DE102008033191A1 - A method of operating a high pressure discharge lamp in a video projection apparatus, electronic ballast, video projection apparatus and computer program products - Google Patents

Abstract

In order for a high-pressure discharge lamp (10), which is energized by an electronic ballast (12), to be reactivated as soon as possible in a video projection device (14) after a switch-off, the lamp (10) is intended to be switched off after a switch-off in that the video projection device (14) issues commands to the electronic ballast (12) which determine the current intensity (IAC) with which the high-pressure discharge lamp (10) is applied, so that its power is also determined. At the same time in the electronic ballast (14) a fan (34) are tuned to control the lamp operated.

Description

Technical area

The The invention relates to a method for operating a high-pressure lamp in a video projection device. It also concerns an electronic one Ballast and an associated computer program product, the implementation of the invention Allow procedure. It also concerns a video projection device and an associated computer program product containing the Implementation of the method according to the invention enable.

State of the art

The Invention has in the present case originated from the problem as a Shut down high pressure discharge lamp after a shutdown is. High-pressure discharge lamps, in particular high-pressure discharge lamps have the property that in them during the operation Temperatures of up to several 1000 ° C prevail and the pressure in the lamp is more than 200 bar. Will the high pressure discharge lamp Off, these conditions will cause the lamp to be short-circuited only with high voltage, about 20 kV be ignited again can. Usually, in such high-pressure discharge lamps but only a lower voltage ignition of about 1 to 3 kV provided. Such ignition is only after the lamp has cooled down and at the same time the temperature has dropped Gas pressure possible. This cooling can take a while take more than a minute to complete.

you In the past, this has changed to high pressure discharge lamps to go through a special shutdown.

So is in the US 2002/0135324 A1 described that an arc discharge is maintained in such a lamp after a shutdown, but the lamp power is reduced.

With a similar problem the concern JP 2004-319193 and the WO 2007/132369 A2 , In the WO 2007/132369 A2 In this case, a special switch-off process is described in which the power is greatly reduced immediately after switching off and then increased again. In this application it is stated that the lamp can be used in a projector system (video projection device).

The Control of the lamp of a high pressure discharge lamp is typically by means of an electronic ballast. In one Video projection device will be connected to the electronic ballast from a data processing unit of the video projection apparatus recorded operations to the electronic ballast communicated by means of suitable signals. Here are the signals a binary content, so it is communicated that one Operator action has taken place or not. This is especially true also for switching on and off: A data processing unit of the video projection device tells the electronic control unit in the prior art with that to initiate a turn-off is. The electronic ballast now has the task of to design this switch-off. This can then be done accordingly the teachings of the above cited prior art documents happen.

In Video projection devices poses the question of a reconnection after switching off a high pressure discharge lamp a particularly delicate Problem because a user is used to a device to be able to switch on again immediately when it is switched off Has. High-pressure discharge lamps are used in video projection devices Therefore, it must be prevented that the user has a period of time of up to a minute before turning the lamp back on can.

Presentation of the invention

The The object of the present invention is to operate a high-pressure discharge lamp in make a video projection device user-friendly.

These Task is by a method according to claim 1 solved. The inventive method is through the use of an electronic ballast according to claim 4 in a video projection apparatus according to claim 6 allows. Computer program products, in particular data carriers which have a computer program, that on such an electronic ballast or Video projection device is playable so that the inventive Method is feasible, are in the claims 5 and 9 claims.

• – Erfassen von zumindest einem Bedienvorgang durch eine von dem elektronischen Vorschaltgerät verschiedene Einheit des Videoprojektionsgeräts,
• – Abgeben von zumindest einem Befehl durch die Einheit zu dem elektronischen Vorschaltgerät,
• – Beaufschlagen der Hochdruckentladungslampe durch das elektronische Vorschaltgerät mit einem Strom, dessen Stromstärke durch den zumindest einen Befehl festgelegt ist.

The inventive method for operating a high pressure discharge lamp in a video projection apparatus, wherein the high pressure discharge lamp is energized by an electronic ballast, thus comprises the steps:

• Detecting at least one operating procedure by a unit of the video projection apparatus which is different from the electronic ballast,
• Delivering at least one instruction by the unit to the electronic ballast,
• - Actuation of the high-pressure discharge lamp by the electronic ballast with a current whose current through the at least a command is set.

