DE102006018575A1 - Error detection of LEDs - Google Patents

Abstract

The invention relates to an operating circuit for a light-emitting diode arrangement, which has one or more light-emitting diodes connected in series, to each of which an element is connected in parallel, which takes over the current through the light-emitting diode if a light-emitting diode fails. In this case, a detection unit is provided which is designed to detect an interruption in the failure of at least one light-emitting diode by monitoring the temporal development of the diode current and the voltage on the light-emitting diode arrangement.

Description

The This invention relates to the field of detecting a failure a light emitting diode.

LEDs have the advantage of a long life, which is why they often, for example for emergency lighting be used automatically, if one Power supply for others Bulbs such as gas discharge lamps fails.

more more important, however, is the detection of a failure of a light emitting diode.

The Invention has for its object to provide a way to detect a Indicate interruption failure of at least one light-emitting diode.

These The object is solved by the features of the independent claims. The make dependent claims the central idea of the invention in particularly advantageous Continue.

According to one The first aspect of the invention provides an operating circuit for a light-emitting diode arrangement, which has one or more light-emitting diodes connected in series, to each of which an element is connected in parallel, in case of interruption failure a LED takes over the current through the LED. It is also a detection unit is provided, the purpose is designed to interrupt a failure of at least one LED by monitoring the temporal evolution of the diode current and the voltage at the To detect light-emitting diode arrangement.

The Circuit can be designed to keep the light emitting diode arrangement with a constant Power to operate. This is a disruption failure by an increase in the voltage at the light emitting diode array at the same time Decline of the current detected by the light-emitting diode arrangement.

The Circuit may alternatively be designed, the light emitting diode array to operate with constant current. An interruption failure will detected by an increase in the voltage across the LED array becomes.

The Detecting unit can be the current and voltage conditions the light emitting diode array detect continuously or at intervals.

The Detection unit can the detected current and voltage conditions store the light-emitting diode arrangement in a memory and a break in the interruption at least one LED by comparing actual values of the Current and voltage conditions the light-emitting diode array with at least one stored Enter value.

The Circuit can be connected to an external data line and the current and voltage conditions the light emitting diode array on a via the external data line check incoming query.

The Result of externally requested verification can be transmitted via the external data line be.

The Light-emitting diode arrangement be designed as emergency lighting, the in case of failure of the mains supply for Main illuminant is switched on automatically.

One Another aspect of the invention relates to an operating method for one Light-emitting diode arrangement, one or more series-connected Light emitting diodes, to which in each case one element connected in parallel is that in case of failure of a light-emitting diode through the current the LED takes over. A detection unit detects at least one interruption failure a light-emitting diode by monitoring the temporal evolution of the diode current and the voltage at the Light emitting diode array.

Further Features, aspects and advantage of the invention will now be referring to the figures of the accompanying drawings and the enclosed Figures of the drawings explained become.

1 shows schematically a circuit according to the invention for operating and monitoring a light-emitting diode arrangement,

2 shows the time evolution of the current through and the voltage at the light emitting diode array in the case of the operation of the light-emitting diode array with controlled, in particular with constant power

3 shows a possibility for implementing the current measurement and / or the voltage measurement, and

4 shows a possibility for implementing the detection of the time derivative of the current and / or the voltage at the light-emitting diode path.

In the 1 is a light-emitting diode arrangement 1 shown in the embodiment, several series-connected LEDs 2 having. To every light-emitting diode 2 is a protective element 3 connected in parallel, which is designed for failure of the associated light-emitting diode 2 to take the electricity, the one before the failure by the light emitting diode 2 flowed. In particular, the protective element may have an anti-parallel Zener diode 3 be.

A control unit 4 controls and / or regulates the current and the voltage across the light emitting diode array 1 , The control unit preferably leads 4 a constant power operation or a constant current operation. For this purpose, it is preferably provided that the control unit 4 the actual prevailing actual electricity 8th by means of a measuring resistor 13 and possibly also the actual voltage 9 the light-emitting diode arrangement 1 captured and by a regulator 10 evaluates.

The regulator 10 then outputs a control variable for the current and / or power control. In the example of 1 the controller controls 10 the control input 12 a linear regulator implemented as a transistor 11 which is connected in series with the diode path on the low-side side.

The control unit 4 Can be functional with an internal or external memory 5 be connected, in which at least one set of measured current and voltage values can be stored and read out for later comparison with the corresponding current values.

The control unit 4 can still have an interface 6 for connecting an external data line 7 exhibit. Via the data line, which is a bus line 7 may be setpoints for the power and / or the current of the light emitting diode array 1 For example, be supplied from a central office.

About this external data line 7 However, commands can also be supplied by which the execution of an error check can be instructed by the control unit and / or the result of such a check can be interrogated.

Basically, the control unit 4 be designed to perform the error checking continuously, at intervals and / or prompted by external commands. The result of the error check can then be displayed, reported or signaled.

The error check aims at detecting an failure of at least one light-emitting diode 2 in which the protective element connected in parallel 3 takes over the diode current. For detection monitors the control unit 4 the time course of the current and / or voltage conditions on the light-emitting diode arrangement 1 ,

The time course can be done by an evaluation unit 14 by comparing current values with (for example stored) values from the past.

Alternatively, the time derivative of the respective parameter can be determined, which will be discussed later in detail on the basis of 4 will be explained. The rapid time change in the event of a fault can be detected by means of a circuit which has a capacitor and / or an inductance.

A Failure is detected if the mentioned evaluation is a deviation that makes bigger is a predetermined threshold.

Especially An error can be detected if there is a change over time in a short period of time. Thus, for example, slower temperature drifts be excluded.

