2.5 V 43–45 Gb/s CDR Circuit and 55 Gb/s PRBS Generator in SiGe Using a Low-Voltage Logic Family

An alternative design approach for implementing high-speed digital and mixed-signal circuits is proposed. It is based on a family of low-voltage logic gates with reduced transistor stacking compared to series-gated emitter-coupled logic. It includes a latch, an xor gate, and a MUX with mutually compatible interfaces. Topologies and characteristics of the individual gates are discussed. Closed-form propagation delay expressions are introduced and verified with simulations. The proposed design style was used to implement a 43–45 Gb/s CDR circuit with a 600MHz locking range and a 55 Gb/s PRBS generator with a$2^7!-!1$sequence length. The circuits were fabricated in a SiGe BiCMOS technology with$f _T = 120~hboxGHz$. Corresponding measurement results validate the proposed design style and establish it as a viable alternative to emitter-coupled logic in high-speed applications. Both circuits operate from a 2.5 V nominal power supply and consume 650 mW and 550 mW, respectively.