l故障点的影响小,影响范围可以控制在单个模块范围内,而集中型逆变器的故障影响为整个接入的组件容量范围。
Less impact from the fault point, the incidence can be limited to the single module while the fault of single-centralized inverter affects the entire capacity range of the PV modules connected.
为了增大调速系统容量,采用了逆变器并联的方式。
The parallel inverter was used to explain the capacity of variable-speed system.
阐述了一种含基波串联谐振电路,减小逆变器输出容量的混合有源滤波器工作原理。
A new type of HAPF is expatiated including a fundamental series resonance circuit which decreases the capacity of inverters.
提高逆变电源容量主要有两个途径,设计大功率的逆变器和采用逆变器并联技术实现电源模块化。
There are two main ways to increase the capacity of inverter, including designing high power inverter and applying parallel technology to achieve power modularization.
由于逆变器电源对输出接地电容的限制,对严重的共模电磁干扰难以用大容量的共模滤波器抑制共模噪声。
With the limitation to the ground capacitance by inverter, it is difficult to suppress the severe common-mode noise by large CM filter.
通过从如何减小逆变器的装置容量入手,根据矿井提升机的工艺特点,给出了斩波串级调速系统逆变变压器容量的设计方法。
From the angel of minimizing the inverse transformer capacity, a method to design inverse transformer capacity based on the technical features of mine-well hoist was given.
提出了一种适用于光伏发电系统或大容量ups系统的高性能逆变器并联的控制方案。
A control scheme of two parallel high-performance inverters is proposed, suitable for photovoltaic generation system and large scale UPS system.
近年来,多电平逆变器在高压大容量电能变换及交流电机调速中得到广泛应用。
Recent years, multilevel inverter has been applied widely in the large-capacity electrical energy transformation of high-voltage and ac speed adjustable system.
近年来,多电平逆变器在高压大容量电能变换及交流电机调速中得到广泛应用。
Recent years, multilevel inverter has been applied widely in the large-capacity electrical energy transformation of high-voltage and ac speed adjustable system.
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