Sujet : Re: Cap C-V test
De : jl (at) *nospam* glen--canyon.com (john larkin)
Groupes : sci.electronics.designDate : 05. May 2025, 17:21:21
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <7onh1ktsoctanhuahj8kvgqgdihe7lc8r2@4ax.com>
References : 1
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On Thu, 01 May 2025 13:09:50 -0700, john larkin <
jl@glen--canyon.com>
wrote:
>
https://www.dropbox.com/scl/fi/a7425c69k3w8wx8tqjpq5/X110_CV_Test.jpg?rlkey=pc3c0b12ncswv6ajrn148stdk&raw=1
>
>
The DUT is a Venkel 2.2 uF 100v 1812-size ceramic cap. I need to run
it at 48 volts. 0.8 uF is probably OK. I have room on my board so I
guess I'll add another cap in parallel.
>
My AADE cap meter was behaving strangely here, so I measured C by
noting the -3 dB frequency driving the cap from a 50 ohm sine wave
generator.
Here's part of what I'm doing.
https://www.dropbox.com/scl/fi/ol237j24h1c4e4ti760bn/P978_A15.pdf?rlkey=amzd3xwy074mcakvzudva4ryi&dl=0We're designing a couple of products (one dummy load, one power
supply, both 8 isolated channels) and each board needs 8 isolated
20-watt power supplies. So we have 8 full bridges each pumping a 500
KHz square wave into a transformer-rectifier.
All share the +48 supply. If we polyphase the square wave drives, the
ripple currents will kinda cancel and the channels all share their
2.2u caps. I think.
Cap C-V test
Re: Cap C-V test