Well, I started up the BA-3...actually just the power supply. Immediately popped a 2A fast blow fuse. Damn it.
while I am assembling a bulb tester you guys have any ideas?
Here's whats going on:
- From the power inlet Red is Live, black is N.
- Antek transformer, Primary has two leads for power. Red and Red/ black and black tied to each other (i.e. red + red = live, black + black = N) after the power switch.
- Purple wire is transformer "static shield" that should be grounded.
- Secondaries to the PSU boards. Each set of secondaries (green and blue) measure infinate resistance between them.
- Cap on the output of the power switch (Y rated)
- Doesn't matter which secondaries go to the diode bridge right? It's AC so I think it doesn't matter. It's not like the A/C connections on the diode board are specific, right?
- Leads from the PSU (red/White/Green) are not connected to anything yet.
- I briefly measured about 5V on the PSU before I realized the fuse was blown.
Could this just be the the startup load that blew the fuse? I have 1A slow-blow fuses I will use but I thought I'd start it with a fast blow to be safe.
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Better check the primary wiring. Antek has PDFs of their transformer wiring.
I believe it's red/red and black/black connected on the primary.
I'm rewiring my active XO right now and it uses an Antek 20+20 an-0220
Transformer. I took a pick, but have shrink it first.
I believe it's red/red and black/black connected on the primary.
I'm rewiring my active XO right now and it uses an Antek 20+20 an-0220
Transformer. I took a pick, but have shrink it first.
On second thought your primary looks ok. The twisted red and black though me off.
Is a thermistor necessary is this application?
Is a thermistor necessary is this application?
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Attach that wire to screw where the thermistor is attached, not AC earth. It's a subtle change, but still worth doing. (That's not causing the fuses to blow, however)
Yes and no, make sure the blue/green are attached to the same places on each bridge
Take all that off, including the tied grounds and see if each individual PCB is working properly.
Try the slow, but I doubt that those PSU caps should pop a 2A fast...
vdi_nenna said:
Can't hurt, and will probably help the overall noise floor.
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I'll look at the A/C connection from the transformer to the diode board. I am not sure if each board is hooked up the same way. I thought it didn't matter.
6L6, good idea to test each board independently…I'll try that.
Vienna, the thermistor is just a ground loop breaker/isolator. Maybe I should leave it out when testing. Maybe it's safer that way.
Also I should not that when switched on there was quite a spark/arc inside the power switch. It has a transparent window on the back of the switch and there was some arcing when switched on. Is this normal?
6L6, good idea to test each board independently…I'll try that.
Vienna, the thermistor is just a ground loop breaker/isolator. Maybe I should leave it out when testing. Maybe it's safer that way.
Also I should not that when switched on there was quite a spark/arc inside the power switch. It has a transparent window on the back of the switch and there was some arcing when switched on. Is this normal?
Leave the thermistor, it's not going to make any difference in troubleshooting.
What kind of switch is that? SPST? DPDT? If it only has a single pole you might just have the switch wired wrong...
What kind of switch is that? SPST? DPDT? If it only has a single pole you might just have the switch wired wrong...
DPST. Here's the specs:
----------------------------------------
RS-4A
A DPST switch with a glass-loaded flame retardant body and spindle, and silver contacts.
Capable of withstanding inrush current of 64A for 10ms.
Contact rating 250VAC 4A
Angle of rotation 45°
Made in UK
Weight :12 (gram/each)
----------------------------------------
RS-4A
A DPST switch with a glass-loaded flame retardant body and spindle, and silver contacts.
Capable of withstanding inrush current of 64A for 10ms.
Contact rating 250VAC 4A
Angle of rotation 45°
Made in UK
Weight :12 (gram/each)
Attachments
I have a 317/337 regulator I assembled and was wondering if I could use this in a seperate chassis with the BA-3 FE? Regulator has ±5 to ±15VDC.
thx
Neville
thx
Neville
ugh I just looked at the specs and 25V is needed..... all this black friday stuff driving me nuts 🙂
btw have a great Thanksgiving to my US brothers and sisters 🙂
btw have a great Thanksgiving to my US brothers and sisters 🙂
The 317/337 can do +/- 25V -- the regulator I am using is exactily that.
You need to change a resistor value or two in order to get that voltage. Easy enough to figure out, or just ask for a hand.
The most important thing, however, is the voltage rating of your capacitors - look at your reg and see what they are. If they are 25V or better, you are good to go, if not you probably need to swap a few new ones in.
You need to change a resistor value or two in order to get that voltage. Easy enough to figure out, or just ask for a hand.
The most important thing, however, is the voltage rating of your capacitors - look at your reg and see what they are. If they are 25V or better, you are good to go, if not you probably need to swap a few new ones in.
Based on the equation, I think the calculator works with LT1033 and LT1085 regulators as well. I think...don't quote me. I used the 1033 and 1085 for the B3-Pre PS. We'll see when it gets turned on and tested. 🙂
All those regulators work on the same principle - they try to keep 1.25V across their ADJ and OUT pins - the actual output voltage then becomes a ratio of the two resistors. So it's logical that the LT devices will need the same resistor values.
My QC guy testing Front-end
Passed!
PSU wiring. Sometimes I think the only trick to making this stuff look fairly good is the copious use of zipties... 🙂
Vince - this photo is for you - it shows the PCB connections, I will get a shot of the attenuator as well. You can do it with no changes to the PCB. 🙂 🙂 🙂
I realise this is a bit of a teaser, but more photos later. The short story is that it works, biases properly, is very quiet, and sounds as good as I've been imagining!
I will also measure and illustrate the effects of changes to P3.
Until then,
Happy Thanksgiving everybody!