Adjustable Discontinuous Modulation Method for Modular Multilevel Topology Based on Dual Buck Submodules

Abstract

The invention discloses an adjustable discontinuous modulation method based on a modular multi-level topology of a double step-down sub-module. The negative half cycle of the inductor current of the phase arm is cut off. In order to overcome the problem of zero-crossing distortion of the bridge arm current caused by the existence of the topology circulating current under half-cycle modulation, half of the maximum bridge arm current ripple is used as a threshold to compare with the bridge arm current sampling value through theoretical analysis to obtain the enabling signal. Combined with the bipolar PWM modulation signal, the switching signal is obtained through a logical AND gate, so that the minimum switching signal overlap channel can be formed near the zero crossing point of the bridge arm current to simultaneously turn on or turn off the switch tube. The invention improves the conversion efficiency and power density of the inverter, improves the topological reliability at the same time, can adjust the discontinuous modulation, reduces the switching loss of the sub-module, eliminates the distortion of the zero-crossing point of the current, and improves the output power quality.

Description

technical field [0001] The invention belongs to the technical field of high-voltage and high-power power electronics, and mainly relates to an adjustable discontinuous modulation method based on a modular multi-level topology of double-buck sub-modules. Background technique [0002] The existing dual-buck inverter as a sub-module modular multi-level topology overcomes the output distortion caused by the direct and dead zone of the traditional modular multi-level inverter with a half-bridge structure as a sub-module problem, improving power quality and power conversion efficiency as well as operational reliability. Modulation strategies commonly used in modular multilevel converters based on double-buck inverters include continuous modulation strategies and discontinuous modulation strategies. [0003] The existing continuous modulation strategy means that the two switch tubes work in a high-frequency state at the same time within one switching cycle, and the inductor curren...

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Problems solved by technology

[0003] The existing continuous modulation strategy means that the two switch tubes work in a high-frequency state at the same time within one switching cycle, and the inductor current is in a continuous conduction mode. At this time, the sub-module will generate a circulating current. Large, low inductance utilization, high switching loss

The existing discontinuous modulation strategy makes the two switches of the dual-step-down sub-module conduct complementary conduction within one switching cycle, which can reduce switching losses and improve the utilization of the inductor; however, due to the inductance of the dual-step-down inverter unit Due to the unidirectional conduction characteristics of the current, the port output current (that is, the bridge arm current of the modular multi-level topology based on the dual-step-down sub-module) will produce distortion at the moment of zero crossing, which may reduce the power quality

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