Originally posted by mickstv
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Yes, i'm going to add GB with S1,S2 and two EFE
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Thanks, your mean after SAT (after SW2)?
Yes, i'm going to add GB with S1,S2 and two EFE -
Directly after the integrator stage at c19 on HH circuit.Originally posted by h9361 View Post
But my output circuit won't work correctly with the HH circuit unless you modify it to do ground balance...
Micro control with three sample taken, s1 s2 (gb) s3 (ef cancel)
S1+ S3 - S2Leave a comment:
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Oh oh, must have been tired.Originally posted by dbanner View Post
On the surf pi, I think the rail voltages are referenced to battery negative pole.
On the layout, Q1 emmiter is tied to ground and so is the collector!? ( From where the output is taken from the pot wiper. This cannot be. The emitter should be tied to the negative rail.
Or you can put the pot on the emitter and take the output from there, connecting the other end of the pot via a resistor to the negative rail. In which case, the collector would go to ground. LM 386 pin 4 is also connected to ground, this is correct.Leave a comment:
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This link doesn't appear to work anymore, at least for me.Originally posted by dom44 View PostLeave a comment:
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Should be possible using a circuit similar to what the TDI-SL has. I'll see if I can figure it out. Realize though that by making the VCO more responsive near the balance point you will end up with a much more "lively" audio threshold.Originally posted by Elliot View PostLeave a comment:
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Very thanks for your info.Originally posted by Teleno View PostI'm sharing my design for audio. A logarithmic voltage-to-current converter charges the capacitor of a multivibrator based on NE555.
The log function means that small input changes translate into larger frequency changes, weak targets get more audible.
Resistor Rthreshold controls the threshold, obviously, and resistor Rgain adjusts the maximum frequency.
The log amplifier is compensated for Is of the transistors and conforms very well to the theoretical transfer function:
I(Q5) = 0.026 * (ln( (V(in)-V(com)) / R9 ) - ln( (Vcc-Vcom) /Rthreshold) / Rgain
It should be independent of the transistors used.
The input has to be positive relative to the analog ground COM.
Leave a comment:
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I'm sharing my design for audio. A logarithmic voltage-to-current converter charges the capacitor of a multivibrator based on NE555.
The log function means that small input changes translate into larger frequency changes, weak targets get more audible.
Resistor Rthreshold controls the threshold, obviously, and resistor Rgain adjusts the maximum frequency.
The log amplifier is compensated for Is of the transistors and conforms very well to the theoretical transfer function:
I(Q5) = 0.026 * (ln( (V(in)-V(com)) / R9 ) - ln( (Vcc-Vcom) /Rthreshold) / Rgain
It should be independent of the transistors used.
The input has to be positive relative to the analog ground COM.
Leave a comment:
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Put a potentiometer as R1 and you can easily adjust the center frequencyOriginally posted by h9361 View PostLeave a comment:
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