NONSQUARELAW BEHAVIOR OF DIODE DETECTORS ANALYZED BY THE RITZ-GALERKIN METHOD

It is widely believed that diode detectors exhibit true square-law beh avior at low power levels, and that at higher power levels there is a gradual change to a linear (peak-detecting) law. This paper demonstrat es that this idea is correct only under restrictive conditions, and th at slopes corresponding to eighth and higher-order laws can easily be encountered in practical situations. It is shown that these high-order slopes are inherent in conventional diode detector circuits and that the behavior can be predicted by a closed-form solution involving both exponential and modified Bessel functions. The nonlinear theory, whic h does not depend on a truncated power-series approximation to the dio de I-V characteristic, is confirmed by measured data.