A 19-27 Gbps receiver comprised of a continuoustime linear equalizer (CTLE) followed by a 2-tap decision feedback equalizer embedded clock and data recovery circuit is implemented. The hybrid CDR is operated at half rate, which is incorporated into a broadband PLL to facilitate ISI and jitter suppression over wide-band operation. To accommodate different channel response, an automatic threshold tracking (ATT) circuit combining with sign-sign least mean square (LMS) adaptive engine is realized. A quadrature relaxation-type oscillator is proposed to provide the sampling phases without bulky inductors. It also provides the advantages of small form factor and wide range operation (19-27 Gbps) to compensate 20 dB channel loss at 12.5 GHz. Fabricated in a 40 nm CMOS technology, the whole receiver manifests an energy efficiency of 3.12 pJ/bit at 27 Gbps operation. The core area is 0.09 mm only.
Index Terms-Clock and data recovery circuit (CDR), continuous-time linear equalizer (CTLE), decision feedback equalizer (DFE), phase locked loop (PLL).
A 19-27-Gb/s receiver comprising of a continuous time linear equalizer (CTLE) followed by a 2 tap decision feedback equalizer embedded clock and data recovery circuit is implemented. The hybrid CDR is operated at half rate, which is incorporated into a broad band PLL to facilitate ISI and jitter suppression over wide band operation. A quadrature relaxation type oscillator is proposed to provide the sampling phases without bulky inductors. Fabricated in a 40 nm CMOS technology, the whole receiver manifests a high energy efficiency of 3.12pJ/bit at 27 Gbps operation to compensate 20 dB channel loss at Nyquist frequency. The core area is 0.09 mm 2 only.
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