Clipper Distortion of Two Narrow-Band Processes in Gaussian Noise.

Abstract

The envelopes of the output narrow-band components of a clipper, which is subjected to an input composed of two narrow-band processes and broad-band Gaussian noise, are evaluated for a variety of relative power levels. The collection of clipper output narrow-band components is composed of fundamentals, harmonics, and intermodulation products of the two input narrow-band components that may be either deterministic or random processes. The amplitudes and frequency locations of the components are evaluated quantitatively. When one of the input narrow-band components, denoted interference, is comparable in strength to the input noise, and the second input narrow-band component, denoted signal, is weaker, the harmonics of the interference and the low-order intermodulation products of the two components are significant in comparison with the fundamental output due to signal. Curves for all the significant output components for interference-to-noise ratios in the range -24 dB to +9 dB, in 3-dB increments, and signal-to-noise ratios in the range -43 dB to -3 dB are given. The effects of spectral foldover due to sampling the clipper output are easily evaluated from these results are discussed, as are the effects of amplitude-modulation of the input interference components on the clipper output components. Recommendations and methods of approach for future work are also presented. (Author)

Document Details

Document Type

Technical Report

Publication Date

Aug 17, 1970

Accession Number

AD0715341

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