Yesterday, I wired a laundry pull chain light outlet to come on with other basement lighting operating from a switch.. took a 14-2 from a switched lighting outlet to the 4" round box that the keyed pull chain fixture...
The existing 4" round has a 14 -2 in and out and two bell transformers on it (one old green one, one newer silver one)... the bell transformers were paralleled on the LV side.. ( ? )
I removed the keyed fixture from the circuit... redid the existing in and out 120 v and bell xformer connections.
As I'm drilling and pulling the new wire, I'm smelling a burning smell ??? I go to the box and can't touch the newer looking transformer as it's almost red hot... the green one is hot..
I disconnected the line to the old xformer and disconnected the lv connection... Finish up the work, check the door bell and no good... took a reading on the new transformer low voltage side and got 1.2v
I disconnected the line and low voltage to that transformer and rehooked up the line and low voltage to the older green transformer.. bells work.. I got out of there, but wondering about it.
I'm 99.999 % sure it was all hooked up the way I rehooked it up... why no red hot transformer before I touched it?
I was thinking that they have a couple loads so the paralleled secondary would increase the va for the secondary load.... true??
Playing around with bell transformers in the past, I would put a 9 v battery across the lv side and attach wires to the high voltage side and have someone hold the leads giving that someone a rap.
So when I disconnected any of the two transformers, If I didn't connect the lv of the other xformer, I'm thinking 120v would be induced on that other transformers HV side..
So I'm thinking of xformers that are hooked up in parallel, are voltages induced back on the primary from the secondary windings of the other transformers that are paralleled together.. ??
Does that have any affect on line power?
Also, with the amount of heat this thing was putting out, it's very scary that the only oc and gf protection is a breaker which wasn't tripping... ???
The existing 4" round has a 14 -2 in and out and two bell transformers on it (one old green one, one newer silver one)... the bell transformers were paralleled on the LV side.. ( ? )
I removed the keyed fixture from the circuit... redid the existing in and out 120 v and bell xformer connections.
As I'm drilling and pulling the new wire, I'm smelling a burning smell ??? I go to the box and can't touch the newer looking transformer as it's almost red hot... the green one is hot..
I disconnected the line to the old xformer and disconnected the lv connection... Finish up the work, check the door bell and no good... took a reading on the new transformer low voltage side and got 1.2v
I disconnected the line and low voltage to that transformer and rehooked up the line and low voltage to the older green transformer.. bells work.. I got out of there, but wondering about it.
I'm 99.999 % sure it was all hooked up the way I rehooked it up... why no red hot transformer before I touched it?
I was thinking that they have a couple loads so the paralleled secondary would increase the va for the secondary load.... true??
Playing around with bell transformers in the past, I would put a 9 v battery across the lv side and attach wires to the high voltage side and have someone hold the leads giving that someone a rap.
So when I disconnected any of the two transformers, If I didn't connect the lv of the other xformer, I'm thinking 120v would be induced on that other transformers HV side..
So I'm thinking of xformers that are hooked up in parallel, are voltages induced back on the primary from the secondary windings of the other transformers that are paralleled together.. ??
Does that have any affect on line power?
Also, with the amount of heat this thing was putting out, it's very scary that the only oc and gf protection is a breaker which wasn't tripping... ???
