Effect of nonideal square-law detection on static calibration in noise-injection radiometers
Abstract
The effect of nonideal square-law detection on the static calibration for a class of Dicke radiometers is examined. It is shown that fourth-order curvature in the detection characteristic adds a nonlinear term to the linear calibration relationship normally ascribed to noise-injection, balanced Dicke radiometers. The minimum error, based on an optimum straight-line fit to the calibration curve, is derived in terms of the power series coefficients describing the input-output characteristics of the detector. These coefficients can be determined by simple measurements, and detection nonlinearity is, therefore, quantitatively related to radiometric measurement error.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- January 1984
- Bibcode:
- 1984STIN...8416462H
- Keywords:
-
- Calibrating;
- Dicke Radiometers;
- Microwave Radiometers;
- Curve Fitting;
- Error Analysis;
- Nonlinearity;
- Optimization;
- Power Series;
- Random Noise;
- Electronics and Electrical Engineering