DE102007001716A1 - Light-emitting diode circuit - Google Patents

Abstract

Light-emitting diode circuit arrangement comprising groups (1, 2; 3, 4; 5, 6) of parallel branches (1 to 6), the groups (1, 2; 3, 4; 5, 6) being arranged in series, wherein in at least one first group (1, 2) at least one first branch (1) at least one light-emitting diode (D1) and at least one second branch (2) does not comprise a light-emitting diode and wherein the branches (3 to 6) in the further groups (3, 4, 5, 6) comprise at least one light emitting diode each (D3 to D6), wherein in the first branch (1) of the first group (1, 2) in series with the light emitting diode (D1), a first controlled current source (Iq1) is arranged ,

Description

The The invention relates to a light-emitting diode circuit arrangement comprising Groups of parallel branches, with the groups arranged in series are at least a first group in at least a first group Branch at least one light emitting diode and at least a second branch does not include a light emitting diode and wherein the branches in the other groups at least one light emitting diode each.

A circuit arrangement of this kind is for example from the publication with the publication number DE 697 09 206 T2 known. In the cited document, a circuit arrangement for light emitting diodes is disclosed in which in the second branch of the first group, that is the branch without light emitting diode, a resistance element is arranged. The resistance element can be combined with a diode in particular also with a Zener diode. By the circuit arrangement described in this document, it is possible to arrange a number of N light-emitting diodes in N branches, wherein the series connection of the groups, however, comprises a total of M branches with M greater than N. The disadvantage of the circuit arrangement disclosed in the cited publication, however, is that a symmetrical current distribution within the branches of the series-connected groups is hindered and thus a uniform current regulation and as a consequence a uniform brightness control of all the LEDs is made more difficult.

In front Background of the disadvantages of the prior art, the beginning light emitting diode circuitry described so be trained that even in case of failure of the LED in the first branch the first group the remaining LEDs in the rest Branches can continue to operate at full power. This should also in case of failure of the LED in the first branch the Function of the circuit maintained.

These The object is achieved according to the invention that in the first branch of the first group in series with the light emitting diode a first controlled current source is arranged.

at a circuit arrangement according to the invention the first controlled power source meant to be the current through the first branch and arranged in the first branch LED adjust. Adjusting the current through the first light emitting diode can be independent of the current through the rest Light emitting diodes take place. It is advantageous in the first branch of the first Group arranged a first resistance component as a measuring resistor, the one with the first controlled current source to control the current connected by the first branch. A circuit arrangement according to the invention may include multiple first branches in the first group.

additionally to the first controlled current source, the inventive Circuit arrangement having a further controlled current source. These second controlled current source is preferably in the second branch the first group arranged. In one of the arranged in series Groups leading line can then be a second resistance device be arranged as a measuring resistor. This second resistance component interacts with the second controlled power source. Thereby is it possible to drive the current through the series circuit To regulate groups.

While the current through the branches of the further groups and through the second Branch of the first group essentially controlled by the second Power source is specified, the current through the first branch set by the first power source. The current through the first Branch can thus be independent of the currents through the remaining branches are adjusted.

in the trouble-free operation can be controlled by means of the first Current source of the current through the first branch of the first group a target current of the light emitting diode of the first branch can be set. In trouble-free operation is further by means of the second controlled current source of the current through the series circuit of Set groups. The current through the series connection of the groups can be set so that by each branch, in particular the branches of other groups of the same current flows.

On the other hand is an operation of the circuit arrangement according to the invention in case of failure, d. H. when selecting the LEDs in first branch so possible that by means of the second controlled Current source of the current through the series connection of the other groups is set so that the current through the branches of the others Groups is just as big as in trouble-free Business. The failure of the LED in the first branch thus has no Effect on the LED current of the remaining LEDs. The light emitted by the other LEDs remains light thus unaffected.

Based the attached drawing, the invention is below explained in more detail. It shows

1 a circuit diagram of the example of a circuit arrangement according to the invention.

The circuit arrangement according to the invention has a connection VCC for the positive potential of the power supply and an on GND for the negative potential of the supply voltage. About these connections VCC, GND circuit arrangement according to the invention to a voltage source, usually a motor vehicle electrical system is connected.

The circuit arrangement essentially comprises six branches 1 . 2 . 3 . 4 . 5 . 6 leading to three groups 1 . 2 ; 3 . 4 ; 5 . 6 are summarized with two branches each. The two branches of a group are connected in parallel and the groups are connected in series.

