Nonlinear Microwave Circuits Design and Modeling using Behavioral Models Based on Volterra Series and X-parameter, Ph.D. Dissertation Sharif University of Technology ; Banai, Ali (Supervisor)
Abstract
Modern microwave and wireless communications systems are too complex today to permit the complete simulation of the nonlinear behavior at the transistor level of description. This problem presents a significant productivity bottleneck for design engineers. At the bridge between the transistor circuit and the multichip module or RF integrated circuit (RFIC) we use “behavioral models” to describe the nonlinear circuit blocks or ICs in the system. The behavioral models are simplified models of the essential nonlinear behavior of the complex sub-circuits; this simplification means that these models will execute more quickly, and use much less memory than if an entire complex subsystem was...
Cataloging briefNonlinear Microwave Circuits Design and Modeling using Behavioral Models Based on Volterra Series and X-parameter, Ph.D. Dissertation Sharif University of Technology ; Banai, Ali (Supervisor)
Abstract
Modern microwave and wireless communications systems are too complex today to permit the complete simulation of the nonlinear behavior at the transistor level of description. This problem presents a significant productivity bottleneck for design engineers. At the bridge between the transistor circuit and the multichip module or RF integrated circuit (RFIC) we use “behavioral models” to describe the nonlinear circuit blocks or ICs in the system. The behavioral models are simplified models of the essential nonlinear behavior of the complex sub-circuits; this simplification means that these models will execute more quickly, and use much less memory than if an entire complex subsystem was...
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