초록 ▼

A circuit arrangement for an LED array having two or more parallel-connected LED chains (LK1, LK2, LK3), in each of which at least one LED (2) is arranged and, when there are two or more LEDs (2), the latter are connected in series. In each case, the anode sides of the LED chains (LK1, LK2, LK3) can

A circuit arrangement for an LED array having two or more parallel-connected LED chains (LK1, LK2, LK3), in each of which at least one LED (2) is arranged and, when there are two or more LEDs (2), the latter are connected in series. In each case, the anode sides of the LED chains (LK1, LK2, LK3) can be coupled to the positive pole of a supply voltage (Uv) and the cathode sides can be coupled to the negative pole of the supply voltage (Uv). A regulating arrangement (RA1, RA2, RA3) for regulating an intended current distribution between the individual LED chains (LK1, LK2, LK3) is case connected in series with the respective LED chain (LK1, LK2, LK3).

대표청구항 ▼

The invention claimed is: 1. A circuit arrangement for an LED array, comprising: a plurality of parallel-connected LED chains, in each of which at least one LED is arranged, and when there are two or more LEDs, the latter are connected in series, in which anode sides of the respective LED chains ar

The invention claimed is: 1. A circuit arrangement for an LED array, comprising: a plurality of parallel-connected LED chains, in each of which at least one LED is arranged, and when there are two or more LEDs, the latter are connected in series, in which anode sides of the respective LED chains are coupled to a positive pole of a supply voltage and cathode sides of the respective LED chains are coupled to a negative pole of the supply voltage; a plurality of regulating arrangements for regulating a predetermined current distribution among the LED chains, with said plurality of regulating arrangements being respectively connected in series with said LED chains such that each of said LED chains has a different one of said plurality of regulating arrangements connected in series with said each LED chain; wherein each of said regulating arrangements includes one of a following transistor arrangement: a) a bipolar transistor, a collector terminal of which is connected to the cathode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the negative pole of the supply voltage, or b) a bipolar transistor, a collector terminal of which is connected to the anode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the positive pole of the supply voltage; a drive circuit applying a predetermined current to base terminals of the bipolar transistors; and wherein said drive circuit comprises a series circuit formed by a diode and a resistor, said series circuit being arranged between the respective collector terminal and the respective base terminal of the transistor of a regulating arrangement. 2. The circuit arrangement for an LED array as claimed in claim 1, wherein each of said regulating arrangements comprises a current amplifying circuit for impressing a current into the LED chains in accordance with the predetermined current distribution. 3. The circuit arrangement for an LED array as claimed in claim 2, wherein each of said current amplifying circuits has a regulating input for regulating the current in the associated LED chain, the regulating inputs for said current amplifying currents being connected to one another. 4. The circuit arrangement for an LED array as claimed in claim 1, wherein the emitter resistors serve for setting the currents in the respective LED chains. 5. The circuit arrangement for an LED array as claimed in claim 1, wherein the values of the emitter resistors lie between 1 ohm and 100 ohms. 6. The circuit arrangement for an LED array as claimed in claim 5, wherein the values of the emitter resistors are approximately 10 ohms. 7. The circuit arrangement for an LED array as claimed in claim 1, wherein the LED array is a light signal device. 8. The circuit arrangement for an LED array as claimed in claim 1, wherein the base terminals of the bipolar transistors are connected to one another. 9. A circuit arrangement for an LED array, comprising: a plurality of parallel-connected LED chains, in each of which at least one LED is arranged, and when there are two or more LEDs, the latter are connected in series, in which anode sides of the respective LED chains are coupled to a positive pole of a supply voltage and cathode sides of the respective LED chains are coupled to a negative pole of the supply voltage; a plurality of regulating arrangements for regulating a predetermined current distribution among the LED chains, with said plurality of regulating arrangements being respectively connected in series with said LED chains such that each of said LED chains has a different one of said plurality of regulating arrangements connected in series with said each LED chain; wherein each of said regulating arrangements includes one of a following transistor arrangement: a) a bipolar transistor, a collector terminal of which is connected to the cathode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the negative pole of the supply voltage, or b) a bipolar transistor, a collector terminal of which is connected to the anode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the positive pole of the supply voltage; a drive circuit applying a predetermined current to base terminals of the bipolar transistors; and wherein the drive circuit comprises a zener diode connected to the positive pole of the supply voltage and adapted to be operated in the reverse direction with respect to the supply voltage, and the anode of which is connected to the control inputs or to the base terminals. 