Sorin Voinigescu’s High-Frequency Integrated Circuits remains a masterclass in radio-frequency and mm-wave engineering, successfully providing the mathematical tools and practical insights required to transform silicon into high-performance communication systems.
The book is structured to lead the reader from fundamental concepts to complex "System-on-Chip" (SoC) architectures:
Mixers perform frequency translation through non-linear or switching mechanisms. The text details: highfrequency integrated circuits sorin voinigescu pdf
The book is published by Cambridge University Press. You can purchase a legitimate directly from their website. As of 2025, the price for the eBook is approximately $70–$90 USD (and often $50 for a chapter).
| Chapter | Title | | :--- | :--- | | 1 | | | 2 | High-frequency and high-data-rate communication systems | | 3 | High-frequency linear noisy network analysis | | 4 | High-frequency devices | | 5 | Circuit analysis techniques for high-frequency integrated circuits | | 6 | Tuned power amplifier design | | 7 | Low-noise tuned amplifier design | | 8 | Broadband low-noise and transimpedance amplifiers | | 9 | Mixers, switches, modulators, and other control circuits | | 10 | Design of voltage-controlled oscillators | | 11 | High-speed digital logic | | 12 | High-speed digital output drivers with waveshape control | | 13 | SoC examples | You can purchase a legitimate directly from their website
For academic students looking to master high-frequency design or practicing engineers seeking a rigorous reference for mm-wave and THz design challenges, understanding the core tenets laid out in Voinigescu's literature is essential to pushing the boundaries of silicon performance.
At millimeter-wave frequencies (30 GHz to 300 GHz), on-chip interconnects behave as transmission lines. Voinigescu provides rigorous mathematical treatments for: At millimeter-wave frequencies (30 GHz to 300 GHz),
(Transit Frequency): The frequency at which the short-circuit current gain of the transistor drops to unity. fmaxf sub m a x end-sub