DE102004055884A1 - Lighting device for a motor vehicle comprising one or more LEDs - Google Patents

Abstract

Lighting device for a motor vehicle, comprising one or more LEDs, at least one temperature sensor for detecting the temperature of at least one LED, a power supply of the LEDs serving switching power supply and the LED operation controlling control device that communicates with the switching power supply and the temperature sensor, via the Control unit (4) as a function of the detected temperature of the at least one LED (2a), the output current of the switching power supply (5) within an interval between the nominal LED current (I¶N¶¶¶) and a low LED limit current (I¶Less¶), up to which the brightness decreases by a predetermined value (DELTAH) in comparison to the brightness with applied nominal LED current (I¶N¶¶¶) can be varied.

Description

The The invention relates to a lighting device for a motor vehicle one or more LEDs, at least one temperature sensor for detecting the temperature at least an LED, a power supply of the LEDs serving switching power supply and the LED operation controlling controller, the communicates with the switching power supply and the temperature sensor.

In Modern motor vehicles are increasingly being equipped with lighting devices one or more LEDs used, for example, for better illumination of to be traveled Curves in the form of a curve or cornering light. Also the use as dipped beam is intended. Problematic in use single LED's or several discrete LEDs exhibiting modules is that the LEDs do not exceed a certain limit temperature allowed to, otherwise they will be irreversibly destroyed. To the LED temperature to detect, a temperature sensor is provided in the prior art, the one with the control unit communicated. If the temperature reaches a critical range, so in the prior art, the power supply is abruptly reduced, which Although subsequently leads to a decrease in temperature, alike also to a considerable decrease in brightness. Such is, however not desirable.

Of the The invention is thus based on the problem, a lighting device to provide, within certain limits, a temperature-sensitive LED control without serious loss of brightness.

to solution This problem is in a lighting device of the type according to the invention provided that over the control unit in dependency of detected temperature of at least one LED of the output current of the switching power supply within an interval between the rated LED current and a lower LED threshold current, up to which the brightness by a predetermined value compared to the brightness when adjacent LED rated current decreases, is variable.

at the lighting device according to the invention a current interval is defined within which the output current the switching power supply, the LED's is given, depending the temperature can be varied, the LED limit current such that the given due to the current reduction Brightness decrease also in a narrow interval between the maximum brightness at nominal LED current and brightness when applied of the LED limit current decreases. This is based on the knowledge that the output current and thus the LED current starting from the rated current be reduced by a certain amount can, without it at all to one for the Observers perceived loss of brightness comes, although the brightness measurably decreases something. This is due to the fact that in motor vehicles used LEDs at the rated current emit extremely bright light, for the viewer not noticeable something can be dimmed.

According to the invention now the current regulation in dependence the detected temperature. The higher the detected temperature is, the more the current is reduced, where the lower current limit is just the LED limit current. After this but this defined in terms of a permitted reduction in brightness was, arises for the viewer no serious detectable brightness difference, although lowering the current significantly reduces the LED temperature can be.

The predetermined value by which the brightness can be reduced without being recognized by the viewer's eye is according to the invention a maximum of 10%. Within this interval, of course, any other predetermined value, with respect to which the LED limit current is defined, can be selected. For customary LED modules used in the motor vehicle sector, for example those from Osram, the LED limit current can amount to approximately 60% of the rated LED current. This means that it is possible to lower the output current to 60% of the rated LED current, and then still move within the permitted brightness interval. A further current regulation would lead to an exceeding of the predetermined brightness value, which would then result in a noticeable reduction in brightness. For the heat development of the LEDs, a maximum current reduction of 40% means that the heat development also decreases by a good third. The actual value by which the brightness or the current can be reduced depends on the manufacturer or type of LED. The control is carried out as described in dependence on the measured actual temperature. Basically, the LED is operated with the rated current. As the heat builds up, the temperature rises. From a certain temperature, the Stromabregelung begins, with the continuously measured LED temperature serves as a controlled variable. The manipulated variable, ie the output current, is changed so that a lower temperature level is adjusted, if this is possible by a current change in the specified current interval. In the event that a temperature reduction by this control measure can not be achieved, is the tax device expediently for automatic shutdown of the LED's designed to prevent their destruction.

The Current limiting or current regulation can be done in different ways respectively. According to a first embodiment of the invention, this can be done in the Switching power supply can be provided a plurality of different resistors, over the control unit dependent on the measured temperature for varying the output current depending on be added to the required current limit. The resistors are designed so that a gradual reduction of current is possible, preferably at e.g. maximum 60% of the rated current.

alternative to use discrete zuzuschaltende resistors can in the switching power supply also an over the control unit controllable control element, in particular a transistor provided be that dependent the measured temperature for varying the output current accordingly is controllable.

Over here is a continuous control possible over the Transistor can be the output current of the switching power supply, the LED current corresponds to be easily regulated to a desired value.

Further Advantages, features and details of the invention will become apparent the embodiment described below and with reference to the Drawings. Showing:

1 a schematic diagram of a lighting device according to the invention, and

2 a diagram illustrating the brightness of the light emitted by an LED light against the LED current.

