DE102009006250A1 - Electro-optical luminous element and method for monitoring the same - Google Patents

Abstract

The element (1) has a photosensor i.e. photodiode (4), attached to a LED chip (3) i.e. surface mounted device (SMD) LED chip, such that a part of light of the LED chip is projected at a photo-sensitive part of the photosensor, where the photosensor and the LED chip are attached on a common carrier (9). The common carrier is arranged in a housing (2), and an operating device of a lighting installation is attached at the chip for evaluating a signal of the photosensor. The chip and photodiode are provided with terminal leads (5-8) for contacting the element outside the housing. Independent claims are also included for the following: (1) a lighting installation comprising an illuminating element (2) a method for monitoring an electrooptical illuminating element.

Description

The The invention relates to an electro-optical luminous element with a LED chip, a lighting system with the electro-optical light element and a method of monitoring the electro-optical Lighting element.

Out the prior art are already electro-optical lighting elements known with LED chips. Increasingly, in lighting for Motor vehicles, or for rail vehicles, in the household or used in traffic engineering light emitting diodes (LED). You can as a turn signal, brake light, tail light, daytime running light, Headlight, traffic light, signal light for rail traffic or the ceiling light can be used in the household.

LEDs belong to the electroluminescent emitters. They persist of two electrodes and a crystalline semiconductor structure, the LED chip, usually on a reflector, z. B. a reflector trough to which one of the electrodes is connected, rests. The other electrode is by means of a bonding wire with electrically coupled to the LED chip.

By Applying a voltage in the forward direction, light is dependent of the used and appropriately doped semiconductor material emitted. In the application are often LED chains or LED matrices used with a variety of single LEDs.

at Many applications have high safety requirements especially with regard to failure detection, such as in the use in motor vehicle headlamps, indicators or brake lights, and also in the application in traffic lights or railway signal lights.

Around to meet these safety requirements, It is known to provide each LED with redundant drivers. This However, it is associated with relatively high costs.

It Also known is the failure of a single LED through the measurement and to detect analysis of current or voltage, that is about the electrical properties of the LED make a statement about to make the optical behavior. LEDs can both at Occurrence of a so-called Openload, thus by interrupting the Circuit, as well as fail in a short circuit. specially in series LED chains is in case of failure of a LED due to a short circuit the electrical failure detection by analysis of current or voltage due to component tolerances the LEDs, however, difficult.

In the WO 2007/036509 a method for failure detection of an LED is proposed, in which a sensor is exposed to the light of the LED. The sensor signals are evaluated and used to monitor the LED. Because each LED requires a separate sensor, the number of components required doubles, which increases costs. Due to the unavoidable influence of the background light intensity on the sensor signal, the LED has to be pulsed. This increases the complexity of the electronic circuit.

outgoing From this prior art, it is desirable to improved electro-optic light emitting element with an LED chip ready to provide a simplified and reliable failure detection allows. Furthermore, the creation of a lighting system with an improved in terms of failure detection electro-optical light emitting element desirable. Finally, it is desirable an improved procedure with regard to its feasibility for monitoring an electro-optical luminous element create.

The Object of the invention to provide an improved electro-optical luminous element is achieved by a luminous element having the features of claim 1. Furthermore, the object of creating an improved lighting system solved by a lighting system with the features of claim 4. An improved method for monitoring an electro-optical Illuminating element is achieved by the method having the features of the claim 5 provided. Further developments of the aforementioned objects and the method are in the respective subclaims executed.

According to the invention the electro-optical light emitting element associated with the LED chip Light sensor. The light sensor and the LED chip are thus according to the invention in integrated a single light element and combined in it. If the light sensor is used to monitor the LED chip is, is by the assignment of the light sensor to the LED chip within the same luminous element the influence of background light reduced, so that the LED chip also operated with constant current can be. This simplifies the required electronic Drive circuit. It is only a single component required, so that in particular in the application in LED chains or LED matrices no increased number of components is required. The light sensor may be, for example, a photodiode or a photodiode chip be.

An embodiment of the invention relates to an electro-optical luminous element, wherein the light sensor and the LED chip on a common seed carriers are applied. The common carrier may be the reflector or a carrier chip connected to the reflector. The light-emitting element can also be constructed such that a light sensor is additionally applied to the carrier of the LED chip, for example in the form of a photodiode.

Around the luminous element according to the invention insensitive against environmental influences and the disturbing influence from background light on the light sensor continues to reduce in an advantageous embodiment proposed that the light sensor and the LED chip from a housing that is at least partially transparent, are arranged. The housing is transparent at least at the point where the LED light is on Lighting purposes should leak. The light sensor can with non-transparent Housing parts protected from background light from the environment be.

The Assignment of the light sensor to the LED chip can be done in this way, that part of the light of the LED chip, for example, in the edge area of the light cone emitted by the LED chip, on the photosensitive Part of the light sensor hits. The signal of the light sensor correlates then directly with the light emitted by the LED chip, and the main part of the light cone generated by the LED chip can be unhindered through the transparent part of the housing to the outside reach. The non-transparent housing part shields the photosensitive Part of the light sensor from ambient light, leaving the signal of the light sensor only in response to that of the LED chip emitted light is generated.

One Lighting system according to the invention comprises Electro-optical luminous element with a LED chip and a this associated light sensor, and one with the electro-optical light element cooperating operating device that drives the LED chip and evaluates the signal of the light sensor. The operating device can be the LED chip driving controller. The signal of the light sensor can then by the controlling controller be evaluated. This is the structure of an inventive Lighting system, there are no more components or Components needed as with a conventional one LED based lighting system.

