EP1566989A1 - Method and apparatus for driving lamps using an electronic ballast - Google Patents

Abstract

Before operating the electronic starter unit (1), or during its operational phase, data from the electronic starter unit is registered. This is independent of its instantaneous operating state and/or of lamps (2) operated by it. The data is stored in a memory (16a) of the electronic starter unit. Even when this unit is switched off, or brought into operational readiness, the data remains in EEPROM memory. An independent claim is included for the corresponding electronic starter unit.

Description

The invention relates to a method for operating lamps on an electronic Ballast according to the preamble of patent claim 1 and an electronic Ballast for lamps. The term lamps are meant in the sense the invention understood all types of electrically operated light sources. Especially are termed high-pressure discharge lamps, low-pressure discharge lamps, Fluorescent lamps, incandescent lamps, halogen lamps and light-emitting diodes subsumed. As electronic ballast such ballasts designated for the operation of lamps, from the AC mains voltage Generate voltage with a significantly higher frequency, in order to derive the supply voltage for the lamps. For example, these are electronic ballasts for the operation of one or more discharge lamps, electronic Transformers for operating low-voltage halogen incandescent lamps or driver circuits for light-emitting diodes.

I. State of the art

The published patent application WO 02/41671 A2 describes a lighting installation several electronic ballasts for operating connected thereto Lamps and a central control device for these ballasts. The Electronic ballasts exchange digital with the central control device Data from. This communication takes place according to the standardized so-called DALI protocol. The abbreviation DALI stands for Digital Addressable Lighting Interface.

II. Presentation of the invention

It is the object of the invention to provide a method for operating lamps on a Electronic ballast to provide an automatic inventory the arranged in a lighting system electronic ballasts and the lamps operable or connected thereto. Moreover, it is the object of the invention, a corresponding electronic To provide ballast.

This object is achieved by the features of claim 1 or 7 solved. Particularly advantageous embodiments of the invention are in the dependent Claims described.

The inventive method for operating lamps on an electronic Ballast is characterized by the fact that before commissioning the Electronic ballast or during an operating phase of the electronic Ballast from the current operating state independent data of the Electronic ballast or the lamps that can be operated on it, stored in a memory element of the electronic ballast, so this data even when the electronic ballast is switched off or in standby mode, that is, in the so-called stand-by mode, of the electronic Ballast remain stored.

This ensures that this data is used for a diagnosis or an evaluation, for example, by means of a computer, which for diagnostic purposes to an interface the lighting system is connected, or by means of a central Control device, all the electronic ballasts of the lighting system during a commissioning phase of the lighting system to which the Electronic ballast belongs to be available. The data is preferably the identifier of the electronic ballast and the Identification of the lamp types that can be operated on it. By means of this Data can be an inventory of the integrated in a lighting system Electronic ballasts and the operable lamps performed become.

The memory element for this data is advantageously used an EEPROM since This semiconductor device its memory contents permanently, that is, even when switched off Supply voltage stored.

Advantageously, during an operating phase of the lamp type of the electronic Ballast connected lamps detected and this information stored in the memory element of the electronic ballast. Thereby can by means of a computer, which for diagnostic purposes to an interface of the lighting system is connected, or by means of a central control device the lighting system that controls the electronic ballast, an inventory actually on the electronic ballasts of the lighting system connected lamps are performed. In addition, it will allows fault diagnosis on the connected lamps during operation perform and store their result also in the memory element. Preferably during operation the information becomes the result the on the electronic ballast and the lamps connected to it performed fault diagnosis in the memory element of the electronic ballast saved. As a result, at a central location, for example by means of a computer that is used for diagnostic purposes to an interface of the lighting system is connected, or by means of a central control device of the lighting system, defective electronic ballasts and defective lamps on these Electronic ballasts are detected.

Particularly advantageous are the data via an interface of the electronic Ballast for connecting an external control device to the digital Control of the electronic ballast is provided, using a communication protocol for digital control of the electronic Ballast by means of the aforementioned central control device the memory element read or written to the memory element. Thereby ensures that the evaluation of the memory element in each electronic Ballast stored data or the diagnosis of the system not only be performed by a computer connected for diagnostic purposes can, but also by means of the central control device connected to the electronic Ballasts of the lighting system digital signals according to a communication protocol exchanges, a diagnosis and error handling of the system can be made. Preferably, the communication protocol is the communication between the electronic ballasts and the central Control device of the lighting system is based, compatible with the standardized communication protocol designed according to DALI, so that the inventive Method in combination with the aforementioned standardized Communication protocol can be used. For reading out in the Memory element of each electronic ballast stored data and writing these data into the respective memory element becomes codes used in accordance with the standardized communication protocol according to DALI are assigned to a control command and no function.

