The need for an efficient electric drive system which has high torque and speed, low maintenance costs is getting increased. However, the motors which are commonly used, such as induction motors and DC motors, have not been able to meet the need. Therefore, a new model with efficiency System and energy consumption using simulated software "MATLAB ® or Simulink®" is made. This model includes battery, power electronics converters, electric motors, and transmission systems. In this case the energy system during regenerative braking breaking is also taken into account. The result of the efficiency value of the batteries, inverter, electric motor and the total efficiency value of the overall system is gathered from the control Brushless Motor (BLDC) models HHDB 350-1000 Watt and some batteries type  SOC with capacity 34-48 Ah used.

BLDC, Matlab, Simulink, electric Motor

Cardoso, C., Ferriera, J., Alves, V., Araujo, R.E. 2006. The design and implementation of an electric go-kart for education in motor control. Proceeding of IEEE International Symposium on Power Electronics, Electrical Drives, Automation, and Motion, pp. 1489 – 1494.

Didiistardi, Comparison of Electric Karting Modeling Using Matlab® / simulink® Software, Malaysia, January 2011

DidiIstardi, Modeling and Component Selection for a Micro Electric Carting Using different Electric Motor and Battery Types, Batam, March 2010

Baldurson, S., 2005. BLDC Motor Modeling and Control-A Matlab® /Simulink® implementation. Master Thesis Electric Power Engineering Chalmers.

Smeaton W., Robert, Switchgear and Control Handbook, pages 29-2

James Larminie and Jhon Lowry , Electric Vehicle Technology Explained

Jose Fernandez Ramos and ForooharAghiliKhatir, Electrical Vehicle Base On Standard Industrial Component, Granada (Spain), March 2010

S. De Breucker, K. Clement, K. Elngelen, P. Tant, J. Verveckken, P. Jacqmaer, J. Driesen and G. Deconinck, A Hybrid Electric Kart with Energy Flow Management as a Student Project, 2008