Tutorial: Fleischmann Turntable 6052 / 6652 & Switch 6909 / 6910 - the basics explained & schematic
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- Опубліковано 12 вер 2024
- #Märklin #hoscale #fleischmann #modeltrains
Correction:
3:25 into the video I said:
White and Red Wire connect to AC output on Fleischmann Transformer from Switch 6909 / 6910
Correct is:
White and Black Wire from Switch 6909 / 6910 Connect to AC terminals on Fleischmann Transformer
I am so grateful for your video , without finding this I would not have a working turntable......THANK YOU
Fantastic! Thank you very much, exactly what I was looking for - confirmation for the DC (not AC) motor. And you are correct, there are no schematics available for the old turntable. I work on vintage model trains and I’m finding your videos very informative. Thank you, Peter.
You are welcome!
Thank you.
Very grateful for your hard work and clarification. I have a 6652. I have been struggling with what to power it with. Ac or Dc, believing it was 12v ac🤔.
I have an 18 z21 Dcc layout.
Thanks again.
Fleischmann brought the Art. 6915 "Turn-Control" in the 2000s which is an electronic turntable control unit with knob and display. It can also get controlled by DCC or LocoNet. But it is rare and expensive.
thank you
I have the 6152, the unit is in new never installed condition with QA paper dated 1972 (?). I have serviced the drive (completely disassembled) and it works, however occasionally the motor will stop and won't re-activate. I can hear the relay activating but the motor won’t start in either direction. I’m using the original controller, a 12V AC power supply with an actual 12.7V AC output. Do I need a higher voltage… ?
Peter
Yes 15 to 16 VAC, the Relais is pretty rugged and I would clean the contacts with 99.9% industrial isopropyl alcohol. I use this on the wheels as well and it works like a charm. Keep it away from anything plastic.
Peter
Fleischmann transformer accessory outputs are specified to provide 14V AC. If we take a bridge rectifier with two silicium diodes in the path for each current direction we loose ca. 0.6V per diode meaning a loss of 1.2V.
*promosm*