Title :
A Double Inequality for the Equivalent Impulse Bandwidth
Author :
Carobbi, Carlo F M ; Cati, Marco ; Panconi, Carlo
Author_Institution :
Dept. of Electron. & Telecommun., Univ. of Florence, Florence, Italy
Abstract :
In this paper, we derive a double inequality that permits one to obtain a lower and an upper limit for the value of the impulse bandwidth of a measuring receiver. The limits are the reciprocal of the integral of the relative envelope of the impulse response (lower limit) and the integral of the relative frequency response (upper limit) of the intermediate frequency (IF) filter. Since the limits are relative quantities, their evaluation does not require the use of a calibrated generator, the only significant sources of error being receiver´s vertical scale nonlinearity and noise proximity. Here, the deviation between the impulse bandwidth and its limits is quantified for practical IF filter configurations. The dominant contributions to measurement uncertainty are identified and suggestions for reducing their magnitude are also offered.
Keywords :
filtering theory; noise; transient response; double inequality; equivalent impulse bandwidth; impulse response; intermediate frequency filter; measuring receiver; noise proximity; relative envelope; relative frequency response; vertical scale nonlinearity; Bandwidth; Frequency response; Helium; Measurement standards; Measurement techniques; Measurement uncertainty; Noise generators; Nonlinear filters; Pulse measurements; Radar measurements; Impulse bandwidth; pulse measurements; radar measurements; receivers; uncertainty;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2010.2041237
