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Fuses
In article , Pooh Bear
wrote: Jim Lesurf wrote: In article , Pooh Bear wrote: Recently acquired some new dummy loads for amplifier testing. The measured THD figures seemed rather high. Swapping to an earlier dummy load reduced the THD. Concluded that the resistance element was thermally modulating on a cycle by cycle basis. The cable to the load acted like a potential divider in series withe lon-linear load. Measuring THD directly at the amplifer output itself proved the point. Was the 'suspect load' THD high at HF or at LF? Seemed to be pretty much independent of frequency IIRC which seemed odd. I was more interested in just sorting it to spend too much time though. OK. It does sound an odd result. If it were thermal then I'd have expected more distortion at LF, but if due to reactance, more at HF. So a strange result. Might it have been due to some sort of contact diodes or similar? [snip] The ceramic tubular loads appear to be the ones with the problem. More recent ones seem worse too. Different resistance wire ? Don't know. It is a curious result... Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
Fuses
In article , Arny Krueger
wrote: [snip] There's an old JAES paper by Greiner of the University of Wisconson that charted nonlinear distoriton due to fuse thermal effects. Thanks again for pointing this out. I've now had a chance to read it. Two things strike me as remarkable: 1) That he mention fuse effects in just a couple of pages at the end of a paper largely on other things like cables. Yet I'd say that what he reports there almost as a throw-away aside is *much* more interesting than the main topic. THD values up to a percent or more in quite plausible example cases! 2) That no-one else seems to have much of an issue of this. OK, I assume that most designer's reactions would be like mine and just avoid using fuses where the distortion would show up. But only once they realise this is a problem. Yet it seems to pass almost without comment in many textbooks, and in magazines, and I can't recall any systematic and widely known data on this. Given how some people beat their brains out over tiny effects, seems weird this isn't better known! I've now put onto my "must do one day" list to do some more measurements and try and work out a basic model of the effect. Some of the papers I've mentioned will help with that if I ever get around to it. I'll also do a search of Electronics World and see if they've ever covered this. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
Fuses
"Jim Lesurf" wrote in message
In article , Arny Krueger wrote: [snip] There's an old JAES paper by Greiner of the University of Wisconson that charted nonlinear distortion due to fuse thermal effects. Thanks again for pointing this out. I've now had a chance to read it. Two things strike me as remarkable: 1) That he mention fuse effects in just a couple of pages at the end of a paper largely on other things like cables. Yet I'd say that what he reports there almost as a throw-away aside is *much* more interesting than the main topic. THD values up to a percent or more in quite plausible example cases! 2) That no-one else seems to have much of an issue of this. OK, I assume that most designer's reactions would be like mine and just avoid using fuses where the distortion would show up Greiner's article suggests that separate fuses for woofers and tweeters would do a lot of good. . But only once they realise this is a problem. Yet it seems to pass almost without comment in many textbooks, and in magazines, and I can't recall any systematic and widely known data on this. Given how some people beat their brains out over tiny effects, seems weird this isn't better known! Well, we all *know* that speakers are very dirty, and some of us know that rooms can be at least as dirty. However, realizing the audible implications of the fact that audio reproduction involves a chain that is only as good as the weakest link, seems to be less common. Many people seem to think that speaker distortion is a separate breed that always flies under our auditory radar. In fact nonlinear distortion of a given magnitude and order is audibly what it is, no matter what the source. I've now put onto my "must do one day" list to do some more measurements and try and work out a basic model of the effect. Some of the papers I've mentioned will help with that if I ever get around to it. I'll also do a search of Electronics World and see if they've ever covered this. The conventions for use of protective devices seem to be separate protection devices in each driver's line or even more common, just the tweeter line. This probably makes most of the problems Greiner finds vanish below perceptibility. |
Fuses
Arny Krueger wrote:
"Pooh Bear" wrote in message Arny Krueger wrote: "Pooh Bear" wrote in message Recently acquired some new dummy loads for amplifier testing. The measured THD figures seemed rather high. Swapping to an earlier dummy load reduced the THD. oops! Concluded that the resistance element was thermally modulating on a cycle by cycle basis. The cable to the load acted like a potential divider in series with the non-linear load. Been there, done that. Measuring THD directly at the amplifer output itself proved the point. Perhaps. Not all dummy loads are equal it seems ! The best I've found in this respect are the alumium clad bolt down types. Interesting. What were these new dummy loads composed of, exactly? 2 of these in series to make a 600W 4 ohm load. Tubular ceramic wirewound type. http://uk.farnell.com/jsp/endecaSear...=1840290&N=401 They're still fine for soak tests. The biggest problem I've found with my dummy loads is variation of actual DC resistance with lnger-term heating and cooling. I have acquired a stash of precision NI wirewound resistors from Mouser for my next pass at the problem. These take my fancy. Supposed to be non-inductive. http://uk.farnell.com/jsp/endecaSear...=3067920&N=401 Hugely expensive though. Interesting design. Seem to be very compact about 1 x 3". Thay are in about the same price range as my 300 watters, of which I have 8. They are huge - about 2 inches in diameter and about 8 inches long. Here is the catalog page I order precision NI wirewounds from - I have a mixture of sizes and wattage ratings related to my reactive and non-reactive loads: http://www.mouser.com/catalog/620/411.pdf In my tests these are amazingly stable over a large temperature range. Rated power puts the surface temp up in the 400F range. The resistance barely changes. This is quite a contrast with other cheaper NI parts I have tested (and regrettably used). Took a look. Those aluminium clad parts look similar to the CGS parts I have here for some test loads. They are the ones the produce the 'best' results. The thick film jobs look similar to one of the types I posted above. Very low inductance by construction. When the budget permits ! Graham |
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