Title :
Stability analysis and numerical simulation of multidevice amplifiers
Author :
Ohtomo, Motoharu
Author_Institution :
Toshiba Corp., Kawasaki, Japan
Abstract :
Stability analysis of multidevice amplifiers is made on a generalized circuit comprising two n-ports with S-matrices S (active devices) and S´ (passive networks) connected at n interface ports. Open-loop transfer functions defined for a signal-flow graph and its (n-1) subgraphs of incident and reflected waves at the interface ports are expressed in terms of det Mn and its minors, where Mn=S´S-In and In is the n×n identity matrix. it is shown that the Nyquist plots of the n transfer functions completely characterize the number of right-half complex-frequency-plane zeros of det Mn, and hence the amplifier stability. Insertion of an ideal circulator and isolators at the interface ports enables one to calculate the Nyquist plots and voltage distributions of possible instabilities using commercially available linear circuit simulators. Numerical simulations for two types of parallel-operated GaAs FET amplifiers are performed to verify the usefulness of the analysis in design-phase check of multidevice amplifier stability
Keywords :
S-matrix theory; S-parameters; circuit analysis computing; equivalent circuits; linear network analysis; microwave amplifiers; multiport networks; solid-state microwave circuits; stability; transfer functions; Nyquist plots; S-matrices; amplifier stability; instabilities; linear circuit simulators; multidevice amplifiers; numerical simulation; open-loop transfer functions; parallel-operated GaAs FET amplifiers; signal-flow graph; Circuit simulation; Circuit stability; Gallium arsenide; Isolators; Linear circuits; Numerical simulation; Passive networks; Stability analysis; Transfer functions; Voltage;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
