EP1345427A1 - Method for communication with a electric lamp operating device - Google Patents

Abstract

The invention relates to a communication method for exchanging data between an operating device for a light source and a control device in devices for image projection. Existing simple signals are used to transmit complex information. The information is represented by the pulse duration or the amplitude of the signals. <IMAGE>

Description

Technical field

The invention is based on communication methods according to the preamble of Claim 1. These are in particular communication methods for Exchange of data between a control gear for a light source and a Control device for devices for image projection.

State of the art

• Ein optisches Abbildungssystem mit einer Lichtquelle
• Ein Betriebsgerät, das die Lichtquelle mit Energie versorgt
• Eine Lichtmodulationseinheit, die dem von der Lichtquelle ausgehenden Licht die darzustellende Bildinformation aufprägt
• Eine Steuereinheit mit folgenden Aufgaben:
  • Dem Projektor zugeführte Bildinformation in für die Lichtmodulationseinheit geeigneter Weise aufbereiten und dieser zuführen
  • Das Betriebsgerät steuern und überwachen Beispiele für derartige Projektoren sind Rückprojektionsgeräte, die in großformatigen Fernsehgeräten eingesetzt werden oder sog. Beamer, die meist zur Darstellung von Informationen dienen, die von Computern geliefert werden.

The following components can be found in devices that are used to project pictorial content and are referred to below as projectors:

• An optical imaging system with a light source
• An operating device that supplies the light source with energy
• A light modulation unit that imprints the image information to be displayed on the light emitted by the light source
• A control unit with the following tasks:
  • Process and supply image information supplied to the projector in a manner suitable for the light modulation unit
  • Controlling and monitoring the operating device Examples of such projectors are rear projection devices which are used in large-format television sets or so-called projectors, which mostly serve to display information supplied by computers.

There are currently two competing systems for the light modulation unit. One is based on liquid crystal technology (LCD), the other consists of one Matrix of micromirrors (DLP) that are addressable and by electrical signals are tiltable. The costs for both listed light modulation units increase disproportionately with the area of the light modulation unit, which is why an attempt is made to to keep them as small as possible. This results in optical requirements System, especially to the light source. The light source should be as punctiform as possible be and have the highest possible luminance. To meet these requirements to be able to come, high pressure discharge lamps with short Arc length used.

Such lamps are usually operated with a rectangular current, whose fundamental frequency is between 50 Hz and 1 kHz. The polarity reversal of this lamp current commutation is referred to below on the rectangular edges. The The demand for light that is as uniform as possible is only conditional upon commutation to comply with, which is why an attempt is made to commutate at one time place that is not critical in the temporal course of the image information. This requires, that communication takes place between the control gear and the control unit, at which the control device transmits a synchronization signal to the operating device, which commutation triggers. If the projector contains a so-called color wheel that shows the time sequence controls the projection of different colors, commutation is preferred performed during a color transition.

In the case of conventional non-reflecting but transmitting light modulation units in LCD technology is one of the above. Synchronization usually makes no sense because the projection of different colors is not sequential but parallel and thus there is no temporal color transition. For projectors designed after this Technology work, the communication from the control device to the control gear only used to switch the control gear on and off. This switching signal will in the sense of a clear presentation also called sync signal below.

The control unit is sensitive to electrical interference and includes u. U. accessible parts, while the control gear compared to the control unit high Currents and voltage produced and generally connected to a mains voltage is. Therefore, in the prior art for communication between Control gear and control unit optocoupler used, the so-called SELV (Safety Extra Low Voltage) requirements are sufficient. Naturally, optocouplers are less suitable for analog signal transmission, which is why digital communication between Operating device and control device is preferred.

The transmission of the synchronous signal requires communication from the control unit towards the control gear. Also in the opposite direction is after a communication known in the prior art. It is a so-called "lamp-lit signal", with which the operating device merely informs the control device, that the lamp is on.

An optocoupler is used for the transmission of the lamp lit signal and the synchronous signal needed. According to the state of the art, these optocouplers are only transmit the signals mentioned. However, communication would be desirable further information. On the one hand, the control unit needs considerably more information, than just the one bit of information about whether the lamp is on or not, for example information about the power consumed by the lamp. To the others, the control unit needs more intervention options in the operating device, than just the synchronization described, for example the specification of a lamp power. The use of a third optocoupler is prior art Known about the information transmitted from the control unit to the operating device can be. This third optocoupler not only increases the effort and the Cost of a projector in question, but also enlarges the geometric Dimensions of the components to accommodate in the projector cabinet are. This aspect wins with the progressive miniaturization of the projectors more and more important.

Presentation of the invention

The object of the present invention is a method according to the preamble of claim 1 to provide communication for the exchange of data between an operating device for a light source and a control device with low Effort accomplished.

This task is accomplished by a method with the features of the preamble of Claim 1 solved by the features of the characterizing part of claim 1. Particularly advantageous refinements can be found in the dependent claims.

