Open AccessAn Elegant Method of Analysis for the BJT Amplifiers using Floating Admittance Matrix
Author(s) -
Sanjay Kumar Roy,
Kamal Kumar Sharma,
Brahmadeo Prasad Singh
Publication year - 2021
Publication title -
international journal of systems applications engineering and development
Language(s) - English
Resource type - Journals
ISSN - 2074-1308
DOI - 10.46300/91015.2021.15.34
Subject(s) - admittance parameters , admittance , thévenin's theorem , computer science , matrix (chemical analysis) , amplifier , network analysis , electronic circuit , bipolar junction transistor , electronic engineering , equivalent circuit , electrical engineering , engineering , transistor , electrical impedance , voltage , telecommunications , materials science , bandwidth (computing) , composite material
The Floating Admittance Matrix (FAM) is an elegant, neat, illustrative, and simplified technique for analyzing all configurations of the BJT amplifiers, starting with the maneuvering of the FAM of the phase-splitter circuit. The conventional analysis method requires a small-signal equivalent circuit, and then conventional tools, either KCL, KVL, or Thevenin, Norton, etc., are used for the analysis. The researcher has to guess which conventional tool suites better than the other for any particular circuit, whether active or passive. The proposed technique is equally ell useful for all circuits. In the FAM method, once the device matrix is known rest of the circuit can be embedded in it by inspection. The sum property of this matrix provides a check to know whether FAM has been written correctly to proceed further.
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