Shawn Posted Friday at 08:13 AM Report Posted Friday at 08:13 AM 10 hours ago, JoaMat said: Nice idea. If you can implement an auto detect function as well – like Elekit has done with TU-8900. Power module… It's a great idea. I’ll likely move forward with the current plan for now since I’ve already ordered the PCB prototypes, but I definitely want to explore how that auto-detect function works. My guess is that it detects the difference in cold filament resistance between 2A3 and 300B tubes, but I’m not exactly sure how it’s implemented in detail. I’ll need to dig into that more. Also, from the image you shared, you reminded me that I should probably add a few small ceramic caps for filtering (like C9, C8, C7 on the right side of U1). Thanks for the heads-up.😅 The test PCBs should arrive this weekend. If I’m able to populate and test them successfully, I’ll report back with results. BTW, do you know what kind of DC-DC chip on the picture? Too blurry for me to read. Quote
JoaMat Posted Friday at 09:29 AM Report Posted Friday at 09:29 AM I don't what chip it is. Marking might be???? Very hard to see. 26QH 288 A3HL Including in curcuit is also dual comparator 2093B and .05R sense resistor. Good luck and looking forward a report. Quote
Shawn Posted Friday at 09:45 AM Report Posted Friday at 09:45 AM 11 minutes ago, JoaMat said: 26QH 288 A3HL Find it. I will share the info here anyway if you are curious. The switching freq range is between 900 to 2400(kHz). Lower than the LMQ, but shouldn't have any problems. https://www.ti.com/product/TPS62913 1 Quote
simmconn Posted 9 hours ago Report Posted 9 hours ago It’s not hard to do a 1:1 clone of the PCB. It’s also a great interview question for a junior electrical engineer to come up with a circuit that does this. However not a lot of them would probably know how a vacuum tube filament/heater behaves. Quote
Shawn Posted 4 hours ago Report Posted 4 hours ago Good news: It works! Measured output is 4.9V for the 5V setting, 6.1V for 6.3V, and spot-on 2.5V for the 2.5V setting. I haven’t tested the soft-start function yet — if anyone has good suggestions on how to choose a suitable load resistor for testing, I’m all ears. Bad news: I spent two days figuring out how to hand-solder with a heat pad and heat gun the QFN package. Even when using a stencil, too much paste tends to remain on the pads, which makes them very prone to shorting. As a result, I ended up ruining two boards and some components. At this point, I really don’t feel like assembling the remaining three boards myself. I think it’s best to leave the rest to a proper assembly house. Quote
sorenb Posted 1 hour ago Report Posted 1 hour ago 3 hours ago, Shawn said: if anyone has good suggestions on how to choose a suitable load resistor for testing I'd use 300b or 2A3 tubes as load be aware that NOS tubes may have different results from new production tubes 1 Quote
sorenb Posted 1 hour ago Report Posted 1 hour ago 7 hours ago, simmconn said: It’s not hard to do a 1:1 clone of the PCB. Maybe harder than you anticipate Recently I was sent a not working Blue Hawaii BJT. Turns out the PSU PCB is a clone of Kevins layout ... just flipped upside down, with components firmly mounted on top of the traces ...a year down the road, it went boom, with lifted traces and some literally burned totally. @kevin gilmore has been kind and provided a modified version of his layout to match the mounting studs in the chassis. Quote
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