Originally posted by millwood
I think yes.
Paralleled inductances follow the equation:
1/Ltotal = 1/L1 + 1/L2 + 1/L3………………
Greetings
KlausB
really? you can reduce inductance by paralleling them?
I think yes.
Paralleled inductances follow the equation:
1/Ltotal = 1/L1 + 1/L2 + 1/L3………………
Greetings
KlausB
Parallel caps, one near each output transistor,
Nice idea! But only if it will fit my enclosure.
JojoD
The increase in surface area might help to run them cooler, and in turn increase lifetime.
And it seems that the ripple current that many parallel caps can bear is indeed larger than that of a single one.
Example Evox RIFA PEH 169 / 63 V @ 105 deg & 100 Hz:
2200 uF : 4.1 A
10000 uF : 9.9 A
Regards
Charles
And it seems that the ripple current that many parallel caps can bear is indeed larger than that of a single one.
Example Evox RIFA PEH 169 / 63 V @ 105 deg & 100 Hz:
2200 uF : 4.1 A
10000 uF : 9.9 A
Regards
Charles
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