5G and e-band communication circuits in deep-scaled CMOS / by Marco Vigilante, Patrick Reynaert.
Material type:![Text](/opac-tmpl/lib/famfamfam/BK.png)
- 9783319726465
- 621.3815 VIG/G
Item type | Current library | Home library | Collection | Call number | Status | Date due | Barcode | Item holds | |
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Central Library, IIT Bhubaneswar | Central Library, IIT Bhubaneswar | SES | 621.3815 VIG/G (Browse shelf(Opens below)) | Available | 9645 |
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621.3815 SVO/D Dorf's introduction to electronic circuits / | 621.3815 TRI/S Simulation of transport in nanodevices / | 621.3815 UYE/C Chip design for submicron VLSI : | 621.3815 VIG/G 5G and e-band communication circuits in deep-scaled CMOS / | 621.3815 YEA/P Practical low power digital VLSI design / | 621.3815 YEO/L Low voltage, low power VLSI subsystems / | 621.38151 BIS/D Development of pulse electroforming as a fabrication process for functional tabular structures / |
This book discusses design techniques, layout details and measurements of several key analog building blocks that currently limit the performance of 5G and E-Band transceivers implemented in deep-scaled CMOS. The authors present recent developments in low-noise quadrature VCOs and tunable inductor-less frequency dividers. Moreover, the design of low-loss broadband transformer-based filters that realize inter-stage matching, power division/combining and impedance transformation is discussed in great detail. The design and measurements of a low-noise amplifier, a downconverter and a highly-linear power amplifier that leverage the proposed techniques are shown. All the prototypes were realized in advanced nanometer scaled CMOS technologies without RF thick to metal option. Discusses the major implication of CMOS technology scaling on mm-Wave low power circuit design; Includes detailed design techniques, layout implementations and design examples of state-of-the-art mm-Wave broadband quadrature oscillators, frequency dividers, low-noise amplifiers, downconverters, and highly-linear power amplifiers; Provide a reference work for neophytes as well as more experienced mm-Wave design engineers.
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