WO2008065018A1

WO2008065018A1 - Circuit arrangement and method for safeguarding against failure of an led or oled chain

Info

Publication number: WO2008065018A1
Application number: PCT/EP2007/062508
Authority: WO
Inventors: Oskar Schallmoser
Original assignee: Osram Gesellschaft mit beschränkter Haftung
Priority date: 2006-11-30
Filing date: 2007-11-19
Publication date: 2008-06-05
Also published as: TW200835390A; DE102006056712A1

Abstract

The invention relates to a circuit arrangement for safeguarding against failure of an LED or OLED chain with a plurality of series-connected LED or OLED luminous elements (1), a thyristor (3) being connected in parallel with each luminous element (1), said thyristor reproducing the electrical connection between the remaining luminous elements (1) when the luminous element (1) fails.

Description

Circuit arrangement and method for fail-safe operation of a LED or OLED chain.

Technical area

The present invention relates to a circuit arrangement for fail-safe operation of a chain of series-connected LED or OLED luminous elements, wherein each luminous element is connected in parallel with a thyristor or a TVS diode (Transient Voltage Suppression) in order, in the event of failure of one or more luminous elements, to operate the remaining ones To ensure functioning light elements of this chain by the thyristor or the TVS diode restores the connection between the remaining light elements.

State of the art

Today, LED or OLED lighting elements are used in a variety of lighting applications such as lighting. in large displays, signal lights used in motor vehicles etc. In most of these applications, a large number of light-emitting elements must be used. Since LEDs have a very low operating voltage, often several of these light elements are connected in series to improve the power distribution within the application.

However, the problem arises that in case of failure of a single lighting element, the entire chain of series-connected lighting elements fails because the circuit is interrupted. Since the LEDs are usually soldered on a panel, it is very difficult to restore the functionality of the entire application. The failure of a single element, however, would not be noticeable in the large number of built-in lighting elements. Presentation of the invention

The object of the present invention is therefore to provide a circuit arrangement with which the functionality of the luminous elements remaining in the chain is ensured in the event of a failure of at least one luminous element. This object is achieved by a circuit arrangement having the features of patent claim 1 and by a method having the features of patent claim 6.

The present invention is based on the finding that the above object can be achieved if each light-emitting element a protective element is connected in parallel, which monitors a failure of the light-emitting element and in the event that a light-emitting element has failed, the circuit closes again, so that the function the remaining lighting elements is guaranteed.

In the case of the circuit arrangement presented here, a thyristor is connected in parallel with each luminous element.

Alternatively, a thyristor replica of 2 transistors may be used instead of the thyristor.

For light element strings that require higher currents, a thyristor replica with 3 transistors is preferably used.

The thyristors / thyristor replicas are connected in such a way that they are switched off when the luminous elements function normally. If one of the lighting elements fails, then the thyristor connected in parallel or the thyristor simulation connected in parallel is switched on in a targeted manner in order to close the circuit interrupted by the defective lighting element and one again to ensure normal functioning of the remaining lighting elements of the chain.

In a further embodiment, a TVS diode is used instead of the thyristor, which requires no further wiring. If one light element fails, the TVS diode is deliberately overloaded, which destroys it. This is expressed in a short circuit of the diode, which thus closes the broken circuit again.

Short description of the drawing (s)

In the following, embodiments of a circuit arrangement according to the invention will now be described in more detail with reference to the accompanying drawings. Show it:

Fig. 1 The basic operation of the circuit arrangement according to the invention;

FIG. 2 shows the protective element of the circuit arrangement according to the invention in the embodiment with a thyristor; FIG.

Fig. 3 The protective element of the circuit arrangement according to the invention in the embodiment with a Thyristornachbildung with 2 transistors.

Fig. 4 The protective element of the circuit arrangement according to the invention in the embodiment with a Thyristornachbildung with 3 transistors.

Fig. 5 The protective element of the circuit arrangement according to the invention in the embodiment with a TVS diode. Fig. 1 shows a schematic representation of the structure of the circuit arrangement according to the invention. To every light element

(1) In the chain, a protective element (2) is connected in parallel. In case of failure of a lighting element (1), the protective element

(2) activated. It closes the circuit again to ensure the normal functioning of the remaining lighting elements (1).

