Torrent details for "Thangarasu B. CMOS RF and mm-Wave Transceivers and Synthesizers …" Log in to bookmark
Controls:
×
Report Torrent
Please select a reason for reporting this torrent:
Your report will be reviewed by our moderation team.
×
Report Information
Loading report information...
This torrent has been reported 0 times.
Report Summary:
| User | Reason | Date |
|---|
Failed to load report information.
×
Success
Your report has been submitted successfully.
Checked by:
Category:
Language:
None
Total Size:
164.3 MB
Info Hash:
DABDA9B7C8AF767AD8C77760C6EFE264BCA39725
Added By:
Added:
Nov. 2, 2025, 6:04 p.m.
Stats:
|
(Last updated: Nov. 2, 2025, 6:06 p.m.)
| File | Size |
|---|---|
| Thangarasu B. CMOS RF and mm-Wave Transceivers and Synthesizers 2026.pdf | 164.3 MB |
Name
DL
Uploader
Size
S/L
Added
-
164.3 MB
[41
/
29]
2025-11-02
| Uploaded by andryold1 | Size 164.3 MB | Health [ 41 /29 ] | Added 2025-11-02 |
NOTE
SOURCE: Thangarasu B. CMOS RF and mm-Wave Transceivers and Synthesizers 2026
-----------------------------------------------------------------------------------
COVER
-----------------------------------------------------------------------------------
MEDIAINFO
Textbook in PDF format Power consumption has become a critical concern in RF/mm-wave integrated circuit (IC) design thanks to new applications from 5G, mobile computing, artificial intelligence, and the Internet of Things. However, big challenges lie ahead for chip designers when they choose to develop ICs using silicon technology for low-power and high-data-rate applications. This is because silicon technology suffers from undesirable energy dissipation due to its lossy substrate and high resistive wiring loss at GHz frequencies. Nonetheless, silicon remains the most suitable material satisfying the demands of a rapidly growing semiconductor market through low fabrication cost and ease of achieving system-on-chip or system-in-package integration. While long being neglected, low-power RF/mm-wave design has vaulted to the forefront of attention in recent years due to the demand for ultra-low-power transceivers to achieve sustainability. Designing genuinely ubiquitous transceivers for these new applications requires innovations in both system architecture and circuit implementation. This book closes the gap between a typical textbook with theories that are difficult to understand and a design-oriented book that offers little insight into actual theories. It evaluates and discusses different circuit topologies, receiver and transmitter architectures, phase-locked loop performance metrics, phase noise analysis, and sub-system-level designs that have yet to be reported in other books
×