The inventive electronic ballast for lamps can by means of a Communication Protocols are controlled and has a memory element for Storage of information, which is designed according to the invention such that it independent of the current operating state data of the electronic ballast and / or the lamps operable thereon can store permanently. The memory element is advantageous as EEPROM, that is as Electrical Erasable Programmable Read Only Memory, designed as this storage element stored Information preserved even when the supply voltage is switched off.

III. Description of the Preferred Embodiment

Figur 1

eine schematische Darstellung des Aufbaus des Elektronischen Vorschaltgerätes gemäß eines bevorzugten Ausführungsbeispiels der Erfindung

Figur 2

eine schematische Darstellung einer Beleuchtungsanlage mit mehreren der in Figur 1 abgebildeten Elektronischen Vorschaltgeräten

The invention will be explained in more detail below with reference to a preferred embodiment. Show it:

FIG. 1

a schematic representation of the structure of the electronic ballast according to a preferred embodiment of the invention

FIG. 2

a schematic representation of a lighting system with several of the illustrated in Figure 1 electronic ballasts

The schematically illustrated in Figure 1 Electronic ballast 1 is used for Operating a fluorescent lamp 2. This ballast 1 has a mains voltage connection 31 for connecting a power supply line 32 and a control terminal 41 for connecting a control line 41. The mains voltage connection 31 leads via a radio interference filter 11 and a rectifier with power factor correction circuit 12 to a smoothing capacitor 13, the a downstream inverter 14, for example a half-bridge inverter, supplied with DC power. The inverter 14 contains essentially the functional blocks lamp circuit 14a for ignition and operation the gas discharge in the fluorescent lamp 2 and heating circuit 14b for heating the electrodes of the fluorescent lamp 2 and is connected via a transformer 15 with taps for heating the electrodes connected to the lamp 2.

The control terminal 41 is connected to a digital interface 17 and supplies via this a control signal to a microcontroller 16 with memory 16a. This Microcontroller 16 is used to control the inverter 14 and the Power factor correction circuit 12, that is, for controlling the lamp operation including heating the electrodes, igniting the gas discharge and brightness control the lamp 2. The memory 16a also includes an EEPROM in which preferably from the current operating state of the ballast 1 and the lamp 2 independent data are stored. In particular, in the EEPROM the memory 16a, the identifier of the electronic ballast 1 and the identifiers the lamp types that can be operated on this ballast 1, saved. In addition, the EEPROM also identifies the lamp type the lamp 2 actually connected to the ballast 1 and current information on the result of last performed fault diagnostics on this Ballast 1 and the lamp 2 stored.

FIG. 2 schematically shows a lighting system, the reference numerals 1-11 to 1-n and 1-21 to 1-m electronic ballasts of the type shown in FIG 1 and the reference numerals 2-11 to 2-n and 2-21 to 2-m thereto designate connected fluorescent lamps. These ballasts and the attached lamps are arranged in different rooms. to Illustrations are only two rooms in Figure 2, namely room 1 and room 2 represented by the dashed horizontal line. The lighting system points also two control devices 3a and 3b and controls for the Control devices 3a, 3b, which are both arranged in the space 1, respectively. In the space 2 is a similar operating element 7a for the control device 3a arranged. The control device 3a performs functions from both rooms can be operated while the controls 7b of the control device 3b are only accessible from the first room. By means of the control device 3a and their controls 7a, for example, the lighting in the individual Rooms are decentrally controlled, while the central functions of the lighting system, such as their commissioning and monitoring of functionality their components, by means of the central control device 3b and its controls 7b performed by authorized personnel from the first room becomes. Both control devices 3a, 3b are with control signal outputs each with two bus signal lines 42 connected, the branches of which shown in Figure 1 Control line 42 correspond. The two control devices 3a, 3b can of course be designed as a structural unit. The mains voltage supply 32 of the Electronic ballasts is not shown in FIG.

The communication between the control devices 3a, 3b and the electronic ballasts 1-11 to 1-n and 1-21 to 1-m is bidirectional, that is, via the bipolar bus line 42, digital data is exchanged in both directions. These data are coded in 16-bit format according to the standardized communication protocol DALI. The 16-bit format allows a total of 2 ¹⁶ different codes for data exchange, not all of which are used by the aforementioned standardized communication protocol.

