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An 8–16 Gb/s, 0.65–1.05 pJ/b, Voltage-Mode Transmitter With Analog Impedance Modulation Equalization and Sub-3 ns Power-State Transitioning | IEEE Journals & Magazine | IEEE Xplore

An 8–16 Gb/s, 0.65–1.05 pJ/b, Voltage-Mode Transmitter With Analog Impedance Modulation Equalization and Sub-3 ns Power-State Transitioning

Publisher: IEEE

Abstract:

Serial link transmitters which efficiently incorporate equalization, while also enabling fast power-state transitioning to leverage dynamic power scaling, are necessary t...View more

Abstract:

Serial link transmitters which efficiently incorporate equalization, while also enabling fast power-state transitioning to leverage dynamic power scaling, are necessary to meet future systems' I/O requirements. This paper presents a scalable voltage-mode transmitter which offers low static power dissipation and adopts an impedance-modulated 2-tap equalizer with analog tap control, thereby obviating driver segmentation and reducing pre-driver complexity and dynamic power. Topologies that allow for rapid power-up/down, including a replica-biased voltage regulator to power the output stages of multiple transmit channels and per-channel quadrature clock generation with injection-locked oscillators (ILO), enable fast power-state transitioning. Energy efficiency is further improved with capacitively driven low-swing global clock distribution and supply scaling at lower data rates, while output eye quality is maintained at low voltages with automatic phase calibration of the local ILO-generated quarter-rate clocks. A prototype fabricated in a general purpose 65 nm CMOS process includes a 2 mm global clock distribution network and two transmitters that support an output swing range of 100–300 mV _{\rm ppd} with up to 12 dB of equalization. The transmitters achieve 8–16 Gb/s operation at 0.65–1.05 pJ/b energy efficiency and sub-3 ns power-up/down times.
Published in: IEEE Journal of Solid-State Circuits ( Volume: 49, Issue: 11, November 2014)
Page(s): 2631 - 2643
Date of Publication: 15 September 2014

ISSN Information:

Publisher: IEEE

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