hcraig244
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So ready to be returned to its home……been quite a journey, the success is largely due to Manfys inspiration and guidance regarding the voltage regulator and toroidal transformer.
Its good to know that a failed transformer isn’t the end of the road for a BG4000
Installed the voltage regulator, bolted to the chassis, no additional heatsink required….gave her a spin and nothing is getting more than lukewarm….Martin recommends removing 2TR6 from the circuit board due to overheating causing the 6vdc supply to become unstable…..so I’m good with this, good test required and that should be that!
Resistor received, however I ordered a 3w component and received a 25w instead……bit overkill but quite adequate….
As I’m now down to 1 bridge rectifier I thought it would be wise to check a few things out before I do a lengthy test run:
Output from the new 6vdc regulator = 160ma under operating load
Output from the existing 24vdc regulator (0tr1) = 440ma under operating load
The transformer arms are good for 1.25A so I think we’re good to go, the bridge rectifier is rated at 3.7A. I will monitor the temperatures of all components, TR1 particularly though the data sheet says its good for 80w (seems high to me).
Also I have ordered a 33 ohm 3w resistor to see if I can drop all the heat over it instead of the regulator, I can then fasten the resistor to the chassis for cooling……
Tried a 22 ohm resistor in line with the regulator and this dropped the input voltage to a little over 10vdc…the heat dissipated by the regulator has dropped and the resistor is doing some of the work….
this is the input to the new voltage regulator from the centre tap of the the transformer, much improved though still a little high, this measurement was taken under load, this was previously sitting at 24v
moving on…..got the dual outputs from the centre tapped transformer sorted out, after a good deal of head scratching….and glasses of wine! I removed the 6vdc bridge rectifier and reinstalled the smoothing capacitor, output from the centre tap connection of the transformer to the input of the new regulator and now get a decent full wave rectification.
cant seem to get a jpeg loaded……..maybe later
This looks like an issue with the centre tapped transformer, I have read on the internet that a common neutral on the DC outputs of dual supplies of different voltages fed from centre tapped transformers are not allowed, this may be my problem.
When I disconnect the 24vac supply from the transformer to the 24vdc rectifier I get the expected 12vdc from the output of the 12vdc rectifier, so I know the 12vdc rectifier is working fine..I have no problems with the 24vdc side which is working fine, as this is the required higher supply im not surprised. I cant see anything untoward except the common neutral to both rectifiers……..any advice regarding this would be welcome, as always ;¬)
Ok…..cleaned the drawing up to include the actual transformer wiring details and took some measurements…..these are all with the turntable running and under normal load conditions…everything works fine though the voltage regulator gets hot…put a heat sink on it which helps quite a bit.
However the 6vdc fell off when the regulator went into high temp cut off……it was getting very hot!….few measurements revealed that I am getting 24v at the input to the voltage regulator instead of the 12v i was expecting, the output from the transformer is 12v to the 6v rectifier…..
This is how it looks, I have the regulator connected on leads to allow measurments to be taken easily
timestamp is a bit of a challenge here……my replies are all jumbled up, however wired up the transformer and powered up….slowly with the variac and watched the output of the 6vdc regulator it came up nicely…..and as i wound up the variac the output started to fall back to 0vdc….like a capacitor charging up?
just getting my head around the order of things here….I will try harder
