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Electrical Parameter Statistic Analysis and Parallel Coordination of ZnO Varistors in Low-Voltage Protection Devices

2005; Institute of Electrical and Electronics Engineers; Volume: 20; Issue: 1 Linguagem: Inglês

10.1109/tpwrd.2004.832357

1937-4208

Jinliang He, She Chen, Rong Zeng, Xiangfeng Liang, Zhicheng Guan, Sang-Kyoo Han, H.-G. Cho,

Lightning and Electromagnetic Phenomena

Analyzing the nonuniformity of electrical parameters of ZnO varistors is useful to select and coordinate the ZnO varistors in parallel operation and improve the protection capability of surge-protection device (SPD). The nonuniformity of 1-mA dc voltage and impulse residual voltage of commercial low-voltage ZnO varistors were estimated by statistic analysis in this paper. The Minimum Gobble Distribution was used to describe the distribution of 1-mA dc voltage and impulse residual voltage, ZnO varistors were verified conforming to the Minimum Gobble Distribution by the Kolmogorov-Smirnov test. The relationship between the impulse residual voltage and 1-mA dc voltage has a chaos phenomenon, and they have a close relative degree by t-test, the impulse residual voltage can be estimated by voltage ratio and 1-mA dc voltage. The nonuniform phenomena of electrical parameters of ZnO varistors were simulated by Voronoi network. The current overload of ZnO varistor with reduced residual voltage is serious, in order to keep safe operation of SPDs, when we design a SPD with ZnO varistors in parallel, a safe margin coefficient of discharge withstand current should be considered according to the actual relative standard deviation of surge residual voltages of used ZnO varistors.