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OPAMP Circuit Noise Problem

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ferdem

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Hi! I'm working on a delayline frequency discriminator setup to measure phase noise. I realized that my measurement results stay the same below 100 KHz regardless of how pure the input signal is (it is dominated by some other noise). I'm able to see expected results above 100 KHz.

The problematic part is my baseband amplifier consisting of two OPAMP stages (Total: 960 V/V, ~60 dB), see the below schematics.
I examined the baseband amplifier separately and conducted following experiment:
When I left open the input, I observe a certain noise level at the output. When I connect a 50 ohm to the input, the noise power increases below 100 KHz (depicted in the image). The phenomenon I observe here should be the reason of why I m not able to measure phase noise below 100 KHz offset.

What could be the reason of this noise? Why does it increase unevenly? In LT6226's datasheet, input noise voltage spectral density looks flat between 1 KHz and 1 MHz.

Is there a way to diminish this noise?

I'm using a benchtop power supply and I believe that sufficient filtering (ferrites and capacitors) on supply and reference IC voltages is provided.

Any comments will be welcome.
Thanks.

OPEN_AND_50_OHM.png



Here is the gain of the baseband amplifier:
baseband_gain.PNG
 

I guess, the unexpected noise spectrum is related to the test setup, power supply and circuit layout.
 

    ferdem

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Hi,

I agree.
I miss power supply decoupling capacitors and noise filters at IN+.

And for sure the whole R6 wiring and PCB layout plays a role.

Klaus
 

    ferdem

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Hi,

something you have to consider here is the amplification of the U1 as well, as it will amplify the voltage noise spectral density \[ e_{\mathrm{n,U1-}} \] of the inverting input of U1, if R6 is installed. Its amplified representation is given by

\[ e_{\mathrm{n,U1-,out}}=e_{\mathrm{n,U1-}} \cdot (1+ \frac{R_2}{2 \cdot 50 ~\Omega + \frac{1}{2\pi f \cdot 10 µF}}) \]


So your noise will increse as the frequency increses until ~ 1 kHz, until the two 50R resistors will dominate the amplification. Note, the impedance of a 10 µF capacitor is about 16R and 1R6 at a frequency of 1 kHz and 10 kHz, respectively

Further, the voltage noise in the region of interest is not constant, and it still decreasing.

LTC6226 Noise.PNG


BR
 
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    ferdem

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