The present invention relates to an automatic controlled operating mechanism, in particular, relates to a control circuit of a bistable permanent magnet operating mechanism. The control circuit comprises a permanent magnet operating mechanism and a pulse signal control circuit connected to pulse coils of the permanent magnet operating mechanism. The pulse signal control circuit comprises a switch-off energy storage circuit, a switch-on energy storage circuit, a switch-off contact switch, and a switch-on contact switch. With the switch-off contact switch and switch-on contact switch, the pulse coils of the permanent magnet operating mechanism are connected in the circuit in such a way that they are in series connection for switch-on and in parallel connection for switch-off. This reduces the relatively high running speed in earlier switch-on period, to reduce switch-on noise and prolong the service life. In addition, this increases the instantaneous opening speed in the initial switch-off period, to reduce generation of switch-off voltaic arc. By using the two coils in the bistable permanent magnet operating mechanism, raw material can be saved, the mechanism volume can be reduced, and the failure rate can be lowered.