DocumentCode
1244034
Title
An Implanted Telemetry Unit for Ambulatory Animals
Author
Deutsch, Sid
Author_Institution
CMDNJ Rutgers Medical School, Piscataway, NJ
Volume
23
Issue
9
fYear
1975
fDate
9/1/1975 12:00:00 AM
Firstpage
983
Lastpage
987
Abstract
An implanted physiological-signal telemetry unit for an ambulatory animal is described. It uses a single 1.35 V mercury cell, is 
cm in size, and weighs 15 g. Transcutaneous RF turn-on and magnetic turn-off are used to conserve battery power. The battery can operate 175 h before replacement. An integrated circuit amplifier supplies a voltage gain of 250 over a nominal band from 0.2 Hz to over 4 kHz. With 2 mV peak input, it yields 75 kHz peak deviation of a 20 MHz carrier. Relations between frequency, 
, receiving antenna voltage, and implant coil diameter are derived. Circuits are also given for a "turn-on" device, a 20 MHz converter, and the sequential gating of three mutually perpendicular antennas to avoid dropouts as the animal moves within the cage.
cm in size, and weighs 15 g. Transcutaneous RF turn-on and magnetic turn-off are used to conserve battery power. The battery can operate 175 h before replacement. An integrated circuit amplifier supplies a voltage gain of 250 over a nominal band from 0.2 Hz to over 4 kHz. With 2 mV peak input, it yields 75 kHz peak deviation of a 20 MHz carrier. Relations between frequency, , receiving antenna voltage, and implant coil diameter are derived. Circuits are also given for a "turn-on" device, a 20 MHz converter, and the sequential gating of three mutually perpendicular antennas to avoid dropouts as the animal moves within the cage.Keywords
Animal telemetry; Implantable radio transmitters; Animals; Batteries; Coils; Implants; Integrated circuit yield; Radio frequency; Radiofrequency amplifiers; Receiving antennas; Telemetry; Voltage;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOM.1975.1092906
Filename
1092906
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