A PIWM-FSK Transmitter for Implantable Wireless Neural Recording Microsystems

被引:0
|
作者
Farsiani, Sirous [1 ]
Sodagar, Amir M. [2 ]
机构
[1] KN Toosi Univ Tech, Fac EE, Res Lab Integr Circ & Syst ICAS, Tehran, Iran
[2] York Univ, Dept EECS, Toronto, ON, Canada
来源
2017 IEEE 30TH CANADIAN CONFERENCE ON ELECTRICAL AND COMPUTER ENGINEERING (CCECE) | 2017年
关键词
transmitter; pulse interval and width modulation; frequency-shitf keying; neural recording microsystems; implantable biomedical devices; DATA-COMPRESSION; INTERFACES;
D O I
暂无
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
In this paper, a wireless telemetry unit for implantable neural recording microsystems is presented, which is designed based on pulse interval and width modulation. Variable-time coding nature of this technique leads to a reduction in symbol length of the coded signal, which consequently results in doubling the maximum possible data rate of the transmitter (in comparison with traditional pulse width modulation based transceivers). This allows for the expansion of the capacity (number of channels) of the neural recording implant by almost a factor of two. Based on the proposed idea, a transmitter is designed in a 0.18-mu m standard CMOS technology. According to simulation results, the transmitter works with a data rate of 18.7 Mb/s and consumes 1.9 mW of power from a 1.8-V power supply.
引用
收藏
页数:4
相关论文
共 50 条
  • [1] A wideband PWM-FSK receiver for wireless Implantable neural recording applications
    Yin, Ming
    Ghovanloo, Maysam
    PROCEEDINGS OF 2008 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS, VOLS 1-10, 2008, : 1556 - +
  • [2] Low-Energy Integrated Circuits and Microsystems for Implantable Wireless Neural Recording
    Je, Minkyu
    Kim, Seong-Jin
    2016 URSI ASIA-PACIFIC RADIO SCIENCE CONFERENCE (URSI AP-RASC), 2016, : 998 - 999
  • [3] Wideband flexible transmitter and receiver pair for implantable wireless neural recording applications
    Yin, Ming
    Ghovanloo, Maysam
    2007 IEEE NORTH-EAST WORKSHOP ON CIRCUITS AND SYSTEMS, 2007, : 13 - 16
  • [4] New Architecture for Wireless Implantable Neural Recording Microsystems Based on Frequency-Division Multiplexing
    Rajabi-Tavakkol, Alireza
    Sodagar, Amir M.
    Refan, Mohammad H.
    2010 ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC), 2010, : 6449 - 6452
  • [5] Implantable Microsystem for Wireless Neural Recording Applications
    Zhang, Xu
    Pei, Weihua
    Huang, Beiju
    Chen, Jin
    Guan, Ning
    Chen, Hongda
    2009 ICME INTERNATIONAL CONFERENCE ON COMPLEX MEDICAL ENGINEERING, 2009, : 234 - 237
  • [6] A Wireless Implantable Microsystem for Multichannel Neural Recording
    Sodagar, Amir M.
    Wise, Kensall D.
    Najafi, Khalil
    IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2009, 57 (10) : 2565 - 2573
  • [7] Multichannel Neural Recording with a 128 Mbps UWB Wireless Transmitter for Implantable Brain-Machine Interfaces
    Ando, H.
    Takizawa, K.
    Yoshida, T.
    Matsushita, K.
    Hirata, M.
    Suzuki, T.
    2015 37TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC), 2015, : 4097 - 4100
  • [8] Spatial Redundancy Reduction in Multi-Channel Implantable Neural Recording Microsystems
    Khazaei, Yousef
    Shahkooh, Ali Abbasi
    Sodagar, Amir M.
    42ND ANNUAL INTERNATIONAL CONFERENCES OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY: ENABLING INNOVATIVE TECHNOLOGIES FOR GLOBAL HEALTHCARE EMBC'20, 2020, : 898 - 901
  • [9] A High-Data-Rate Area-Efficient Uni-Pulse Harmonic Modulation Transmitter for Implantable Neural Recording Microsystems
    Zinaty, Mohammad
    Amiri, Parviz
    Maghami, Mohammad Hossein
    JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS, 2020, 29 (04)
  • [10] A review on wireless powering schemes for implantable microsystems in neural engineering applications
    Lee J.
    Jang J.
    Song Y.-K.
    Biomedical Engineering Letters, 2016, 6 (4) : 205 - 215
12345