Cmos Millimeter-wave Integrated Circuits For Next Generation Wireless Communication SystemsThis book addresses in-depth technical issues, limitations, considerations and challenges facing millimeter-wave (MMW) integrated circuit and system designers in designing MMW wireless communication systems from the complementary metal-oxide semiconductor (CMOS) perspective. It offers both a comprehensive explanation of fundamental theories and a broad coverage of MMW integrated circuits and systems.CMOS Millimeter-Wave Integrated Circuits for Next Generation Wireless Communication Systems is an excellent reference for faculty, researchers and students working in electrical and electronic engineering, wireless communication, integrated circuit design and circuits and systems. While primarily written for upper-level undergraduate courses, it is also an excellent introduction to the subject for instructors, graduate students, researchers, integrated circuit designers and practicing engineers. Advanced readers could also benefit from this book as it includes many recent state-of-the-art MMW circuits.Related Link(s) |
Contents
3 | |
Chapter 2 High Frequency Noise Modeling | 39 |
Chapter 3 Low Noise Amplifier | 85 |
Chapter 4 Variable Gain Amplifier | 121 |
Chapter 5 Receiver | 153 |
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CMOS Millimeter-Wave Integrated Circuits for Next Generation Wireless ... Kiat Seng Yeo,Chirn Chye Boon,Xiang Yi,Fanyi Meng No preview available - 2019 |
Common terms and phrases
achieve amplifier applications architecture band bandwidth baseband bias biases block calculated carrier channel length channel thermal noise charge Circuits CMOS combiner communication consumption coupling defined devices diagram divider drain effect electronic Equation error et al example field filter function gain gate high frequency IEEE IEEE Journal impedance implemented included increases inductor input integrated introduced Journal of Solid-State limited linearity measured mixer mm-wave mobility modulation MOSFET Noise Figure obtained offset operation oscillator output peak performance phase noise proposed quadrature range realize receiver reference region represent respectively response Schematic shown in Figure shows signal simulation Solid-State Circuits specifications stage standard technique thermal noise model topology transceiver transformer transistor transmitter variation velocity saturation voltage wideband wireless