By The invention makes it possible beyond the electronic Ballast for the implementation certain operations. In particular, said Unit of the video projection device via the commands to the electronic ballast independently to design the switch-off process. In this case, the recorded Operation, an operation of an on-off switch of the video projection device. This can be considered in the actual video projection device without the electronic ballast, optimally the characteristics of the video projection device. at different video projection devices can the commands look different, and the electronic ballast just have to react. It can in particular a plurality of Orders are issued, so that individual steps to be performed Method can be determined by the video projection device.

moreover It is possible that more units are coordinated with the high-pressure discharge lamp to be operated. An example for Such additional units is the fan, which is used for cooling the high pressure discharge lamp is used and part of the video projection device is. It is then advantageous if the video projection device the shutdown of the high pressure discharge lamp and its cooling tuned by the fan. In this case So, the unit makes the commands to the electronic ballast with commands to another unit or the delivery of control signals to at least one other unit.

The Electronic ballast according to the invention for a high pressure discharge lamp has an input terminal for external commands and output connections for the high pressure discharge lamp. The electronic ballast is designed to - typically by filing one suitable program in a store and the possibility from its implementation in a microprocessor - via to evaluate the input ports incoming commands and these commands into an action on the output ports with electric current with a current defined by the commands implement.

The electronic ballast meets important Tasks in the control of the high pressure discharge lamp. The invention However, electronic ballast is different than electronic Ballasts from a control of certain procedures relieved. Rather, it is able to receive drive commands and implement. This allows one and the same electronic ballast used in a plurality of video projection devices while in every single video projection device individually fitting commands are generated so that the video projection device can be optimally served.

Already in the provision of a computer program by means of which designed the electronic ballast according to the invention can be a utility on a computer program product of the present invention.

The Video projection device according to the invention has a connector for connecting an electronic Ballast for a high pressure discharge lamp on. It also has a data processing unit coupled to the port. Finally, it has at least one with the data processing unit coupled control on. The data processing unit is designed, in particular by filing a program a corresponding computer program in a memory and the Possibility of carrying it out in a microprocessor, to detect an actuation of the at least one operating element and depending on it, commands for at least indirect Setting a current to set and over the connection to a connected electronic ballast leave. Indirectly, the determination of the current when the commands indicate a target power. Then play too still a tension a role.

The Video projection device according to the invention is with the electronic ballast according to the invention combined. In this case, the video projection device takes over Tasks that would otherwise have an electronic Vorschaltge advises namely to set the current intensity for the high pressure discharge lamp. By the design (programming) of the video projection device or his data processing unit can thus constructional peculiarities of Video projection device.

The at least one operating element is preferably an on-off switch for the video projection device. In this case the data processing unit can in particular determine the switch-off process, which passes through the electronic ballast. This goes beyond the state of the art in video projection devices can only trigger the switch-off process as such, but not on its design (determination of individual currents) Can influence.

Prefers the data processing unit is also with a fan (Fan) coupled to control this. Then can the commands for determining a current with control commands be tuned for or signals to the fan.

From The invention is already achieved by the provision of a computer program made use of on a computer program product when the computer program a corresponding design of the data processing unit to provide a video projection device according to the invention allows.

Short description of the drawing

in the The object of the invention is based on an exemplary embodiment be explained in more detail. It shows:

1 schematically the construction of some components of a video projection device with a high-pressure discharge lamp and an associated electronic ballast and

2 a flow chart, with reference to which the operation of turning off a high-pressure discharge lamp is explained.

Preferred embodiment the invention

A high pressure discharge lamp 10 is via an electronic ballast 12 charged with current I _AC . In the present case, the high-pressure discharge lamp 10 be used in a video projection device. If one then views the high-pressure discharge lamp with the associated electronic ballast as part of the video projection device, are in 1 schematically with the other components of the video projection device with 14 designated. This is the actual video projection device, in which then the electronic ballast 12 with the high pressure discharge lamp 10 can be installed.

On the video projection device is located as an operating element on-off switch 16 , By actuating a switch, a current flow is usually effected. The current flow is then detected. A corresponding information about pressing the on-off switch 16 should in the present case a microprocessor 18 be fed in what 1 symbolized by a simple connection line. The microprocessor 18 is a store 20 assigned. In the store 20 is a suitable computer program stored, which is carried out by the microprocessor. The computer program in the store 20 In the present case, the purpose of the present invention is to carry out the method according to the invention explained below.

