1、ISSCC 2026SESSION 9Wireless Power9.1:A Single-Power-Link 13.56MHz Wireless Power and Data Transfer System with Synchronized Phase-Shifted Time-Multiplexing Dual Uplinks for Implantable Voltammetry 2026 IEEE International Solid-State Circuits Conference1 of 34A Single-Power-Link 13.56-MHz Wireless Po
2、wer and Data Transfer System with Synchronized Phase-Shifted Time-Multiplexing Dual Uplinks for Implantable Voltammetry Zhenhao Li1,Junyao Tang1,Nawab Singh2,Jianqiang Jiang1,Lei Zhao1,Wenshuo Zhu1,Xuan Sun1,Liang Dong2,Cheng Huang11Iowa State University,Ames,IA,2University of Georgia,Athens,GA9.1:A
3、 Single-Power-Link 13.56MHz Wireless Power and Data Transfer System with Synchronized Phase-Shifted Time-Multiplexing Dual Uplinks for Implantable Voltammetry 2026 IEEE International Solid-State Circuits Conference2 of 34Outline Motivation and Background Proposed System and Implementation Measuremen
4、t Results Conclusion9.1:A Single-Power-Link 13.56MHz Wireless Power and Data Transfer System with Synchronized Phase-Shifted Time-Multiplexing Dual Uplinks for Implantable Voltammetry 2026 IEEE International Solid-State Circuits Conference3 of 34Outline Motivation and Background Proposed System and
5、Implementation Measurement Results Conclusion9.1:A Single-Power-Link 13.56MHz Wireless Power and Data Transfer System with Synchronized Phase-Shifted Time-Multiplexing Dual Uplinks for Implantable Voltammetry 2026 IEEE International Solid-State Circuits Conference4 of 34Motivation:Long-Term Implanta
6、ble Sensing Kinetics:Symptoms may take years.Continuous in-vivo monitoring is required.Prion disease:misfolding protein,causing brain damage.9.1:A Single-Power-Link 13.56MHz Wireless Power and Data Transfer System with Synchronized Phase-Shifted Time-Multiplexing Dual Uplinks for Implantable Voltamm