TY - GEN
T1 - Design and FPGA implementation of PLL-based quarter-rate clock and data recovery circuit
AU - Alser, Mohammed H.
AU - Assaad, Maher
AU - Hussin, Fawnizu Azmadi
AU - Yohannes, Israel
PY - 2012
Y1 - 2012
N2 - This paper overviews the increased dynamic power consumption issue associated with the use of the serial links as a medium of data communication in today's multi-module based system-on-chip (SoC) and presents a novel all-digital PLL-based quarter-rate clock and data recovery circuit as a potential solution. The proposed architecture works at a frequency equal to one-fourth the received data rate and utilizes a quarter-rate early-late type phase detector, a delay line, a delay line controller, and a digitally controlled oscillator (DCO)-based 8-phases generator. The proposed architecture can be adapted easily for different FPGA families, as well as implemented as an integrated circuit. Moreover, it can be used in a deserializer as part of a SERDES in inter-module communication in SoC. The proposed architecture is designed using the Verilog language and synthesized for the Altera DE2-70 development board. Furthermore, the simulation results validate the expected functionality, such as performing quarter-rate phase detection as well as 1-to-4 demultiplexing. The synthesized design requires 117 logic elements using the above Altera board.
AB - This paper overviews the increased dynamic power consumption issue associated with the use of the serial links as a medium of data communication in today's multi-module based system-on-chip (SoC) and presents a novel all-digital PLL-based quarter-rate clock and data recovery circuit as a potential solution. The proposed architecture works at a frequency equal to one-fourth the received data rate and utilizes a quarter-rate early-late type phase detector, a delay line, a delay line controller, and a digitally controlled oscillator (DCO)-based 8-phases generator. The proposed architecture can be adapted easily for different FPGA families, as well as implemented as an integrated circuit. Moreover, it can be used in a deserializer as part of a SERDES in inter-module communication in SoC. The proposed architecture is designed using the Verilog language and synthesized for the Altera DE2-70 development board. Furthermore, the simulation results validate the expected functionality, such as performing quarter-rate phase detection as well as 1-to-4 demultiplexing. The synthesized design requires 117 logic elements using the above Altera board.
KW - clock and data recovery (CDR)
KW - deserializer
KW - quarter-rate phase detector
KW - serializer
KW - system-on-chip (SoC)
UR - https://www.scopus.com/pages/publications/84867955076
U2 - 10.1109/ICIAS.2012.6306128
DO - 10.1109/ICIAS.2012.6306128
M3 - Conference contribution
AN - SCOPUS:84867955076
SN - 9781457719677
T3 - ICIAS 2012 - 2012 4th International Conference on Intelligent and Advanced Systems: A Conference of World Engineering, Science and Technology Congress (ESTCON) - Conference Proceedings
SP - 825
EP - 830
BT - ICIAS 2012 - 2012 4th International Conference on Intelligent and Advanced Systems
T2 - 2012 4th International Conference on Intelligent and Advanced Systems, ICIAS 2012
Y2 - 12 June 2012 through 14 June 2012
ER -