DE102005012148A1 - Light intensity measuring system has two sensors for different places with one sending an information signal to the other that has both receiving and calibrating units - Google Patents

Abstract

A light intensity measuring system comprises two sensors (2,3,4) to measure intensities at two different places (6,8), the first (4) sending an intensity-dependent information signal (11) and the second (2,3) comprising both a unit to receive this signal and a device to calibrate the second sensor from this signal. An independent claim is also included for a calibration process for the above.

Description

The The present invention describes a light intensity measuring system with a first sensor device for measuring a first light intensity at one first location and a second sensor device for measuring a second light intensity in a second place. About that In addition, there is provided a method of calibrating a light intensity sensor presented.

at the illumination of a work surface it is advantageous if independent from the daylight the work surface always illuminated with the same light intensity. To this to ensure some lighting systems light sensors on which the of the working surface and measure the light reflected from the floor covering of the lighting system. Usually are these light sensors close to the lamp of the lighting system on the ceiling of the lighting Room mounted. Over a Control device also attached to the lamp may be the lamp be controlled so that a constant value of the measured by the light sensor Light intensity is complied with.

Indeed is that of the light sensor light intensity measured on the ceiling of a room is not equal to the light intensity at the work surface. The relationship the two intensity values to each other of a coating of the work surface, the other furnishings and the flooring.

This leads to Problems when a user of the work surface wants a light intensity he wants constant is complied with. Entering the intensity value desired by the user alone is not enough in this case. Instead, it is It is necessary that in the lighting system information about the relationship between that of the light sensor recorded intensity and the light intensity at the work surface is present. One can also designate this so that a light intensity measuring system of the lighting system must be calibrated prior to use.

In the publication DE 696 03 983 T2 a method is described by means of which calibration of an illumination system can be carried out with a calibration device arranged on the working surface. However, this method requires several time-consuming manual operations. For this reason, the method in the document DE 696 03 983 T2 Thus, a user of a conventional lighting system is forced to call a person skilled in the art for each calibration of the light intensity measuring system of his lighting system, which is time consuming and expensive for the user of the lighting system.

The It is therefore an object of the present invention to provide a light intensity measuring system find, which also for a non-specialist is easy to calibrate.

The The object is achieved by a light intensity measuring system comprising a first sensor device for measuring a first Light intensity at a first location and a second sensor device for measurement a second light intensity at a second location, the first sensor device being for transmission an information signal in dependence the measured first light intensity is designed and the second Sensor device, a receiving unit for receiving the information signal and a calibration unit for calibrating the second sensor device includes based on the information signal.

As well the task is solved from a method for calibrating a light intensity sensor by measuring a first light intensity at a first location and measuring a second light intensity in a second place, as well as by automatically sending a Information signal in dependence the measured first light intensity from the first location to the second location, automatically receiving the information signal the second location and comparing the information signal with a corresponding value of the measured second light intensity.

The The invention is based on the fact that the first sensor device of the second sensor device is read out automatically. An input of the value measured by the first sensor device in another Device, for example, in the second sensor device by a user is no longer necessary. Likewise it does automatic comparison of the measured intensities by the second sensor device Comparative considerations or comparative calculations on the part of the user superfluous. In order to the user must in a light intensity measuring system according to the invention no longer need to do time-consuming or complicated tasks. A "specialist knowledge" is therefore for Calibration of the light intensity measuring system is not more necessary.

In this case, the information signal may be a radio signal and / or an infrared signal. In this Wei It is also possible to transmit data from the first sensor device to the second sensor device over a greater distance.

Especially is a match over the information signal and the second light intensity can be calculated. The adjustment value, as the difference between the first light intensity and the second light intensity results the correction factor for the calibration of the second sensor device.

In this case, in a method according to the invention, the calculation of the adjustment value can be repeated several times, whereby a power of a lamp ( 1 ) is varied. In this way, a compensation characteristic curve can be determined, which supplies the precisely determined correction factor as a slope.

One Illumination system comprising a light intensity measuring system according to the invention Can be calibrated without calling in a technician got to. When commissioning the lighting system is the required Calibration, which is also referred to as brightness balance, too by a "layman" possible Brightness adjustment is running automatically and requires no manual intermediate steps. By the use of balancing curves can be achieved in the regulation of the Lighting system high accuracy of illuminance. in the Trap, that changed reflection conditions This may require a rebalancing because of its simplicity be easily performed by the user of the lighting system.

advantageously, The lighting system can be integrated into an installation system be. The matching method can in this case via an installation bus be activated and controlled. As examples of the installation bus are EIB (European Installation Bus) and KNX (Konnex) possible.

