Abstract
This paper deals with the design and implementation of high performance Model Predictive Control (MPC) strategy for stabilizing the output DC-link of an AC-DC converter in generating applications. The system is composed of a permanent magnets synchronous machine which is directly driven by a prime mover (i.e. internal combustion engine, gas turbine, etc..) and an AC-DC power converter. In such application, the control structure must be able to regulate the DC-link voltage as well as the dq-axes currents. Complete design of the Model Predictive Control strategy is described and tested, with reference to the internal reference generation and FPGA implementation. Being the system characterized by non-linear behaviors, the MPC approach is considered particularly suitable to overcome that issue.
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