A Fast Lock-In Time, Capacitive FIR-Filter-Based Clock Multiplier with Input Clock Jitter Reduction

Abstract

This paper presents a fast lock-in time clock frequency multiplier without using traditional clock generation circuits such as PLLs and DLLs. We propose a novel technique based on capacitive finite impulse response (FIR) filters to generate clock phases while reducing the input clock phase noise at the same time. A new delay line circuit is also proposed for improving power supply rejection. In addition, to improve the matching quality as well as the end-effects tolerance of the on-chip capacitors, a single-value series/parallel algorithm is proposed. Designed in a 0.18 μm digital CMOS process, with a 20 MHz input clock frequency, the multiplier achieves a multiplication factor of 5 with a lock-in time of less than 4 clock cycles. The input clock jitter is reduced from 7ns RMS to 153 ps RMS after frequency multiplication.