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Beolover SyncDrive: DC Platter Motor Replacement for Beogram 4002 and 4004 (Type 551x and 552x)

Late Beogram 4002 and the 4004 (Types 551x and 552x), which have DC platter motors instead of the earlier synchronous AC motors usually suff...

Monday, July 6, 2026

Beogram 8002 (5633): Finishing Up - Reattachment of Aluminum Panels and a New Dust Cover with Transferred Original Trim

I recently completed the functional restoration of a Beogram 8002 from a customer in Missouri. A few days ago, I received the new dust cover back from Beomazed, who performed his magic to transfer the original 'Beogram 8002' labeled trim to a new pristine reproduction dust cover. Since the Beogram had played flawlessly while the dust cover was getting done, it was time to complete the unit and put everything back together.

Here is an impression of the final result:


Looks pretty close to new! Beolovely!

To get there, I first glued the loose main aluminum panels back into place. The double-sided tape that was used to attach the panels is degraded in most cases. I usually remove the tape remnants by placing pieces of isopropyl alcohol-wetted paper towel on the degraded tape. After a 1 hr soak, the stuff can usually be rubbed off.

I usually use epoxy and some M3 washers to glue the main plate back into its place:


Once washers and epoxy are in place, I carefully adjust the plate and clamp/weigh it down:

For the small plate I used double sided tape:
Usually, the steel plate that is attached to the black panel under the arms also comes loose:

I usually use double-sided tape for this one, too:
The next steps were putting the Beogram back into its enclosure and installing the new reproduction hood with the transferred original trim. Then it was time for a test spin. I selected one of my favorite David Bowie albums, ChangesOneBowie (RCA Victor APL1-1732), a great compilation that was released in 1976. Here is an impression of this lovely album playing on this like-new Beogram 8002:


After this test, I carried the Beogram to my photo studio and took a nice set of pictures.
Enjoy!:































Thursday, July 2, 2026

Beogram 8002: Skipping and Jerky Run-Off Carriage Motion - Installation and Test of a New Beolover Carriage Motor

It is good that I always listen to a restored Beogram for a while before I send it out. Some issues can only be detected after a longer period of use since they are intermittent or subtle. This also applied to the Beogram 8002 (Type 5633) that I recently sold to a customer in the UK. While I played it, I realized that the pickup occasionally skipped on records that I knew were perfectly fine. This only happened on a few sides that I played. But it indicated that something was wrong.

I encountered a similar issue a while back, where I resorted to tweaking the H-bridge gain to give the motor a bit more power. The reason for such behavior is increasing friction in the motor or elsewhere in the carriage mechanism, causing 'sticktion' where the motor does not get enough power to overcome static friction, while the arm moves inward on the record. After a few more turns of the record, the tracking sensor is finally at a point where the voltage at the carriage motor is high enough to overcome the stuck mechanism, and the motor suddenly starts running at a high speed so the carriage can catch up with the arm. This rapid catching-up process can cause sufficient mechanical turbulence that the very light tonearm skips a groove.

In this case, there was yet another indication that the motor had an issue: During runoff, the carriage moved in a few big jerky steps instead of a smooth, quick motion tracking the needle as the runoff groove drags it towards the center of the record until auto-return is triggered.

This time I thought, why not see if one can replace the Beogram 8002/8000 carriage motors with the Beolover Carriage Motor for Beogram 4000, 4002, and 4004. A quick measurement on the motor terminals indicated that the motors in the 8002 run at similar voltages to the motors in the 400x.

This shows the open carriage motor compartment of the 8002:

First, I unsoldered the brown lead and connected my multimeter in current measurement mode between the wire and the motor terminal. Then I operated the turntable to see what the maximum current might be that this motor draws:
As expected, the motor draws the most current (~70 mA) during the carriage return after pressing STOP.
I removed the motor:
This shows the original motor in comparison to the Beolover motor:
The new motor is a bit smaller. Like most new designs, it is more efficient than the original motors due to better magnets and better manufacturing techniques available today.
Due to the size difference, I had to design an adapter to make the new motor fit into the original motor housing. This is what I came up with:
I 3D-printed two plastic clam shells to increase the diameter and length of the motor to match the original form factor. The additional two EPDM rubber rings serve as vibration insulation. They are put on the motor like this:
Then the plastic pieces are fitted around the motor:
The plastic pieces have two protrusions that hold the motor in place and prevent it from sliding inside the housing:
The new motors have a small round mark next to one of the terminals. The brown wire needs to be connected where the mark is, and the blue one goes to the other terminal.
I soldered the blue wire:
Then I did another current measurement between the brown wire end and the unconnected motor terminal:
Like the original motor, this motor drew the largest current during carriage return. At 50 mA, it is about 30% smaller than the value of the original motor. This was to be expected. In the Beogram 400x series of turntables, I saw a similar power reduction for the same performance. Some things get better as time marches on!...;-). Lower power is always preferable. It reduces the stress on the H-bridge components and also results in a quieter and lower vibration operation. After this test, I connected the brown wire. Since it is shorter, I had to put in a wire bridge to extend it to the motor terminal:
The cover still fits perfectly:
This is how it looks from the front:
After this installation, I listened to a few records with the new motor, and everything worked very nicely. I noticed how much more quietly the motor operated during <</>> and START and STOP operations. Significantly fewer vibrations compared to the original motor! Beolovely!

