This is the third installment of my 'this Beogram keeps on giving' series about the Beogram 4000 from Australia that I have on my bench currently (in other words the Beolover is having some fun!..;-):
After fixing the tonearm wiring and the broken photocell in the sensor arm, this Beogram decided to give me a never experienced before new phenomenon:
After pressing OFF, the carriage returned home as it should, but after touching base, it decided to go back for an inch or so until it decided to finally come to rest. As if someone pressed ON again and then after a few milliseconds one of the < or > keys to bring the carriage to a premature stop before setting down on the record. Very strange! This was completely reproducible, i.e. happened every time I tried. Otherwise the deck seemed to perform normally.
After a bit of head scratching it occurred to me that maybe the 24V rail that controls the analog part of the control system did not shut down properly after the carriage triggered the off switch. I examined the reed relays that control the power in the Beogram 4000 and it became quickly clear that the one responsible for this 24V rail was stuck on closed.
The power supply setup in the Beogram 4000 can be a bit confusing, so a while ago I already made a schematic labeling some of the 'ingredients':
There are four reed relays (i.e. relays that are activated by a magnetic field generated by a surrounding coil to ensure galvanic separation of the circuits) that are controlled by two coils. These coils are the two big yellow items in the picture above. Each coil has two round passages into which the glass relay tubes are inserted. On either side the relays are connected with solder tabs that are inserted into the circuit board below and soldered to it on the backside.
The upper coil relays control the 24V platter motor power and the power to the strobe light. Since the strobe light runs on about 90V that come from a dedicated secondary winding in the transformer this relay is fully insulated with shrink tubing.
The lower coil contains the 6V relay that controls the power to the digital control system inside the keypad cluster (basically the 'brain' of the 4000...;-), and the 24V relay that supplies power to the analog part of the control system (the 'muscle'...;-).
This latter 24V relay is the one that was the root cause for the observed phenomenon. This was quickly confirmed with a multimeter, showing continuity across it even when the power plug was pulled.
The relay exchange is slightly messy. This shows the original setup with the 24V relay still in place:
For removal of an old relay, it seems best to remove its solder tab on the left side first and then unsolder the other end of the relay from the solder tab on the right. This makes it easy to pull the relay out towards the left which is less obstructed. Be careful to not damage the very fine magnet wire that connects to the coils when you try this at home.
The first step is to remove the solder at the point where the relay connects to the tab with a solder sucker. Then the tab can be bend a bit away from the relay pin and then from the backside of the board the tab can be unsoldered and removed. The next step is to unsolder the other end of the relay and then it can be pulled out. Note that it is easy to damage the wire insulation of the red wires that are also attached to this tab. This shows the setup after removal of the relay tube:
Here a picture of the extracted original relay (top) together with the new one:
The new ones are slightly shorter but have longer pins. This makes installation relatively simple. The first step is to cut the right side pin to the proper length and then insert the relay followed by soldering it to the right tab. Then the left solder tab can be slid over the relay pin and pushed back into the PCB followed by soldering in place. The final step is soldering the relay pin to the tab and cutting the excess of the pin off. This shows the final result of the implantation:
After this procedure the Beogram performed again normally. On to finishing this project up!
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