A full-duplex wireless integrated transceiver for implant-to-air data communications

2015 IEEE Custom Integrated Circuits Conference (CICC) Pub Date : 2015-11-30 DOI:10.1109/CICC.2015.7338430

S. Mirbozorgi, H. Bahrami, M. Sawan, L. Rusch, B. Gosselin

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引用次数: 7

Abstract

This paper presents a novel fully integrated full-duplex data transceiver to support bidirectional high-data rate neural interfaces (electrical stimulation and neural recording). The transmitter (TX) and the receiver (RX) are designed to share a single implantable antenna. The TX generates IR-UWB based on edge combining, and the RX uses a novel ISM-2.4-GHz narrow-band OOK receiver. Separation between the TX and RX path is implemented by: 1) properly shaping the transmitted pulse, so its spectrum falls between 3.1 and 7 GHz UWB subband, and 2) carefully filtering the spectrum of the received waveform directly in the receiver low-noise amplifier (LNA), to avoid using a circulator or a diplexer (found in most full duplex systems). The receiver is designed to support downlink telemetry of neural stimulation applications with a data rate as high as 100 Mbps within a power budget of 5 mW. The transmitter is designed to support uplink back telemetry of neural recording applications with a data rate of up to 500 Mbps for power consumption of 5.4 mW and 10.8 mW for OOK and BPSK modulations, respectively (10.8 pJ/b). Measurement results obtained with biological tissues confirm full functionality of the fabricated full duplex transceiver. The total size of the chip is 0.8 mm2.

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一种全双工无线集成收发器，用于植入式对空数据通信

提出了一种支持双向高数据速率神经接口(电刺激和神经记录)的全集成全双工数据收发器。发射器(TX)和接收器(RX)被设计成共享一个可植入的天线。TX基于边缘合并产生IR-UWB, RX使用新型ism -2.4 ghz窄带OOK接收器。TX和RX路径之间的分离是通过以下方式实现的:1)适当地对发射脉冲进行整形，使其频谱落在3.1 GHz和7 GHz UWB子带之间;2)直接在接收器低噪声放大器(LNA)中仔细滤波接收波形的频谱，以避免使用环行器或双工器(在大多数全双工系统中发现)。该接收器设计用于支持神经刺激应用的下行遥测，数据速率高达100mbps，功率预算为5mw。该发射机设计用于支持神经记录应用的上行遥测，数据速率高达500 Mbps, OOK和BPSK调制的功耗分别为5.4 mW和10.8 mW (10.8 pJ/b)。用生物组织获得的测量结果证实了所制造的全双工收发器的全部功能。芯片的总尺寸为0.8 mm2。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Custom Integrated Circuits Conference (CICC)

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