KR20100109126A - Apparatus for solar cell reliability test - Google Patents

Abstract

PURPOSE: An apparatus for a solar cell reliability test is provided to perform light irradiation without changing a lamp by using a sulfur lamp as a light source. CONSTITUTION: An illuminating unit(10) radiates uniform light on the surface of a solar cell. The illuminating unit comprises a sulfur lamp, a power supply apparatus, and a reflector. A sample holding unit(20) has a clamping unit, a conveying unit, and an electrical contact unit. The clamping unit holds a solar cell on a light receiving location. The conveying unit controls the light receiving position of the solar cell. An output measurement unit(30) measures the electrical output of the solar cell. A temperature / humidity environment control unit(40) controls the temperature and humidity of the solar cell.

Description

Solar cell reliability test device {Apparatus for solar cell reliability test}

The present invention relates to a device for testing the reliability of the solar cell by measuring the output continuously or periodically in a state in which light is irradiated to the solar cell for a long time, and more particularly, a light irradiation unit consisting of a sulfur lamp, a lamp power supply and a reflector; The present invention relates to a solar cell reliability test apparatus including a sample fixing unit, an output measuring unit, and / or a temperature / humidity environment control unit for automatically measuring a change in output characteristics of a solar cell in a dark room and a variety of temperature and humidity environments.

In general, since solar cells are installed outdoors and continuously used under natural or concentrated sunlight for a long time, they must be able to withstand harsh weather conditions such as high temperature, low temperature, high temperature and high humidity. Ensuring solar cell quality and lifespan is important for both end users and manufacturers, and the reliability of the product is also correlated with the price of the product.

In the reliability evaluation for the purpose of evaluating the quality and life of solar cell, outdoor exposure test that continuously measures and evaluates the characteristic change over a long period of time under the natural environment conditions of the installation site is preferable. Accelerated deterioration tests, which can evaluate and estimate reliability, are efficient by measuring changes in performance of solar cells under development or completed and identifying deterioration phenomena.

In general, the accelerated degradation test of the solar cell uses a method of measuring the change in the characteristics of the solar cell by irradiating light having a natural irradiation level or higher irradiation intensity for a long time under severe conditions such as high temperature and high humidity.

As an example, a sample for fixing the light irradiation unit 10 and the solar cell under measurement to a light receiving position and providing electrical contact inside a test equipment structure providing a dark room environment as shown in FIG. 1 for a long period of time. A constant temperature set by the user using a test device comprising a fixed part 20, an output measuring part 30 for measuring output characteristics of the solar cell under test, and a temperature and humidity environment control part 40 for controlling the temperature and humidity environment of the sample. And it is to measure the change of the solar cell characteristics in the light irradiation state for a long time under the humidity conditions.

Among the conditions related to the solar cell reliability test, a standard standard (KS C 8630) is specified for environmental test method and durability test method of crystalline solar cell module.In the case of light irradiation test, only irradiation intensity and wavelength range are specified. Matters are specified to comply with the weather resistance test rule for automotive parts (KS R 0021), and it is common to use a Xenon (Xe) light source for the solar cell reliability test. Xenon lamp has the advantage of having spectral composition similar to that of sunlight, but in general, it has a short lifespan within 1,000 hours, making it difficult to experiment for a long time or requiring high cost for lamp replacement. A xenon lamp was also used for the reliability evaluation method of the thin film solar cell module shown in International Patent Publication No. WO2007 / 129512.

Patent 10-056391 discloses a method of using a combination of a mercury lamp and a halogen lamp as a solar simulator light source used in the environmental reproducibility test. Mercury lamps have the advantages of low price and long life over 20,000 hours, but the spectral composition is close to bluish white, and there is a problem of using environmentally harmful substances. In addition, halogen lamps have a low efficiency, so that a large number of lamps or multiple lamps must be used to increase the irradiation intensity, and the lifespan is not long as thousands of hours, and infrared emission is large and heat is generated.

Literature Information of the Prior Art

[Document 1] Korean Industrial Standard KS C 8530

[Reference 2] Korean Industrial Standard KS R 0021

Document 3 International Patent Publication No. WO2007 / 129512, 2007-11-15, Improved durability test method of CIS based thin-film solar cell module.

[Patent 4] Republic of Korea Patent Registration 10-056391, 2006-03-28, Solar simulator using a combination of mercury lamp and halogen lamp

The present invention implements a reliability test apparatus for testing a change in characteristics by irradiating light to a solar cell for a long time, using a high-efficiency lamp with a long life and low heat generation as an irradiation light source, a long time light irradiation test without replacing the lamp It is to implement a solar cell light irradiation reliability test apparatus capable of high irradiance intensity and stable control of temperature and humidity environment.

