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A 0.5-mm<sup>2</sup> Solar Cell-Powered Biofuel Cell-Input Biosensing System With LED Driving for Stand-Alone RF-Less Continuous Glucose Monitoring Contact Lens

Guowei Chen, Yue Wang, Tran Minh Quan, Naofumi Matsuyama, Takuya Tsujimura, Kiichi Niitsu

2022IEEE Solid-State Circuits Letters23 citationsDOIOpen Access PDF

Abstract

This letter presents the first solar cell (SC)-powered biofuel cell (BFC)-input biosensing system with pulse interval modulation (PIM) and pulse density modulation (PDM) LED driving capability for continuous glucose monitoring (CGM) contact lenses featuring stand-alone RF-less operation. Power supply from on-lens SCs can eliminate the necessity of wireless power delivery, and LED implementation can eliminate the necessity of wireless communication. By employing the BFC-input approach instead of using a power-hungry potentiostat, powering and sensing components are separated, which reduces the power budget from SCs. The measured power of 28/144 nW at the PIM/PDM mode with a 0.31/0.39-V supply voltage can be managed by the on-lens SCs, enabling a fully stand-alone on-lens operation under office-room ambient light whose typical illumination intensity is 800–1600 lx.

Topics & Concepts

Lens (geology)Power (physics)Contact lensVoltagePotentiostatElectrical engineeringModulation (music)WirelessContinuous monitoringSolar cellOpticsMaterials scienceComputer scienceElectrodeEngineeringPhysicsTelecommunicationsAcousticsOperations managementElectrochemistryQuantum mechanicsEnergy Harvesting in Wireless NetworksWireless Power Transfer Systemssolar cell performance optimization
A 0.5-mm<sup>2</sup> Solar Cell-Powered Biofuel Cell-Input Biosensing System With LED Driving for Stand-Alone RF-Less Continuous Glucose Monitoring Contact Lens | Litcius