The first group 1 . 2 includes the two parallel branches 1 . 2 , which are connected to the connection VCC for the positive potential of the voltage source with the interposition of a resistor element R2sens. The third group 5 . 6 includes the two parallel branches 5 . 6 which are connected to the negative potential GND of the voltage source. The second group 3 . 4 includes the two parallel branches 3 . 4 the between the first group 1 . 2 and the third group 5 . 6 is arranged.

In the first branch 1 the first group 1 . 2 a resistance element R1sens, a controlled current source Iq1 and a light emitting diode D1 is inserted. The resistance element R1sens serves as a measuring resistor for the controlled current source Iq1. The current, the current source Iq1 is adjusted so that a current flows through the first branch, which corresponds to the nominal current of the light emitting diode D1.

In the second branch 2 the first group 1 . 2 a controlled current source Iq2 is also provided. Besides this second controlled current source Iq2, the second branch comprises 2 no further components. The second controlled current source Iq2 is connected to the second resistance element R2sens. The second resistance element R2sens serves as the second controlled current source Iq2 as a measuring resistor. With the second controlled current source Iq2, a current through the first, second and third group of the circuit arrangement is set.

In the branches 3 to 6 the second and the third group is arranged in each case a light-emitting diode D3, D4, D5, D6. The second resistance element R2sens and the second controlled current source Iq2 are coordinated or adjusted to one another such that the same current flows through all the light-emitting diodes.

In case of failure of the light emitting diode D1 in the first branch 1 In the first group, the second controlled current source Iq2 ensures that the remaining light-emitting diodes D3 to D6 are supplied with the same current without being influenced. As a result, the light emission is maintained.

VCC

connection for the positive potential of the voltage source

GND

connection for the negative potential of the voltage source

R1sens

first measuring resistor

R2sens

second measuring resistor

q1

first controlled power source

q2

second controlled power source

D1

LEDs of the first branch of the first group

D2 to D6

led Branches of other groups

1 until 6

branches the circuit arrangement

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

• - DE 69709206 T2 [0002]

Claims (8)

Light-emitting diode circuit arrangement comprising groups ( 1 . 2 ; 3 . 4 ; 5 . 6 ) of parallel branches ( 1 to 6 ), where the groups ( 1 . 2 ; 3 . 4 ; 5 . 6 ) are arranged in series, wherein in at least a first group ( 1 . 2 ) at least a first branch ( 1 ) at least one light-emitting diode (D1) and at least one second branch ( 2 ) does not comprise a light emitting diode and wherein the branches ( 3 to 6 ) in the other groups ( 3 . 4 ; 5 . 6 ) comprise at least one light-emitting diode (D3 to D6), characterized in that in the first branch ( 1 ) of the first group ( 1 . 2 ) in series with the light-emitting diode (D1), a first controlled current source (Iq1) is arranged. Light-emitting diode circuit arrangement according to claim 1, characterized in that in the first branch ( 1 ) of the first group ( 1 . 2 ) a first resistance component (R1sens) is arranged as a measuring resistor which is connected to the first controlled current source (Iq1) for regulating the current through the first branch ( 1 ) connected is. Light-emitting diode circuit arrangement according to claim 1 or 2, characterized in that in the second branch ( 2 ) of the first group ( 1 . 2 ) a second controlled current source (Iq2) is arranged. Light-emitting diode arrangement according to claim 3, characterized in that in a group arranged in series ( 3 . 4 ; 5 . 6 ) is arranged as a measuring resistor leading to the second controlled current source (Iq2) for controlling the current through series connection of the groups 1 . 2 ; 3 . 4 ; 5 . 6 ) connected is. Method for operating a light-emitting diode circuit arrangement according to one of claims 1 to 4, characterized in that in trouble-free operation by means of the first controlled current source (Iq1), the current through the first branch ( 1 ) of the first group ( 1 ; 2 ) to a desired current of the light-emitting diode (D1) of the first branch ( 1 ) is set. A method according to claim 5, characterized in that in trouble-free operation by means of the second controlled current source ( q2 ) the current through the series connection of the groups ( 1 . 2 ; 3 . 4 ; 5 . 6 ) is set. Method according to claim 6, characterized in that the current through the series connection of the groups ( 1 . 2 ; 3 . 4 ; 5 . 6 ) is adjusted so that by each branch ( 1 to 6 ), in particular the other groups ( 3 . 4 ; 5 . 6 ) the same current flows. Method according to one of claims 5 to 7, characterized in that in case of failure of the light emitting diode (D1) of the first branch ( 1 ) by means of the second controlled current source (Iq2), the current through the series circuit ( 3 . 4 ; 5 . 6 ) of the further groups is set so that the current through the branches ( 3 to 6 ) of the other groups ( 3 . 4 ; 5 . 6 ) is the same size as in trouble-free operation.