This paper presents an interleaved flyback inverter controlled by a sensorless current maximum power point tracking (MPPT) for Photovoltaic (PV) energy conversion system. The small PV system adopts a DC/AC inverter in parallel with an AC grid. The PV system has a simple controller and galvanic isolation characteristics. The flyback converter uses sinusoidal pulse-width modulation (SPWM) to control, and operates in discontinuous conduction mode. The output of the flyback converter through a full bridge switch controlled by utility frequency is connected in parallel with the AC grid to achieve a single phase AC sinusoidal current output. In order to decrease the output current ripple, disperse switch stress, increase conversion efficiency and improve the heat dissipation problem, the interleaved flyback converters are used to render heat dissipation easier and reduce the values of the output filter inductor and filter capacitor. Furthermore, in order to reduce circuit size and cost of the small PV, the MPPT of the PV system adopts the sensorless current method. The sensorless current MPPT utilizes estimating the PV power by measuring the PV voltage and calculating the duty cycle to achieve the MPPT function.