1 shows in the form of a schematic representation of a lighting device according to the invention 1 comprising a plurality of light sources in the form of three LEDs 2a . 2 B and 2c , which each have a control electronics 3a . 3b and 3c assigned. These communicate with a control unit 4 which controls the drive electronics via pulse width modulation signals.

Also provided is a switching power supply 5 comprising a voltage converter 6 , via which the vehicle electrical system voltage can be increased from 12 V DC to the LED supply voltage of 20 V. Via a corresponding pin on the control unit 4 , which is designed for example as a microcontroller or switching regulator IC, the output current of the switching power supply 5 or the voltage transformer 6 be adjusted, that is, the LED's 2a -C given output current can be varied over this.

In order to determine a temperature-dependent current control, in the example shown is a temperature sensor 7 provided in the form of a PTC thermocouple whose output signal to the controller 4 is given. This now controls, for example, on the basis of a corresponding characteristic or the like depending on the given temperature signal, the switching power supply 5 to vary the output current according to the given temperature.

For this purpose, in the switching power supply 5 or in the voltage converter 6 several different ohmic resistances may be provided, depending on the signal from the control unit 4 be switched on and a gradual adjustment of the output current is possible. It is also conceivable that in the switching power supply 5 or in the voltage converter 6 a control element in the form of a transistor is present, which in its on-state behavior via the output signal of the control unit 4 can be adjusted, then what then the change in the output current as a function of temperature takes place.

As part of the temperature dependent current scheme, a maximum current reduction is starting from a maximum LED current, namely, the nominal current I _nom of 100%, LED-threshold current defined on a pre I _limit permitted.

2 Fig. 12 is a graph showing the ratio of the LED brightness in percent to the LED current in percentage. At 100% LED current I _nominal , the LEDs are lit at maximum brightness of 100%. How out 2 can be seen, the brightness decreases only insignificantly in the LED current interval of 100% -60%, the percentage change in brightness ΔH is approximately 5% in the example shown. This means that the reduction of the LED current to 60% leads to a decrease in brightness of approx. 5%. Such a decrease in brightness is hardly noticeable to the eye of the beholder. That is, with a considerable current reduction by 40% is an extremely low brightness reduction to a predetermined brightness value, here, for example, 5% (ie 95% brightness) accompanied. A stronger current reduction then clearly leads to a significantly greater decrease in brightness than in the specified interval.

Now capture the temperature sensor 7 continuously the temperature, so can through the control unit 4 of the LED's given current, starting from the original 100% nominal current I _nom, in the interval between the nominal current I _nom - to einzu I _limit threshold current can be varied to a temperature level regulate, in which the LED's take no harm, without any noticeable loss of brightness would be associated with it. Nevertheless, a considerable reduction of the heat development can be achieved within this interval, so that for most applications, the current variation in the specified interval as a function of the temperature can be used to avoid exceeding the critical temperature range. If, however, the control limit I _limit with respect to the actual temperature should be below to be able to control a given temperature development, via the control unit 4 expediently the shutdown of the LED's or the entire module.

1 shows as an example the construction of a lighting device that serves to give a cornering or turning light, including the three LEDs, 2a C are directed in different directions to the vehicle side. The control unit 4 becomes, as by the arrow 8th is shown, additionally given the steering angle, as a function of which the connection of the LED's via the control unit 4 is controlled. If a time-shifted Zuschaltbetrieb the LED's 2a C is provided as a function of the actual steering angle, it is expedient, via the temperature sensor 7 to detect only the temperature of the LED that is turned on first and turned off last when passing, since the temperature of the other LED's is at most equal to this LED, but is generally below it. For modules in which all LEDs are switched on and off simultaneously, the detection of the temperature of only one LED is representative of all others.

Claims (7)

Lighting device for a motor vehicle comprising one or more LEDs, at least one temperature sensor for detecting the temperature of at least one LED, a power supply of the LEDs serving switching power supply and a LED operation controlling controller communicating with the switching power supply and the temperature sensor, characterized in that via the control unit ( 4 ) as a function of the detected temperature of the at least one LED ( 2a ) the output current of the switching power supply ( 5 ) Within an interval between the LED nominal current (I _nominal) and a lower LED-threshold current (I _limit) to which decreases the brightness by a predetermined value (AH) compared to the brightness at adjoining LED rated current (I _rated) , is variable. Motor vehicle according to claim 1, characterized in that that the predetermined value (ΔH) maximum 10%. Lighting device according to claim 1 or 2, characterized in that the LED limit current (I _limit ) is 60% of the nominal LED current (I _nominal ). Lighting device according to one of the preceding claims, characterized in that in the switching power supply ( 5 ) a plurality of different resistances are provided, which via the control unit ( 4 ) are switchable depending on the measured temperature for varying the output current. Lighting device according to one of claims 1 to 3, characterized in that in the switching power supply ( 5 ) via the control unit ( 4 ) controllable control element, in particular a transistor is provided, which is controllable in dependence of the measured temperature for varying the output current. Lighting device according to one of the preceding claims, characterized in that the control device ( 4 ) at a detected temperature which requires a lowering of the output current below the LED limit current (I _limit ) for automatically turning off the LED's ( 2a . 2 B . 2c ) is trained. Lighting device according to one of the preceding claims, characterized in that the LEDs ( 2a . 2 B . 2c ) serve to generate a turn or cornering light.