The invention is based on the fact that the two o. G. Optocoupler to transmit the Synchronous and the lamp-lit signal, which are present in each case, are used to transmit additional information. This advantageously makes no additional Hardware effort required. As the projectors in question usually controlled by software from built-in microcontrollers, it is possible that the invention only in a projector according to the prior art is realized through a software change.

As described above, the control unit becomes an operating device via an optocoupler transmit the synchronizing signal. The actual information about synchronization commutation is usually in the rising edge of the synchronous signal. According to the invention, the duration of the synchronizing signal is used for others Transfer information about the control gear.

For the detection of an information content in communication according to the invention between the control gear and the control unit, the rising edge of the Synchronous signal detected. If a detection takes place, a waiting timer is started, reading out the level of the person after a fixed waiting period Signals causes whose information content is to be recorded.

In the case of communication from the control unit to the operating device, the information content lies according to the invention in the synchronous signal. After detecting its increasing A predetermined waiting time is waited for with the aid of the wait timer. After the waiting time has elapsed, an evaluation time has been reached and the The level of the synchronizing signal is evaluated. The level of the synchronizing signal can assume two values, each corresponding to a high level or a low level. After the rising edge, the synchronizing signal is at a high level. In the The duration that the synchronous signal remains at the high level is according to the invention the information to be transmitted from the control unit to the operating device. Since it is as stated above, this is digital information takes said duration either an H value or an L value. The H value can now be transferred be assigned to a logical 1 and the L value to a logical 0. Without Limitation of generality is assumed below that the H value is shorter than the L value. According to the invention, a value is selected for the waiting time, which lies between the H value and the L value. Now when evaluating the Synchronous signal determined a high level at the time of evaluation, consequently has the Duration of the synchronous signal, as defined above, assumed the L value, with which a logical 0 was transferred to the control gear. Will in the evaluation the synchronization signal has a low level at the time of evaluation, has the duration of the synchronous signal assumed the H value and a logical 1 was transmitted. This is the transfer of a bit from the control unit to the control gear completed and the control gear waits until the next rising edge of the Synchronous signal is detected.

The idea according to the invention is not related to the above. Level definitions bound. Rather, the invention can also be implemented in that all levels are inverted are and the falling edge of the synchronizing signal is detected.

The communication method according to the invention is not limited to the transmission isolated bits. Rather, several bits transmitted in series can be combined into one so-called word can be summarized. For example, similar to the standard RS232 by transmitting a start bit followed by 8 bits and a stop bit one byte are transferred.

The information transfer from the operating device to the control unit takes place via a second optocoupler, which in the prior art for the transmission of the lamp-lit signal is provided. As with the information transfer from the control unit According to the invention, the information transmission also works for the operating device from the control gear to the control unit in synchronism with the rising edge of the synchronizing signal. The operating device first detects the rising edge of the synchronizing signal. If a detection takes place, a in the control gear becomes a send timer and in the control unit started a reception timer. The control unit does not need one Detector for detection of the rising edge of the synchronizing signal, since it itself emits a synchronous signal. After the send timer has elapsed, the control gear sets the lamp lit signal to one corresponding to the information to be transmitted Level. After the reception timer has expired, the control unit evaluates the lamp-lit signal out. As with the synchronous signal, the level of the lamp-lit signal can also be changed assume two values, each corresponding to a high level or a low level, which in turn are assigned to a logical 1 or a logical 0. After the evaluation of the lamp lit signal by the control unit, one bit is from Transfer operating device to the control unit. The transmission of another bit will triggered by the next rising edge of the synchronizing signal.

The above Transmission timer can be saved if there is no waiting time for the transmission of a bit is required by the lamp lit signal. The lamp lit signal will in this case immediately after the detection of the rising edge of the synchronizing signal set to the level corresponding to the information to be transmitted. On the side of the control unit are in this case only by means of the reception timer Waiting times for information transmission and then the lamp-lit signal evaluated.

As with the transmission from the control unit to the operating device, this is also the invention Communication procedures in the other direction are not limited to the transmission of isolated bits. Rather, several serially transmitted ones can also be used here Bits can be combined into one word. For example, similar to that Standard RS232 by the transmission of a start bit followed by 8 bits and one Stop bit one byte are transmitted.

The following should be emphasized when transferring from the control gear to the control unit Advantage according to the invention: The transmission runs synchronously, without in the operating device a time base must be provided. The output from the control unit According to the invention, the synchronous signal provides the time base for the transmission both from the control unit to the control gear and to the opposite Direction. The communication method according to the invention is synchronous transmission from the operating device to the control unit, especially for the synchronous signal advantageous since the synchronous signal generally does not have a fixed period having. Rather, successive time intervals are increasing Flanks of the synchronizing signal differ.