In particular, the basis of the 2 explained below method is due to commands RxD of the microprocessor to the electronic ballast 12 be performed. There is a connection line for this purpose 22 for transmitting commands from the microprocessor 18 to the electronic ballast 12 in particular to a microprocessor 24 of the electronic ballast 12 , The microprocessor 24 of the electronic ballast 12 is a store 26 in which a computer program is stored by the microprocessor 24 is feasible, so the below with reference to 2 explained method is feasible. The microprocessor 24 can via a connection line 28 Return signals TxD to the microprocessor 18 of the video projection device 14 send. These return signals no longer play any role in the following explanation. The signals RxD, the microprocessor 18 to the microprocessor 24 send, should specify how the electronic ballast 12 the high pressure discharge lamp 10 has to act on the current I _AC . The electronic ballast 12 receives via an entrance 30 a DC voltage of 380 V present, and a bottom plate 32 serves as the actual power source for providing the current I _AC to the high pressure discharge lamp 10 , In the place of the subscript 32 can also occur a so-called "look converter".

In the video projection device is for cooling the high pressure discharge lamp 10 a fan 34 provided by the microprocessor 18 is controlled. In 1 is for the sake of compactness of the appearance of the fan 34 as part of the rest of the video projection device 14 shown. In the real construction is of course the fan 34 in the vicinity of the high pressure discharge lamp 10 to arrange.

Hereinafter, as described by the arrangement according to 1 It can be ensured that in the video projection device after turning off the same via the on-off switch 16 as soon as possible switching on the same on-off switch 16 take place and in this case the high-pressure discharge lamp can be lit again.

The method according to the invention initially assumes that the lamp is in operation in accordance with step S10. In step S12, it is checked if the on-off switch 16 was pressed to turn off the system (system off "SYS-OFF"). If this question is answered with "no", the operation of the lamp proceeds according to step S10. Will the question of whether the on-off switch 16 was actuated, answered with "yes", it is checked in step S14 whether the high-pressure discharge lamp is currently in the starting phase. In fact, it may be that immediately after switching on and starting up the high-pressure discharge lamp 10 already switched off again. The question is whether the high pressure discharge lamp 10 in the starting phase, answered with "yes", immediately becomes the step S18, which will be explained below. If the high-pressure discharge lamp has already been in operation for a while, and thus the starting phase has been completed, then the question is answered with "no" in step S14, step becomes first 16 The lamp will be shut down to 20% power, ie the current I _AC current will be set accordingly, as appropriate, the applied voltage. The fan (fan) 34 is continued in normal operation. In normal operation, the fan is running 34 with approximately average power regarding the maximum possible power. Both the extent of performance according to step 516 as well as the operation of the fan is determined by commands that the microprocessor 18 emits. The microprocessor 24 of the electronic ballast 12 just implements these commands to the effect that the lowest order 32 the corresponding current I _AC on the high pressure discharge lamp 10 if necessary, a suitable voltage for this purpose. The microprocessor 18 Therefore, the RxD commands are sent to the microprocessor 24 with commands to the fan 34 from.

Step S16 is performed for a duration of 30 seconds. Then, the power is increased by 10% at step S18, and at the same time the fan becomes 34 put into full load operation, so it runs at maximum power. The step S18 is performed directly when the starting phase was still running, as the on-off switch 16 was pressed to turn off the system.

The interposition of step S16 in the event that the starting phase is completed, has the advantage that avoided by the non-startup of the fan and the low power mechanical stresses on the discharge vessel of the lamp and thus a failure of the high-pressure discharge lamp 10 is prevented. In the 30 s, a reasonably good cooling can take place. The cooling is then accelerated according to step S18 because the fan is running at full load.