The present invention implements a reliability test apparatus for testing a change in characteristics by irradiating light to a solar cell for a long time, using a sulfur lamp as an irradiation light source is possible for a long time light irradiation test without replacing the lamp, high irradiation intensity, temperature and The solar cell light irradiation reliability test apparatus capable of stably controlling the humidity environment is characterized in that it is intended to be implemented.

Sulfur lamp is an electrodeless high efficiency white light source that emits light by sulfur plasma excited by microwave oscillation. The lifetime of sulfur and argon gas and filled bulb is more than 60,000 hours, but the lifetime of magnetron that emits microwave 20,000 hours or so.

In the sulfur lamp, as shown in FIG. 2, about 78% of the emitted light has a visible light spectrum spectroscopic composition, and is similar to the solar spectrum compared to other light sources. Very suitable. If the sample to be measured and the surrounding environment are heated by heat radiation during long-term light irradiation in a constant temperature or constant humidity condition, the temperature and humidity control is not easy, and there is a disadvantage in that a temperature difference between the set temperature and the sample to be measured occurs.

In addition, the sulfur lamp has a short startup time of about 20 seconds, so that the lamp can be returned to its normal state within 5 minutes after the lamp is turned off.

Sulfur lamps are also environmentally friendly because they do not contain mercury, unlike fluorescent lamps and other high-brightness discharge lamps.

According to the present invention, by using a sulfur lamp as an irradiation light source of a solar cell light irradiation reliability test apparatus, it is possible to irradiate light with a high irradiation intensity for a long time without replacing the lamp, and it is easy to control temperature and humidity due to less heat generation, and the startup time is short and environmentally friendly. There is an effect that can implement a battery reliability test device.

The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a structural diagram of a solar cell light irradiation reliability test apparatus. A light irradiation unit 10 and a solar cell under test, which can irradiate light continuously for a long time, are fixed to a light receiving position inside a test equipment structure providing a dark room environment. And a sample fixing part 20 for providing electrical contact, an output measuring part 30 for measuring output characteristics of the solar cell under test, and / or a temperature and humidity environment control part 40 for controlling the temperature and humidity environment of the sample under test. .

FIG. 2 is a detailed structural diagram of a light irradiation unit 10 constituting a solar cell light irradiation reliability test apparatus, and includes a sulfur lamp 11, a lamp power supply 12, and a reflector 13 to continuously emit light in a predetermined direction. Or periodic research.

The sample fixing unit 20 includes fixing means for physically fixing the solar cell sample to be measured, a transfer means for adjusting the light receiving position of the sample, and contact means for electrically contacting the terminals to electrodes of the solar cell under measurement. The solar cell under measurement functions to position the inside of the effective irradiation area of the light irradiated by the light irradiation unit 10 and electrically connect the solar cell under measurement to the output measurement unit 30.

The output measuring unit 30 continuously or periodically measures solar cell output characteristic parameters such as open voltage, short-circuit current, voltage and current at the maximum output point, conversion efficiency, and curve factors while light is irradiated to the solar cell under measurement. Function

In order to implement a function of setting and controlling temperature and / or humidity in the solar cell light irradiation reliability test device, the temperature and humidity environment control unit 40 is installed in the test device structure, and the sample fixing part 20 is installed inside the temperature and humidity environment control unit 40. Install on.

Therefore, the solar cell sample to be measured is mounted on the sample fixing part 20 inside the test equipment structure providing the dark room environment, and the electrode of the solar cell sample to be measured is electrically connected to the measurement terminal of the output measuring unit 30. And continuously or periodically irradiate light having a predetermined irradiation intensity and a predetermined irradiation uniformity from the light irradiation unit 10 to the solar cell sample to be measured, and output characteristics of the solar cell sample to be measured are continuous in the output measuring unit 30. Alternatively, the solar cell light irradiation reliability test function is implemented by measuring periodically.

In addition, the temperature and humidity environment control unit 40 is installed inside the test equipment structure that provides the dark room environment, and the solar cell sample to be measured is mounted in the sample fixing unit 20 inside the temperature and humidity environment control unit 40. The light irradiation unit 10 is maintained in a state in which a predetermined set temperature and / or a predetermined set humidity are maintained by the temperature and humidity environment control unit 40 while the electrode of the battery sample is electrically connected to the measuring terminal of the output measuring unit 30. The light having a predetermined irradiation intensity and a predetermined irradiation uniformity is continuously or periodically irradiated to the solar cell sample to be measured, and the output characteristics of the solar cell sample to be measured are continuously or periodically measured by the output measuring unit 30. Reliability test of solar cell light irradiation under temperature and humidity control environment is implemented.