At that point, I realized that it would be nice to get some oscilloscope shots of the tracking signal on the motor terminals. So I opened the motor housing again and connected my oscilloscope between the motor terminals. This trace gives a nice summary of the motor operation. It essentially captures the voltage fluctuations during the last few turns of the record before the 'run off' groove, then the signal during run off until auto-return is triggered, followed by the actual return:
I wanted to compare this signal with the original motor, and so I installed the original motor for another measurement. This shows the same operational sequence as above:
While the overall pattern looks similar, there are notable differences: The voltage jumps during regular tracking are larger for the original motor. They also have a higher baseline. This indicates that the tracking sensor needs to send more voltage before the motor moves. Secondly, the run-off signal confirms what I observed visually, that the carriage makes bigger jumps. Comparison to the new motor shows that the original motor moves in 3-4 big steps, while the new motor gets a much larger number of voltage pulses, causing it to move the carriage much more smoothly.

In summary, I think the Beolover carriage motor is an excellent substitute for the original motors, which seem to be on the verge to develop age related issues. If you are interested in upgrading your Beogram 8002 or 8000 with a new carriage motor, it is now available via the Beolover's DKaudiolover store!







Saturday, June 27, 2026

Beogram 4002 (5523): A New Arrival From Louisiana - First Impressions

I recently received a Beogram 4002 (Type 5523 with DC platter motor) from a customer in Louisiana. It arrived safely packaged in a Beolover double box, and no shipping damage occurred. This post gives a first assessment of the unit. I extracted the Beogram from the packaging and put it on my bench

As in most cases, the dust cover was fairly scratched up:
Luckily, this can be fixed with a nice shiny new reproduction hood and a new reproduction aluminum trim!
Under the hood, the unit has nice aluminum surfaces:

Like most, after almost 50 years, it has a few minor dings and blemishes:
There is a bit of damage around the platter cutout, possibly from carrying the unit around without tightening the transport locks:

On the positive, the platter is still very nice:
The plinth still has decent corners:
Unfortunately, there is a bit of damage on the right side
This could possibly be fixed, but my customer wanted the frame replaced with a new CNC-machined 4000c-style oak frame anyway.

The keypad seems to have had its coating removed:
It probably had a worn coating in the areas where fingers touched it, and removing all of it resulted in improved looks. This can be fixed with a new reproduction keypad plate. See here for more information about our keypad restoration service.

After this visual inspection, I removed the aluminum plates and the platter:
I found some 'well-known parts': A new Beolover Tracking Sensor LED Light Source (Beogram 4002 and 4004) and a new machined aluminum pulley had been installed at some point:
The DC platter motor had a non-spec pulley installed. This one has the wrong shape since it is cylindrical and lacks a crown that keeps the belt centered while the motor spins:
If I can successfully restore this motor, I will fit it with a properly crowned Beolover DC Platter Motor Pulley for Beogram 4002 and 4004.

As found in most, this Beogram 4002 had also completely lost its transport lock bushings:

At this point, I plugged the unit in and pressed START. The carriage came alive, and the platter motor started running with a shriek. A clear sign that its shaft bearings are in urgent need of reinfusion with oil under vacuum. The carriage found the LP setdown point and the solenoid engaged. All good lifesigns!

When I pressed STOP to return the carriage, there was no reaction. I had to use the ">" button to manually drive it back. This may indicate a dead transistor in the electronic switch, or a very oxidized switch terminal under the STOP key. We will see.

In summary, I think this Beogram 4002 is a good starting point for a restoration to like-new condition. Stay tuned for updates on this project!