Accurate tap-delay measurements using a di .erential oscillation technique

Abstract

During the past years, due to the decrease of the minimum feature size in CMOS technology, the on-chip clock frequencies have increased dramatically ranging into the GHz domain.This increase has also pushed the need for higher data-transfer rates between these high-speed ICs, in order to optimize the entire PCB system.As a result, the clock/data skew can span tens of clock cycles. In order to cope with this skew, synchronization strategies have been developed which rely on either analogue or digital multi-tap delay-lines.In order for the synchronization mechanism to function properly, all tap-delays of the delay-line should have the same values within few percentages. This paper presents a technique, based on the oscillation method, to measure tap-delays of a delay-line with an accuracy of ±10ps.A chip has also been implemented in an UMC 0.18?m CMOS technology to prove our assumption. The measurements carried out on the chip confirmed the above mentioned accuracy.