Ballast for luminous means having a microprocessor and a programming interface

What is claimed is: 1. A component of a lighting system comprising one of a ballast for LED lamps and a sensor, the component also comprising a microprocessor ( 2 ) with at least one memory unit ( 3 ), and a printed circuit board ( 1 ) with at least one programming interface (P), and at least one signaling interface (S) attached to it, wherein the microprocessor can be configured via the programming interface (P), and wherein at least one application software (A) that can be executed by the microprocessor ( 2 ) via the programming interface (P) can be transmitted to the at least one memory unit ( 3 ), wherein the application software (A) has an effect on at least one of the following functions of the component: interaction with other additional sensors, evaluation of signals transmitted to the signaling interface (S), activation of lamps, activation/deactivation of interfaces of the component, activation/deactivation of communication protocols, and recording, adjustment and/or evaluation of operating data and/or operating parameters of the ballast (V), structure of a network, linking of networks; and wherein the programming interface (P) is blocked, and can be activated by inputting and/or transmitting a code. 2. The component according to claim 1 , wherein the at least one application software (A) provides, makes available, and/or modifies an application programming interface. 3. The component according to claim 1 wherein the microprocessor executes a hardware abstraction layer, via which the at least one application software (A) accesses the programming interface (P) and/or the signaling interface (S). 4. The component according to claim 1 wherein the programming interface (P) is a wireless and/or wire-connected interface comprising a Bluetooth, WLAN, LAN, GPIO, Zigbee interface or a combination of these interfaces. 5. The component according to claim 1 wherein the signaling interface (S) serves to connect at least one signaling unit comprising one of, a switch, a button, a timer switch, a remote control, a presence sensor ( 5 ), a brightness sensor, a humidity sensor ( 6 ), a temperature sensor, and a microphone ( 5 ). 6. The component according to claim 1 wherein the signaling interface (S) is configured as a DALI, DSI, SPI, USB, I 2 C interface or a combination thereof. 7. The component according to claim 1 wherein the programming interface (P) and the signaling interface (S) use the same hardware, and are different only in terms of software. 8. The component according to claim 1 wherein the component is a ballast and the ballast (V) communicates with other ballasts and at least one converter ( 8 ) via at least one interface in a wireless manner over a bus wire-connected by radio transmission manner or combination thereof. 9. The component according to claim 1 wherein the application software (A) is configured to selectively block and/or enable a function provided by at least the programming interface (P), the signaling interface (S), and/or the application programming interface. 10. The component according to claim 1 wherein the at least one programming interface (P) is accessible from outside the component and the at least one signaling interface (S) is accessible from outside the component. 11. A component of a lighting system comprising one of a ballast for LED lamps and a sensor, the component also comprising a microprocessor ( 2 ) with at least one memory unit ( 3 ), and a printed circuit board ( 1 ) with at least one programming interface (P), and at least one signaling interface (S) attached to it, wherein the microprocessor can be configured via the programming interface (P), and wherein at least one application software (A) that can be executed by the microprocessor ( 2 ) via the programming interface (P) can be transmitted to the at least one memory unit ( 3 ), wherein the application software (A) has an effect on at least one of the following functions of the component: interaction with other additional sensors, evaluation of signals transmitted to the signaling interface (S), activation of lamps, activation/deactivation of interfaces of the component, activation/deactivation of communication protocols, and recording, adjustment and/or evaluation of operating data and/or operating parameters of the ballast (V), structure of a network, linking of network; and wherein the programming interface (P) and the signaling interface (S) use the same hardware, and are different only in terms of software. 12. The component according to claim 11 , wherein the at least one application software (A) provides, makes available, and/or modifies an application programming interface. 13. The component according to claim 11 wherein the microprocessor executes a hardware abstraction layer, via which the at least one application software (A) accesses the programming interface (P) and/or the signaling interface (S). 14. The component according to claim 11 wherein the programming interface (P) is a wireless and/or wire-connected interface comprising a Bluetooth, WLAN, LAN, GPIO, Zigbee interface or a combination of these interfaces. 15. The component according to claim 11 wherein the signaling interface (S) serves to connect at least one signaling unit comprising one of, a switch, a button, a timer switch, a remote control, a presence sensor ( 5 ), a brightness sensor, a humidity sensor ( 6 ), a temperature sensor, and a microphone ( 5 ). 16. The component according to claim 11 wherein the signaling interface (S) is configured as a DALI, DSI, SPI, USB, I 2 C interface or a combination thereof. 17. The component according to claim 11 wherein the programming interface (P) is blocked, and can be activated by inputting and/or transmitting a code. 18. The component according to claim 11 wherein the component is a ballast and the ballast (V) communicates with other ballasts and at least one converter ( 8 ) via at least one interface in a wireless manner over a bus wire-connected by radio transmission manner or combination thereof. 19. The component according to claim 11 wherein the application software (A) is configured to selectively block and/or enable a function provided by at least the programming interface (P), the signaling interface (S), and/or the application programming interface. 20. The component according to claim 11 wherein the component is a ballast and the at least one programming interface (P) is accessible from outside the ballast and the at least one signaling interface (S) is accessible from outside the ballast.