In recent decades, the electric vehicles play an enormous role for green house system. An electrical driven system was replaced by the combustion engine. But the EVCS electric vehicle charging system has number of challenges. In this research, a novel technique is proposed and implementedfor estimating Battery Residual Capacity or BRC in electric vehicles or EVs. Modelling the battery of electric vehicles using Modifiedadaptive Neuro-fuzzy inference system is the major implication of the method in discussion. The most workable open engines would be Switched Reluctance Motor (SRM) for the sake of EV applications. Nearby the available battery bank, a photovoltaic or PV board has been placed in order to builddriving miles electric vehicles. So as to regulate the vitality stream into as well as out of PV board, battery just as SRMdrive, Modified Adaptive Neuro Fuzzy Inference controller (MANFIS) installed tri-port converter has been anticipated here. The different Electric Vehicle battery working profiles that are explored incorporate consistent current release just as arbitrary current release also driving cycles of standard Electric Vehicle. On comparing the contrasting residual battery capacity and the genuine residual battery capacity, the exactness as well as viability of suggested demonstrating strategy could be accessed. In the event of some charging of battery directly from the PV board then a multiple region charging regulator strategy would be used enemy practical utilization of essentialness. A MANFIS enabled innovation with tri port iscreated in MATLAB-SIMULINK condition. The outcomes are ended up being effective in delivering diminished symphonious contortion. It also has the ability for improving advertise for EVs in the adjacent future. © 2022 Elsevier B.V., All rights reserved.