Therefore, some of the standardized communication protocol can not used codes with control commands for fault diagnosis or monitoring of the Lighting system can be occupied, for example, via the controls 7b and the control device 3b is initiated. In particular, for each individual Electronic Ballast 1-11 to 1-n and 1-21 to 1-m as well as for each one the lamps connected thereto 2-11 to 2-n and 2-21 to 2-22 information be retrieved in the EEPROM of the memory 16a of each of these ballasts about the respective ballast and the connectable or connected lamps are stored. For example, in the EEPROM of the Memory 16a of each electronic ballast, the identifier of this ballast and the identifiers of the connectable lamp types and the Identification of the lamp currently connected to this ballast. Thereby, by retrieving this information by means of the control device 3b made an inventory of all components of the lighting system become. Additionally, in the EEPROM of each electronic ballast 1-11 to 1-n and 1-21 to 1-m Information about the result of the last performed Fault diagnosis on the respective ballast and the associated ballast Lamps saved. That is, by means of the control device 3b can also be retrieved which of the electronic ballasts 1-11 to 1-n and 1-21 to 1-m as well as which of the lamps 2-11 to 2-n and 2-21 to 2-m is defective.

The aforementioned fault diagnosis leads each electronic ballast for itself and its connected lamps automatically during operation by means of the im Microcontroller 16 stored program. The corresponding memory content of the EEPROM is updated with the current result of the last error diagnosis overwritten when it comes from the result of the previously performed fault diagnosis differs. The detection of the lamp type to the respective electronic Ballast connected lamp is also using the in the microcontroller 16 implemented program and in the EEPROM of the Memory 16a of the respective ballast stored. For detecting the lamp type the lamp connected to the respective ballast is switched off after Switching on the lamp during the preheating phase of the lamp electrodes their cold and heat resistance according to the in the German patent application with the official Reference No. 103 45 610.4 measured and evaluated.

The invention is not limited to the example explained in more detail above. The im EEPROM stored data does not necessarily have to be by means of a central control device be retrieved from the lighting system. It also possible to call this data from the EEPROM of the memory 16a and optionally for Writing data into the EEPROM of the memory 16a of the respective ballast to use a computer for the duration of the diagnosis or monitoring or programming the lighting system via the bus lines 42 with connected to the ballasts. The communication between the computer and the microcontroller 16 of the respective ballast can by means of an additional, second communication protocol, not necessarily compatible with the standardized communication protocol according to DALI have to be. A communication method using an additional communication protocol is in the German patent application with the official file number 103 23 689.9.

Claims (8)

Method of operating lamps on an electronic ballast (1), taking before the commissioning of the electronic ballast (1) or during an operating phase of the electronic ballast (1) independent of the current operating state data of the electronic Ballast (1) and / or the electrical operated thereon. lamps (2) in a memory element (16a) of the electronic ballast (1) be stored, so that the data even with electronic off Ballast (1) or in standby mode of the electronic Ballast (1) remain stored. A method according to claim 1, characterized in that the data is stored in an EEPROM. A method according to claim 1, characterized in that during an operating phase of the lamp type of the ballast (1) connected electric lamps (2) is determined and this information in the memory element (16a) is stored. Method according to Claim 1 or 3, characterized in that information relating to the result of fault diagnostics carried out during operation on the ballast (1) and / or on the lamps (2) connected thereto is additionally stored in the memory element (16a). Method according to one or more of claims 1 to 4, characterized in that the data via an interface (17) of the electronic ballast (1), which is provided for connecting an external control device (3b) for digital control of the electronic ballast (1) , are read from the memory element (16a) or written to the memory element (16a) using a communication protocol for the digital control of the electronic ballast (1). A method according to claim 5, characterized in that the communication protocol is compatible with the standardized communication protocol according to DALI and for the storage and / or reading of the data stored in the memory element (16a) codes are used, which are not occupied according to the standardized communication protocol DALI. Electronic ballast for lamps, in which the operation of the lamps (2) can be controlled by digital control of the ballast (1) by means of a communication protocol, wherein the ballast (1) has a memory (16a) for storing information, characterized in that the memory (16a) has a memory element which is designed such that it can permanently store data of the ballast (1) which is independent of the instantaneous operating state and / or the lamps (2) which can be operated thereon. Ballast according to claim 7, characterized in that the memory element (16a) is designed as an EEPROM.

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