"on semi MJ15015-16 diferent case but very reliable "
Requires driver transistors as these are not Darlington.
Requires driver transistors as these are not Darlington.
An easy way to drop a volt or so is to use 2 or more series diodes in each limb of your rectifier.
This is not to say that there is no other impact, but in most instances it will be negligible.
The cure probably lies elsewhere in this case tho'.
w
This is not to say that there is no other impact, but in most instances it will be negligible.
The cure probably lies elsewhere in this case tho'.
w
rtill said:
100 watts at 4 ohms with realistic power supply drop. Two channels makes 200.
The TIP147 is probably shorted as well. If you blow one replace them both. It might not have been your fault - TIP142/147 devices are often faked.
I would use TIP41/42C as drivers, or MJE15030/31.
This circuit will run fine on +/-42V, don't bother trying to lower the voltage.
This circuit will run fine on +/-42V, don't bother trying to lower the voltage.
This circuit is very similar to the Dynaco 150*. Excepting a current source on the dif-amp, and a current srouce in the VAS, and the Darlington outputs.
(*) And numerous others.
(*) And numerous others.
i apologize
my mistake thanks djk
it was supposed to be 11015-16 .....and this is a direct replacement
sorry for the confusion and thanks for waking me up djk .....
djk said:
my mistake thanks djk
it was supposed to be 11015-16 .....and this is a direct replacement
sorry for the confusion and thanks for waking me up djk .....
Hi,
poor choice of component values and topology in that schematic.
Bias pot is wired that could cause overheating, ratio of R9/7 is wrong, if current limit triggers then T3 will probably blow, no diodes to limit inductive peaks when protection triggers, what does the R3=3k3 do as a bootstrap? signal and power grounds are mixed together.
poor choice of component values and topology in that schematic.
Bias pot is wired that could cause overheating, ratio of R9/7 is wrong, if current limit triggers then T3 will probably blow, no diodes to limit inductive peaks when protection triggers, what does the R3=3k3 do as a bootstrap? signal and power grounds are mixed together.
Darlingtons typically have the damper diodes built in. Go discrete and you need them. The whole idea of this circuit is the minumum # of parts.
As far as mixing power and signal grounds, LVS wouldn't care. It's the builder's responsibility to separate them if he wants maximum performance.
As far as mixing power and signal grounds, LVS wouldn't care. It's the builder's responsibility to separate them if he wants maximum performance.
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