Standard Test Methods for Measurement of Electrical Performance and Spectral Response of Non-concentrator Multijunction Photovoltaic Cells and Modules

Importancia y uso:

4.1 In a series-connected multijunction PV device, the incident total and spectral irradiance determines which component cell will generate the smallest photocurrent and thus limit the current through the entire series-connected device. This current-limiting behavior also affects the fill factor of the device. Because of this, special techniques are needed to measure the correct I-V characteristics of multijunction devices under the desired reporting conditions (see Test Methods E1036).

4.2 These test methods use a numerical parameter called the current balance which is a measure of how well the test conditions replicate the desired reporting conditions. When the current balance deviates from unity by more than 0.03, the uncertainty of the measurement may be increased.

4.3 The effects of current limiting in individual component cells can cause problems for I-V curve translations to different temperature and irradiance conditions, such as the translations recommended in Test Methods E1036. For example, if a different component cell becomes the limiting cell as the irradiance is varied, a discontinuity in the current versus irradiance characteristic may be observed. For this reason, it is recommended that I-V characteristics of multijunction devices be measured at temperature and irradiance conditions close to the desired reporting conditions.

4.4 Some multijunction devices have more than two terminals which allow electrical connections to each component cell. In these cases, the special techniques for spectral response measurements are not needed because the component cells can be measured individually. However, these I-V techniques are still needed if the device is intended to be operated as a two-terminal device.

4.5 Using these test methods, the spectral response is typically measured while the individual component cell under test is illuminated at levels that are less than E_o. Nonlinearity of the spectral response may cause the measured results to differ from the spectral response at the illumination levels of actual use conditions.

Subcomité:

E44.09

Referida por:

E1021-15R25, E0927-19R25, E0772-15R21, E1036-15R25

Volúmen:

12.02

Número ICS:

27.160 (Solar energy engineering)

Palabras clave:

electrical performance; multijunction devices; photovoltaics; solar energy; spectral response;