Radiant energy – Photocells; circuits and apparatus – Photocell controlled circuit
Patent
1997-03-14
1999-02-09
Le, Que T.
Radiant energy
Photocells; circuits and apparatus
Photocell controlled circuit
257461, H01J 4014
Patent
active
058698345
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
1. Field of the Invention
The subject invention concerns a device for measuring the position of a lighting spot having an integrated function, in order to handle stray light.
2. Discussion of the Prior Art
A position-sensitive photodetector, PSD, consists of a semiconductor wafer having a doped active surface with electrodes positioned in mutually opposite sides. The doped active area forms a pn-junction in the semiconductor wafer, and a resistive layer. An incident light beam will generate a photoelectric current which is proportional to the intensity of the incident light. Also, the photoelectric current will be divided in the resistive layer in the two electrodes linearly with the distance from the respective electrode. By comparing the magnitudes of the currents the expression (I.sub.A -I.sub.B)/(I.sub.A +I.sub.B) gives the position of the light beam on the active surface of the detector. (I.sub.A and I.sub.B represent the currents from respectively electrodes A and B). This is true with a high degree of linearity when the lighting point is incident only on the active surface. On the other hand, if light is incident on the semiconductor wafer externally of the active surface (which normally is referred to as the inactive area) a photoelectric current is generated also in this area and is registered in both electrodes. However, these currents are non-linear as well as slow. In other words, the position signal becomes considerably more non-linear and also very much slower. Thus, the possibility of obtaining satisfactory position measurements is impaired and sometimes even made impossible. In cases when the detector is used in applications where stray light occurs, this a considerable problem.
When the stray light emanates from other light sources than the measuring light it is possible, provided that the stray light intensity is within reasonable boundaries, to handle the stray light by means of either electrical or optical filters. An electrical filter is effective by screening off, in the subsequent signal processing, signals emanating from light having a different modulation from that of the measuring light. This method is adopted above all when a modulated light source having a comparatively high degree of modulation is used, such as 10 kHz, and receiving low-modulated or non-modulated stray light from the environment, such as sun light or fluorescent light etc. Optical bandpass filters operate by only letting through light having wavelengths within a narrow wavelength range. This phenomenon is used when the stray light has a different wavelength from that of the measuring light but otherwise the same modulation (most often non-modulated).
When the stray light emanates from the measuring light itself, owing to reflections in the metal parts of the instrument, for instance, or has a wavelength and a modulation close to that of the measuring light, the problem becomes more difficult to solve. The only way to eliminate the effects of stray light has hitherto been to screen off the stray light from the detector in some way or other. This could be effected in two different ways. Either a diaphragm is placed immediately above the detector or by applying directly on the detector surface a means screening off the light from the inactive area; The diaghragm could either be in the shape of a thin metal foil which is placed immediately ahead of the detector, or a diaghragm which is integrated into the protective glass by means of thin-film technology. This method puts considerably demands on the mounting of the diaghragm, particularly in the case of small-size detectors. In addition, diffraction phenomena may occur in diaghragm opening which thus generates stray light. The other possibility, to apply, in the processing of the very detector, some material screening off the light from the inactive areas, may be effected through vapourization of a metal, gold or aluminium. The disadvantages are that the thickness required in order to obtain absolute screening off of the stray light is
Le Que T.
Sitek Electro Optics AB
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