A 7×7×2mm3 8.6-μ 500-kb/s Transmitter with Robust Injection-Locking Based Frequency-to-Amplitude Conversion Receiver Targeting for Implantable Applications
August 1, 2019
Publication
- A 7×7×2mm3 8.6-μ 500-kb/s Transmitter with Robust Injection-Locking Based Frequency-to-Amplitude Conversion Receiver Targeting for Implantable Applications
- August 1, 2019
This paper presents the first transmitter (TX)/receiver (RX) pair using galvanic coupling to achieve Inbody to On-body Body Channel Communication (I2O-BCC) for ultra-low power (ULP) miniaturized implanted applications. The measured channel loss characteristic is smaller than 40dB within 10 ~ 40 MHz band when the implanted depth is no more than 10cm. Injection locking (IL) based frequency-to-amplitude (F2A) conversion demodulator is proposed in RX to handle large frequency variations of TX FSK signals due to the lack of off-chip reference. The implanted TX only requires two off-chip components, micro battery and tiny probes, achieving packaged size of 7×7×2 mm 3 . The in-body TX consumes only 8.6 μW at 500 kb/s while the on-body RX consumes 591.5 μW. The TX power are 8× lower than previous works and achieves energy efficiency at 17.2pJ/b with minimal bill of material (BOM).
Researcher/Author: Bo Xiong, Yida Li, Aaron Voon-Yew Thean, Chun Huat Heng
2019 IEEE Custom Integrated Circuits Conference (CICC); https://ieeexplore.ieee.org/document/8780226
Researcher/Author: Bo Xiong, Yida Li, Aaron Voon-Yew Thean, Chun Huat Heng
2019 IEEE Custom Integrated Circuits Conference (CICC); https://ieeexplore.ieee.org/document/8780226