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A low-power 20 Gbps multi-phase MDLL-based digital CDR with receiver equalization
- Issue Date
- 2019
- Publisher
- Institute of Electrical and Electronics Engineers Inc.
- Keywords
- CDR; Equalizer; SerDes; Serial-link
- Citation
- Proceedings - 2019 International SoC Design Conference, ISOCC 2019, v.2019-January, pp.42 - 43
- Journal Title
- Proceedings - 2019 International SoC Design Conference, ISOCC 2019
- Volume
- 2019-January
- Start Page
- 42
- End Page
- 43
- ISSN
- 0000-0000
- Abstract
- A low-power 20 Gbps multi-phase multiplying delaylocked loop (MDLL)-based clock and data recovery (CDR) with receiver equalization is presented. The proposed MDLL-based digital CDR uses 2x-oversampling technique to lower the bit error rate (BER) and achieves fast lock time using an initial tracking mode. A multi-phase MDLL is utilized to provide the 8- phase reference clocks needed for the PI-based CDR, thereby achieving the power reduction effect. A near-ground signaling (NGS) receiver with a passive CTLE is used for lower power operation at 20 Gbps/channel. The proposed 20 Gbps CDR with receiver equalization is implemented in a 40nm CMOS process, achieving a power consumption of only 25.0 mW (=1.25 mW/Gb/s). © 2019 IEEE.
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Related Researcher
- Kim, Jong Sun
- Engineering (Electronic & Electrical Engineering)