If anybody is hearing RF OR a radio station
this is for you..
it's based on the reactance of a capacitor
1\ 2 PI F C
this gives you the ohms seen By ac in the capacitor at the given frequency
anyhow
if you simply place .1uF ceramic capacitors on your inputs to ground.
the noise will stop !
this is for you..
it's based on the reactance of a capacitor
1\ 2 PI F C
this gives you the ohms seen By ac in the capacitor at the given frequency
anyhow
if you simply place .1uF ceramic capacitors on your inputs to ground.
the noise will stop !
http://www.sengpielaudio.com/calculator-RC.htm
here's an online calculator
ok using the calculator you can see that at 20khz the cap looks like 79.57 Ohmns to ground
this would roll of some of you HI's in a full range system
to the radio signal it's a straight short to ground
.01 should be tried first : especially in full range application because
.01 at 20 khz = 795.7 Ohms
here's an online calculator
ok using the calculator you can see that at 20khz the cap looks like 79.57 Ohmns to ground
this would roll of some of you HI's in a full range system
to the radio signal it's a straight short to ground
.01 should be tried first : especially in full range application because
.01 at 20 khz = 795.7 Ohms
Last edited:
100nF seems far too high for RF attenuation.If anybody is hearing RF OR a radio station
this is for you..
anyhow
if you simply place .1uF ceramic capacitors on your inputs to ground.
the noise will stop !
Most will use an RC time constant of 100ns to 1500ns.
1k0 source resistor normally requires a 100pF to 1n5F to achieve those RC values.
0u1F cuts far too much treble.
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