K e y w o r d s : transverse flux linear switched reluctance machine, rule-based compensator, microcomputer hardware and software, sequence logic. Abstract-This paper provides a microcomputer-based control experience for a transverse flux linear switched reluctance machine (TFLSRM) with rule-based compensation techniques. By using the state-space modeling and the developed system parameters, various control strategies will be developed to improve the dynamic characteristics of the TFLSRM under different operating conditions. By appropriate microcomputer hardware and software design and experimental verifications, the adequacies of the overall control schemes can be confirmed. It is thus believed that the proposed microcomputer-based TFLSRM control system can provide satisfactory characteristics suitable for dynamic linear motion operations.
Abslract-This paper will propose a finite-element basedFourier projection method to analyze the magnetic field distribution for the transverse flux linear reluctance propulsion machine (TFLRPM). Since the machine moving direction is perpendicular to its magnetic flux plane, it is unavoidable to solve the finite element problem with 3-D form. The proposed method can project the 3-D magnetostatic Poisson's equation into three simplified Helmholtz's equations to solve the system magnetic field distribution in an efficient way. Through this modeling, the force pulsation phenomena and the flip-flop effect revealed in the machine system can be investigated.
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