The present invention will now be described with reference to the attached 1 , in which a lighting system according to the invention is shown, explained in more detail.

The below described embodiment represents a preferred embodiment of the present invention Invention.

The illumination system according to the invention 1 includes a lamp 1 , a control device 2 , a light sensor 3 , a measuring and calibration device 4 and an EIB 5 (European Installation Bus). The lamp 1 , the control device 2 and the light sensor 3 are on a ceiling 6 a room attached. On the ground 7 of the room under the lamp 1 there is a table 8th , which serves as a work surface. The measuring and calibration device 4 is on the table 8th positioned.

The measuring and calibration device 4 is equipped with a communication device for a transmission medium, such as infrared or radio. This communication device can receive or transmit measurement data of the illumination system. Also the control device 2 is equipped with a corresponding communication device. Thus, communication between the controller 2 and the measuring and calibration device 4 possible. In addition, the control device 2 with the light sensor 3 electrically connected so that they can receive a sensor signal from him.

About the lamp 1 becomes the surface of the table 8th illuminated. Part of the lamp 1 emitted light 9 is doing on the surface of the table 8th reflected. The reflected light 10 is partially on the light sensor 3 displayed. The light sensor 3 measures the light intensity of the reflected light 10 and outputs the corresponding sensor signal to the controller 2 out. It depends on the light sensor 3 Proved light intensity from the reflection properties of the surface of the table 8th from. To correlate the sensor signal with the light intensity on the surface of the table 8th derive a calibration must be performed.

The calibration method, which can also be referred to as a calibration process or calibration process, is started by a user by pressing a button. About the EIB 5 becomes the lamp 1 set to a brightness value that approximately corresponds to the brightness setpoint. The measuring and calibration device 4 , which is positioned so that it is the incident light 9 on the table 8th detected well, then sends a measured intensity value to the controller 2 , The control device 2 , which has an arithmetic unit and a data memory, calculated from the measured value of the light sensor 3 and the measured value of the measuring and calibration device 4 a match value. This adjustment value is stored in the local data store. Afterwards, the adjustment procedure will be ended automatically.

In another variant of the automatic adjustment process, the adjustment values are determined at different illumination intensities. From them a balance characteristic is formed. The adjustment to the different illuminances of the lamp 1 takes place automatically by the communication between the measuring and calibration device 4 and the controller 2 ,

Is the calibration procedure completed? sen, so controls the controller 2 the intensity of the emitted light 9 the lamp 1 via the control signal 12 such that the sensor signal of the light sensor 3 constantly has the value which corresponds to the light intensity desired by the user on the table 8th equivalent.

About the easy to carry out Method for calibrating the lighting system is one Users at any time, to perform a calibration procedure quickly and easily.

Claims (8)

Light intensity measuring system comprising - a first sensor device ( 4 ) for measuring a first light intensity at a first location ( 8th ) and - a second sensor device ( 2 . 3 ) for measuring a second light intensity at a second location ( 6 ), characterized in that - the first sensor device ( 4 ) for transmitting an information signal ( 11 ) is designed as a function of the measured first light intensity and - the second sensor device ( 2 . 3 ) a receiving unit for receiving the information signal ( 11 ) and a calibration unit for calibrating the second sensor device ( 2 . 3 ) based on the information signal ( 11 ). Light intensity measuring system according to claim 1, wherein the information signal ( 11 ) is a radio signal and / or an infrared signal. Light intensity measuring system according to claim 1 or 2, wherein for calibrating the second sensor device ( 2 . 3 ) an adjustment value via the information signal ( 11 ) and the second light intensity can be calculated. Illumination system comprising a light intensity measuring system according to one of the claims 1 to 3. Lighting system according to claim 4, wherein the lighting system is installed in an installation system ( 5 ) is integrable. Method for calibrating a light intensity sensor ( 2 . 3 by measuring a first light intensity at a first location ( 8th ) and measuring a second light intensity at a second location ( 6 ), characterized by - automatic transmission of an information signal ( 11 ) as a function of the measured first light intensity from the first location ( 8th ) to the second place ( 6 ), - automatically receiving the information signal ( 11 ) at the second place ( 6 ) and - comparing the information signal ( 11 ) with the measured second light intensity. A method according to claim 6, wherein a radio signal and / or an infrared signal as an information signal ( 11 ) is sent out. A method according to claim 6 or 7, wherein a power of a lamp ( 1 ), and an adjustment value for calibrating the light intensity sensor is calculated several times.