This is the first book that comprehensively addresses the issues relating to the effects of radio frequency (RF) signals and the environment of electrical and electronic systems. It covers testing methods as well as methods to analyze radio frequency. The generation of high-powered electromagnetic (HPEM) environments, including moderate band damped sinusoidal radiators and hyperband radiating systems is explored. HPEM effects on component, circuit, sub-system electronics, as well as system level drawing are discussed. The effects of HPEM on experimental techniques and the standards which can be used to control tests are described. The validity of analytical techniques and computational modeling in a HPEM effects context is also discussed.
Insight on HPEM effects experimental techniques and the standards which can be used to control tests is provided, and the validity of analytical techniques and computational modeling in a HPEM effects context is discussed. This book dispels myths, clarifies good experimental practice and ultimately draws conclusions on the HPEM interaction with electronics. Readers will learn to consider the importance of HPEM phenomena as a threat to modern electronic based technologies which underpin society and to therefore be pre-emptive in the consideration of HPEM resilience.
Introduction; Capabilities of Micro and MM wave tubes; Characteristics of Micro and MM waves; The Vacuum Level; Cathodes; Electron Guns; Electron Beams; Beam Modulation; Current Induction and Circuit Response; Klystrons; High Performance Klystrons; Klystrodes and Other Gridded Tubes; Helix TWTs; Coupled-Cavity TWTs; Collectors; Nonlinearities, Distortion and Noise; Noise; Magnetrons; Crossed-Field Amplifiers; Gyrotrons; Windows; Appendixes.
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D.V. Giri
is a consultant with Pro-Tech in Alamo, CA and an adjunct professor at the University of New Mexico. He received his Ph.D. from Harvard University and is a Life Fellow of IEEE.
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Frank Sabath
is head of the directorate on detection at the Bundeswehr Research Institute for Protective Technologies and CBRN Protection (WIS), Munster, Germany. He received his Dr.-Ing. in electrical engineering from the Liebnitz Universitat Hannover.
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Richard Hoad
is a chief scientist of disruptive effects at QinetiQ in the UK. He received his Ph.D. in electromagnetic aspects of security from the University of Glamorgan.