ASTM E2481-12
光伏模块热冲击防护的标准试验方法

Standard Test Method for Hot Spot Protection Testing of Photovoltaic Modules


标准号
ASTM E2481-12
发布
2012年
发布单位
美国材料与试验协会
替代标准
ASTM E2481-12(2018)
当前最新
ASTM E2481-12(2023)
 
 
引用标准
ASTM E1036 ASTM E1799 ASTM E1802 ASTM E772 ASTM E927
适用范围
4. Significance and UseTop Bottom

4.1 The design of a photovoltaic module or system intended to provide safe conversion of the sun's radiant energy into useful electricity must take into consideration the possibility of partial shadowing of the module(s) during operation. This test method describes a procedure for verifying that the design and construction of the module provides adequate protection against the potential harmful effects of hot spots during normal installation and use.

4.2 This test method describes a procedure for determining the ability of the module to provide protection from internal defects which could cause loss of electrical insulation or combustion hazards.

4.3 Hot-spot heating occurs in a module when its operating current exceeds the reduced short-circuit current (Isc) of a shadowed or faulty cell or group of cells. When such a condition occurs, the affected cell or group of cells is forced into reverse bias and must dissipate power, which can cause overheating.

Note 1???The correct use of bypass diodes can prevent hot spot damage from occurring.

4.4 Fig. 1 illustrates the hot-spot effect in a module of a series string of cells, one of which, cell Y, is partially shadowed. The amount of electrical power dissipated in Y is equal to the product of the module current and the reverse voltage developed across Y. For any irradiance level, when the reverse voltage across Y is equal to the voltage generated by the remaining ( s-1) cells in the module, power dissipation is at a maximum when the module is short-circuited. This is shown in Fig. 1 by the shaded rectangle constructed at the intersection of the reverse I-V characteristic of Y with the image of the forward I-V characteristic of the (s-1) cells.

Hot Spot Effect
FIG. 1 Hot Spot Effect

4.5 By-pass diodes, if present, as shown in Fig. 2, begin conducting when a series-connected string in a module is in reverse bias, thereby limiting the power dissipation in the reduced-output cell.

Bypass Diode Effect
FIG. 2 Bypass Diode Effect
Note 2???<......

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