Let suppose if that amp has got short-circuit protection or similar like this for rails shorting to output node , then the fear of your pro world is not going to haunt that amp.......
So no more offset discussion from now on......
BTW: I am happy with my Half Bridge amp with +/-180VDC rails.....with less than 40mV DC offset at output. Have you seen QSC PL8KW .........its Half-Bridge with rails touching almost +/-200VDC
So no more offset discussion from now on......
BTW: I am happy with my Half Bridge amp with +/-180VDC rails.....with less than 40mV DC offset at output. Have you seen QSC PL8KW .........its Half-Bridge with rails touching almost +/-200VDC
Ok then one nice question for you regarding floating Bridge.....
As far as i know in this topology there is single supply capacitor and the rails are floating. you can place a ground plane over the short length rail tracks or similar thing canbe done to reduce EMI, but the Filter cap's body is internally connected to negative rail , in your case its floating , wouldnot it will generate a good source of EMI then....
or i am lacking or missing something important.....
As far as i know in this topology there is single supply capacitor and the rails are floating. you can place a ground plane over the short length rail tracks or similar thing canbe done to reduce EMI, but the Filter cap's body is internally connected to negative rail , in your case its floating , wouldnot it will generate a good source of EMI then....
or i am lacking or missing something important.....
i'm sorry for little offtopic, but think that this is interesting:
http://www.creelighting.com/products/power.asp.
does somebody have any opinion or try that nice (but expensive) stuff ?
http://www.creelighting.com/products/power.asp.
does somebody have any opinion or try that nice (but expensive) stuff ?
I've got 6 pieces of 1200 SiCs in the shelf since February. I still haven't measured them yet. We were at Fairchild's Power Seminar few months ago. We were advised to try Fairhild's new Stealth diodes, because SiC is very expensive (this is true), and they have a structural failure chance. They aren't as robust as bipolar diodes. But in a Class-D amplifier, maybe they should't have to be as robust as bipolar diodes...
It does not necessarily follow that 300 - 1200 V SiCs are out of Class-D audio range. I would make an FPGA-controlled amp. with paralleled output stages. Every output stage's supply current could be sampled at the desired time, and an inner control mechanism could equalize the currents through the digitally generated duty cycle (you can do anything in a digital PWM). Each output stages would be bridged, and consist of 4 pieces of 300 V IGBT from Fairchild, without antiparallel diode, and additional SiC schottkies antiparallel outside. I intended to parallel 4 output stages for one output. Finally I decided not to do it, because it would be so expensive, and I can't make a proper PCB layout. I think, IGBT and SiC co-pack would be the right choice.
.new version for benders first D amp
Hi !
here is a new version for bender's first amplifier, with simplified phase shift and supplys. Comments for all are welcomed.
I want to drive with 500kHz triange. What changes must be made? I think the C6 (from comparator in), and the low pass filter must recalculated. Any sugestion for calculate the filter?
Thank u guys
Sorry for my poor english
Hi !
here is a new version for bender's first amplifier, with simplified phase shift and supplys. Comments for all are welcomed.
I want to drive with 500kHz triange. What changes must be made? I think the C6 (from comparator in), and the low pass filter must recalculated. Any sugestion for calculate the filter?
Thank u guys
Sorry for my poor english
Hi, Fredos,
You use feedback after LC filter. Is it possible to use square wave clocking instead of triangle clocking?
http://www.google.com/patents?id=4WqcAAAAEBAJ&dq=square+wave+modulation+design
You use feedback after LC filter. Is it possible to use square wave clocking instead of triangle clocking?
http://www.google.com/patents?id=4WqcAAAAEBAJ&dq=square+wave+modulation+design
Is this a patent? Oh, ****! I designed and built some amps based on this principle before 2006, but I wouldn't believe in my wildest dream that this trivial nothing can be patented!
I posted here on 07-29-2005:
http://www.diyaudio.com/forums/showthread.php?s=&threadid=56827&perpage=25&pagenumber=2
(3rd reply)
This square vs. triangle clock thing is only a mathematical equivalency. Integration and summing are linear operators, so they are commutative. Thats the "big idea".
I posted here on 07-29-2005:
http://www.diyaudio.com/forums/showthread.php?s=&threadid=56827&perpage=25&pagenumber=2
(3rd reply)
This square vs. triangle clock thing is only a mathematical equivalency. Integration and summing are linear operators, so they are commutative. Thats the "big idea".
fredos!
Actually they are not the same, just equivalent (only in mathematical aspect)! In technical aspect they are different, since in the patented circuit there are fewer integrators (by 1)! But not the 10 cent less cost makes it better, but the possibility of driving channels from a central clock source without the risk of disturbation of clock, since square wave can be restored perfectly locally unlike triangle wave.
(But there is a drowback in this scheme too.)
You didn't answer lumanauw's question! Should I?
The question is: which integrator? The error amp? I don't think so!
Actually they are not the same, just equivalent (only in mathematical aspect)! In technical aspect they are different, since in the patented circuit there are fewer integrators (by 1)! But not the 10 cent less cost makes it better, but the possibility of driving channels from a central clock source without the risk of disturbation of clock, since square wave can be restored perfectly locally unlike triangle wave.
(But there is a drowback in this scheme too.)
You didn't answer lumanauw's question! Should I?
The question is: which integrator? The error amp? I don't think so!
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