Spectrum Analyzer CW Power Measurements and Noise

1. Spectrum Analyzer CW Power Measurements and Noise 2012 NCSL International Workshop and Symposium Spectrum Analyzer CW Power Measurements and Noise

2. Overview Spectrum Analyzer CW Power Measurements and Noise • Signal + Noise Model • Bias & Variance of Noise and Signal + Noise Measurements • Variance of Averaged Measurements • Spectrum Analyzer Block Diagram and Measurement Recommendations

3. Signal + Noise Model Spectrum Analyzer CW Power Measurements and Noise

4. Spectrum Analyzer Averaging Methods Spectrum Analyzer CW Power Measurements and Noise • Averaging Types: • Voltage • Power • Log Power

5. Noise – Measurement Bias  = Euler’s constant: 0.577216… Spectrum Analyzer CW Power Measurements and Noise

6. Noise – Standard Deviation of Discrete Measurements Spectrum Analyzer CW Power Measurements and Noise

7. Signal + Noise – Measurement Bias m = signal-to-noise ratio (W/W)  = Euler’s constant: 0.577216… Spectrum Analyzer CW Power Measurements and Noise

8. Signal + Noise – Measurement Bias Spectrum Analyzer CW Power Measurements and Noise

9. Signal + Noise – Standard Deviation of Discrete Measurements m = signal-to-noise ratio (W/W) Spectrum Analyzer CW Power Measurements and Noise

10. Signal + Noise – Standard Deviation of Discrete Measurements Spectrum Analyzer CW Power Measurements and Noise

11. Standard Deviation of Averaged Measurements Spectrum Analyzer CW Power Measurements and Noise • Averaging Discrete Measurements – reduced by • N = number of samples. • Time Averaged Measurements – reduced by • tint = integration (measurement) time • NBW = noise bandwidth

12. Spectrum Analyzer Block Diagram Spectrum Analyzer CW Power Measurements and Noise

13. Spectrum Analyzer Block Diagram – Input Attenuator and Preamplifier Attenuation = 0 dB Preamplifier On but… don’t overdrive the mixer! Spectrum Analyzer CW Power Measurements and Noise

14. Spectrum Analyzer Block Diagram – Preselector set based on impact to noise floor Spectrum Analyzer CW Power Measurements and Noise

15. Spectrum Analyzer Block Diagram – Frequency Span & Sweep Time span = zero sweep time = based on noise uncertainty Spectrum Analyzer CW Power Measurements and Noise

16. Spectrum Analyzer Block Diagram – RBW Signal + Noise: set RBW to give at least 8 dB SNR. Reducing RBW beyond this does not give any benefit (assumes log power averaging) Noise: set RBW wide (power averaging) Spectrum Analyzer CW Power Measurements and Noise

17. Spectrum Analyzer Block Diagram – RBW (Signal + Noise) SNR > 8 dB produces negligible bias when using log power averaging Spectrum Analyzer CW Power Measurements and Noise

18. Spectrum Analyzer Block Diagram – RBW (Signal + Noise) SNR approximated by Spectrum Analyzer CW Power Measurements and Noise

19. Spectrum Analyzer Block Diagram – RBW (S+N) For time-averaged measurements, changing RBW does not change uncertainty due to noise Spectrum Analyzer CW Power Measurements and Noise • Standard Uncertainty of discrete measurements approximated by: • m = SNR (W/W) = • For time-averaged measurements: • But • Therefore: (time-averaged, SNR > 8 dB)

20. Spectrum Analyzer Block Diagram – Envelope Detector detector = average Spectrum Analyzer CW Power Measurements and Noise

21. Spectrum Analyzer Block Diagram – Video Filter video filter = “wide open” Spectrum Analyzer CW Power Measurements and Noise

22. Spectrum Analyzer Block Diagram – Averaging Type averaging type noise: power signal + noise: log power Spectrum Analyzer CW Power Measurements and Noise

23. Spectrum Analyzer Block Diagram – Trace Averaging & Trace Points trace averages = 1 trace points = any function: average entire trace Spectrum Analyzer CW Power Measurements and Noise

24. Spectrum Analyzer Block Diagram – Summary of Recommendations Spectrum Analyzer CW Power Measurements and Noise