10. The circuit arrangement for an LED array as claimed in claim 9, wherein a fuse is connected in series with the zener diode. 11. The circuit arrangement for an LED array as claimed in claim 10, wherein said fuse is a fusible resistor. 12. The circuit arrangement for an LED array as claimed in claim 9, wherein a resistor is connected in series with the zener diode. 13. The circuit arrangement for an LED array as claimed in claim 12, wherein the value of the resistor connected in series with the zener diode lies between 100 ohms and 1000 ohms. 14. A circuit arrangement for an LED array, comprising: a plurality of parallel-connected LED chains, in each of which at least one LED is arranged, and when there are two or more LEDs, the latter are connected in senes, in which anode sides of the respective LED chains are coupled to a positive pole of a supply voltage and cathode sides of the respective LED chains are coupled to a negative pole of the supply voltage; a plurality of regulating arrangements for regulating a predetermined current distribution among the LED chains, with said plurality of regulating arrangements being respectively connected in series with said LED chains such that each of said LED chains has a different one of said plurality of regulating arrangements connected in series with said each LED chain; wherein each of said regulating arrangements includes one of a following transistor arrangement: a) a bipolar transistor, a collector terminal of which is connected to the cathode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the negative pole of the supply voltage, or b) a bipolar transistor, a collector terminal of which is connected to the anode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the positive pole of the supply voltage; a drive circuit applying a predetermined current to base terminals of the bipolar transistors; and wherein the drive circuit comprises a zener diode connected to the negative pole of the supply voltage and adapted to be operated in the reverse direction with respect to the supply voltage and the cathode of which is connected to the control inputs or to the base terminals. 15. The circuit arrangement for an LED array as claimed in claim 14, wherein a fuse is connected in series with the zener diode. 16. The circuit arrangement for an LED array as claimed in claim 15, wherein said fuse is a fusible resistor. 17. The circuit arrangement for an LED array as claimed in claim 14, wherein a resistor is connected in series with the zener diode. 18. The circuit arrangement for an LED array as claimed in claim 17, wherein the value of the resistor connected in series with the zener diode lies between 100 ohms and 1000 ohms. 19. A circuit arrangement for an LED array comprising: a plurality of parallel-connected LED chains, in each of which at least one LED is arranged, and when there are two or more LEDs, the latter are connected in series, in which anode sides of the respective LED chains are coupled to a positive pole of a supply voltage and cathode sides of the respective LED chains are coupled to a negative pole of the supply voltage; a plurality of regulating arrangements for regulating a predetermined current distribution among the LED chains, with said plurality of regulating arrangements being respectively connected in series with said LED chains such that each of said LED chains has a different one of said plurality of regulating arrangements connected in series with said each LED chain; and wherein each of said regulating arrangements includes a bipolar transistor, a collector terminal of which is connected to the anode side of the associated LED chain, and an emitter terminal of which is connected via an emitter resistor to the positive pole of the supply voltage, base terminals of the transistors being connected to one another, and a drive circuit applying a predetermined current to the base terminals of the transistors. 20. The circuit arrangement for an LED array as claimed in claim 19, wherein the values of the emitter resistors lie between 1 ohm and 100 ohms. 21. The circuit arrangement for an LED array as claimed in claim 19, wherein the LED array is a light signal device. 22. A circuit arrangement for an LED array comprising: a plurality of parallel-connected LED chains, in each of which at least one LED is arranged, and when there are two or more LEDs, the latter are connected in series, in which anode sides of the respective LED chains are coupled to a positive pole of a supply voltage and cathode sides of the respective LED chains are coupled to a negative pole of the supply voltage; a plurality of regulating arrangements for regulating a predetermined current distribution among the LED chains, with said plurality of regulating arrangements being respectively connected in series with said LED chains such that each of said LED chains has a different one of said plurality of regulating arrangements connected in series with said each LED chain; and wherein a fuse is connected in series with each of the LED chains.