KR101457021B1 - Circuit for measuring the brightness of light sources - Google Patents

Abstract

The present invention relates to a circuit for measuring brightness of light sources, comprising an operational amplifier (2) with a fixed amplification factor, characterized in that at least one photodetector (3, 4) And a current path 5 for supplying a current to the operational amplifier 2 is electrically connected to the first input of the operational amplifier 2. [

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit for measuring the brightness of light sources,

The present invention relates to a circuit for measuring brightness of light sources.

For example, in the case of light sources with one or more light emitting diodes (LEDs) or other electric lamps, it is necessary in many respects to detect the brightness of the light sources during operation, and such detection is also desirable. Such detection information is used to set optimal operating conditions of the light sources and to ensure effective and efficient operation. Such types of brightness measurements are important, for example, in order to be able to perform correction of color positions. Color locating of light emitted from a light source is caused by the effects of aging and operating temperature, and such types of color locating need to be actively measured and adjusted. Only by such a measure, the required color spectrum can be provided over the long operating period of the light source by the emitted light of the light source.

Since the lightness of the light sources often fluctuates over a very large range, it is necessary to provide a circuit capable of measuring and detecting a large lightness range as described above. In the circuits known so far for measuring the brightness of light sources, the switchover of the amplification is implemented by an adjustable digital resistor. However, such a configuration with a digital potentiometer is very complex and cost intensive. It is also known to form circuits as integrated circuits that can digitally amplify the amplification.

However, the known circuits can detect only a very limited range of brightness, so that the color position correction can be made only in a suboptimal state.

It is an object of the present invention to provide a circuit that allows brightness measurement of light sources to be done in an economical and reliable manner over a very large brightness range of one light source.

The above problem is solved by a circuit having the features according to claim 1.

The circuit according to the invention for measuring the lightness of the light sources comprises an operational amplifier, in which case the amplification factor of the operational amplifier is substantially fixed. The circuit further includes at least one photodetector, the photodetector being electrically connected to the first input of the operational amplifier and configured and arranged for detecting light from the light source. As a further important aspect of the present invention, a circuit according to the present invention has a current path, which is formed to supply current to an operational amplifier and is electrically connected to a first input of the operational amplifier. At least one photodetector for measuring the brightness of the additional current path and the light source as well as the first input of the operational amplifier having a fixed amplification factor are connected to one common circuit node, Brightness measurement of light can be reliably and accurately detected over a very large brightness range. Furthermore, brightness detection can be performed as economically as possible without unnecessary effort.

The first input of the operational amplifier is preferably formed as a negative input. Preferably, a resistor is electrically connected to the first input and output of the operational amplifier for fixedly setting the amplification of the operational amplifier. In this case, the electrical connection is made in such a way that the resistor is connected in quasi parallel form to the operational amplifier.

The voltage supply of at least one photodetector is preferably made by a negative supply voltage.

It is also conceivable to connect two or more photodetectors in a circuit, in which case two or more photodetectors are connected in one parallel circuit, wherein the parallel circuit is electrically connected to the first input of the operational amplifier. Thereby, a larger area can be detected, so that even a larger range of brightness can be measured.

The photodetectors may be formed as semiconductor sensors preferably operated in the blocking direction. The current path is preferably connected to a D / A-converter. The light source may be formed as an LED or may be formed as an electric lamp.

Embodiments of the invention are described in detail below with reference to schematic drawings.

1 is a schematic diagram of a circuit according to the invention.

1 shows a circuit 1 according to the invention for measuring the brightness of a light source (not shown). The circuit (1) includes an operational amplifier (2) having a fixed amplification factor. The operational amplifier 2 includes a first input portion and the first input portion is represented by a negative input portion in the embodiment. The negative input of the operational amplifier 2 is connected to a circuit node, which is also connected to a parallel circuit consisting of photodetectors. The photodetectors are formed with semiconductor sensors 3 and 4 in the embodiment. Furthermore, the circuit 1 according to the invention comprises an additional current path 5, which is likewise electrically connected to the circuit node and, together therewith, to the negative input of the operational amplifier 2. [ The photodetectors are formed with semiconductor sensors 3 and 4 in the embodiment. Furthermore, the circuit 1 according to the invention comprises an additional current path 5, which is likewise connected to the circuit node and, together with it, to the negative input of the operational amplifier 2. [ A current I_SHIFT further supplied to the operational amplifier 2 via the current path 5 is connected to a D / A-converter (not shown) Lt; / RTI > converter. Due to the additional current path 5 and the electric current I_SHIFT transferred to the negative input of the operational amplifier 2 by the additional current path, a very large range of brightness of the light emitted from the light source is measured or detected . The D / A-converter can be adjusted very precisely.

1, the second input of the operational amplifier, which is the positive input, is connected to the ground potential.

1 is that the semiconductor sensors 3 and 4 are operated in the blocking direction and are supplied with a negative supply voltage of about -5 V in the embodiment. Corresponding detection of the lightness of the light of one light source can thus be carried out as indicated by the arrows near the semiconductor sensors 3 and 4. It is also conceivable that only one semiconductor sensor 3 or 4 is disposed or a larger number of sensors than the two semiconductor sensors 3 and 4 shown in the figure are arranged in a parallel connection manner. The more semiconductor sensors such as those described above are connected to the circuit 1, the larger the area that the semiconductor sensors can detect.

The fixed or fixed amplification factor of the operational amplifier 2 in the embodiment according to the invention is such that the resistor 6 is electrically connected to the negative input of the operational amplifier 2 and to the output of the operational amplifier 2, Lt; / RTI >

Furthermore, a further signal path is included in the circuit 1 according to the invention, and in the further signal path a series circuit consisting of a resistor 7 and a capacitor 8 is included. The additional signal path is connected in parallel with the resistor 6. In this case, the voltage signal U_PHOTO, which characterizes the lightness of the light source, is applied to the output of the operational amplifier 2.

Claims (8)

A circuit for measuring the brightness of at least one light source having an operational amplifier (2) whose amplification factor is fixed, Wherein at least one photodetector is electrically connected to the first input of the operational amplifier and a current path for supplying current to the operational amplifier is connected to the operational amplifier, 2, which is electrically connected to the first input of the second input / The current path 5 is connected to a D / A-converter, A further signal path is electrically connected to a first input and an output of the operational amplifier (2), the further signal path comprising a series circuit consisting of a resistor (7) and a capacitor (8) (U_PHOTO) characterizing the lightness of the light source is applied to the output of the light source (2) Circuit for measuring brightness of light source. The method according to claim 1, The first input of the operational amplifier (2) is formed as a negative input, Circuit for measuring brightness of light source. 3. The method according to claim 1 or 2, Wherein a second resistor (6) is electrically connected to a first input and an output of the operational amplifier (2) in order to set the amplification factor of the operational amplifier (2) Circuit for measuring brightness of light source. 3. The method according to claim 1 or 2, Wherein the voltage supply of said at least one photodetector (3, 4) is made by a negative supply voltage, Circuit for measuring brightness of light source. 3. The method according to claim 1 or 2, Wherein at least two photodetectors (3, 4) are connected in a parallel circuit, the parallel circuit being electrically connected to a first input of the operational amplifier (2) Circuit for measuring brightness of light source. 3. The method according to claim 1 or 2, Said photodetector being formed as semiconductor sensors (3, 4) operated in the blocking direction, Circuit for measuring brightness of light source. delete 3. The method according to claim 1 or 2, The light source may be formed as an LED or as an electric lamp, Circuit for measuring brightness of light source.

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