Fuzzy logic-based control of superconducting closed-loop current with a linear-motor type flux pump

High temperature superconducting (HTS) flux pumps inject superconducting current directly into the HTS closed-loop, eliminating the need for thermally inefficient current leads. To achieve highly accurate closed-loop current, the current control based on flux pump is a topic requires in-depth study. This paper investigates a fuzzy logic control to achieve fast and precise current control with linear-motor type flux pump. The control strategy is originated from the discovered macroscopic magnetic coupling effect (MMCE) . With this method, we optimize and control the DC bias magnetic field to achieve fast and accurate closed-loop current control. In this experiment, we define five degrees of magnetic DC bias field, by which we stabilize the pumping current within 0.6 ‰ accuracy. The precise control of superconducting currents has been achieved, and the influence of the DC background magnetic field on magnetic coupling effects has been verified. This control algorithm is important for HTS applications requiring high current precision, such as magnetic resonance imaging (MRI), etc.