Design of a Bi-Directional Wireless Data Transceiver for Implantable Biomedical Device
Author:
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/9689774/9689790/09689829.pdf?arnumber=9689829
Reference15 articles.
1. A low-power 3.1–5 GHz ultra-wideband low noise amplifier utilizing Miller effect;wu;Proc IEEE Int Conf Ultra-Wideband,2009
2. Distributed Waveform Generator: A New Circuit Technique for Ultra-Wideband Pulse Generation, Shaping and Modulation
3. A lowpower 2.4-GHz receiver for wireless implantable neural stimulators;mirbozorgi;Proc IEEE Int Symp Circuits and Systems,2014
4. Biological Channel Modeling and Implantable UWB Antenna Design for Neural Recording Systems
5. A programmable pulse UWB transmitter with 34% energy efficiency for multichannel neuro-recording systems
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