Specific Objectives
- To design a bidirectional Electric Vehicle Supply Equipment for residential and public charging stations as per ARAI standards.
- Development of control algorithms to limit the introduction of harmonics, dc and non-sinusoidal currents.
- To develop a net-meter following IEC 62056 (DLMS/COSEM) communication standard for monitoring, supervisory control and data storage in V2G environment.
- Development of communication architecture integrating consumers, vehicles (as load or source), and utility (electrical and infrastructure)
Status – Completed. Attained TRL-4 (Amrita).
- Development of EV charging emulators
- Implementation of GB/T and OCPP messages in EV charging emulators
- Implementation of GB/T, CHAdeMO and OCPP messages in MATLAB for HIL system development
- Development of BMS simulator in MATLAB for HIL system development
- Development of CMS services like end user Android apps, Web apps, server-side apps and cloud algorithms
- Development of chargers in MATLAB and in hardware with different specifications
- Implementation of algorithms and smart models for SoC, SoH, slot booking, charging station recommendation, grid integration etc.
Funding Agency – DHI, Government of India & DST, Government of India – DHI TPEM Project under FAME India Scheme
Consortium Partners: IIT Delhi (Lead), Amrita Vishwa Vidyapeetham, Thapar University, Greenmile Technologies. Industry Partners: Linkwell Telesystems Pvt. Ltd., Yexcube Technologies, Elecsys Technologies Pvt. Ltd.
Total Fund: Rs. 10, 01, 76, 300/- ((Amrita Share – Rs. 1, 39, 10, 000 /-)
