Fractional-N PLL with 90 degree phase shift lock and active switched-capacitor loop filter
Abstract
Phase locked loops (PLL) are used in a variety of RF integrated applications
because of their ability to generate precise clock signals. These applications include
clock recovery systems, frequency synthesizers and frequency multipliers.
In order to achieve small size and low cost targets, the PLLs must be fully
integrated on-chip with all the necessary components. Unfortunately, the filtering
requirement for the low pass filter (LPF) demands a large silicon area, or the use of
external capacitors. Moreover, high-density recording and high data rates for image
transfer systems in wireless communication require more fully integrated LSI.
The main goal of this study is to find area efficiency with fully on-chip design,
and to provide a solution to improve the phase noise level without occupying a large area
or using off-chip components. Moreover, to reduce the phase noise level, it is necessary
to desensitize the VCO control when the loop is in the "lock zone". The introduced
phase noise enhancement (PNE) will smartly reduce the phase noise without degrading
the settling time by reducing the loop gain in the lock conditions.
Subject
PLLCitation
Park, Joohwan (2005). Fractional-N PLL with 90 degree phase shift lock and active switched-capacitor loop filter. Doctoral dissertation, Texas A&M University. Texas A&M University. Available electronically from https : / /hdl .handle .net /1969 .1 /4194.