Transistor Applications from RF to Microwave Frequencies
Theory of SiGe HBTs and pHEMTs and Practical Circuits Up to Sub Terahertz Frequencies
1st Edition
Will be published approx. on 19. October 2026
Book
Hardback
700 pages
978-1-394-16200-0 (ISBN)
Description
A comprehensive guide to the cutting edge in microwave engineering.
Semiconductor technology has been an area of enormous growth in recent decades. The 1970 creation of SPICE, an open-source program that simulates the performance of circuit designs, has driven immense innovation in this field, which is a huge part of microwave engineering. No current or aspiring engineer can do without a detailed understanding of semiconductors and other practically implemented circuits.
Transistor Applications from RF to Microwave Frequencies provides this understanding, with a detailed guide to recent advances and novel applications in bipolar transistor design. Its treatment of the application of Meta-Material and oscillators is essential for any engineering professional. Covering a huge range of applications and many different kinds of active mixers, this is a fully up-to-date overview of the state of the art in microwave electronics.
Transistor Applications from RF to Microwave Frequencies readers will also find:
An author team of decorated microwave engineering experts.
In-depth discussion of applications including lumped and distributed elements, linear and non-linear noise analysis, and more.
Detailed examples to facilitate learning.
Transistor Applications from RF to Microwave Frequencies is ideal for all professionals working with microwave engineering, radio frequencies, transistors, and related fields, and for advanced students working towards these professions.
Semiconductor technology has been an area of enormous growth in recent decades. The 1970 creation of SPICE, an open-source program that simulates the performance of circuit designs, has driven immense innovation in this field, which is a huge part of microwave engineering. No current or aspiring engineer can do without a detailed understanding of semiconductors and other practically implemented circuits.
Transistor Applications from RF to Microwave Frequencies provides this understanding, with a detailed guide to recent advances and novel applications in bipolar transistor design. Its treatment of the application of Meta-Material and oscillators is essential for any engineering professional. Covering a huge range of applications and many different kinds of active mixers, this is a fully up-to-date overview of the state of the art in microwave electronics.
Transistor Applications from RF to Microwave Frequencies readers will also find:
An author team of decorated microwave engineering experts.
In-depth discussion of applications including lumped and distributed elements, linear and non-linear noise analysis, and more.
Detailed examples to facilitate learning.
Transistor Applications from RF to Microwave Frequencies is ideal for all professionals working with microwave engineering, radio frequencies, transistors, and related fields, and for advanced students working towards these professions.
More details
Language
English
Place of publication
New York
United States
Target group
Professional and scholarly
ISBN-13
978-1-394-16200-0 (9781394162000)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Ulrich Rohde, Dr.Ing. Habil, IEEE Life Fellow and Eta Kappa Nu (HKN), Partner of Rohde & Schwartz, Germany, as well as Chairman of Synergy Microwave Corporation, USA. He holds positions as Professor of Radio-Microwave Frequency Theory and Techniques at multiple universities worldwide, including Chair Professor at IIT-Delhi, India, IIT-Jammu, BTU Cottbus-Senftenberg University of Technology, Germany, and German Armed Forces University Munich, Technical Informatics, Microwave Systems. He is serving as an Editor of several scientific journals.
Ajay K. Poddar, Dr.Ing. Habil, IEEE Fellow, and Eta Kappa Nu (HKN) member, is Chief Scientist at Synergy Microwave, NJ, USA, focusing on low pahse nnoise signal sources including metamaterial applications. Dr. Poddar is a Visting Professor and Global Chair of several scientific and IEEE MTT and AP socities, serving as an Editor of several scientific journals.
Matthias Rudolph, Dr. Ing., is the Ulrich L. Rohde Professor of RF and Microwave Techniques at Brandenburg University of Technology Cottbus-Senftenberg, Germany, and head of the Low-noise Components Lab of the Ferdinand-Braun-Institut GmbH, Leibniz-Institut fuer Hoechstfrequenztechnik, Berlin, Germany. He is a member of the IEEE MTT-S Technical committees 2 (EDA) and 14 (low-noise techniques) and an Associate Editor of the IEEE Trans. MTT-S.
Ajay K. Poddar, Dr.Ing. Habil, IEEE Fellow, and Eta Kappa Nu (HKN) member, is Chief Scientist at Synergy Microwave, NJ, USA, focusing on low pahse nnoise signal sources including metamaterial applications. Dr. Poddar is a Visting Professor and Global Chair of several scientific and IEEE MTT and AP socities, serving as an Editor of several scientific journals.
Matthias Rudolph, Dr. Ing., is the Ulrich L. Rohde Professor of RF and Microwave Techniques at Brandenburg University of Technology Cottbus-Senftenberg, Germany, and head of the Low-noise Components Lab of the Ferdinand-Braun-Institut GmbH, Leibniz-Institut fuer Hoechstfrequenztechnik, Berlin, Germany. He is a member of the IEEE MTT-S Technical committees 2 (EDA) and 14 (low-noise techniques) and an Associate Editor of the IEEE Trans. MTT-S.