Microwave Filters for Communication Systems: Fundamentals, Design and ApplicationsThere have been significant advances in the synthesis and physical realization of microwave filter networks over the last three decades. This book provides a coherent and readable description of system requirements and constraints for microwave filters, fundamental considerations in the theory and design of microwave filters, up-to-date modern synthesis techniques with examples and technology considerations in the choice of hardware. |
Contents
Noise in a Communication Channel | 18 |
Summary | 78 |
CHARACTERIZATION OF LOSSLESS LOWPASS | 97 |
Copyright | |
23 other sections not shown
Common terms and phrases
ABCD admittance amplitude analysis applications approach asymmetric band bandpass bandwidth calculated cascade cavity channel Chapter characteristic Chebyshev circuit coefficients communication complex components configuration corresponding coupling matrix cross-couplings described determined dielectric resonator direct effect electrical elements equal equation equivalent example extracted factor filter filter function folded follows frequency function given gives group delay IEEE impedance included input inverter length load lowpass prototype measured method microwave microwave filters mode multiplexer nodes noise obtain operating optimization output pair parameters passband performance phase pivot pole polynomials port positive possible procedure prototype provides realized reflection rejection represents resonant frequency resonator respectively response return loss rotations shown in Figure signal simulator Step structure synthesis Table technique terminated Theory Trans transfer transform transmission zeros trisection tuning unity values voltage waveguide