3 edition of Behavioral Modeling of Nonlinear RF and Microwave Devices found in the catalog.
by Artech House Publishers
Written in English
|The Physical Object|
|Number of Pages||397|
Abstract: A new, frequency-domain, behavioral modeling methodology for radio frequency (RF) power transistors, based on canonical section-wise piecewise linear (CSWPL) functions, is presented in this article. The basic theory of the proposed model for fundamental, harmonic, and dc responses is provided within. Compared with the existing nonlinear behavioral models, which require tables of. Fundamentals of nonlinear behavioral modeling for RF and microwave design. Boston: Artech House, © (OCoLC) Online version: Fundamentals of nonlinear behavioral modeling for RF and microwave design. Boston: Artech House, © (OCoLC) Document Type: Book: All Authors / Contributors: John Wood; David E Root.
Free Online Library: Fundamentals of nonlinear behavioral modeling for RF and microwave design.(Brief Article, Book Review) by "SciTech Book News"; Publishing industry Library and information science Science and technology, general Books Book reviews. A powerful and systematic approach to behavioral modeling of nonlinear microwave/RF circuits in the time domain is presented, integrating several techniques from nonlinear dynamical systems analysis.
Linear behavioral models in the frequency domain: S-parameters; Nonlinear frequency domain behavioral models; Linear device modeling; Nonlinear device modeling; Nonlinear microwave CAD tools in a power amplifier design example. Summary "Discover the nonlinear methods and tools needed to design real-world microwave circuits with this tutorial guide. Behavior models support linear and nonlinear devices, as well as frequency- and time-domain analyses. A behavioral model recognizes various types of devices and system models: • Schematics: a device can be modeled using a circuit schematic that captures its behavior. The schematic blocks may be predefined device models.
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Behavioral Modeling of Nonlinear RF and Microwave Devices [Turlington, Thomas R] on *FREE* shipping on qualifying offers. Behavioral Modeling of Nonlinear RF and Microwave DevicesCited by: Written by a well-known authority in the field, this new book is the first to explain behavioral modeling of nonlinear RF and microwave devices, and presents a powerful curve fitting technique you can use to accurately describe the behavior and range of microwave components as a function of multiple independent variables.
Readers are also provided with mathematical approaches to modeling nonlinear dynamical systems, which can be applied in the context of modeling the PA for identification in a pre-distortion system.
This book also describes typical approaches to linearization and digital pre-distortion that are used in practice. Fundamentals of Nonlinear Behavioral Modeling for RF and Micorwave Design by John Wood (Author), Root (Author) ISBN Cited by: Abstract: An explanation of behavioural modelling of nonlinear RF and microwave devices, and a presentation of a powerful curve fitting technique that can be used to describe the behaviour and range of microwave components as a function of multiple independent variables.
Artech House, - Technology & Engineering - pages 0 Reviews Nonlinear behavioral modeling is a powerful, interdisciplinary design activity that today's RF (radio frequency) and microwave. Book Description.
This practical, tutorial guide covers the theory and tools needed to design real-world microwave circuits. Covering everything from the basic properties of nonlinear systems to state-of-the-art circuit simulators and device models, it is a valuable resource for professionals and graduate students in microwave and RF s: 1.
WALKER, AARON L. Behavioral Modeling and Characterization of Nonlinear Operation in RF and Microwave Systems. (Under the direction of Professor Michael B. Steer). Modeling and characterization strategies were developed to capture the complex.
MODELING AND CHARACTERIZATION OF RF AND MICROWAVE POWER FETS This is a book about the compact modeling of RF power FETs. In it, you will ﬁnd descriptions of characterization and measurement techniques, analysis methods, and the simulator implementation, model veriﬁcation, and validation procedures.
paradigm application as a very useful tool inside the new behavioral approach for modeling RF/Microwave devices or (sub)systems. This thesis proposes a model that has the capability to learn and predict the dynamic behavior of nonlinear devices based on a Time-Delayed Neural Network (TDNN) model.
This model. We will describe neural network structures suitable for representing high-speed/high-frequency behaviors in components and circuits, ANN training exploiting RF/microwave device and circuit data, formulation of ANN/DNN for microwave component and circuit behavioral modeling, and use of ANN/DNN models for high-level RF/microwave simulation and.
An explanation of behavioural modelling of nonlinear RF and microwave devices, and a presentation of a powerful curve fitting technique that can be used to describe the behaviour and range of microwave components as a function of multiple independent variables. Series: Artech House Microwave Library (Hardcover) Hardcover: pages.
Modeling and characterization strategies were developed to capture the complex nonlinear behavior of both the components within an RF circuit and within an assembled system. Metrology techniques using common laboratory instrumentation were developed for the remote characterization of assembled RF devices and the result of this characterization is presented here for the first time.
This book is a comprehensive exposition of FET modeling,andisamust-haveresourceforseasonedprofessionalsandnewgraduates in the RF and microwave power ampli・‘r design and modeling community. All three authors work in the RF Division at Freescale Semiconductor, Inc., in Tempe Arizona.
Book description. Discover the nonlinear methods and tools needed to design real-world microwave circuits with this tutorial guide. Balancing theoretical background with practical tools and applications, it covers everything from the basic properties of nonlinear systems such as gain compression, intermodulation and harmonic distortion, to nonlinear circuit analysis and simulation algorithms, and.
As a professional RF Design Engineer in a top RF company, I can truly say this book was long overdue. This book covers the math behind these models which is essential for the modeling engineer when creating this models in MATLAB and other s: 1. This book has evolved from the highly successful behavioral modeling workshop, "Fundamentals of Nonlinear Behavioral Modeling: Foundations and Applications," that was organized by the editors and presented at the International Microwave Symposium.
Abstract: This paper considers an approach to nonlinear model-order reduction for RF/microwave integrated circuits (ICs) from the perspective of "black-box" behavioral modeling. We present a systematic methodology for creating behavioral models using techniques developed from concepts in system identification, nonlinear dynamics, computational geometry, and information theory.
Behavioral models for RF and microwave devices. The previous section presented the general behavior model topologies that are known to be theoretically able to model the input–output behavior of a wide variety of nonlinear dynamic systems. Now we restrict this wide field to the case of radiofrequency (RF) and microwave devices.
This chapter discusses about methods used in simulation and modeling of radio frequency (RF)/microwave circuits and components. The main topic that is discussed here is about one of the most powerful methods, that is, artificial neural networks.
In this chapter, different types of neural network such as dynamic and recurrent neural networks will be discussed. Fundamentals of Nonlinear Behavioral Modeling for RF and Microwave Circuits Presenting state-of-the-art RF and microwave applications, this practical book provides a comprehensive treatment of nonlinear behavioral modeling for RF and microwave circuits and systems from renowned experts in .Abstract: This application note describes system-level characterization and modeling techniques for radio frequency (RF) and microwave subsystem components.
It illustrates their use in a mixed-signal, mixed-mode system-level simulation. The simulation uses an RF transmitter with digital predistortion (DPD) as an example system.Behavioral modeling of nonlinear transfer systems with load Learn how to use X-parameters to overcome intricate problems in nonlinear RF and microwave engineering.
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