In step S20, after step S18, it is checked whether the temperature of the high-pressure discharge lamp 10 has fallen below a switch-off temperature. If this is not the case, proceeds to step S18. If the switch-off temperature T _off is exceeded, the lamp is switched off in accordance with step S22. The lamp is not yet completely cooled, so that according to step S24, the fan is further operated in full load operation. In step S26 it is then checked whether the temperature of the lamp has fallen below a switch-on temperature. The switch-on temperature Ton is less than the switch-off temperature T _off . As long as the switch-on temperature Ton has not fallen below, the process continues to step S24. If the switch-on temperature is exceeded, the fan is stopped, as well as the entire system, ie the video projection device 14 , is brought to a complete halt. This is step S28. In the subsequent step S30, the video projection apparatus is operated in standby mode. Now, in step S32, it is checked whether the on-off switch is operated, that is, the system is turned on ("SYS-in"). As long as this question is to be answered with "no", the process continues with step S30, that is, the standby mode is maintained. Once the on-off switch 16 is operated to turn on, the operation of the lamp according to step S10 is recorded. In this case, a start phase is run through, which need not be described in detail in the present case.

An electronic ballast 12 can with any video projection devices 14 are otherwise coupled when the inventive measures are implemented: As long as the video projection device 14 in particular via a microprocessor 18 has and a corresponding computer program in the memory 20 is stored, is the video projection device 14 able to specify the power with which the high-pressure discharge lamp is operated via the electronic ballast. This power may affect the operation of the fan 34 be matched. This results not only from the steps S16 and S18, but also from the synopsis of the steps S22 and S24 and S28.

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

• US 2002/0135324 A1 [0004]
• - JP 2004-319193 [0005]
• - WO 2007/132369 A2 [0005, 0005]

Claims (9)

Method for operating a high-pressure discharge lamp ( 10 ) in a video projection apparatus, wherein the high pressure discharge lamp is controlled by an electronic ballast ( 12 ) is supplied with current (I _AC ), comprising the steps of: - detecting at least one operation by one of the electronic ballast ( 12 ) different unit ( 14 ) of the video projection device, - issuing at least one instruction by the unit ( 14 ) to the electronic ballast ( 12 ), - charging the high-pressure discharge lamp ( 10 ) by the electronic ballast ( 12 ) with a current (I _AC ) whose current is determined by the at least one command. Method according to Claim 1, in which the unit ( 14 ) the commands to the electronic ballast ( 12 ) with instructions to at least one other unit ( 34 ) or the delivery of control signals to at least one further unit ( 34 ) votes. Method according to Claim 1 or 2, in which an actuation of an on-off switch ( 16 ) of the video projection device ( 14 ) is detected. Electronic Ballast ( 12 ) for a high-pressure discharge lamp ( 10 ), with an input port for external commands and output ports for the high pressure discharge lamp, the electronic ballast ( 12 ) is adapted to evaluate incoming commands (RxD) through the input ports and to translate those commands (RxD) into an application of current (I _AC ) to the output ports with a current defined by the commands (RxD). Computer program product with a computer program stored in a memory ( 26 ) of an electronic ballast ( 12 ) with one input terminal and two output terminals and by a data processing unit ( 24 ) causes incoming commands (RxD) to be evaluated via the input ports and these commands (RxD) to be converted into energization of the output ports with a current defined by the commands. Video projection device ( 14 ) with a connection for connecting an electronic ballast ( 12 ) for a high-pressure discharge lamp ( 10 ), with a data processing unit coupled to the port ( 18 . 20 ) and at least one with the data processing unit ( 18 . 20 ) coupled control element ( 16 ), wherein the data processing unit ( 18 . 20 ) is adapted to actuate the at least one operating element ( 16 ) and, depending thereon, establish commands for the at least indirect determination of a current intensity (I _AC ) and, via the connection to a connected electronic ballast ( 12 ). Video projection device ( 14 ) according to claim 6, characterized in that the at least one operating element is an on-off switch ( 16 ) for the video projection device ( 14 ). Video projection device ( 14 ) according to claim 6 or 7, characterized in that the data processing unit ( 18 . 20 ) also with a fan ( 34 ) is coupled to control this. Computer program product with a computer program stored in a memory ( 20 ) of a video projection device ( 14 ) with at least one operating element ( 16 ) and at least one connection for an electronic ballast ( 12 ) and by a data processing unit ( 18 . 20 ) causes an actuation of the at least one operating element ( 16 ) and, depending thereon, commands for the at least indirect determination of a current intensity are determined and sent to the connection for the electronic ballast ( 12 ).