Microwave Solid State Circuit DesignThis contributed volume presents a comprehensive discussion of the design of passive circuits, solid state devices, and microwave solid state circuits. Because this is a very diversified area, the subject can only be covered well by a team of authors who are specialists in different topics. The editors of this book have brought together just such a team. Coverage is state-of-the-art and includes extensive references and problems. Topics covered include transmission lines and lumped elements, resonators, impedance matching networks, hybrids and couplers, filters, active and passive solid state devices, oscillators, amplifiers, detectors and mixers, microwave control circuits, frequency multipliers and dividers, computer-aided design, microwave integrated circuits, and future trends in microwave circuits. Appendixes cover S-parameters and ABCD parameters; transfer functions: Bessel, Butterworth, Chebyshev, Gaussian, etc.; nonreciprocal components, and noise. |
Contents
INTRODUCTION | 1 |
TRANSMISSION LINES AND LUMPED ELEMENTS | 7 |
RESONATORS | 65 |
Copyright | |
22 other sections not shown
Common terms and phrases
amplifier analysis applications attenuation B₁ band bandwidth bias bipolar transistor C₁ calculated capacitance capacitors carrier cavity characteristic impedance chip components configuration constant coupler density depletion region detector dielectric resonator doping efficiency electron elements equation equivalent circuit expression fabricated feedback filter FREQUENCY GHz GaAs FET GaAs MESFET gain gate given harmonic hybrid IEEE IEEE Trans input insertion loss integrated circuits laser linear load low-noise low-pass magnetic matching circuit matching network maximum MESFET metal microstrip microstrip line microwave circuits Microwave Theory Tech mixer MMIC mode modulation monolithic noise figure nonlinear obtained operation optical oscillator parameters performance phase shifter pin diode ports R₁ reactance reflection coefficient reprinted with permission resistance resistors resonant frequency S-parameters Schottky semiconductor shown in Fig shunt signal substrate switching techniques temperature transmission line tuning two-port typical values varactor voltage VSWR waveguide wavelength Z₁