DATA-TRANSMISSION FROM AN IMPLANTABLE BIOTELEMETER BY LOAD-SHIFT KEYING USING CIRCUIT CONFIGURATION MODULATOR

被引：112

作者：

TANG, ZN

SMITH, B

SCHILD, JH

PECKHAM, PH

机构：

[1] CASE WESTERN RESERVE UNIV,CTR REHABIL ENGN,CLEVELAND,OH 44106

[2] CASE WESTERN RESERVE UNIV,CLEVELAND FES CTR,CLEVELAND,OH 44106

[3] BAYLOR COLL MED,DEPT PHYSIOL & MOLEC BIOPHYS,WACO,TX 76703

来源：

IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING | 1995年 / 42卷 / 05期

关键词：

D O I：

10.1109/10.376158

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

Using the reflected impedance property of an inductive couple (transformer), a modulation method, Load-Shift Keying using Circuit Configuration Modulator (LSK-CCM), was developed to perform data transmission from an implantable telemeter. With a very simple circuit, this method utilizes a radio-frequency electromagnetic field induced with a single pair of coils to transmit power into the implant and data out of it.

引用

收藏

页码：524 / 528

页数：5

相关论文

共 22 条

[11] 60-GHZ INTEGRATED-CIRCUIT HIGH DATA RATE QUADRIPHASE SHIFT KEYING EXCITER AND MODULATOR [J].

GROTE, A ;

CHANG, K .

IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 1984, 32 (12) :1663-1667

[12] Data Transmission Using Phase-Shift Keying on a 92 GHz Carrier [J].

Ridgway, Richard W. ;

Nippa, David W. ;

Yen, Stephen .

MWP: 2009 INTERNATIONAL TOPICAL MEETING ON MICROWAVE PHOTONICS, 2009, :278-281

[13] Data Transmission Using Differential Phase-Shift Keying on a 92 GHz Carrier [J].

Ridgway, Richard W. ;

Nippa, David W. ;

Yen, Stephen .

IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2010, 58 (11) :3117-3126

[14] Generation of an optical 8-amplitude phase shift keying modulator using silicon microrings in add-drop configuration [J].

Debnath, Suman ;

Das, Srikanta ;

Sinha, Nitish ;

Singha, Satyabrata ;

Bhowmik, Bishanka Brata .

OPTICAL ENGINEERING, 2024, 63 (03)

[15] COMPARISON OF THE NOISE-IMMUNITY OF A DIGITAL DATA-TRANSMISSION SYSTEM WITH SPREAD-SPECTRUM SIGNALS USING PHASE-SHIFT KEYING WITH A SEPARATE SYNC SIGNAL AND DPSK [J].

SMIRNOV, NI ;

EIDINOV, MA .

TELECOMMUNICATIONS AND RADIO ENGINEERING, 1992, 47 (08) :115-120

[16] Light-controlled frequency-shift keying modulator using millimetre-wave monolithic integrated circuit oscillator [J].

Miyake, Y ;

Aoki, Y ;

Okada, M ;

Hoshino, K ;

Harada, H ;

Fujise, M .

ELECTRONICS LETTERS, 2002, 38 (22) :1371-1373

[17] NOISE IMMUNITY OF DATA TRANSMISSION SYSTEMS USING DIFFERENTIAL FREQUENCY-PHASE SHIFT KEYING (DFPSK) [J].

KYCHKIN, IN .

TELECOMMUNICATIONS AND RADIO ENGINEER-USSR, 1970, (08) :37-&

[18] High Efficiency Frequency Shift Keying Data Transmission System using Magnetic Resonance Wireless Power Transfer [J].

Ishii, Masaki ;

Nakanishi, Koki ;

Sasaki, Masahiro .

2018 IEEE WIRELESS POWER TRANSFER CONFERENCE (WPTC), 2018,

[19] Backward Data Transfer From Deeply Implanted Device Employing Ultrasonic Load Amplitude-Phase Shift Keying [J].

Ozeri, Shaul ;

Amrani, Ofer .

IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 2022, 69 (01) :199-207

[20] MULTI-THOUSAND KILOMETER OPTICAL SOLITON DATA-TRANSMISSION EXPERIMENTS AT 5-GB/S USING AN ELECTROABSORPTION MODULATOR PULSE-GENERATOR [J].

TAGA, H ;

SUZUKI, M ;

EDAGAWA, N ;

TANAKA, H ;

YOSHIDA, Y ;

YAMAMOTO, S ;

AKIBA, S ;

WAKABAYASHI, H .

JOURNAL OF LIGHTWAVE TECHNOLOGY, 1994, 12 (02) :231-236