Wideband phase-locked loops with high spectral purity for wireless communications

Lee, Kun Seok

05 July 2011

The objective of this research is to demonstrate the feasibility of the implementation of wideband RF CMOS PLLs with high spectral purity using deep sub-micron technologies. To achieve wide frequency coverage, this dissertation proposed a 45-nm SOI-CMOS RF PLL with a wide frequency range to support multiple standards. The PLL has small parasitic capacitance with the help of a SOI technology, increasing the frequency tuning range of a capacitor bank. A designed and fabricated chip demonstrates the PLL supporting almost all cellular standards with a single PLL. This dissertation also proposed a third order sample-hold loop filter with two MOS switches for high spectral purity. Sample-hold operation improves in-band and out-of-band phase noise performance simultaneously in RF PLLs. By controlling the size of the MOS switches and control time, the nonideal effects of the MOS switches are minimized. The sample-hold loop filter is implemented within a 45-nm RF PLL and the performance is evaluated. Thus, this research provides a solution for wideband CMOS frequency synthesizers for multi-band, multi-mode, and multiple-standard applications in deep sub-micron technologies.

Wide band

Wireless communication

Spectral purity

PLL

Phase noise

Wireless communication systems

Phase-locked loops

Development of Raman and Thomson scattering diagnostics for study of energy transfer in nonequilibrium, molecular plasmas

Lee, Wonchul

07 August 2003

No description available.

Chemistry, Physical

Molecular Plasma

Vibrational Raman Scattering

Filtered Thomson Scattering

Filtered Rotational Raman Scattering

Rubidium Vapor Filter

Spectral Purity