This paper discusses the adjustment of shape and dimension for a forward bypassed hybrid engine electromagnetic valve (EMV) with symmetric dual permanent and electrical magnets. This hybrid EMV is designed to replace conventional cam-driven engine mechanical valves in order to provide continuous variable valve timing. This hybrid EMV also improves the drawbacks of large energy consumption for actuating electromagnetic coils to keep valves open or closed in conventional EMVs. Another innovative technique in this new hybrid EMV is forward bypassed magnetic flux for releasing armature, which can prevent the permanent magnet being demagnetized. The shape and dimension of the guiding electromagnetic core, which provides the function of bypassed magnetic flux, were discussed. The armature holding force was investigated by the analysis of magnetic field. Results show that the final EMV design can increase armature holding force to 418.6 N, while has 68% force reduction to release armature. The armature release by the bypassed guiding core is also tested and verified.