Title :
Near field modulated backscatter for in vivo biotelemetry
Author :
Besnoff, Jordan S. ; Reynolds, Matthew S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Duke Univ., Durham, NC, USA
Abstract :
Fully implantable wireless biotelemetry devices have traditionally used active VHF/UHF transmitters or load modulation at HF frequencies. HF systems tend to be bandwidth-limited due to low frequency magnetic induction, while active VHF/UHF transmitters generally consume a significant amount of power in DC bias current. We show in this paper that UHF near-field backscatter can be used to achieve higher data rates at lower implant power budgets. We present experimental path loss measurements in a saline proxy system using a segmented loop antenna designed for UHF near-field operation. We present experimental results from a modulated backscatter test circuit at bit rates of up to 30 Mbps and penetration depths of up to 6 cm. The main communication element, an RF switch, consumes about 164 μA at 3 V while operating at a data rate of 30 Mbps, which is equivalent to approximately 16.4 pJ/bit.
Keywords :
backscatter; biomedical telemetry; electromagnetic induction; loop antennas; radio transmitters; DC bias current; RF switch; UHF near-field backscatter; active VHF/UHF transmitter; bit rate 30 Mbit/s; implantable wireless biotelemetry device; load modulation; low frequency magnetic induction; near field modulated backscatter; path loss measurement; saline proxy system; segmented loop antenna; voltage 3 V; Antenna measurements; Backscatter; Implants; Loss measurement; Modulation; Oscillators; Radio frequency;
Conference_Titel :
RFID (RFID), 2012 IEEE International Conference on
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4673-0329-3
DOI :
10.1109/RFID.2012.6193041
