用于WBAN收发器的100mb /s 0.36 mW注入锁定时钟和数据恢复电路

V. Kulkarni, Jung Hyup Lee, Xin Liu, M. Je
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引用次数: 3

摘要

多种体内和体上生物医学集成电路的共存,要求设备间数据通信的高速、超低功耗和更小的占地面积。为了满足这些需求,本研究提出了一种65nm CMOS注入锁定时钟和数据恢复(CDR)电路,用于采用直接数字传输的体通道通信收发器。CDR利用传输数字数据的体通道高通特性产生的脉冲,并将其直接注入VCO以恢复时钟。与传统的基于锁相环的CDR电路相比,注入锁定实现了数据速率为100 Mb/s的瞬时时钟和数据恢复。该CDR具有0.36 mW的低功耗和0.07 mm2的小占地面积,有助于进一步小型化电池供电的生物医学ic。
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A 100 Mb/s 0.36 mW injection locked clock and data recovery circuit for WBAN transceivers
Coexistence of various on-body and intra-body biomedical ICs call for the need of inter-device data communication at high speeds with ultra lower power consumption and smaller footprint. To address these needs, this work presents an injection locked clock and data recovery (CDR) circuit in 65 nm CMOS for body channel communication transceivers that employ direct digital transmission. The CDR utilizes pulses generated due to the high pass nature of body channel from transmitted digital data and injects them directly into the VCO to recover the clock. The injection locking achieves instantaneous clock and data recovery compared to conventional PLL based CDR circuits for data rate of 100 Mb/s. With a low power consumption of 0.36 mW and a small footprint of 0.07 mm2, the proposed CDR helps further miniaturization of battery operated biomedical ICs.
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