Fig. 2 shows a first embodiment of the circuit arrangement according to the invention. Each light element is a thyristor

(3) connected in parallel. The anode of the thyristor is connected to the anode of the luminous element (1), and the cathode of the thyristor (3) to the cathode of the luminous element (1). The connection of the anode of the luminous element (1) with the anode of the thyristor (3) gives the connection point 1. The connection of the cathode of the luminous element (1) with the cathode of the thyristor (3) gives the connection point 2. Between junction 1 and the gate of the thyristor (3), a first resistor (4) is connected, between connection point 2 and the gate of the thyristor (3), a second resistor (5). The connection of the thyristor with the two resistors gives the connection point 3. The resistors are now designed so that the thyristor (3) is turned off when the light-emitting element (1) operates normally and the voltage corresponding to the lighting element between connection point 1 and connection point 2 is applied , If the light element fails, the voltage between connection point 1 and connection point 2 is substantially higher, so that the thyristor turns on, and the circuit closes again.

Fig. 3 shows a second embodiment of the circuit arrangement according to the invention. Here, a thyristor replica is used instead of the thyristor (3). This consists of a PNP transistor (6) and an NPN transistor (7). The emitter of the PNP transistor (6) is connected to the connection point 1. The base of the PNP transistor

(6) is connected to the collector of the NPN transistor (7). The base of the NPN transistor (7) is connected to the collector of the PNP transistor (6) and to the connection point 3. The emitter of the NPN transistor (7) is connected to the connection point 2. As in the first embodiment, the resistors are connected from the connection point 1 to the connection point 3 or from the connection point 2 to the connection point 3. The operation is the same as in the first embodiment, therefore, a repetitive explanation is omitted.

4 shows a third embodiment of the circuit arrangement according to the invention. This embodiment uses a thyristor replica suitable for high currents. This consists in addition to the components of the second embodiment still of a second NPN transistor (8). The emitter of the PNP transistor (6) is connected to the connection point 1. The base of the PNP transistor (6) is connected to the collector of the NPN transistor (7). The base of the NPN transistor (7) is connected to the collector of the PNP transistor (6) and to the connection point 3. The emitter of the NPN transistor (7) is connected to the base of the NPN transistor (8). The collector of the NPN transistor (8) is connected to the connection point 1. The emitter of the NPN transistor (8) is connected to the connection point 2. As in the first embodiment, the resistors are connected from the connection point 1 to the connection point 3 or from the connection point 2 to the connection point 3. The operation is the same as in the first embodiment, therefore, a repetitive explanation is omitted.

Fig. 5 shows a fourth embodiment of the circuit arrangement according to the invention. Here is a for Luminous element (1) antiparallel TVS diode (9) used as a protective element. The zener voltage is chosen so that the TVS diode (9) does not respond at normal forward voltage of the lighting element (1). If the light element falls

(1) off, the voltage across the TVS diode (9) becomes many times higher and it responds. The TVS diode (9) is now selected so that it can not withstand the now flowing current and is destroyed. This is expressed in a short circuit of the switching element, so that the failed luminous element (1) is permanently bridged by the destroyed TVS diode (9). The advantage of this embodiment lies in the fact that on a durchlegierten, so destroyed TVS diode

(9) no forward voltage drops. Of course, instead of a unipolar TVS diode (9), a bipolar TVS diode can also be used.

Claims

claims

1. Circuit arrangement for fail-safe operation of an LED or OLED chain with a plurality of series-connected LED or OLED lighting elements (1), characterized in that each lighting element (1) a thyristor (3) is connected in parallel, which in case of failure of the lighting element (1 ) restores the electrical connection between the remaining lighting elements (1).

2. A circuit arrangement according to claim 1, characterized in that instead of the thyristor (3) consisting of two transistors Thyristornachbildung (21) is used.

3. A circuit arrangement according to claim 1, characterized in that instead of the thyristor (3) consisting of 3 transistors Thyristornachbildung (22), which is suitable for high switching currents is used.

4. Circuit arrangement according to claims 1, 2 or 3, characterized in that for the wiring of the thyristor or the

Thyristornachbildungen two resistors (4, 5) are used, which are dimensioned so that the thyristor (3) or the Thyristornachbildungen not respond at normal forward voltage of the lighting element (1), in case of failure of the lighting element (1) but responsive and the interrupted Close the circuit again.

5. Circuit arrangement for fail-safe operation of an LED or OLED chain with a plurality of series-connected LED or OLED luminous elements (1), characterized in that each light-emitting element (1) a TVS diode (9) is connected in parallel, which restores the electrical connection between the remaining light-emitting elements (1) by targeted Durchlegieren the diode (9) in case of failure of the light-emitting element (1).

6. A method for fail-safe LED or OLED chain with a plurality of series-connected LED or OLED lighting elements (1), wherein each light-emitting element (1), a protective element (2) is connected in parallel, and the protective element (2) from a thyristor ( 3) or a Thyristornachbildung (21, 22) consists of transistors or a TVS diode (9), characterized by the following steps: a) determine whether a light-emitting element (1) has failed and the circuit breaks; b) closing the circuit by pressing the protective element (2).