TY - BOOK ID - 4868465 TI - Data Transmission at Millimeter Waves : Exploiting the 60 GHz Band on Silicon AU - Khalaf, Khaled. AU - Vidojkovic, Vojkan. AU - Wambacq, Piet. AU - Long, John R. PY - 2015 SN - 9783662469385 3662469375 9783662469378 3662469383 PB - Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, DB - UniCat KW - Engineering. KW - Circuits and Systems. KW - Power Electronics, Electrical Machines and Networks. KW - Computer Systems Organization and Communication Networks. KW - Computer network architectures. KW - Systems engineering. KW - Production of electric energy or power. KW - Ingénierie KW - Réseaux d'ordinateurs KW - Ingénierie des systèmes KW - Architectures KW - Production of electric energy or. KW - Electrical & Computer Engineering KW - Engineering & Applied Sciences KW - Electrical Engineering KW - Millimeter wave communication systems. KW - Millimeter waves. KW - Communication systems, Millimeter wave KW - Telecommunication systems, Millimeter wave KW - Microwaves KW - Microwave communication systems KW - Telecommunication systems KW - Architectures, Computer network KW - Network architectures, Computer KW - Computer architecture KW - Engineering systems KW - System engineering KW - Engineering KW - Industrial engineering KW - System analysis KW - Design and construction KW - Electronic circuits. KW - Power electronics. KW - Computer organization. KW - Organization, Computer KW - Electronic digital computers KW - Electronics, Power KW - Electric power KW - Electronics KW - Electron-tube circuits KW - Electric circuits KW - Electron tubes UR - https://www.unicat.be/uniCat?func=search&query=sysid:4868465 AB - This book describes the design of a receiver front-end circuit for operation in the 60GHz range in 90nm CMOS. Physical layout of the test circuit and post-layout simulations for the implementation of a test chip including the QVCO and the first stage divider are also presented. The content of this book is particularly of interest to those working on mm-wave frequency generation and signal reception. ER -