The irradiation intensity of the lamp in the light irradiation test of the solar cell can be measured by a radiometer or light output meter at the light receiving surface under measurement, and in the standard test, the irradiation intensity of the light receiving surface under measurement is in the range of 255 ± 25.5 W / m ² . It is specified in Korean Industrial Standard (KS C 8530) as much as possible, and in the case of accelerated deterioration test, light can be irradiated with 1000 W / m ² or more.

Irradiation uniformity of the lamp in the solar cell light irradiation test is calculated from the maximum and minimum values measured by measuring the irradiation intensity at multiple points in the effective irradiation surface of the light-receiving surface to be measured by the following formula.

Irradiation uniformity = (measured maximum value-measured minimum value) / (measured maximum value + measured minimum value) (Equation 1)

In addition, in the standard temperature and humidity test of solar cells, the Korean Industrial Standard (KS C 8530) specifies that the temperature control range is within the range of minus 40 ± 3 ℃, image 90 ± 3 ℃, and upper limit of relative humidity 85 ± 5%.

In the light irradiation reliability test of the solar cell, when the area of the solar cell under test is larger than the effective irradiation area of the light source, a reliability test having a large effective irradiation area by mounting a plurality of light irradiation units 10 in the test apparatus as shown in FIG. 3. You can configure the device.

Light source unit 10 using 900W class inverter power supply integrated sulfur lamp (manufactured by LG Electronics), 4-terminal contact specimen fixing unit 20 with maximum sample area 300mm x 300mm, 5V with 16-channel switching device Reliability test of solar cell light irradiation as shown in FIG. The device was fabricated.

When measured with a light output meter, the irradiation intensity of 1,000 W / m ² was measured on the light receiving surface at a distance of 48.2 cm from the lamp, and when the irradiation intensity of multiple points was measured at every 2 cm interval on the light receiving surface of the same distance as shown in FIG. 5. The effective irradiation surface 51 with an irradiation uniformity of 2% or less for the irradiation area of 80 mm x 100 mm, and the effective irradiation surface 52 with an irradiation uniformity of 5% or less for an irradiation area of 140 mm x 200 mm were irradiated with an irradiation area of 160 mm x 220 mm. The effective irradiation surface 53 within 10% of uniformity was measured.

1 is a block diagram of a solar cell light irradiation reliability device composed of a light irradiation unit 10, a sample fixing part 20, an output measuring unit 30 and a temperature and humidity environment control unit 40.

2 is a spectral composition measurement graph of the sulfur lamp 11

3 is a detailed configuration diagram of a light irradiation unit 10 of a solar cell irradiation reliability device including a sulfur lamp 11, a lamp power supply 12, and a reflector 13.

4 is a solar cell light irradiation reliability device composed of a plurality of light irradiation unit 10

5 shows uniformity of irradiation on the light-receiving surface of light irradiated by the light irradiation unit 10 equipped with the sulfur lamp 11: (51) within 2%, (52) within 5%, and (53) within 10%

Claims (4)

In the light irradiation reliability test of the solar cell, A light irradiation unit comprising at least one sulfur lamp, at least one sulfur lamp power supply, and at least one reflector to irradiate light on the surface of the solar cell under measurement; A sample fixing part providing a means for fixing the solar cell under measurement to a light receiving position and an electrical contact means; An output measuring unit measuring an electrical output of the solar cell under measurement; In the dark room conditions, the light irradiation unit continuously or periodically irradiates light to the solar cell, the output of the solar cell by measuring the output measuring unit continuously or periodically characterized in that it automatically measures the change in output characteristics of the solar cell Solar cell reliability test device. In the light irradiation reliability test of the solar cell, A light irradiation unit comprising one or more sulfur lamps, one or more sulfur lamp power supplies, and one or more reflectors to irradiate uniform light onto the surface of the solar cell under test; A sample fixing part providing a means for fixing the solar cell under measurement to a light receiving position and an electrical contact means; An output measuring unit measuring an electrical output of the solar cell under measurement; It is provided with a temperature and humidity environment control unit for controlling the temperature and / or humidity environment of the solar cell under measurement, The output characteristics of the solar cell are measured by continuously or periodically measuring the output of the solar cell with the output measuring unit while irradiating light to the solar cell continuously or periodically with the light irradiation unit under a dark room condition and a predetermined constant temperature and / or humidity condition. Solar cell reliability test device, characterized in that for automatically measuring. With respect to claims 1 and 2, The irradiation intensity of the light irradiated from the light irradiator using the sulfur lamp on the sample surface to be measured is 200 W / m ² or more, characterized in that the solar cell reliability test apparatus. With respect to claims 1 and 2, A solar cell reliability test apparatus, characterized in that the irradiation uniformity on the sample surface of light to be irradiated from the light irradiation unit using a sulfur lamp is within ± 10%.

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