Design of CMOS millimeter-wave and terahertz integrated circuits with metamaterials [electronic resource] / Hao Yu, Yang Shang.
- 作者: Yu, Hao.
- 其他作者:
- 出版: Boca Raton : CRC Press c2016.
- 主題: Integrated circuits. , Microelectronics.
- 版本:1st ed.
- ISBN: 9781482238167 (electronic bk.) 、 9780429076084 (e-book ;PDF)
- URL:
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- 一般註:Includes bibliographical references (p. 325-354) and index. section 1. Fundamentals -- section 2. CMOS THZ signal generation -- section 3. CMOS THZ signal amplification and transmission -- section 4. CMOS THZ signal detection -- section 5. Applications. 110年度臺灣學術電子書暨資料庫聯盟採購
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讀者標籤:
- 系統號: 000289187 | 機讀編目格式
館藏資訊
Along with numerous opportunities in communication and imaging applications, the design of emerging millimeter-wave (mm-wave) and terahertz (THz) electronic circuits and systems in CMOS technology faces new challenges and requires new devices. Design of CMOS Millimeter-Wave and Terahertz Integrated Circuits with Metamaterials provides alternative solutions using CMOS on-chip metamaterials. Unlike conventional metamaterial devices on printed circuit boards (PCBs), the presented CMOS metamaterials can be utilized to build many mm-wave and THz circuits and systems on chip. Leveraging the authors’ extensive expertise and experience with CMOS on-chip metamaterials, this book shows that with the use of metamaterials, one can realize coherent THz signal generation, amplification, transmission, and detection of phase-arrayed CMOS transistors with significantly improved performance. Offering detailed coverage from device to system, the book hereby: Describes integrated circuit design with application of metamaterials in CMOS technology Includes real CMOS integrated circuit examples and chip demonstrations with measurement results Evaluates novel mm-wave and THz communication and imaging systems under CMOS-based system-on-chip integration Design of CMOS Millimeter-Wave and Terahertz Integrated Circuits with Metamaterials reflects the latest research progress and provides a state-of-the-art reference on CMOS-based metamaterial devices and mm-wave and THz systems.