In the boost power factor correction (PFC) converters, a low-pass filter (LPF) is generally adopted to eliminate the influence of the double line frequency output voltage ripple on the controlled input current, which therefore limits the outer voltage loop bandwidth. Different from the existing alternative schemes to the LPF, which eliminate the influence of the output voltage ripple using output feedback ways in the outer voltage loop, this project proposes a current feed forward scheme in the inner current loop to remove the LPF. In this proposed scheme the harmonic distortion of the reference current is suppressed by using a current harmonic feed forward compensation (CHFC) way in synchronous reference frame. Finally, a 225W experimental prototype is built with digital implementation, and the experimental results show a more than 68% improvement of the dynamic response for the case with the proposed scheme compared with the traditional LPF scheme, along with a high quality controlled current.