A Wirelessly Powered High-Speed Transceiver for High-Density Bidirectional Neural Interfaces

被引：0

作者：

Maghsoudloo, E. ^{[1
]}

Rezaei, M. ^{[1
]}

Gosselin, B. ^{[1
]}

机构：

[1] Univ Laval, Dept Elect & Comp Engn, Quebec City, PQ G1V 0A6, Canada

来源：

2017 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS (ISCAS) | 2017年

关键词：

Wireless data transmission; High-speed; Full-duplex transceiver; High-density; Bidirectional brain machine interface; Wireless power transmission; Multicoil array; FREELY MOVING ANIMALS; SYSTEM;

D O I：

暂无

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

This paper presents a wirelessly powered, fully-integrated, low-power full-duplex transceiver to support high-density and bidirectional neural implants. The transmitter (TX) uses impulse radio ultra-wide band based on an edge combining approach, and the receiver (RX) uses a 2.4-GHz on-off keying narrow band topology. The proposed transceiver provides dual band 500-Mbps TX uplink data rate and 100 Mbps RX downlink data rate, and it is fully integrated into standard TSMC 0.18-mu m CMOS within a total size of 0.8 mm(2). The total measured power consumption is 10.4 mW in full duplex mode (5 mW at 100 Mbps for RX, and 5.4 mW at 800 Mbps or 6.7 pJ/bit for TX). The transceiver is wirelessly powered up by a smart home-cage system based on overlapped multicoil arrays through a thin implantable multicoil receiver of 1x1 cm(2) of size, implanted bellow the scalp of a laboratory mouse, and integrated power management circuits. This inductive system is designed to deliver up to 35.5 mW of power delivered to the load from a 13.56-MHz carrier signal with an overall power transfer efficiency above 5% across a separation distance ranging from 3 cm to 5 cm.

引用

页码：2565 / 2568

页数：4

共 50 条

[21] THERMAL DESIGN FOR HIGH-SPEED HIGH-DENSITY MULTICHIP-MODULE
HANDA, T
IIDA, S
UTSUNOMIYA, J
IEEE TRANSACTIONS ON COMPONENTS HYBRIDS AND MANUFACTURING TECHNOLOGY, 1993, 16 (04): : 384 - 387
[22] HIGH-SPEED, HIGH-DENSITY DEVICES TO DOMINATE ISSCC 83 SESSIONS
TSANTES, J
EDN MAGAZINE-ELECTRICAL DESIGN NEWS, 1983, 28 (04): : 51 - 54
[23] Investigation of the Radiated Emissions From High-Speed/High-Density Connectors
Chen, Hung-Chuan
Connor, Samuel
Halligan, Matthew S.
Tian, Xinxin
Li, Xiao
Archambeault, Bruce
Drewniak, James L.
Wu, Tzong-Lin
IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, 2016, 58 (01) : 220 - 230
[24] HIGH-DENSITY MULTIPIN CONNECTOR FOR HIGH-SPEED PULSE-PROPAGATION
INAGAKI, S
NAKANO, KI
IEEE TRANSACTIONS ON COMPONENTS HYBRIDS AND MANUFACTURING TECHNOLOGY, 1987, 10 (04): : 496 - 501
[25] Advanced organic dye for high-speed, high-density optical media
Kodaira, Takuo
Matsuda, Isao
Somei, Hidenori
Tsuzuki, Takeo
Yokoyama, Daizo
Endo, Akihisa
Takeguchi, Kazunobu
Kojo, Shinichi
Miyazawa, Fuyuki
Otsu, Takeshi
Murai, Wakaaki
Hattori, Masashi
Shimomai, Kenichi
Oshita, Junji
Asano, Sho
Shimizu, Atsuo
Fujii, Toru
JAPANESE JOURNAL OF APPLIED PHYSICS, 2015, 54 (09)
[26] Advanced packaging techniques for high-density, high-speed optoelectronics interconnects
Liu, Fuhan
Chang, Gee-Kung
Wang, Fengtao
Adibi, Ali
Tummala, Rao
ICEPT: 2006 7th International Conference on Electronics Packaging Technology, Proceedings, 2006, : 473 - 478
[27] OXIDE ISOLATION PROCESS FOR HIGH-DENSITY HIGH-SPEED BIPOLAR ICS
KUMAR, R
HOCHBERG, AK
KRUEST, JR
OH, KH
RAU, J
SHARMA, GC
JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1979, 126 (03) : C126 - C126
[28] HIGH-DENSITY MULTIPIN CONNECTOR FOR HIGH-SPEED PULSE PROPAGATION.
Inagaki, Shuichiro
Nakano, Ken-Ichi
1600, (CHMT-10):
[29] AN INVESTIGATION OF SEPARATION LOSSES IN HIGH-SPEED HIGH-DENSITY RECORDING TAPES
SPELIOTIS, DE
BATE, G
MORRISON, JR
BRAUN, RE
IEEE TRANSACTIONS ON MAGNETICS, 1965, MAG1 (02) : 101 - +
[30] Fast Prediction of Radiation from High-Speed/High-Density Connectors
Chen, Hung-Chuan
Wu, Tzong-Lin
Connors, Samuel
Archambeault, Bruce
2014 IEEE INTERNATIONAL SYMPOSIUM ON ELECTROMAGNETIC COMPATIBILITY (EMC), 2014, : 256 - 259

← 1 2 3 4 5 →