This paper addresses the output current and circulating current control of the modular multi-level converter (MMC). The challenging task of MMCs is the control of output current and circulating current. Existing control structures for output and circulating current achieve control objectives with comparatively complex controllers and the designed parameters for the controller is also difficult. In this paper, an adaptive proportional integral (API) controller is designed to control the output current and the circulating current. The output current is regulated in α β axes while the circulating current is regulated in the a b c stationary frame to enhance MMC performance. The output and circulating current control results using an API controller are compared with the conventional proportional resonant (PR) controller in terms of transient response, stability, optimal performance, and reference tracking for results verification. The API control architecture significantly improve transient response, stability, and have excellent reference tracking capability. Moreover, it controls output current and converges the circulating current to a desired value. The control structure is designed for a three-phase MMC system, simulated and analyzed in MATLAB-Simulink.
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机译:本文解决了模块化多级转换器(MMC)的输出电流和循环电流控制。 MMCS的具有挑战性的任务是控制输出电流和循环电流。用于输出和循环电流的现有控制结构实现了对相对复杂的控制器的控制目标,以及控制器的设计参数也很困难。在本文中,设计自适应比例积分(API)控制器以控制输出电流和循环电流。输出电流在αβ轴上调节,而循环电流被调节在A B C固定框中以增强MMC性能。在瞬态响应,稳定性,最佳性能方面,使用API控制器的输出和循环电流控制结果与传统的比例谐振(PR)控制器进行比较,以及用于结果验证的参考跟踪。 API控制架构显着提高了瞬态响应,稳定性,具有优异的参考跟踪能力。此外,它控制输出电流并将循环电流收敛到所需值。控制结构专为三相MMC系统而设计,在Matlab-Simulink中模拟和分析。
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