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Microwave Circuit Design Using Linear and Nonlinear Techniques George D. Vendelin, Anthony M. Pavio and Ulrich L. Rohde This one volume source for the computer optimization of microwave passive and active circuits is a complete introduction to modern microwave engineering using the S-parameter technique. The text presents state-of-the-art linear and nonlinear designs using computer-aided methods popular in the design and manufacture of microwave amplifiers, oscillators, and mixers. Ample and detailed discussion of the latest microwave transistors, circuit design, noise, passive microwave elements, and the incorporation of CAD into microwave integrated circuit (MIC) and monolithic microwave integrated circuit (MMIC) technology round out the text. Techniques presented are illustrated with several MMIC designs, which include a wideband amplifier, a low-noise amplifier, and an MMIC mixer 1990 (0 471-60276-0) 757 pp. Fundamentals of Photonics Bahaa E. A. Saleh and Malvin C. Teich This invaluable work provides a detailed introduction to the fascinating and converging disciplines behind photonics. Beginning with a discussion of the four theories of light (ray optics, wave optics, electromagnetic optics, and photon optics), the theory of interaction of light with matter, and the theory of semiconductor materials and their optical properties, the text progresses to a survey of the field’s up-to-the-minute advances. These include a look at Fourier optics and holography, guided wave optics and optical fibers, statistical optics, photonic switching and computing, and more. Providing applications and examples of real systems, the text skillfully balances theory and practice, providing engineers, researchers in fiber optics and communications, and students with an authoritative first look at photonics. 1991 (0 471-83965-5) 700 pp.
Microwave Solid State Circuit Design Edited by Inder Bahl and Prakash Bhartia An introduction to microwave solid-state circuit design, emphasizing devices with practical applications. Provides step-by-step procedures which help the reader sharpen skills in circuit design. Chapters are written by specialists in the topics covered, and include illustrated examples and problem sets. Coverage includes the design of both active and passive devices, transmission lines, lumped elements, resonators, impedance-matching networks, hybrids, couplers, filters, multiplexers, oscillators, amplifiers, detectors, mixers, microwave control circuits, and frequency multipliers and dividers. Contains appendixes, lists of acronyms and symbols, and extensive references. 1988 (0 471-83189-1) 914 pp. Numerical Techniques for Microwave and Millimmeter Wave Passive Structures Edited by Tatsuo Itoh This work presents practical numerical methods for analyzing passive structures in microwave and millimeter-wave integrated circuits, including the finite element method, integral equation technique, planar circuit analysis, spectral domain approach, and the method of lines. Each chapter is devoted to a single method—written by an expert in that technique—beginning with a brief historical account, followed by a description and detailed formulation of the method, illustrated by practical examples. By chapter’s end, the reader will be able to write computer programs employing the method discussed (a number of chapters include sample computer programs for reference). Appendixes, references, and an index complete this work. 1989 (0 471-62563-9) 707 pp. Phase Noise Analysis in Radar Systems Using Personal Computers Stanley J. Goldman A guide to using a PC in analyzing the effects of phase noise on the performance of a radar system and its major subsystems. Chapters follow the path of phase noise in a radar system, from its generation through its transmission, reception, and processing, to its final displayed level. Examines the radar system design process in light of the effects of phase noise on system performance. Provides computer programs and solved practical problems. 1989 (0 471-61894-2) 518 pp.
This groundbreaking resource is the first book to offer you a thorough, practical treatment of laser space communications. The book focuses on the feasibility of laser space communication links between satellites, satellites and airborne platforms, and satellites and ground based stations to achieve worldwide connectivity. You get expert guidance on weather avoidance approaches and adaptive antenna subsystems that help mitigate the effects of turbulence. The book presents simplified, yet highly accurate, engineering expressions of complex mathematics of turbulence that provide you with numerical values in the links' signal power budget. Moreover, you find an entire chapter devoted to noise photons and their effect on the bit error rate. This comprehensive volume covers a wide range of critical topics you need to understand for your work in the field, from a discussion on laser vs. RF communications in space, basic design features of a laser transceiver, and configuration of inter-satellite communication links, to selection of ground station locations, 5th Generation Internet (5-GENIN), and signal modulation schemes. The book is supported with over 70 illustrations and more than 100 equations.
