J. Leonard, T. Salem, R. Hadidi, B. Gislason, J. C. Fox, M. McKinney
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引用次数: 4
摘要
公用事业规模的光伏电站通常采用兆瓦级的中央逆变器,具有高效率和功率密度高的特点。逆变器制造商现在为1000 V直流级光伏阵列提供超过2兆瓦的解决方案。在这种功率水平下认证逆变器可能会给测试设备的设计和采购带来挑战。本文描述了对现有中压9电平TECO Westinghouse VersaBridge系列连接h桥(SCHB)逆变器的改造,以提供高达2500 a的1000 V直流电源,用于中央逆变器测试。通过PLECS仿真和RTDS硬件在环实验对控制器进行初步设计。SCHB脉宽调制方案在六个并行模块配置中导致交错输出级拓扑,而无需修改现有的VersaBridge控制器。调试结果与第一个逆变器试验件在2500 A, 900 V下的实验结果一起显示。
Design and commissioning of 2.5 MW DC supply for evaluating megawatt scale smart solar inverters
Utility scale photovoltaic plants often use megawatt scale central inverters with high efficiency and power density. Inverter manufacturers now offer solutions over 2 MW for 1000 V DC class PV arrays. Certifying inverters at this power level can present test equipment design and procurement challenges. This paper describes a retrofit of an existing medium voltage, 9-level TECO Westinghouse VersaBridge series connected H-bridge (SCHB) inverter to supply DC power up to 2500 A at 1000 V for central inverter testing. Simulations in PLECS and controller hardware-in-the-loop experiments with RTDS were used for initial controller design. The SCHB pulse-width modulation scheme led to an interleaved output stage topology in a six parallel module configuration without requiring modification to the existing VersaBridge controller. Commissioning results are shown along with experimental results for the first inverter test article at 2500 A, 900 V.
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