The Evaluation may be temperature compensated, i. it will be the dependence the diode characteristics of the temperature response considered.

In particular, it may be in the light-emitting diode arrangement 1 To be an emergency lighting, in which the proper operation is of particular importance. Especially in the case of emergency lighting, the remote inquiry described above may be important.

2 shows how in the case of the operation of the light emitting diode array 1 with constant (regulated) power in the event of an interruption failure of at least one light emitting diode 2 the current through the light-emitting diode arrangement 1 decreases as the voltage increases. This can be done by detecting the time changes of current and voltage eg. By a circuit as in 1 be detected.

During operation of the light-emitting diode arrangement 1 with constant impressed current, of course, in the case of occurrence of an interruption error, the current remains constant as the voltage rises.

3 shows a way of measuring the current and / or the voltage of the diode path 1 , The power and / or power control is carried out by the control unit 4 by clocked control of a circuit breaker 15 a switching regulator, the continue in a conventional manner with a closed switch 15 energizable choke Lb whose energy is open switch 15 via a diode Db on the diode path 1 discharges. Thus, in this case, a mean value fluctuating diode current sets in, the time average of which the clocking of the switch 15 depends.

While 1 and 3 Ways to show direct detection of the current and / or the voltage of the diode path shows 4 a possible implementation of the detection and evaluation of the time derivatives of the current and / or the voltage of the diode path.

In the 4 is the current control for simplicity by means of a linear regulator in the form of a transistor 11 represented, whose control terminal 12 with the through a voltage divider 16 . 17 divided supply voltage U _{IN of} the light-emitting diode path 1 is controlled. About a measuring resistor 13 the current gets through the linear regulator 11 and thus the current i through the light emitting diode path 1 detected. More specifically, by means of a capacitor 18 the time change delta (i) of the diode current detected and then by a comparator 19 be compared with a reference value i _REF .

By means of a capacitor 20 the time change delta (U) of the diode voltage U is detected and by a comparator 21 compared with a reference value U _REF .

The output signals of the two comparators 19 . 21 become a logical evaluation unit 22 supplied, for example, gives an error message when in a short time the diode current decreases and at the same time the diode voltage increases, as in 2 is shown.

Claims (16)

Operating circuit for a light-emitting diode arrangement ( 1 ), one or more series-connected light-emitting diodes ( 2 ), to each of which an element ( 3 ) is connected in parallel, which in case of interruption failure of a light emitting diode ( 2 ) the current through the LED ( 2 ), whereby a registration unit ( 4 ) is provided which is designed to interrupt a failure of at least one light emitting diode ( 2 ) by monitoring the time evolution of the diode current and / or the voltage at the light emitting diode array ( 1 ) to recognize. Circuit according to Claim 1, which is designed to convert the light-emitting diode arrangement ( 1 ) to operate at a constant power, wherein an interruption failure by an increase in the voltage across the light emitting diode array ( 1 ) with simultaneous decrease of the current through the light-emitting diode arrangement ( 1 ) is recognized. Circuit according to Claim 1, which is designed to convert the light-emitting diode arrangement ( 1 ) to operate with a constant current, wherein an interruption failure by an increase in the voltage across the light emitting diode array ( 1 ) is recognized. Circuit according to one of the preceding claims, in which the detection unit determines the current and voltage relationships of the light-emitting diode arrangement ( 1 ) continuously or at intervals. Circuit according to Claim 4, in which the detection unit ( 4 ) the detected current and / or voltage conditions of the light-emitting diode arrangement ( 1 ) in a memory ( 5 ) and an interruption failure of at least one light emitting diode ( 2 ) by comparison ( 14 ) current values of the current and voltage conditions of the light-emitting diode arrangement ( 1 ) with at least one stored value. Circuit according to one of the preceding claims, connected to an external data line ( 7 ) is connected and the current and voltage conditions of the light-emitting diode array checked for an incoming via the external data line query out. Circuit according to Claim 6, which determines the result of the externally requested check via the external data line ( 7 ) transmitted. Circuit according to one of the preceding claims, in which the light-emitting diode arrangement ( 1 ) is designed as emergency lighting, which is automatically switched on in case of failure or failure of the power supply. Operating method for a light-emitting diode arrangement, which has one or more light-emitting diodes connected in series, to each of which an element is connected in parallel, which in case of interruption failure of a LED takes over the current through the LED, with a break in the interruption at least one light emitting diode by monitoring the development over time the diode current and / or the voltage across the light emitting diode array is recognized. The method of claim 9, wherein the light emitting diode array is operated at a constant power and an interruption failure by an increase in the voltage at the light-emitting diode arrangement at the same time Falling of the current through the light-emitting diode arrangement is detected. The method of claim 9, wherein the light emitting diode array is operated with a constant current and an interruption failure detected by an increase in the voltage across the LED array becomes. Method according to one of Claims 9 to 11, in which the current and voltage conditions of the light-emitting diode are used to detect a fault failure The arrangement can be detected continuously or at intervals. The method of claim 12, wherein the detected Current and voltage conditions the light-emitting diode array are stored in a memory and an interruption failure of at least one light-emitting diode by comparison Current values of the current and voltage conditions the light-emitting diode array with at least one stored Value is recorded. Method according to one of Claims 9 to 13, in which the current and tensions of Light-emitting diode arrangement over on the external data line incoming query to be checked. The method of claim 14, wherein the result the externally requested review of the external data line sent back becomes. Method according to one of the preceding claims, in the light-emitting diode arrangement is used as emergency lighting, which is automatically switched on in case of mains failure.