUE and BROWN power input wires.
It then flows down to catch a BLUE varistor that can crunch up to moderate line spikes, should they come upon the line in times of electrical distress..
Then it passes to the right to a larger C1 DARK GRAY / or / BLACK ? poly " line trash filter " and then into the primary of the BLACK cased 220 in / 14V out AC power transformer.
Unviewable to us . . . on the other / under side of the ciruit board, must be a set of rectifiers to generate DC voltage from that raw 14VAC.
With that given / specified minimal 140 ma current capability, that would not require much filtering, at all.
Therefore, the filtering would seem to be done by the shown C2 plus C4 black filter capacitors shown at the bottom output side of the transformer.
The way that relay(s) is / are chattering . . . . in their making an attempt of creating 50 cycles per second . . . .now, certainly one of those filters has failed completely.
Take your metering and place in DC mode . . . .~50 VDC range (unless autoranging) and read across the larger of the filters (C4) and see what DC voltage you read across the positive and negative terminals of that filter after a powering up of the unit and with the relay chatttering present.
Then repeat on the metering of the other filter.
Is one filters developed DC voltage, being appreciably lower than the other ?
THEN . . . . let's doittoit and subject it to the REAL . . .test.
Switch to AC metering mode and repeat the two tests, but this time expect a HIGH reading on the inactive filter.
Thaaaaaaaaaasit
73's de Edd . . . . .
How do they know EVERY snowflake is different, and not just being reincarnated each winter?
