Bottlehead Forum
Bottlehead Kits => Mainline => Topic started by: bergurbrag on May 27, 2023, 05:43:37 AM
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Dear Mr. Birkeland,
I have run into some issues with my Bottlehead Mainline amp. I discovered a short circuit and it seems it has possibly damaged some parts. I have since then fixed the short circuit.
Two 48,7 k ohm resistors connected between 2U and terminal 8 on the fin attenuator switch and 8U and terminal 2 on the fine attenuator switch are shorted. Also the output and impedance switches have a continuation (the multimeter beeps continuously) between all pins regardless on how the switches are positioned. I have not tried to desolder the switches.
The input switch seems to be working correctly the continuation changes when I flip the switch, only pins 5 and 8 stay the same as far as I can see.
Does this indicate that the output and impedance switches are toast and the input switch is ok ?
I might have some other questions but this will do for now.
With Regards,
Bergur Bragason
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The impedance switch is connected to the secondary winding of the output transformers, so all the terminals are likely to read very low resistance to each other unless you disconnect the wires. For what it's worth, I cannot ever remember anyone having one of those switches fail.
The 48.7K resistors likewise are extremely unlikely to short out. There may be something else at work that's causing what you're measuring, so I would post some build photos before attempting to remove them.
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Hi !
Thank you for your instant answer, I appreciate that !
I have desoldered the output switch and measured it. It seems to be working fine. Maybe you can confirm that ?
When in the first position there is continuity between 1 and 3. 2 and 4. In the other position between 3 and 5. 4 and 6.
If I understood you correctly the impedance switch has continuity because it is connected to the output transformer. I really do not want to desolder it because there are so many leads going to it.
Regarding the resistors I have measured all the resistors connected to the fine and course switches and all are working fine apart form those I mentioned. I have to Fluke multimeters and both read the same....
With regards,
Bergur Bragason
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I merged your second thread with the thread you already started. Please just reply to this one instead of starting new ones.
Yes, as I said before you should see continuity between pretty much every switch lug on the impedance switch. If you take apart every part of the amp that you believe isn't working properly, you're likely to do more damage and create new problems that aren't there currently. This is especially true in the volume control section, as it would be likely that you'll damage the switch trying to remove the 48.7K resistors, when ultimately there is something else likely to be at work. This is why posting some build photos would be very useful.
These resistors don't just fail as a dead short, so we will really need to inspect what's built to attempt to help you resolve this issue.
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Ok, thank you very much !
I am waiting to receive a transistor that got damaged. I will do a resistance and voltage check after I install it and then come back to you with some questions and photos if needed.
Can I use this thread ?
Bergur
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Hi !
Here are some build photos.
Please tell me if you can spot any issues
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More photos
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and more photos
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I would buy a pair of CHP-170 side cutters and trim off a bunch of your leads. You may find this video helpful:
https://www.youtube.com/watch?v=EN16Pi7pcfk (https://www.youtube.com/watch?v=EN16Pi7pcfk)
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Thank you for your advice. I have some micro cutters witch I will use.
I will come back soon with some resistance and voltage measurements
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Hi !
I appreciate your help very much.
Apart from trimming the leads did you spot any failures, any wrong connections, missing connections etc ?
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Dear Mr. Birkeland,
I am sending you photos of an Excel document with my resistance measurements
At first glance you may spot some OL readings. Those are to unconnected terminals witch, according to the manual, should be unconnected. There are 6 of those. Terminals 12, 14, 17, 24, 27, 29.
Those with specific numbers written in the manual are all ok. There are a few who are 0,3 Ohms where there should be 0 Ohms.
Terminals 19 and 22 have an * in the manual and those have a reading of 220k-Ohms.
Terminals 20 and 30 had a reading of some Mega Ohms.
Are these measurements correct and is it OK to proceed to voltage test.
Please give me a feedback
With Regards,
Bergur Bragason
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I don't see that you have any problematic resistances.
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Ok, thank you !
I will do a voltage test tonight and come back if I run into some issues
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…and it works… YES!
Beautiful sound
Thanks for all your help !
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Hi !
I am a little bit worried when it comes to the voltage check. The Amp works well but to get high enough output I need to turn up the input signal almost to the top.
I have done the biasing and it is 145VDC on both sides. The rest is as follows:
+275vDC on the Power Supply Board 275V 269VDC
+6.3vDC on the Power Supply Board 55-65V 59VDC
-6.3vDC on the Power Supply Board 50-60V 52VDC
IA on the A side C4S Board 275V 270VDC
IA on the B side C4S Board 275V 270VDC
Breg Regulator Board (both sides) 220V 215VDC
-reg Regulator Board (both sides) 0V 0VDC
Kreg Regulator Board (both sides) 8-12V 9VDC
Seem all ok but the input voltages to the PSB are 8,5VAC and 117,6VAC under load. I measured these secondary windings voltages as 135VAC and 9VAC before soldering them to the PSB. I used stranded wires of the same diameter as those solid ones that came with the kit.
Is this problematic ?
With Regards,
Bergur
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Using stranded wire in a kit is a really, really bad idea. It's not a problem to have the level controls turned up almost to the maximum; that is relatively normal for certain headphones when paired with the Mainline.
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Ok, thank you for your answer. This is the only place I used stranded wire in the whole build.
I have some wire left, one that is not stranded, black and red and a drain wire in a black sheathing. The same that is soldered to to 6,3VDC terminals of the PSB.
Is it ok to use that wire ? I will off course trim off the drain wire.
Is the reading of 117,9 VAC and 8,5VAC ok under load ?
Are the other readings ok ?
Bergur
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... and I meant using Pre Out on an another amp. I need to turn the volume of that amp up quite a bit
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... I have measured the wire I would like to use and it is a hair larger in diameter both striped. I am talking about the one with a drain wire and a foil shielding.
Please advice me on this matter
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If the amp is working, I would leave it alone. If you go in and start replacing wires, you're introducing the possibility that new problems are created.
Yes, the AC transformer voltages will decrease under load. What is your powerline voltage and which wiring configuration for the power transformer did you use? I would imagine maybe you have something like 225V AC of powerline voltage and your amp is set for 230V nominal, which would be a situation that would predict the loaded AC voltages you see, and there's nothing out of the ordinary about that.
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Thank you for your advice. I live in a country with 230VAC mains. I have measured the voltage going in to the transformer and it is 230VAC.
I used a configuration for Greater than 225VAC and Less than 235VAC
I measured the diameter of the stranded one again and it was really bad. I could not leave it....
I went a head and changed the wires to the one I mentioned earlier, the one with a drain wire and foil shield. It improved the voltage read under load a little bit.
Before re-wiring I measured the transformer, with no load, and it was 140,7VAC and 9,5VAC
Thank you again for responding fast and professionally ! I appreciate it very much
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... and, yes, the amp still works beautifully