DE4423778A1 - Four-quadrant photodetector sensor detecting light source direction - Google Patents

Abstract

The light source direction sensor consists of four identical photosensitive sensors (1-4) mounted concentrically on a hemisphere equidistant from each other and at the same inclination to the surface normal. The sensors may also be mounted on a pyramid structure. The sensors are connected to a tracking system for solar generator arrays, also may be used in a navigation system. The sensors are covered by glass filters to protect against overheating.

Description

The invention relates to a measuring system with four photo sensitive components for detecting the misalignment of a punctiform light source based on a surface normal.

The main area of application of such a measuring system is in Tracking a solar generator (e.g. silicon solar panel) according to the position of the sun. Other applications are in the Localization and evaluation of different point light sources, which can also emit discontinuously and thus identi are fitable.

The prior art from which the invention is based is knows from the company script: "Dornier Solar Tracking System, 7990 Friedrichshaven, Dornier System GmbH ". The one described there bene Crossed-Slit Sensor has an Er at high resolution range of ± 60 °.

The technical problem with which the invention is concerned is not only to be able to localize a discrete radiation source, in particular to locate the sun with the position that is already known in the calendar, but z. B. to determine the areas with the greatest energy in the sky. It can be seen that when the sun is hidden or diffuse sunshine, it is aligned to the brightest point in the room. The shadowing can also be caused by buildings or natural obstacles. With the present invention of the spatial - not flat - four-quadrant sensor, an orientation of the solar generator that is independent of the date, the time of day and the exact knowledge of the geographic location is possible:
The efficiency of the generator system is improved.

Further advantages of the invention are in connection with the Explanation of the drawings, as well as the embodiments of the Invention, the features of which are specified in the subclaims  are described.

Show it:

Fig. 1 shows a schematic arrangement of the sensor in cross section and in plan view.

Fig. 2 perspective view and top view in the embodiment as a truncated pyramid.

Fig. 3 block diagram of an application for generator tracking.

The arrangement shown in Fig. 1 shows two of the four sensors Ren, the surface of which is inclined at an angle relative to the base. A distant light source supplies to the sensor 1 is a high radiation density at the sensor 2, however, a small radiation density. This results in a difference between these opposite sensor signals, which is a measure of the angle at which the light source shines in relation to the surface normal. If the light source is in the plane of the drawing, the radiation densities in sensors 3 and 4 are the same. Their difference signal is therefore zero. The position of the sensors 3 and 4 can be seen in the top view.

The variant of the construction on a truncated pyramid shown in FIG. 2 has the advantage that the base surfaces on which the sensors are to be mounted are flat. The underlying pyramid is equilateral. There is a simple guarantee of the precision of the inclined directions.

In FIG. 3, the per se known circuit arrangement is included. Furthermore, both delay elements for the actuators and reference calculations of the difference signals to the mean radiated energy levels are to be provided.

Compared to the previous sensor principle (state of tech nik, Dornier) the difference signal is generated by the incline surfaces and not through optical blinds.

The four components are in any case appropriate Protect filter glass against thermal overload.

According to the invention described, I created a sensor manufactured according to claim 2 and in a test facility for solar generator tracking in 1993 genom in operation men (Location: Oberstufenzentrum Energietechnik 1, 13599 Berlin, Goldbeckweg 8-14).

Claims (5)

1. Sensor with four photosensitive components for detecting the misalignment of a point light source based on a surface normal, characterized in that the four photosensitive components ( 1 ... 4 ) which are identical in structure and properties are fixed in pairs and with an identical angle of inclination to the surface normal are arranged. 2. Sensor according to claim 1, characterized in that the four components ( 1 ... 4 ) are arranged on a spherical shell with the same effect as according to claim 1. 3. Sensor according to claim 1, characterized in that the four components ( 1 ... 4 ) are arranged on a truncated pyramid with the same effect as according to claim 1. 4. Measuring system for aligning a solar generator with a Sensor according to claim 1 to 3, characterized in that the sensor arrangement in a known tracking system inte is free. 5. navigation system with a sensor according to claim 1 to 3, characterized in that the sensor signals like the well-known sixtant the azimuth and ele Determine the angle of vation.