I have a few leach superamps ver.4 and I was wondering about by-passing the power supply caps.
I am using 6, 10,000 uf caps rated at 100v per mono block.
Would by-passing improve the sound quality?
If so what value/voltage would be best to use?
I am using 6, 10,000 uf caps rated at 100v per mono block.
Would by-passing improve the sound quality?
If so what value/voltage would be best to use?
Hi,
I'd suggest 47uF/100V (22...100uF/100V) electrolytics, soldered directly on the "reservoir" capacitors.
These will improve sound quality.
(On the margin there is a permanent thread about Leach amplifier in our Solide State forum. Have you searched?)
I'd suggest 47uF/100V (22...100uF/100V) electrolytics, soldered directly on the "reservoir" capacitors.
These will improve sound quality.
(On the margin there is a permanent thread about Leach amplifier in our Solide State forum. Have you searched?)
I thought that "by-pass" caps should be film type and of a smaller value to get the best results.
What are the effects of lower versus higher values as by pass caps?
What are the effects of lower versus higher values as by pass caps?
Hi,
if you want decoupling caps to work then they must be fitted where the devices consume the currents, i.e. across the output devices and possibly across the drivers.
Bypass caps across the main smoothing will need careful selection to avoid ringing. A series resistor is usually enough to do this, but that only compensates at the PSU. The bigger problem is to prevent glitches from the amp output affecting the supply rails and then leaking through the other stages back into the output.
BTW,
this info was garnered by reading this Forum.
if you want decoupling caps to work then they must be fitted where the devices consume the currents, i.e. across the output devices and possibly across the drivers.
Bypass caps across the main smoothing will need careful selection to avoid ringing. A series resistor is usually enough to do this, but that only compensates at the PSU. The bigger problem is to prevent glitches from the amp output affecting the supply rails and then leaking through the other stages back into the output.
BTW,
this info was garnered by reading this Forum.
after doing more reading it appears that "bypassing" the power supply caps can do more harm than good!!
Yet I wonder why I alot of high power solid state amps have it??
Yet I wonder why I alot of high power solid state amps have it??
"after doing more reading it appears that "bypassing" the power supply caps can do more harm than good!!
Yet I wonder why I alot of high power solid state amps have it??"
Because it sounds better.
Leach uses a 22µF electrolytic plus a 0.1µF film cap on each rail.
"The bigger problem is to prevent glitches from the amp output affecting the supply rails and then leaking through the other stages back into the output."
That's why Leach uses a 100R resistor to feed the front end voltage followed by a 100µF electrolytic and a 0.1µF film cap.
The diff pair tail is returned to a zener regulated supply fed from the front end stabilized voltage. The zener is filtered and bypassed by a 100µF electrolytic and 0.1µF film pair.
This note should be read:
http://users.ece.gatech.edu/~mleach/lowtim/pwrsply.html
The bypass caps should be grounded to where the current is consumed (speaker return). Adding values less than 1µF (film types) right at the outputs generally require a small resistor of less than 10R to stop ringing, so I generally don't do this.
In modifying existing amps I find adding 22µ~100µF across the main filter caps to be best.
Yet I wonder why I alot of high power solid state amps have it??"
Because it sounds better.
Leach uses a 22µF electrolytic plus a 0.1µF film cap on each rail.
"The bigger problem is to prevent glitches from the amp output affecting the supply rails and then leaking through the other stages back into the output."
That's why Leach uses a 100R resistor to feed the front end voltage followed by a 100µF electrolytic and a 0.1µF film cap.
The diff pair tail is returned to a zener regulated supply fed from the front end stabilized voltage. The zener is filtered and bypassed by a 100µF electrolytic and 0.1µF film pair.
This note should be read:
http://users.ece.gatech.edu/~mleach/lowtim/pwrsply.html
The bypass caps should be grounded to where the current is consumed (speaker return). Adding values less than 1µF (film types) right at the outputs generally require a small resistor of less than 10R to stop ringing, so I generally don't do this.
In modifying existing amps I find adding 22µ~100µF across the main filter caps to be best.
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