DE102022205281A1 - LED lamp, diagnostic system and method for monitoring an LED lamp - Google Patents

Abstract

The invention relates to an LED light (14) for a motor vehicle with a control circuit (22) which has an input connection (26) for connection to a light control module (12) and an LED driver (24) which is connected to an LED module ( 28) is connected, wherein the control circuit (22) has a controller (32) which is set up to keep the current consumption of the LED light (14) constant.

Description

Background of the invention

The invention relates to an LED light for a motor vehicle with a control circuit that has an input connection for connection to a light control module and an LED driver that is connected to an LED module.

The invention further relates to a diagnostic system for an LED light and a method for monitoring an LED light of a motor vehicle.

From the DE 198 52 351 A1 a diagnostic system for an LED light in a motor vehicle is known, wherein a light control module controls the LED light via a supply line and, in the event of a fault, the LED light sends a diagnostic signal to the light control module via the supply line. For this purpose, in the event of a fault, the LED light modulates the current consumed using a switchable current sink, whereby the light control module receives coded diagnostic information via the supply line.

Monitoring the function of the LED light is, on the one hand, desirable for a customer and, on the other hand, is often required by law. LED control electronics can often only communicate their errors via the power consumption of a lighting control module. For this purpose, the lighting control module evaluates the output current using an internal current measurement. Usually two error thresholds describe the status “no error” or “error”. There is an upper output current threshold that describes the “no error” condition and there is a lower error threshold that describes the “error” condition.

The upper current threshold must be designed so that all independent parameters are taken into account. Due to the many independent parameters, the spread is relatively large. In particular, the threshold has so far been determined by the following independent parameters: input voltage, component tolerance, temperature, efficiency, LED forward voltage.

Task of the invention

It is the object of the invention to propose an LED lamp in which an upper diagnostic current threshold can be set independently of parameters of the LED lamp.

Description of the invention

This object is achieved according to the invention by an LED light for a motor vehicle with a control circuit which has an input connection for connection to a light control module and to an LED driver which is connected to an LED module, the control circuit having a regulator, which is set up to keep the current consumption of the LED light constant.

If there is no error in the LED light, especially the LED module, a light control module that is connected to the input connection always sees the same output current corresponding to the power consumption of the LED light, regardless of the input voltage, temperature, efficiency, LED Forward voltage, etc. This allows component tolerances, input voltage and temperature to be compensated. A “hard” threshold is created that is always the same, even after years of operation and/or production fluctuations. This reduces the tolerance window and makes evaluation easier and more reliable. Even if the efficiency improves over the years due to component adjustments, the upper current threshold can remain the same by regulating to a predetermined fixed current consumption value.

The controller can be temperature compensated and work with a small control deviation.

It is particularly preferred if the control circuit has a current sink connected in parallel to the LED driver and connected to the controller. The controller can thereby regulate the current consumption by controlling the current sink. If the LED driver draws more current, the current sink can be controlled so that it draws less current, so that the sum of the current in the LED driver and the current in the current sink remains constant. This means that the light control module always sees the same output current, which corresponds to the power consumption of the LED light.

The LED driver can be connected to the current sink and set up to switch off the current sink in the event of a fault. If the LED driver detects an error, especially an error in the LED module, it can control and switch off the current sink. The controller is therefore no longer able to regulate to a constant current consumption corresponding to an upper current threshold. The power consumption of the LED light drops. This also causes the output current of the light control module to drop, so that a second current threshold is undershot and through the light control module can clearly detect an error.

According to a preferred embodiment, a current sensor can be provided which is set up to detect the current flowing through the input connection. The current sensor can be integrated into the controller. In particular, the current sensor can be designed as a shunt.

The LED module can have at least one LED. The LED module is preferably designed as an LED matrix. The LED module can have LEDs connected in series and/or parallel.

The scope of the invention also includes a diagnostic system with an LED lamp according to the invention and a light control module, which is set up to connect the LED lamp to an operating voltage source and to monitor the power consumption of the LED lamp. In normal operation, i.e. when there is no error, the current consumption of the LED lamp is constant due to the design of the LED lamp according to the invention. However, if this current consumption drops, this indicates a fault in the LED light. This can be detected by monitoring the power consumption of the LED light by the diagnostic system.

The scope of the invention also includes a method for monitoring an LED light of a motor vehicle, in which the current consumption of the LED light is regulated to a predetermined constant value by controlling a current sink by a regulator in order to control current consumption fluctuations of the LED driver compensate. The current sink can be connected in parallel to the LED driver of the LED light. The current sink can have a series connection of a transistor and a resistor.

