RF & Microwave Design Essentials: Engineering Design and Analysis from DC to MicrowavesRF & Microwave Design Essentials This book is an indispensable tool for the RF/Microwave engineer as well as the scientist in the field working on the high frequency circuit applications. You will discover: ] Electricity Fundamentals ] Wave propagation ] Amplifier Design ] Gain Equations ] CAD Examples ] S-Parameters ] Circuit Noise ] RF Design ] Circuit Stability ] Transmission Lines ] RF/Microwave Bands ] Matching Circuit Design ] Smith Chart Applications ] BJT and FET Circuit Design ] Advanced RF/Microwave Concepts "The most realistic and inspiring book with invaluable practical insights." Dr. S. K. Ramesh, Dean of Engineering, California State University, Northridge "A completely unique book that unlocks the mysteries of our microwave world." Paul Luong, Senior Microwave Engineer ATK Mission Systems, Inc. The CD-ROM provides design worksheets and menus as well as actual design examples in a Microsoft(R) Excel Environment, where the student can design or analyze RF/Microwave circuits easily and efficiently. |
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RF & Microwave Design Essentials: Engineering Design and Analysis from DC to ... Matthew M. Radmanesh No preview available - 2007 |
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_______________________________________________________ EXAMPLE admittance amplifier design analysis application mass arrive at point attenuation bandwidth calculated capacitance capacitor Chapter characteristic impedance circuit design circuit shown component concept conductor constant defined definition device dielectric diode electric charge electromagnetic electronics engineering equivalent circuit equivalent noise temperature factor frequency given inductor input impedance linear lumped elements magnetic field matching network mathematical maximum Maxwell's equations microwave Microwave Circuit noise figure noise power noise temperature NOTE obtain Ohm's law parameters particles phasor physical universe port postulates power gain Radmanesh ratio reactance reflection coefficient region resistance resistor resonant circuit RF and microwave RF/microwave S-parameters shown in Figure shunt sinusoidal small signal Smith chart Solution standing wave stub terminals theorem transistor transmission line two-port network vector voltage and current VSWR VSWR circle wavelength zero