Measure Noise Figure of Device Under Test

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Use the Noise Figure Testbench block to measure the noise figure of a device under test (DUT).

Connect the blocks as shown in the model.

Set the parameters for DUT and the testbench.

Amplifier block:

Available power gain — 10 dB
Noise type — Noise figure
Noise figure (dB) — 4 dB

Mixer block:

Available power gain — 5 dB
Local oscillator frequency — 2.0 GHz
Add Image Reject filter — on
Noise figure (dB) — 8 dB
Filter type — Highpass
Implementation — Constant per carrier
Passband edge frequency — 2.05 GHz

Noise Figure Testbench block:

Input frequency (Hz) — 2.1e9
Output frequency (Hz) — 0.1e9

Run the model. You will see that the display shows a OIP3 value of 4.817 dB. This value can be verified analytically using the noise figure (NF) equation provided in [1].

NF_DUT = 10*log10(F_tot) = 10*log10(F_1 + (F_2 – 1)/ A_1)

= 10*log10((10^(4/10)) + (10^(8/10) – 1)/10^(10/10)) = 4.8328 dB

where,

Noise factor of amplifier, F_1 = 10^((4)/10)

Noise factor of mixer, F_2 = 10^((8)/10)

Gain of amplifier, A_1 = 10^(10/10)

References

[1] Razavi, B.. “RF Microelectronics (2nd Edition) (Prentice Hall Communications Engineering and Emerging Technologies Series).” (2011).

Measure Noise Figure of Device Under Test

References

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