Title :
A 2.5-GHz Built-in Jitter Measurement System in a Serial-Link Transceiver
Author :
Jiang, Shu-Yu ; Cheng, Kuo-Hsing ; Jian, Pei-Yi
Author_Institution :
Dept. of Electr. Eng., Nat. Central Univ., Jhongli, Taiwan
Abstract :
A 2.5-GHz built-in jitter measurement (BIJM) system is adopted to measure the clock jitter on a transmitter and receiver. The proposed Vernier caliper and autofocus approaches reduce the area cost of delay cells by 48.78% relative to pure Vernier delay line structure with a wide measurement range. The counter circuit occupies an area of 19 mum times 61 mum in the traditional stepping scan approach. The proposed equivalent-signal sampling technique removes the input jitter transfer path from the sampling clock. The power supply rejection design is incorporated into the delay cell and the judge circuit. The layout implementation, calibration, and test time of the proposed BIJM system are all improved. The core circuit occupies an area of only 0.5 mm times 0.15 mm with the 90-nm CMOS process. The Gaussian and uniform distributions jitter is verified at a 5-ps timing resolution and a 2.5-GHz input clock frequency .
Keywords :
CMOS integrated circuits; Gaussian distribution; built-in self test; calibration; counting circuits; timing jitter; transceivers; CMOS process; Gaussian distribution jitter; Vernier delay line structure; autofocus approach; built-in jitter measurement system; calibration; clock jitter; core circuit; counter circuit; delay cells; equivalent-signal sampling technique; frequency 2.5 GHz; judge circuit; layout implementation; power supply rejection design; receiver; serial-link transceiver; size 0.15 mm; size 0.5 mm; size 19 mum; size 61 mum; size 90 nm; stepping scan approach; test time; time 5 ps; transmitter; uniform distribution jitter; Built-in jitter measurement (BIJM); jitter; serial-link transceiver;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2008.2006476
