Automatically tuned, variable bandwidth, Q-enhanced if bandpass filters

Author

Schonberger, Joel ; Strouts, Renee ; Kuhn, William

Author_Institution

Dept. of Electr. & Comput. Eng., Kansas State Univ., Manhattan, KS, USA

fYear

2011

fDate

16-19 Jan. 2011

Firstpage

130

Lastpage

133

Abstract

Modern wireless products including software-defined and cognitive radios (SDR/CR) require variable bandwidth technologies to address multiple modulation standards. This paper shows that Q-enhanced filtering at the intermediate frequency of a superheterodyne receiver can support this need. We present an automatically tuned, coupled-resonator QE filter operating at 450 MHz, with variable bandwidth capability, a 14 dB noise figure, and up to 140 dB/Hz dynamic range. The problem of tuning the filter in the face of environmental changes is solved with a low-complexity algorithm and minimal additional circuitry. The associated problem of correcting passband asymmetry is also addressed and a 2-pole design tuned for 10 and 20 MHz bandwidths is shown to maintain flatness to within 0.5 dB from 25 to 55 degrees C.

Keywords

band-pass filters; cognitive radio; resonator filters; software radio; superheterodyne receivers; tuning; Q-enhanced bandpass filters; automatic tuning; bandwidth 10 MHz; bandwidth 20 MHz; cognitive radios; coupled-resonator QE filter; frequency 450 MHz; intermediate frequency filters; multiple modulation standards; noise figure 14 dB; software-defined radios; superheterodyne receiver; variable bandwidth; wireless products; Band pass filters; Bandwidth; Filtering algorithms; Passband; Resonator filters; Temperature measurement; Tuning; Q-enhanced; automatic tuning; cognitive radio; filter; intermediate frequency; passband asymmetry; passband droop; software defined radio;

fLanguage

English

Publisher

ieee

Conference_Titel

Radio and Wireless Symposium (RWS), 2011 IEEE

Conference_Location

Phoenix, AZ

Print_ISBN

978-1-4244-7687-9

Type

conf

DOI

10.1109/RWS.2011.5725452

Filename

5725452