XPost: sci.electronics.design   
   From: legg@nospam.magma.ca   
      
   On Sun, 24 Mar 2024 18:20:58 +0000, Cursitor Doom    
   wrote:   
      
   >On Mon, 18 Mar 2024 07:19:08 -0400, legg  wrote:   
   >   
   >>On Sun, 17 Mar 2024 17:48:07 +0000, Cursitor Doom    
   >>wrote:   
      
   >>   
   >>Did you replace the rectifiers, until something (anything) changed?   
   >>   
   >>The ripple has changed since your last photo, as have your test   
   >>conditions. You still don't indicate a 0V reference, so we can't   
   >>tell what the % ripple IS.   
   >>   
   >>This waveform shows equal phase peaks at the expected frequency.   
   >>   
   >>What is your problem?   
   >>   
   >>RL   
   >>frequency.   
   >   
   >I fell into the same old trap as last time and the time before that   
   >and the time before that....   
   >It was nothing to do with the PSU. I eventually tracked it down to a   
   >coax's shield in the RF section which had come adrift. When   
   >re-grounded, the ripple on the output completely vanished. Must  have   
   >been somehow picking it up from the mains transformer despite all the   
   >screening and compartmentalisation in this device.   
   >All that time I wasted on the PSU - just because ripple *has* to be a   
   >PSU problem, doesn't it. Until it isn't, that is.   
      
   Good to hear you've tracked down the problem.   
      
   Actually measuring the output ripple of a functioning linear   
   can be an issue, as you're often expected to measure microvolts   
   on a DC level repeatedly - requiring carefull decoupling, probe   
   technique and sometimes external amplification, if the spec is   
   typically silly.   
      
   Suddenly you will become aware of all of the unshielded sources   
   of low frequency interference in your work area.   
      
   RL   
      
   --- SoupGate-Win32 v1.05   
    * Origin: you cannot sedate... all the things you hate (1:229/2)