The ultimate handbook on microwave circuit design with CAD. Full of tips and insights from seasoned industry veterans, Microwave Circuit Design offers practical, proven advice on improving the design quality of microwave passive and active circuits-while cutting costs and time. Covering all levels of microwave circuit design from the elementary to the very advanced, the book systematically presents computer-aided methods for linear and nonlinear designs used in the design and manufacture of microwave amplifiers, oscillators, and mixers. Using the newest CAD tools, the book shows how to design transistor and diode circuits, and also details CAD's usefulness in microwave integrated circuit (MIC) and monolithic microwave integrated circuit (MMIC) technology. Applications of nonlinear SPICE programs, now available for microwave CAD, are described. State-of-the-art coverage includes microwave transistors (HEMTs, MODFETs, MESFETs, HBTs, and more), high-power amplifier design, oscillator design including feedback topologies, phase noise and examples, and more. The techniques presented are illustrated with several MMIC designs, including a wideband amplifier, a low-noise amplifier, and an MMIC mixer. This unique, one-stop handbook also features a major case study of an actual anticollision radar transceiver, which is compared in detail against CAD predictions; examples of actual circuit designs with photographs of completed circuits; and tables of design formulae.
Optical science and engineering affect almost every aspect of our lives. Millions of miles of optical fiber carry voice and data signals around the world. Lasers are used in surgery of the retina, kidneys, and heart. New high-efficiency light sources promise dramatic reductions in electricity consumption. Night-vision equipment and satellite surveillance are changing how wars are fought. Industry uses optical methods in everything from the production of computer chips to the construction of tunnels. Harnessing Light surveys this multitude of applications, as well as the status of the optics industry and of research and education in optics, and identifies actions that could enhance the field's contributions to society and facilitate its continued technical development.
The field of microwave engineering has undergone a radical transformation in recent years, as commercial wireless endeavors overtook defense and government work. The modern microwave and RF engineer must be knowledgeable about customer expectations, market trends, manufacturing technologies, and factory models to a degree that is unprecedented. Unf
Conventional wisdom portrays the People's Republic of China (PRC) People's Liberation Army (PLA) as a backward continental force that will not pose a military challenge to its neighbors or to the United States well into the 21st century. PLA writings that demonstrate interest in exploiting the revolution in military affairs (RMA) are dismissed by a large segment of the PLA- watching community as wistful fantasies. The author offers an alternative perspective by outlining emerging PLA operational concepts and a range of research and development projects that appear to have been heavily influenced by U.S. and Russian writings on the RMA. Fulfillment of the PLA's vision for the 21st century could have significant repercussions for U.S. interests in the Asia-Pacific region.
The future national security environment will present the naval forces with operational challenges that can best be met through the development of military capabilities that effectively leverage rapidly advancing technologies in many areas. The panel envisions a world where the naval forces will perform missions in the future similar to those they have historically undertaken. These missions will continue to include sea control, deterrence, power projection, sea lift, and so on. The missions will be accomplished through the use of platforms (ships, submarines, aircraft, and spacecraft), weapons (guns, missiles, bombs, torpedoes, and information), manpower, materiel, tactics, and processes (acquisition, logistics, and so on.). Accordingly, the Panel on Technology attempted to identify those technologies that will be of greatest importance to the future operations of the naval forces and to project trends in their development out to the year 2035. The primary objective of the panel was to determine which are the most critical technologies for the Department of the Navy to pursue to ensure U.S. dominance in future naval operations and to determine the future trends in these technologies and their impact on Navy and Marine Corps superiority. A vision of future naval operations ensued from this effort. These technologies form the base from which products, platforms, weapons, and capabilities are built. By combining multiple technologies with their future attributes, new systems and subsystems can be envisioned. Technology for the United States Navy and Marine Corps, 2000-2035 Becoming a 21st-Century Force: Volume 2: Technology indentifies those technologies that are unique to the naval forces and whose development the Department of the Navy clearly must fund, as well as commercially dominated technologies that the panel believes the Navy and Marine Corps must learn to adapt as quickly as possible to naval applications. Since the development of many of the critical technologies is becoming global in nature, some consideration is given to foreign capabilities and trends as a way to assess potential adversaries' capabilities. Finally, the panel assessed the current state of the science and technology (S&T) establishment and processes within the Department of the Navy and makes recommendations that would improve the efficiency and effectiveness of this vital area. The panel's findings and recommendations are presented in this report.