Instantaneous power compensation in three-phase systems by using p-q-r theory

This paper proposes a novel power compensation algorithm in three-phase four-wire power systems by using p-q-r theory. P-q-r theory is compared with two previous instantaneous power theories, p-q theory and cross-vector theory. P-q-r theory provides two-degrees of freedom to control the system currents by only compensating the instantaneous imaginary power without using any energy storage element. The definition of powers maintains conservatism, and agrees well with the general understanding of power. Simulation results show the superiority of p-q-r theory both in definition and compensation.

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