A filter synthesis technique applied to the design of multistage broad-band microwave amplifiers

Author

Rooney, John-Paul ; Parry, Richard ; Hunter, Ian ; Pollard, Roger D.

Author_Institution

Inst. of Microwaves & Photonics, Leeds Univ., UK

Volume

50

Issue

12

fYear

2002

fDate

12/1/2002 12:00:00 AM

Firstpage

2947

Lastpage

2953

Abstract

A method for designing multistage broad-band amplifiers based upon well-known filter synthesis techniques is presented. Common all-pole low-pass approximations are used to synthesize prototype amplifier circuits that may be scaled in frequency and impedance. All-pass filters introduced at the first stage are shown to improve input match while maintaining circuit performance less 6 dB gain. A theoretical comparison is made with the distributed amplifier and the cascaded single-stage distributed amplifier. Theoretically, a larger gain-bandwidth product is achieved using the synthesis technique. A proof-of-concept Butterworth low-pass two-stage amplifier was designed, simulated, and measured and achieved a flat gain performance of 1-4 GHz with a power gain of 14.5±1 dB close to the predicted 1-4.2 GHz, 15±1 dB.

Keywords

Butterworth filters; active filters; all-pass filters; distributed amplifiers; low-pass filters; microwave amplifiers; microwave filters; network synthesis; wideband amplifiers; 1 to 4 GHz; 14.5 dB; 6 dB; Butterworth low-pass two-stage amplifier; all-pass filter; distributed amplifier; filter synthesis; gain-bandwidth product; multistage broad-band microwave amplifier design; single-stage distributed amplifier; Circuit synthesis; Design methodology; Distributed amplifiers; Frequency synthesizers; Impedance; Microwave amplifiers; Microwave filters; Microwave theory and techniques; Performance gain; Prototypes;

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/TMTT.2002.805156

Filename

1098017