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Analysis of Nonlinear Input Impedance Matching in Active Frequency Multipliers Jessi E. JOHNSON Andrew SILVA George R. BRANNER Publication IEICE TRANSACTIONS on Information and Systems Vol.E88-D No.7 pp.1409-1416 Publication Date: 2005/07/01 Online ISSN: DOI: 10.1093/ietisy/e88-d.7.1409 Print ISSN: 0916-8532 Type of Manuscript: Special Section PAPER (Special Section on Recent Advances in Circuits and Systems--Part 1) Category: General and Nonlinear Circuits and Systems Keyword: microwave frequency conversion, impedance matching, nonlinear circuits, microwave circuits, microwave communication, Full Text: PDF(1.9MB)>>
Summary: For a highly nonlinear circuit design such as an active frequency multiplier, performing an input impedance "match" is not a straightforward problem. In this work, an analysis of nonlinear input impedance matching in active microwave frequency multipliers is presented. By utilizing harmonic balance simulation of an idealized device model, fundamental aspects of performing an input "match" are explored for classical frequency doubler and frequency tripler configurations. The analysis is then repeated using a realistic device model, verifying the efficacy of using nonlinear input impedance matching to improve the output power and return loss characteristics of a multiplier. | ||||||||||
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