Title :
A 2.5Gbps Quad CMOS Transceiver Cell Using Regulated Supply Low Jitter PLL
Author :
Khawshe, Vijay ; Pravin Kumar V ; Rangnekar, Renu ; Vyas, Kapil ; Prabu, Kashi ; Mahabaleshwara ; Jain, Manish ; Mishra, Navin ; Abhyankar, Abhijit
Author_Institution :
Rambus Bangalore
Abstract :
A 2.5 Gbps serial link is fabricated in TSMC 90nm process. The link is targeted to support various serial link standards. To maintain a constant transmit swing the link supports automatic calibration for the on die termination (ODT) and bias, which supplies the driver. The self biased (Maneatis, 1996) regulated PLL dual loop architecture based on (Kun Yung Ken Chang et al., 2003) is used which minimizes the clock jitter. A replica compensated regulator (Alon et al., 2006) is used in the PLL which cancels both the high frequency and low frequency components of the noise without affecting the PLL loop stability. A clock and data recovery circuits based on 2times over sampling (Alexander, 1975) is implemented inside each individual lane of the serial link. The cell consumes 350mW at 2.5Gbps with transmitted jitter of 44.5ps pk-pk
Keywords :
CMOS integrated circuits; clocks; jitter; phase locked loops; transceivers; 2.5 Gbit/s; 350 mW; 44.5 ps; 90 nm; PLL loop stability; clock jitter; clock recovery circuit; data recovery circuit; dual loop architecture; on die termination; phase locked loop; quad CMOS transceiver cell; regulated supply low jitter PLL; replica compensated regulator; self biased regulated PLL; serial link standards; Calibration; Circuit noise; Clocks; Frequency; Jitter; Low-frequency noise; Noise cancellation; Phase locked loops; Regulators; Transceivers;
Conference_Titel :
VLSI Design, 2007. Held jointly with 6th International Conference on Embedded Systems., 20th International Conference on
Conference_Location :
Bangalore
Print_ISBN :
0-7695-2762-0
DOI :
10.1109/VLSID.2007.7
