Radio Frequency Integrated Circuits and SystemsFocusing on the core topics of radio frequency integrated circuits (RFICs) and system design, this textbook provides the in-depth coverage and detailed mathematical analyses needed to gain a thorough understanding of the subject. Throughout, theory is linked to practice with real-world application examples; practical design guidance is also offered, covering the pros and cons of various topologies, and preparing students for future work in industry. Written for graduate courses on RFICs, this uniquely intuitive and practical book will also be of value to practising RFIC and system designers. Key topics covered include RF components, signals and systems, two-ports, noise, distortion, low-noise amplifiers, mixers, oscillators, power amplifiers, and transceiver architectures. Lecture slides and a solutions manual for instructors are provided online to complete the course package. |
Other editions - View all
Common terms and phrases
1f noise active mixer amplitude assume bandwidth baseband bias current blocker capacitor carrier cascode Chapter CMOS components consider current source current-mode cyclostationary desired signal device differential discussed downconverted equation equivalent example feedback filter flicker noise Fourier frequency gain harmonic ideal IIP2 IIP3 impact inductance inductor input impedance input-referred noise integrated Journal of Solid-State LC oscillator linear LNTA load loop lowpass matching network mixer output modulation noise current noise figure noise source noise voltage non-linearity offset parasitic capacitance passive mixer phase noise power amplifier quadrature radio receiver requirements resistance resistor resonance RLC circuit second-order shown in Figure shunt sidebands sinusoid Solid-State Circuits spectrum switches tank thermal noise topology transconductance transfer function transform transistor transmitter two-port typically voltage waveform white noise zero