The book "High-Frequency Integrated Circuits" by Sorin Voinigescu provides an in-depth analysis of high-frequency IC design, covering both the theoretical foundations and practical implementation aspects. The book is written for graduate students, researchers, and practicing engineers interested in high-frequency ICs, and assumes a basic understanding of semiconductor device physics and circuit analysis.
6. Voltage-Controlled Oscillators (VCOs) and Phase-Locked Loops (PLLs)
What sets this book apart are the "design recipes" and "tricks" scattered throughout. It provides more than just formulas; it offers layout techniques to maximize both device and circuit performance. With over 100 end-of-chapter problems and solved examples, it serves as an excellent self-study guide or course textbook. Where to Find It
Academics and PhD students working at the cutting edge of terahertz ICs, quantum computing control circuits, or ultra-high-speed wireline transceivers will find the advanced topics and practical methodologies indispensable.
After receiving his Ph.D. in Electrical and Computer Engineering from the University of Toronto in 1994, Voinigescu worked for eight years in the industry, holding key positions at and later as CTO of Quake Technologies in Ottawa. This hands-on experience in the crucible of the commercial semiconductor industry informed his later academic work. In 2002, he returned to the University of Toronto, where he is now a Professor and the Director of the VLSI Research Group.
Voinigescu’s textbook is unique because it treats high-frequency design not just as an extension of low-frequency analog circuits, but as a discipline heavily reliant on device physics and transmission line theory. 1. High-Frequency Transistor Modeling
– Brief summary of challenges at mm-wave, role of SiGe HBTs.
It emphasizes how to set up accurate electronic design automation (EDA) simulations (using tools like Cadence Spectre or Advanced Design System) and correlate them with physical wafer-probe measurements.
The book provides a comprehensive look at the design of integrated circuits operating at frequencies from a few GHz up to 100+ GHz. It is particularly noted for its "physics-based" approach, ensuring that readers understand the underlying semiconductor behavior before diving into circuit topologies. Technology Neutrality
Authorized digital e-books can be purchased or rented directly through Cambridge University Press or major academic textbook retailers. These versions contain fully searchable text, high-resolution vector diagrams, and accurate mathematical typesetting.
: Deep-diving into high-frequency HBTs, HEMTs, and nanoscale MOSFET models.