CN1316613A - Sunlight simulator with pulsive xenon lamp and three-freedom paraboloid for scattered reflection - Google Patents

Abstract

A sun light simulator with impulse xenon lamp and three-frame parabolic scattering reflection surface uses tubular impulse xenon lamp as a linear light source. The parabolic scattering reflection mirror oil be set along axial line of the linear light source. By adjusting the adjustable sliding block of x axis, y axis and z axis fixed on the light source seat, the linear light source can be adjusted to suitable position velative to the parabolic scattering reflection mirror to meet the light uniformity requirement on the flat surface of lightened assembly. The simulated light spectrum can be improved by setting filter system and silk screen on the light route.

Description

Sunlight simulator with pulsive xenon lamp and three-freedom paraboloid for scattered reflection

The present invention relates to a kind of solar simulator, relate in particular to a kind of sunlight simulator with pulsive xenon lamp and three-freedom paraboloid for scattered reflection, be used for the solar module tester, belong to the solar cell technical field of measurement and test.

In the prior art, large-scale solar cell checkout equipment is general to adopt remote steady-state light according to mode (greater than 5 meters), the mode of this simulated solar irradiation requires to provide huge electric energy for light source, whole checkout equipment power is more than 50KW, the use meeting of this equipment is the peripheral consumer of influence greatly, need provide independent electrical network for this equipment, to satisfy its need for electricity, therefore, this checkout equipment is not suitable for the solar cell production unit and uses, and this equipment also needs roomy laboratory to lay.Along with the develop rapidly of solar cell industry, external solar cell production equipment manufacturer has developed a collection of solar cell checkout equipment, for example SPIRE company for solar cell production again.The pulsed light that the employing that these equipment have is once glistened is according to mode, but still employing room type structure exchanges the simulated light uniformity with long for apart from illumination; The equipment that has adopts the pulse simulation light mode of bench type, but in order to reach reasonable spectrum simulation degree, the general flashlight that adopts customization, cost an arm and a leg, buy at home and change also inconvenience, and these equipment employing spot lights, this has just increased the difficulty of reflection shield machining and light path debugging.Correlation technique has the SPI-SUNSIMULATOR 240A Photovoltaic Module Tester (http://www.spirecorp.com) of SPIRE company, and what adopt in this technology is exactly spot light.

The objective of the invention is to the above-mentioned deficiency at prior art, design provides a kind of new sunlight simulator with pulsive xenon lamp and three-freedom paraboloid for scattered reflection, makes the simulated optical energy that sends reach spectrum and uniformity requirement, is fit to the solar cell test request.

For realizing such purpose, technical scheme of the present invention is mainly started with from mechanical light path, solve the optical uniformity problem under light source and 1～2 meter situation of tested surface spacing, employing is a line source with the immediate xenon flash lamp of solar spectrum, the angle that filters from grey solves the spectrum simulation problem, reaches the spectrum and the uniformity requirement of simulated solar irradiation.Under the tester end face, fix a Three Degree Of Freedom light source base, its upper fixed line light source, the axis of light source along the line is settled parabolic diffuse reflection minute surface, by adjusting X-axis, Y-axis, Z axle adjustable skid fixing on the light source base, make line source be transferred to the suitable position of parabolic relatively diffuse reflection minute surface, make by optical uniformity to reach requirement according to plane, assembly place.For improving the spectrum of simulated light, on light path, be provided with filter system and silk screen, the simulated light that line source sends shines on the plane, MUT module under test place by filter system and silk screen, makes the spatial distribution of light reach the requirement of AM1.5.

Below in conjunction with accompanying drawing technical scheme of the present invention is described in further detail.

Fig. 1 is a light path frame for movement schematic diagram of the present invention.

