An adaptive power split control for hybrid electric scooter is proposed in this paper. It is designed based on the equivalent consumption minimization strategy. The equivalence factor is used to transform the electric energy into the equivalent fuel energy and is often selected to be a predetermined function of the state of charge (SOC) of the battery. However, the predetermined function might not be optimal for different driving cycles. An adaptive fuzzy sliding mode controller is used to adjust the equivalence factor according to the SOC deviation. An instantaneous cost function which consists of the total fuel consumption is then minimized to obtain the optimal power split between the international combustion engine and electric motor. A hybrid electric scooter model established in Matlab/Simulink is used to evaluate the performance of the proposed approach. The preliminary results show promising improvement for fuel consumption and adaption for different driving cycles.