Xref: utzoo rec.audio:6336 sci.electronics:2933 Path: utzoo!mnetor!uunet!husc6!mailrus!nrl-cmf!ames!pasteur!ucbvax!decwrl!decvax!mandrill!nitrex!rbl From: rbl@nitrex.UUCP ( Dr. Robin Lake ) Newsgroups: rec.audio,sci.electronics Subject: Re: How about some basic power amp schematics? (Electrochemical Cells) Message-ID: <744@nitrex.UUCP> Date: 10 May 88 11:12:15 GMT References: <265@gt-eedsp.UUCP> Reply-To: rbl@nitrex.UUCP ( Dr. Robin Lake ) Organization: BP America Research and Development Lines: 29 Summary: Who is using them and why are they any better? In article <265@gt-eedsp.UUCP> drabik@gt-eedsp.UUCP (Timothy J. Drabik) writes: > >... >It would also be interesting to see, apart from the amplifier circuit >design, to what lengths designers have gone to obtain power supply noise >rejection and decoupling, for example, electrochemical cells as power supply >shunt filters, solid bars or copper braid as low-inductance supply conductors, >and the like. Ditto for quiet cooling and efficiency, e. g. heat pipes, >plumbing, switchable supply levels, or other wierd stuff. > > Regards, > Tim Drabik > Ga Tech Optical Computing "We" make (or used to make) electrochemical cells as battery replacements and much of the key development talent is about. Why are these cells any better in power supply shunts? Are they supposed to be lower noise? Is there any data/information that anyone might want on these cells? If there is any interest, I have schematics for Dyna tube amps, including some higher powered (300W) ones that were not offered commercially. RSVP -- Rob Lake BP America Research and Development decvax!mandrill!nitrex!rbl mandrill.CWRU.EDU!nitrex!rbl