Variable capacitor

R2 can go as low as U1 can comfortably drive without distorting, so probably not much less than 1k if you're using a TL07x. At the other end of the range, I probably wouldn't go over 5k to keep the noise low.

When choosing a P2 value, keep headroom in mind. 1+ P2/R2 is the U2 gain, and too much gain will cause clipping. So, basically, I don't think a P2/R2 ratio of much more than 10 is a good idea. P2=50k and R2 around 5k should work just fine.

I haven't built the physical circuit yet, but I see no reason that it shouldn't work exactly as it does in the simulator.
 
JTEX said:
R2 can go as low as U1 can comfortably drive without distorting, so probably not much less than 1k if you're using a TL07x. At the other end of the range, I probably wouldn't go over 5k to keep the noise low.

When choosing a P2 value, keep headroom in mind. 1+ P2/R2 is the U2 gain, and too much gain will cause clipping. So, basically, I don't think a P2/R2 ratio of much more than 10 is a good idea. P2=50k and R2 around 5k should work just fine.

I haven't built the physical circuit yet, but I see no reason that it shouldn't work exactly as it does in the simulator.
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Not being a true engineer, I was surmising pretty much the same thing, but wanted to ask. Thanks!
 
I'm not a real engineer either. Best to try this on a bench or in a simulator, check for stability and so on.
 
JTEX said:
R2 can go as low as U1 can comfortably drive without distorting, so probably not much less than 1k if you're using a TL07x. At the other end of the range, I probably wouldn't go over 5k to keep the noise low.

When choosing a P2 value, keep headroom in mind. 1+ P2/R2 is the U2 gain, and too much gain will cause clipping. So, basically, I don't think a P2/R2 ratio of much more than 10 is a good idea. P2=50k and R2 around 5k should work just fine.

I haven't built the physical circuit yet, but I see no reason that it shouldn't work exactly as it does in the simulator.
Click to expand...
This is interesting. But a gain of 10 doesn't yield a wide range of capacitance. Are there any op-amps that have a gain of 100? Or at least significantly higher than 10?
 
DDad said:
This is interesting. But a gain of 10 doesn't yield a wide range of capacitance. Are there any op-amps that have a gain of 100? Or at least significantly higher than 10?
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Opamps, by themselves, for the most part, have a rather large gain range which is primarily determined by the feedback resistance. In this case that would be P2. And note what JTex said in reply #21 about higher gains and headroom (clipping potential):

"R2 can go as low as U1 can comfortably drive without distorting, so probably not much less than 1k if you're using a TL07x. At the other end of the range, I probably wouldn't go over 5k to keep the noise low.

When choosing a P2 value, keep headroom in mind. 1+ P2/R2 is the U2 gain, and too much gain will cause clipping. So, basically, I don't think a P2/R2 ratio of much more than 10 is a good idea. P2=50k and R2 around 5k should work just fine."

So, there is a fine balance to consider when keeping the signal clean.
 
Cybercow said:
Opamps, by themselves, for the most part, have a rather large gain range which is primarily determined by the feedback resistance. In this case that would be P2. And note what JTex said in reply #21 about higher gains and headroom (clipping potential):

"R2 can go as low as U1 can comfortably drive without distorting, so probably not much less than 1k if you're using a TL07x. At the other end of the range, I probably wouldn't go over 5k to keep the noise low.

When choosing a P2 value, keep headroom in mind. 1+ P2/R2 is the U2 gain, and too much gain will cause clipping. So, basically, I don't think a P2/R2 ratio of much more than 10 is a good idea. P2=50k and R2 around 5k should work just fine."

So, there is a fine balance to consider when keeping the signal clean.
Click to expand...
I meant about this part - 'to keep the noise low'. What I should have asked is - are there op-amps that are less noisy than the TL0x's, that could be run at higher gain?
 
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