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引用次数: 7
摘要
本文提出了一种基于减载波策略的对称七电平多电平直流链路逆变器(MLDCL)控制方案。7L-MLDCL的设计可以采用三个相等的直流电源(假设带有升压变换器的PV)作为电平发生器侧,输出相电压在极性发生器侧。所有传统的MLI,如CHB, DCMLI, fcmli,用于产生' m '级输出,开关计数约为2(m-1),但所提出的逆变器可以将开关计数减少为(m+3)。在减少器件计数(RDC)的mli中,开关计数的减少是重要因素之一,每个开关的平均值通常需要栅极驱动电路、保护电路和散热器。通过MATLAB/Simulink环境对逆变器的仿真结果进行了验证。
A Novel Control Scheme for Symmetric Seven Level Reduced Device Count Multi-Level DC Link (MLDCL) Inverter
This paper presents a novel control scheme for symmetric seven level Multi-Level DC link Inverter (MLDCL) as fed to RL load with reduced carrier strategy. The design of 7L-MLDCL can be done by taking three equal DC sources (assume PV with Boost converters) as level generator side and output phase voltage is taken at polarity generator side. All the traditional MLI like CHB, DCMLI, FCMLIs for generating ‘m’ level output, takes the switch count around 2(m-1) but the proposed inverter can reduce the switch count as (m+3). In reduced device count (RDC) MLIs, switch count reduction is one of important factor in the mean of each switch generally requires gate driver circuit, protection circuit and heat sink. The Simulation results of proposed inverter are validated through MATLAB/Simulink environment.
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