This invaluable resource introduces progressive techniques for the creation of sophisticated reflectionless filter topologies that have identically zero reflection coefficient at all frequencies. Practical implementations are discussed along with their advantages when compared to classical absorptive filters and their benefits in real-world systems such as up/down converters, multiplier chains, broadband amplifiers, analog-to-digital converters, and time-domain applications.
This book offers insight into the innovative process of developing reflectionless filters from first principles using both lumped elements and transmission lines. Tools for the creation of reflectionless multiplexers, matched sloped equalizers, and advanced, high-order, and nonplanar topologies are also presented.
Passive Microwave Networks; Classical Absorptive Filters; Foundations of Reflectionless Filters; Sub-Network Expansion; Duality Reduction; Generalized Reflectionless Filters; Transmission-Line Reflectionless Filters; Reflectionless Multiplexers; Applications of Reflectionless Filters; Tools for Advanced Topology Creation.
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Matthew A. Morgan
is a scientist/research engineer at the Central Development Lab (CDL) at the National Radio Astronomy Observatory (NRAO) in Charlottesville, VA. He received his M.S. and Ph.D. degrees in electrical engineering from California Institute of Technology and his B.S. degree in electrical engineering from the University of Virginia.