The vehicle market in Indonesia, especially motorbikes is very large, it is estimated that the growth of motorbike vehicles will reach 6 million per year. Recently, more than 50 percent is dominated by automatic motorcycles and the market increase significantly. This is because automatic motorcycles can be easily ridden. There are some weaknesses with this transmission system, among them is there is no engine brake when the road is in downhill condition. The motor will easily run when the gas throttle is pressed. This paper discusses the design of a mechanical system on the automatic transmission that is able to prevent mistake on procedures that causes accidents. To achieve this goal, it is necessary to do several steps, including reviewing the existing design, determining the new system, designing the system, manufactured and testing. Experiment results shows that the current motorcycles automatic transmission system can be replaced with a mechatronic system with special linkage mechanism to control ratio change.

Park, N.G., Ryu, J.H., Lee, H.W., Jeon, Y.H., and Zhang, N., Development of the inner spherical cvt for a motorcycle, International Journal Automotive Technology, 2009(3); 10: 341−346.

Kim, J., Park, F.C., Park, Y., and Shizuo, M., Design and analysis of a spherical continuously variable transmission, ASME Journal of Mechanical Design, 2002; 124: 21–29.

Kanphet, P., Jirawattana, P., Direcksataporn, B., Optimal operation and control of a hydrostatic CVT powertrain, SAE Transactions Journal of Passenger Cars: Mechanical Systems, 2005; 114(6): 1838–1845.

Miller, J.M., Hybrid electric vehicle propulsion system architectures of the e-CVT type. IEEE Transactions on Power Electronics, 2006; 21(3): 756–767.

Fuchs, R., Hasuda, Y., and James, I., Modeling simulation and validation for the control development of a full-toroidal IVT, Proceedings of CVT 2002 Congress, 2002; 1709: 121–129.

Mantriota, G., Theoretical and experimental study of a power split continuously variable transmission system, Part 2, Proceedings Instn. Mech. Engrs, 2001; 215(D): 851- 864.

Milner, P.J., Milner CVT for high torque applications, Proceedings of CVT 2002 Congress, 2002; 1709: 543–554.

Belfiore, N.P., Stefani, G.D., Ball toroidal CVT: a feasibility study based on topology, kinematics, statics and lubrication, International Journal of Vehicle Design. 2003; 23(3–4): 304–331.

Zheng, C.H., Lim, W.S, and Cha, S.W., Performance optimization of CVT for two-wheeled vehicles, International Journal of Automotive Technology, 2011; 12(3): 461−468.

Mohd, E.Z., Kamarul, B.T., Hussein, Bambang, S., Aishah, D., Clamping force characteristic study of power screw mechanism in EMDAP, 3rd International Graduate Conference on Engineering, Science and Humanities IGCESH, 2010.

Bambang, S., Kamarul, B.T., Hishamuddin, J., and Sugeng, A., Ratio Control of An Electromechanical Dual Acting Pulley – Continuously Variable Transmission (EMDAP-CVT) System Using PD-Fuzzy Logic Controlle, Regional Postgraduate Conference on Engineering and Science (RPCES‘06), 26-27 July, Johor Bahru Malaysia, 2006.