Here is my SSHV2. Row pcu, heater psu and SSHV2 all in one pcb 10x15 cm, including the sinks.
I made some changes in layout of SSHV2, to use the same sink for IRF840 and DN2540. I replaced 2sk117GR and KSA1381 whith 2SK170 and mje350, and I used 10u/450V electrolytic. I used 4 uf4007 rectifiers and 4 // 47n/680V, and after that RC filter (2 100u/400V electr., 2 1u /400V MKT, 1 10u/400V electr. and 2 resistors)
The in + raw is 298V. After power on I turned R4 and R11 for 30mA and 240V, then I conected my preamplifier and power on again.
The reading started from 235V, then rised slowly to 245V (in about 15 minutes) and then stay steady as rock for about 2 hours I lisened to music. I tried that next day and once again for more than 2 hours. The readig was the same as the first time. The sink was just warm. I hear no hum, buzz and other noise at all.
The sound was very clear and detailed for for bass, mind and high.
I love SSHV2. You can use it as variable psu
The only I have to say is congratulation Salas
I tried to attach two pictures but Iwas waiting for more than 1 hour and nothing. Perhaps tomorow I' be more lucky
I made some changes in layout of SSHV2, to use the same sink for IRF840 and DN2540. I replaced 2sk117GR and KSA1381 whith 2SK170 and mje350, and I used 10u/450V electrolytic. I used 4 uf4007 rectifiers and 4 // 47n/680V, and after that RC filter (2 100u/400V electr., 2 1u /400V MKT, 1 10u/400V electr. and 2 resistors)
The in + raw is 298V. After power on I turned R4 and R11 for 30mA and 240V, then I conected my preamplifier and power on again.
The reading started from 235V, then rised slowly to 245V (in about 15 minutes) and then stay steady as rock for about 2 hours I lisened to music. I tried that next day and once again for more than 2 hours. The readig was the same as the first time. The sink was just warm. I hear no hum, buzz and other noise at all.
The sound was very clear and detailed for for bass, mind and high.
I love SSHV2. You can use it as variable psu
The only I have to say is congratulation Salas
I tried to attach two pictures but Iwas waiting for more than 1 hour and nothing. Perhaps tomorow I' be more lucky
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And are those sinks to the right the heater's supply on same pcb? Better twist each sense and force pair of cables, makes for a tighter loop area.
Yes, the sinks to the right are for heaters. I'll twist the cables and all arangments when I finish the test. The SSHV2 is conected to pream. and as I mentioned no hum or other type of noise. It's quiet as dead.
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Could you hear more detail and dimension in music from what you used for B+ filtering/reg before? What was that, and on what kind of preamp you tested?
Allthough I'm not so good in listening, I think I hear more detail in music. I used a TL783 as +B that works like a LM317 and simple RC filtering. My pream. is a tube pr. whith 2 6n3, but I'll test whith an other tube 6n1. http://diyaudioprojects.com/Tubes/ECC802S-ECC82-12AU7-Tube-SRPP-Preamp/
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The ones in series under the led if you talk SSHV2. But SSHV1 CCS can give much more current if you are looking for some solid state 85V application to cater for.
Of course that's OK!
Yes, I'll try to do it tonight after work. Maybe you should wait till then before putting the link in the first page...? I'll post here once it's done.
SSHV2 beta test
Another very successful best test for the SSHV2.
A few days ago, I received from Teabag one SSHV2 pcb to test. Quality is awesome as usual.
This morning got the last few parts missing and soldered it. Took less than two hours. Worked right away, no surprises. Current initially was on the low side, and it did not regulate properly. A few turns on the trimmer and everything was fine. Looks very stable, with minimal voltage drift. Of course, this can change inside a box.
Looks more bulletproof and more tolerant to mistakes than SSHV1.
Tried various Vin and Vout combinations on the high voltage side.
Current set a 55mA, but I have tested it up to 100mA.
Also heatsink for the 840 was a little oversized for testing. For the 10uF cap, I had to use two 20uF 250V in series, as I did not have anything else in my stash right now. Resistor was 17k.
Pic on the scope is AC full gain.
Many thanks to Salas and Teabag.
Another very successful best test for the SSHV2.
A few days ago, I received from Teabag one SSHV2 pcb to test. Quality is awesome as usual.
This morning got the last few parts missing and soldered it. Took less than two hours. Worked right away, no surprises. Current initially was on the low side, and it did not regulate properly. A few turns on the trimmer and everything was fine. Looks very stable, with minimal voltage drift. Of course, this can change inside a box.
Looks more bulletproof and more tolerant to mistakes than SSHV1.
Tried various Vin and Vout combinations on the high voltage side.
Current set a 55mA, but I have tested it up to 100mA.
Also heatsink for the 840 was a little oversized for testing. For the 10uF cap, I had to use two 20uF 250V in series, as I did not have anything else in my stash right now. Resistor was 17k.
Pic on the scope is AC full gain.
Many thanks to Salas and Teabag.
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