Author :
Hunter, Ian ; Guyette, Andrew ; Pollard, Roger D.
Abstract :
In this article, it has been shown that under certain circumstances, i.e., in a receiver, it is possible to allow microwave filters to have significant passband insertion loss. Systems analysis of various receiver configurations shows that acceptable noise figures and intercept points may be obtained in receivers containing lossy filters, i.e., ones with low-Q resonators. Thus, the engineering problem is how to develop design techniques for filters that have low-Q resonators, but with acceptable response in terms of selectivity and pass-band flatness. A review of several techniques for bandpass and bandstop filters is presented.
Keywords :
band-pass filters; band-stop filters; microwave filters; microwave receivers; passive filters; resonators; bandpass filters; bandstop filters; filter network; lossy filters; low-Q resonators; microwave filters; noise figure; pass band flatness; passband insertion loss; passive filters; receiver configuration; sytems analysis; Active filters; Band pass filters; Insertion loss; Microwave filters; Noise figure; Passive filters; Power harmonic filters; Q factor; Resonator filters; Superconducting filters;
