ENGINEERING
and TECHNOLOGY RESEARCH

Indonesia once's of country use more transportation, and also state spends more population, Smart Hybrid Vehicle is an Important issue for vehicle in college. This paper presents implementation transportation eco-campus for electric scooter and recharging solar cell in parking lot areas University Pembangunan PancaBudi. It allows us to evaluate a broad range of Plug-in Smart Hybrid Electric Vehicles (PSHEVs) and Plug-in Electric Vehicles (PEVs) charging scenarios and stochastic models of the power that is the demand by PEVs in the parking garage, and the output power of the PV panel are present. To impact of the PSHEVs’ charging on the utility grid, a fuzzy logic power-flow controller was designed. The charging with solar cell helps to reduce emissions from the power grid but increases the cost of charging. Moreover, it offers more flexibility to prepare for the emergence of new technologies (e.g., Vehicle-to-Grid, Vehicle-to- Building, and Smart Charging), which will become a reality shortly. The system structure and the developed PHEV smart charging algorithm are described. Moreover, a comparison between the impact of the charging process of the PHEVs on the grid with and without the developed smart charging technique is presented and analyzed.

Smart vehicle, Vehicle application, Plug-in Hybrid Electric Vehicles (PHEVs), Solar energy