Title :
Optimum gain control for A/D conversion using digitized I/Q data in quadrature sampling
Author_Institution :
Hughes Aircraft Co., Los Angeles, CA
fDate :
1/1/1991 12:00:00 AM
Abstract :
Calculation of optimum gain for minimum distortion due to A/D (analog-to-digital) conversion requires the estimation of the input signal strength. To use a common AGC (automatic gain control) for both the I/Q (in-phase and quadrature) signals, it is efficient to estimate the input signal strength using the quantized A/D output from both channels. Assuming a Gaussian input, the relationship between σ of the input of the A/D converter and E(|x|+|y|) and E(max(|x|,|y|)+1/2 min (|x|,|y|)) for t quantized I/Q output x and y is derived. Numerical results obtained using the derived expression and the statistical data obtained through simulation show excellent agreement. It is concluded that, because of its simplicity, the cubic equation obtained by fitting the numerical results should be useful
Keywords :
analogue-digital conversion; curve fitting; estimation theory; gain control; random noise; signal processing; A/D conversion; AGC; Gaussian input; cubic equation; digitized I/Q data; estimation; in-phase signals; input signal strength; minimum distortion; quadrature sampling; quadrature signals; simulation; statistical data; Aerospace and electronic systems; Detectors; Distortion; Electrical equipment industry; Gain control; Quantization; Sampling methods; Signal mapping; Statistics; Terrain mapping;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
