Title :
Accurate measurement of low signal-to-noise ratios using a superheterodyne spectrum analyzer
Author :
Hill, Douglas A. ; Haworth, David P.
Author_Institution :
Defence Res. Establ., Ottawa, Ont., Canada
fDate :
4/1/1990 12:00:00 AM
Abstract :
A modern superheterodyne spectrum analyzer measures RF power by the process of envelope detection, log amplification, and video averaging. This process is known to give an accurate power measurement for a noise-free sinusoidal tone signal and an error of 2.5 dB for additive white Gaussian noise (AWGN). For a tone combined with AWGN, the measurement of noise power N together with signal power S results in the need for two correction factors: one to compensate for the error in the measurement of combined signal and noise power, and another to take into account (on the logarithmic decibel scale) the subtraction of N from (S+N)/N to get the true signal-to-noise ratio (SNR≡S/N). The first factor ranges from 0 to 2.5 dB; the second factor is ⩾3 dB for SNR÷0 dB. The results are extended to the measurement of SNR for phase-shift-keyed (PSK) digital communications signals combined with AWGN
Keywords :
digital signals; electric noise measurement; phase shift keying; spectral analysers; PSK; RF power; correction factors; digital communications signals; envelope detection; log amplification; logarithmic decibel scale; noise power; phase shift keying; power measurement; signal power; signal-to-noise ratios; sinusoidal tone signal; superheterodyne spectrum analyzer; video averaging; white Gaussian noise; AWGN; Additive white noise; Envelope detectors; Gaussian noise; Noise measurement; Power measurement; Radio frequency; Signal processing; Signal to noise ratio; Spectral analysis;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
