Due to the space limitations, miniature magnetically levitated axial flow pump usually has an active magnetic bearing for rotor axial direction control, and two passive magnetic bearings to balance the radial directions. Since only the axial direction is controlled, rotor is oscillatory in the radial directions. This thesis proposed a new electromagnetic actuator for axial direction control to reduce rotor oscillations. The actuator has four independently controlled poles. When the poles are properly excited, the actuator can produce controllable axial as well as radial forces. In addition, a method which uses six Hall-effect sensors to measure rotor axial and radial displacements is also proposed. The measurement system requires very small space since Hall sensors are used. Therefore, it is suitable for miniature axial flow pump applications. Besides theoretical and finite-element analysis, experimental verifications of the proposed methods are also included in this thesis.