Anup Pillai Dhanya Premkumar Nair.  Long-Term Implantable Blood Pressure Monitoring System  Wireless Battery less In VIVO Blood Pressure Sensing Micro.

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Presentation transcript:

Anup Pillai Dhanya Premkumar Nair

 Long-Term Implantable Blood Pressure Monitoring System  Wireless Battery less In VIVO Blood Pressure Sensing Micro system

 The sensor specified earlier exhibits increased noise levels  The transmitter of the same dissipated 80% of the system power  Our objectives are: a) To find a solution that will exhibit less noise levels b) To find ways of having a more power efficient transmitter for the sensor

FebruaryMarchAprilMay Research project topic and preparatio n for report 1 Report 1 Objective 1 Presentatio n 2 Objective 2 Final Report

 To find a solution which exhibits less noise levels  We began by investigating the reason for the high noise levels in the current design

 Animal body vapor penetration into the device  Affect the functioning of the electrical connections within the sensor.

 The high impedance node can be highly sensitive to vapor penetration  Electrical connections between the sensor diaphragm and IC chip

 Protection for moisture penetration is required for the sensor diaphragm as well as the electrical connections between the sensor diaphragm and IC chip.

 A passivation layer, such as silicon dioxide (SiO 2 ) and silicon nitride (Si 3 N 4 ), can be deposited on the top of diaphragm.  An encapsulant material with strong moisture resistance can be used to protect the bond wires between the sensor and IC before applying silicone passivation layer.

 Improve packaging methods  This will enhance the reliability of the micro system for long-term blood pressure monitoring

 “Wireless Battery less in Vivo Blood Pressure Sensing Microsystem for Small Laboratory Animal Real-Time Monitoring” Cong, Peng  - “Novel Long-Term Implantable Blood Pressure Monitoring System” Peng Cong, Darrin J. Young, and Wen H. Ko  preview.axd?code=t &size=largest – “Fibre optic sensors in biomedical sciences” Otto S. Wolfbeis preview.axd?code=t &size=largest  “Biosensors for real-time in vivo measurements” -George S. Wilson, and Raeann Gifford