Finite Control Set Model Predictive Control (FCS-MPC) provides accurate voltage and current control in multilevel converters, but computational complexity remains, especially in medium voltage (MV) and high power (HP) applications. This paper proposes an enhanced control strategy for a 5-level Active NPC converter, improving the approach presented in [1] to reduce computational burden and mitigate undesired voltage level jumps and high dv/dt. Simulation results demonstrate improved performance compared to standard FCS-MPC and the original [1] strategy, showcasing reduced voltage level jumps and enhanced current tracking in steady-state and transient scenarios. The proposed enhancement shows promise in improving the efficiency and reliability of multilevel converters in MV and HP applications, with implications for further research in control optimization and performance enhancement.