Networks and Devices Using Planar Transmissions Lines
A single text that incorporates all of the theoretical principles and practical aspects of planar transmission line devices - since the early development of striplines, it has been sought by countless microwave engineers, researchers, and students. With the publication of Networks and Devices Using Planar Transmission Lines, the search for that one authoritative resource is over.
This is more than just a handbook, much more than a theoretical treatment. It's the ideal integration of the theory and applications of planar transmission lines and devices. Striplines, microstrips, slot lines, coplanar waveguides and strips, phase shifters, hybrids, and more - the author examines them all. For each type of structure, his treatment is complete and self-contained, including:
Of particular interest is the author's comprehensive treatment of planar ferrimagnetic devices, such as phase shifters, isolators, and circulators, and three appendices dedicated to the theoretical aspects of ferrimagetism. Five other appendices provide thorough reviews of various theoretical concepts implicit in the body of the work, such as wave theory, the external properties of networks, and resonant circuits.
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Appendix A2 applied assume atoms attenuation band bandwidth called capacitance capacitor characteristic impedance Chebyshev circuit components condition coordinate coplanar waveguide coupled lines defined dependent devices dielectric constant direction of propagation directional couplers e.m. field effect electric field electromagnetic electron energy equivalent evaluated expression ferrimagnetic ferrimagnetic materials ferrite field displacement field lines filter formulas frequency function given ground plane hot conductor IEEE IEEE Trans indicated in Figure inductance input Inserting inside isolation Lange coupler losses lossless magnetic field matching matrix Maxwell's equations meander line method microstrip nonreciprocal Note obtained operating bandwidth orbital output parameters permeability phase constant phase shifter physicist polarization port previous equation propagation mode reference reflection coefficient represented resonance respectively result signal simple slot line slotline Smith chart solution stripline studied in Chapter substrate symmetrical theory transformation transmission line transverse typical ustrip vector voltage wave wavelength zero