Title :
Varactor-tuned active notch filter with low passband noise and signal distortion
Author :
Rauscher, Christen
Author_Institution :
Naval Res. Lab., Washington, DC, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
The frequency-tunable band-reject filter described in this paper is designed to suppress signal interference in receivers of frequency-agile systems, while offering maximum transparency at passband frequencies. The presented solution is based on a new channelized-active-filter architecture in which the portion of the circuit that determines passband behavior is free of semiconductor devices. This permits passband residual noise and intermodulation distortion to be reduced to that of a simple nonresonant passive network. The concept is demonstrated with a varactor-tuned hybrid-integrated filter whose 40-dB-deep rejection notch of constant 70-MHz width can be tuned over a 9.5-10.5-GHz frequency span. Included are measurements of pertinent small-signal transfer characteristics and noise properties, as well as detailed assessments of nonlinear effects, such as third-order intermodulation distortion and compression of notch depth as a function of drive level
Keywords :
active filters; band-stop filters; circuit noise; circuit tuning; intermodulation distortion; microwave filters; notch filters; varactors; band-reject filter; channelized architecture; frequency agile system; hybrid integrated filter; interference suppression; microwave active notch filter; nonlinear effects; notch depth compression; passband noise; receiver; residual noise; signal distortion; small-signal transfer characteristics; third-order intermodulation distortion; varactor frequency tuning; Active filters; Active noise reduction; Band pass filters; Circuit noise; Frequency; Intermodulation distortion; Low pass filters; Passband; Semiconductor device noise; Signal design;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