A current sensor can monitor the input current and thus the current consumption of the control electronics. The current consumption is the sum of the current of the current sink and the current of the LED driver. The controller regulates firmly to a predetermined value by controlling the current sink accordingly. If the LED driver requires less power, more current flows through the current sink. If the LED driver requires more current, less current flows through the current sink.

In the event of an error, the LED driver can switch off the current sink. Then only the error current of the LED driver flows, which is significantly lower than the current consumption in the error-free case. This current is below a lower current threshold so that it can be recognized that there is a fault in the LED light.

Alternatively or additionally, it can be provided that in the event of a fault, a light control module can switch off the LED light and, associated with it, the current sink.

Further advantages of the invention result from the description and the drawing. Likewise, according to the invention, the features mentioned above and those further detailed can be used individually or in groups in any combination. The embodiments shown and described are not to be understood as an exhaustive list, but rather have an exemplary character for describing the invention.

Detailed description of the invention and drawing

• 1 shows a schematic representation of a diagnostic system;
• 2 shows a diagram to illustrate the different current thresholds.

The 1 shows a diagnostic system 10 with a light control module 12 and an LED light 14. The light control module 12 is connected to a supply voltage 16, in particular a vehicle battery. The LED light 14 can be connected to the supply voltage 16 using a switch 18. The light control module 12 also has a diagnostic device 20 with which the output current, ie the current consumed by the LED lamp 14, can be detected.

The LED light 14 includes control electronics 22 which has an LED driver 24 which is connected to an input connection 26. The LED driver 24 is in turn connected to an LED module 28. The current drawn at the input connection 26 corresponds to the output current of the light control module 12. The current drawn is divided into a current that is picked up by the LED driver 24 and a current that is picked up by a current sink 30. The current sink 30 and the LED driver 24 are connected in parallel.

A controller 32 is connected to or has a current sensor 34. The current consumed by the LED light 14 is detected by the current sensor 34. The controller 32 is set up to regulate the current drawn to a predetermined value. For this purpose, the controller 32 controls the current sink 30. If more power is required from the LED driver 24, the current sink 30 is controlled in such a way that it absorbs less current, so that in total the current drawn at the input connection 26 remains as constant as possible.

If the LED driver 24 detects an error, in particular an error in the LED module 28, the LED driver 24 switches off the current sink 30. This leads to a current drop in the current drawn at the input connection 26. This current drop can be detected by the diagnostic device 20 of the light control module 12.

In the 2 It is shown schematically that the current drawn at the input connection 26 can vary between 0 amperes and Imax, ie the maximum output current of the light control module 12. If the output current is above a threshold S2, this means that there is no error in the LED module 14. However, if the current drops to a value below the threshold S1, there is an error in the LED module 14.

The diagnostic device 20 monitors whether the current consumed by the LED module 14 is above the threshold S2 or below the threshold S1.

Because the controller 32 is set up to regulate the current consumed to a value that is at the threshold S2 or above during normal operation, i.e. when there is no error, and no variable parameters are included in the control, the diagnosis is whether there is an error in the LED module 14, independent of variable parameters and therefore particularly reliable.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19852351 A1 [0003]

Claims (8)

LED light (14) for a motor vehicle with a control circuit (22) which has an input connection (26) for connection to a light control module (12) and an LED driver (24) which is connected to an LED module (28). , characterized in that the control circuit (22) has a controller (32) which is set up to keep the current consumption of the LED lamp (14) constant. LED light after Claim 1 , characterized in that the control circuit (22) has a current sink (30) connected in parallel to the LED driver (24) and connected to the controller (32). LED light according to one of the preceding claims, characterized in that the LED driver (24) is connected to the current sink (30) and is set up to switch off the current sink (30) in the event of a fault. LED light according to one of the preceding claims, characterized in that a current sensor (34) is provided which is set up to detect the current flowing via the input connection (26). LED light according to one of the preceding claims, characterized in that the current sensor (34) is integrated into the controller (32). Diagnostic system with an LED lamp (14) according to one of the preceding claims and a light control module (12), which is set up to connect the LED lamp (14) to an operating voltage source (16) and to increase the current consumption of the LED lamp (14). monitor. Method for monitoring an LED light (14) of a motor vehicle, in which the power consumption of the LED light (14) is regulated to a predetermined constant value by controlling a current sink (30) by a regulator (32) in order to avoid fluctuations in power consumption LED driver (24) to compensate. Procedure according to Claim 7 , characterized in that in the event of an error, the current sink (30) is switched off by the LED driver (24).

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