As shown in the figure, the present invention adopts Linear Pulsed Xenon Lamps and Its Development as line source 8 for reaching the simulation uniformity of light, is fixed with a Three Degree Of Freedom light source base 1 below tester end face 10, light source base 1 upper fixed line light source 8, the axis of light source 8 along the line settle parabolic diffuse reflection minute surface 9 as reflection shield.For improving the spectrum of simulated light, be provided with filter system 2 and silk screen 3 on the light path, filter system 2 and silk screen 3 are fixed on the tester upper box 4 by filter system geometrical clamp 7 and silk screen geometrical clamp 6 respectively.The simulated light that line source 8 sends is by filter system 2, and silk screen 3 shines on the plane, MUT module under test place 5, makes the spatial distribution of light reach requirement.

Fig. 2 is Three Degree Of Freedom light source base structural representation among the present invention.

As shown in the figure, whole Three Degree Of Freedom light source base be fixed on tester end face 10 below, be fixed with two xenon flash lamp line sources 8 on the light source base, also be fixed with X-axis adjustable skid 13, Y-axis adjustable skid 11 and Z axle adjustable skid 12 on the light source base respectively.Regulate X, Y and Z axle adjustable skid, can make xenon flash lamp line source 8 be positioned at correct position, the light that xenon flash lamp line source 8 is sent arrives on the plane, MUT module under test place 5 through parabolic diffuse reflection minute surface 9 reflections, makes the simulation uniformity of light reach requirement.

Adopted between line source 8 and the plane, MUT module under test place 5 light direct projection part to be covered in apparatus of the present invention, plane, MUT module under test place 5 has only parabolic reflective irradiation, its purpose is exactly in order to increase the optical uniformity on plane, MUT module under test place 5, the base of xenon flash lamp line source is that Three Degree Of Freedom is adjustable in apparatus of the present invention, each pulse xenon lamp line source 8 all can be on X, Y, three directions of Z free adjustment, to guarantee that xenon flash lamp line source 8 can be in suitable position, obtain uniform hot spot on the tested plane 5.

The present invention lays filter system 2 between xenon flash lamp line source 8 and plane, MUT module under test place 5, this filter system 2 is mainly used to proofread and correct spectrum, the xenon flash lamp that the present invention adopts has a very strong line spectrum infrared, for filtering this infrared spectrum, the present invention adopts the lens that infrared light is had better filterability, to guarantee obtaining one of solar cell test request STC condition: AM1.5 on the tested surface.

The present invention lays silk screen 3 between filter system 2 and plane, MUT module under test place 5, can reduce light intensity on the one hand, can increase uniformity of light on the other hand, and this silk screen 3 plays the effect of grey optical filtering.

The present invention has solved the module testing platform with problem that solar simulator faced from uniformity of light and two aspects of spectrum simulation, solar simulator is reached be fit to the light source requirements that solar module is tested needed solar simulator, between 1～2 meter of light source and tested surface spacing, can realize that the effective hot spot on the tested surface is even.The present invention successfully is applied in the JD02 type solar module tester, and the uniformity that makes the hot spot in the Validity Test scope of 0.6 * 1.2m of this testboard reaches ± 3% in, the spectrum cooperate degree of spectrum and sunshine reaches international A level level (ASTME927).

Claims (1)

1. A pulsed xenon lamp three-degree-of-freedom parabolic diffuse reflection solar simulator, characterized in that a tubular pulsed xenon lamp is used as the line light source (8), and a three-degree-of-freedom light source seat (1) is fixed under the top surface (10) of the tester , the line light source (8) is fixed on the light source seat (1), and the X-axis adjustable slider (13), the Y-axis adjustable slider (11) and the Z-axis adjustable slider (12) are also fixed respectively, and the light source along the line The axis of (8) is placed on the parabolic diffuse reflection mirror (9), between the line light source (8) and the plane (5) where the component under test is located, the filter system (2) and the silk screen (3) respectively pass through the filter system The fixing clip (7) and the silk screen fixing clip (6) are fixed on the upper box body (4) of the tester.

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