Simulation of Direct Torque Control for Linear Switched Reluctance Motors

<p>Through research on direct torque control simulation for linear switched reluctance motors, we can gain deeper insights into the operational principles of control systems and the function of flux linkage switching tables. In control system implementation, the flux linkage switching table typically uses a lookup table approach where predefined flux values are stored in a 2D array indexed by rotor position and phase current. The completeness of this switching table component is critical for system stability and accuracy. If this section contains gaps or inaccuracies, the system may generate incorrect switching signals leading to performance degradation in the reluctance motor. Therefore, careful verification and repair of the flux linkage switching table through comprehensive testing procedures is essential to ensure proper system operation. Furthermore, by implementing algorithmic improvements such as adaptive flux mapping or neural network-based table optimization, we can enhance both the performance and efficiency of reluctance motors, better meeting diverse application requirements.</p>