• – Beaufschlagen des Lichtsensors mit Licht des LED-Chips,
• – Auswerten des Signals des Lichtsensors,
• – Überwachen der Funktion des LED-Chips anhand dieser Auswertung.

A method according to the invention for monitoring an electro-optical luminous element with an LED chip and a light sensor associated therewith comprises the steps

• Subjecting the light sensor to light from the LED chip,
• Evaluating the signal of the light sensor,
• - Monitoring the function of the LED chip based on this evaluation.

The Signal of the light sensor can be advantageous in terms of its Intensity and / or its temporal course evaluated become. For example, if the controller has a rated current of the LED chip sends corresponding current through the LED chip and the light sensor produces no signal, so this leaves the To conclude that the LED chip is defective. The operating device can then give a corresponding warning message or a corresponding To generate a warning signal, for example, by a warning light in a monitoring center is activated.

The Operating device can also the timing of the sensor signal record and monitor for signal patterns that point to a Close the aging of the LED chip. For example, if that Sensor signal with otherwise constant driver current of the LED with the Time is getting weaker, it leaves to aging Close the LED. It can then be a threshold of the sensor signal which indicates when the luminosity of the LED has dropped to an unacceptably low value, and below which also gives a warning message.

Of course can the monitoring according to the invention the electro-optical light element also combined and supplemented be known through the monitoring of the electrical properties of the LED. This way can work in one furthermore advantageous embodiment of the invention Process also monitors the functionality of the light sensor become. If, for example, the electrical properties of the LED to conclude that the LED is working properly let the signal of the light sensor but a malfunction of the LED suggests, so is likely the light sensor malfunction. Also in this case, a warning would be issued.

figure description

characters and description are provided for a better understanding of the subject matter. Objects or parts of objects in the Essentially the same or similar, can be provided with the same reference numerals. The figures are merely a schematic representation of an embodiment of the Invention.

there shows:

1 schematically an electro-optical luminous element according to the invention,

2 schematically an inventive Lighting system.

Detailed description

1 schematically shows an electro-optical luminous element 1 that inside a case 2 an LED chip 3 includes. This is adjacent a photodiode 4 as a light sensor. The LED chip 3 and the photodiode 4 are shown with their usual circuit diagrams switching symbols. Known semiconductor crystal structures can be used for their realization. For example, the LED chip could 3 be constructed similar to a known SMD LED, which, for example, in the DE 10 2007 018 208 is shown.

Both the LED chip 3 as well as the photodiode 4 are with connecting leads 5 . 6 . 7 . 8th provided with which the lighting element 1 from outside the case 2 is contactable.

The LED chip 3 and the photodiode 4 are on a common carrier 9 inside the case 2 appropriate. The housing 2 is essentially non-transparent, except for a transparent emission window 10 , The LED chip 3 is related to the issue window 10 and the photodiode 4 in such a position that the light cone 11 that from the LED chip 3 is sent, essentially through the emission window 10 through to the outside of the case 2 arrives. A border area 12 of the light cone 11 falls on the photosensitive area of the photodiode 4 and generates there a diode signal which depends on the intensity of the light emitted by the LED chip.

The photodiode 4 is inside the case 2 in terms of the issue window 10 so attached, that from outside the case 2 incident ambient light not or only very attenuated to the photosensitive region of the photodiode 4 can get.

2 schematically shows a lighting system 20 , which is a luminous element according to the invention 1 and an operating device 21 includes. The LED chip 3 and the photodiode 4 are via their connection conductors 5 . 6 . 7 . 8th electrically with the operating device 21 connected.

At the operating device 21 It is an electronic circuit, which may include a microprocessor. The operating device comprises a control circuit 22 that drives the LED chip. Drive circuits for LEDs are known in principle; they may include a constant current source or a switching regulator.

In addition, the operating device includes 21 a monitoring circuit 23 which signals the photodiode 4 evaluates. In addition, the monitoring circuit 23 Also contain circuit modules that make a monitoring of the electrical parameters of the LED chip.

Furthermore, the operating device includes 21 a communication circuit 24 that the communication of the lighting system 20 with a remote monitoring center, including a communication channel 25 is used. This can be a wired or a wireless communication channel, for example a 2-wire line, a bus system, a Bluetooth or a radio interface.

Several lighting systems 20 can be interconnected in a chain or a matrix. In each case, a lighting device can be associated with an operating device. It could also be associated with a plurality of lighting elements a common operating device. In this case, a monitoring circuit 23 For example, monitor the photodiodes of multiple light elements in multiplex mode. Thus, the failure of each individual LED can be easily monitored in an LED chain.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - WO 2007/036509 [0008]
• - DE 102007018208 [0024]

Claims (8)

Electro-optical luminous element with an LED chip, characterized in that the luminous element comprises a light sensor associated with the LED chip. Electro-optical luminous element according to claim 1, characterized characterized in that the light sensor and the LED chip on a common carrier are applied. Electro-optical luminous element according to one of the claims 1 or 2, characterized in that the light sensor and the LED chip arranged in an at least partially transparent housing are. Electro-optical luminous element according to one of the claims 1 to 3, characterized in that the light sensor to the LED chip is assigned so that a part of the light of the LED chip on the photosensitive part of the light sensor strikes. Lighting system, which is an electro-optical lighting element according to one of claims 1 to 4, characterized that the lighting system is one with the electro-optical lighting element comprising cooperating operating device which drives the LED chip and evaluates the signal of the light sensor. Method for monitoring an electro-optical Luminous element according to claim 1, characterized by the steps - Apply of the light sensor with light of the LED chip, - evaluate the signal of the light sensor, - Monitor the function of the LED chip based on this evaluation. The method of claim 6, comprising the step of watching the LED chip for aging. The method of claim 6 or 7, comprising the step monitoring the function of the light sensor.