Title :
An original and rigorous approach to the design of microwave active circuit
Author :
Kerherve, E. ; Jarry, P.
Author_Institution :
IXL Microelectron. Lab., Bordeaux I Univ., Talence, France
Abstract :
The real frequency technique (RFT) is an efficient numerical method to design matching networks of microwave active circuits. It provides several advantages over most of the usual techniques. Directly including measured scattering and noise parameter data, it does not require any rational functions or circuit models. Moreover, neither a pre-determined matching circuit topology is necessary. The described method also allows designing stability-guaranteed broadband circuits when employing potentially unstable transistors. With the Levenberg-Marquardt algorithm, the RFT can be applied to simultaneously optimize transducer power gain, input and output VSWRs, noise figure and group delay of a multistage microwave active circuit. Applications as different as low-noise amplifiers, active filters or broadband amplifiers are possible
Keywords :
S-parameters; active filters; active networks; circuit CAD; circuit optimisation; circuit stability; linear network synthesis; microwave amplifiers; microwave circuits; Levenberg-Marquardt algorithm; active filter; broadband amplifier; group delay; low-noise amplifier; microwave active circuit; multistage active circuits; noise figure; noise parameter data; numerical method; real frequency technique; scattering parameter data; stability-guaranteed broadband circuits; Active circuits; Circuit noise; Circuit stability; Circuit topology; Design methodology; Frequency; Microwave theory and techniques; Noise measurement; Scattering parameters; Signal to noise ratio;
Conference_Titel :
Microwave and Optoelectronics Conference, 1997. Linking to the Next Century. Proceedings., 1997 SBMO/IEEE MTT-S International
Conference_Location :
Natal
Print_ISBN :
0-7803-4165-1
DOI :
10.1109/SBMOMO.1997.646861
