Modern transceiver systems require diversified design aspects as various radio and sensor applications have emerged. Choosing the right architecture and understanding interference and linearity issues are important for multi-standard cellular transceivers and software-defined radios. A millimeter-wave complementary metal–oxide–semiconductor (CMOS) transceiver design for multi-Gb/s data transmission is another challenging area. Energy-efficient short-range radios for body area networks and sensor networks have recently received great attention. To meet different design requirements, gaining good system perspectives is important.Wireless Transceiver Circuits: System Perspectives and Design Aspects offers an in-depth look at integrated circuit (IC) design for modern transceiver circuits and wireless systems. Ranging in scope from system perspectives to practical circuit design for emerging wireless applications, this cutting-edge book:Provides system design considerations in modern transceiver design Covers both systems and circuits for the millimeter-wave transceiver design Introduces four energy-efficient short-range radios for biomedical and wireless connectivity applicationsEmphasizes key building blocks in modern transceivers and transmitters, including frequency synthesizers and digital-intensive phase modulatorsFeaturing contributions from renowned international experts in industry and academia,Wireless Transceiver Circuits: System Perspectives and Design Aspects makes an ideal reference for engineers and researchers in the area of wireless systems and circuits.
Arvustused
"This book is great for academic professionals and researchers working in multiple areas of wireless transceivers, since the coverage is comprehensive." Chih-Ming Hung, MediaTek Inc., Hsinchu, Taiwan
Analysis, Optimization, and Design of Transceivers with Passive Mixers.
Receiver IP2 Variability. Mitigation of Performance Degradation in Radio
Receiver Front Ends from Out-of-Band Interference. Interference Filtering
with On-Chip Frequency-Translated Filters in Wireless Receivers. Analog
Signal Processing for Reconfigurable Receiver Front Ends. Design
Considerations for Direct Delta-Sigma Receivers. 60 GHz CMOS Transceiver
Chipset for Mobile Devices. Ultrahigh-Speed Wireless Communication with
Short-Millimeter-Wave CMOS Circuits. Photonics-Enabled Millimeter-Wave
Wireless Systems. CMOS Millimeter-Wave PA Design. Millimeter-Wave Frequency
Multiplier with Performance Enhancement. CMOS UWB Transceivers for
Short-Range Microwave Medical Imaging. Ultralow-Power RF Systems and Building
Blocks. Energy-Efficient High Data Rate Transmitter for Biomedical
Applications. Design and Implementation of Ultralow-Power ZigBee/WPAN
Receiver. All-Digital Phase-Locked Loops for Linear Wideband Phase
Modulation. Hybrid Phase Modulators with Enhanced Linearity. Low-Noise
PLL-Based Frequency Synthesizer. Low-Phase Noise Quadrature Frequency
Synthesizer for 60 GHz Radios. Digitally Controlled Oscillators for Wireless
Applications.
Woogeun Rhee holds a B.S. from Seoul National University, South Korea; M.S. from the University of California, Los Angeles, USA; and Ph.D. from the University of Illinois, Urbana-Champaign, USA. Previously, Dr. Rhee was with Conexant Systems, Newport Beach, California, USA, and the IBM Thomas J. Watson Research Center, Yorktown Heights, New York, USA. In August 2006, he joined the Institute of Microelectronics at Tsinghua University, Beijing, China. He holds 19 U.S. patents, has edited numerous scientific journals, and is a member of the Technical Program Committee for the IEEE ISSCC and the IEEE A-SSCC.
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