In a projector in which the described communication method is used numerous information contents for transmission are conceivable. For example can current lamp operating variables, such as the lamp power from the control gear be transmitted to the control unit. On the other hand, the control unit can Transmit operating device, which type of company size is to be transmitted, or what value the setpoint for the lamp power should take. These examples show that it is advantageous that the flow of information is not only from the Control unit directed to the operating device or from the operating device to the control unit is. According to the invention, it is not only the information content of the synchronous signal or the lamp-lit signal, but both signals contain information, which is evaluated.

Another application is switching the control gear on and off. That was already described above for the case of transmitting LCDs. In this application no commutation synchronous to the synchronous signal is necessary. With the help of According to the communication method according to the invention, the control unit can control the operating device transmit a command sequence that provides the coupling between commutation and cancels the sync signal.

Other applications are the transmission of information about temperatures in the control gear, software version, serial number of a microcontroller or instructions on operating modes such as economy mode or selection of a software version.

With the help of the communication method according to the invention in a projector a flexibility possible, the costly hardware changes in many cases makes avoidable.

Brief description of the drawings

Figur 1

den zeitlichen Verlauf eines erfindungsgemäβen Synchron- und Lamp-Lit-Signals,

Figur 2

den zeitlichen Verlauf eines erfindungsgemäßen Synchronsignals zur Übertragung eines Bytes.

In the following the invention will be explained in more detail using an exemplary embodiment with reference to drawings. Show it:

Figure 1

the time course of a synchronous and lamp-lit signal according to the invention,

Figure 2

the time course of a synchronization signal according to the invention for the transmission of a byte.

Preferred embodiment of the invention

FIG. 1 shows the time course of a synchronization signal S- and Lamp-lit signal L shown. Points 1 to 11 are indicated by arrows.

The course of the synchronizing signal S is first explained. At time 1 points the synchronizing signal S has a rising edge from a low level to a high level that is detected by the control gear. The control gear starts at the same time a waiting timer that is set to a waiting time. At time 2 it is Waiting time expired. According to the invention, the duration that the control unit transmitted synchronization signal S remains at the high level, only assume two values, namely an H value or an L value. The waiting time is chosen that it lies between these values. At time 2, the synchronizing signal S evaluated. In the example shown in Figure 1, the operating device for Time 2 fixes a synchronization signal S that has fallen back to low level. from that the duration of the high level can be derived. Are those in the presentation the definitions presented by way of example in the invention, it recognizes that Operating device at time 2 that the control unit has transmitted a logical 1.

At time 3, the synchronizing signal S again has a rising edge is detected by the control gear. After the waiting time, the control gear evaluates to Time 4 the level of the synchronizing signal S out. The synchronizing signal S remains this time longer at the high level than after the rising edge at time 1. Therefore, the operating device recognizes at time 4 that the synchronizing signal S is still Has a high level and thus a logical 0 was transmitted.

At time 5, the operating device detects the next rising edge. In the present Example recognizes the control gear after the waiting time at time 6, that the control unit has transmitted a logical 1. Waiting after time 6 the operating device until it detects the next rising edge of the synchronizing signal S. and the transmission of further bits is repeated cyclically.

The synchronous signal S in FIG. 1 is an example of the time profile of a Lamp-lit signal L shown. Dashed lines are intended to indicate the temporal reference of the clarify both signals to each other. According to the above description of the invention starts a reception timer in the control unit after the rising edge and in Control gear a broadcast timer. After the transmission timer has elapsed, the control gear gives a lamp-lit signal L with a level corresponding to the desired information out. After the reception timer has expired, the control unit evaluates the lamp-lit signal L out. Send and receive timers are coordinated so that for Time of evaluation of the lamp lit signal L by the control unit accordingly the information to be transmitted valid level on the lamp lit signal L is applied.

In the present example, the send timer started at time 1 is at the time 7 expired. From this point on, the control gear begins the level of Set lamp-lit signal L according to the next information to be transmitted. The operating device has the time until the reception timer expires Available. In the present example, the control unit evaluates the lamp-lit signal L. always at the same time as the rising edge of the synchronizing signal S. The task the reception timer can thereby advantageously at least partially by in the control unit existing facilities for generating the synchronizing signal S taken over become. The control gear has in the present case up to the next rising edge of the synchronizing signal S time to a valid level for that set the next bit to be transmitted. From the course of the lamp lit signal L it can be seen that the signal has reached a high level from time 8. This in good time before it is evaluated by the control device at time 3 becomes. The assignment of the high level present at time 3 to a logical one 0 or 1 can be freely selected. Before time 3, the lamp lit signal L evaluated at time 1 at which a low level was present. After the high level From time 3, the lamp lit signal L is evaluated at time 5, at which 1 is again at a low level. To the rising flanks of the Synchronous signal (times 1, 3 and 5) is started in the control gear of the send timer, which expires at times 7, 9 and 11. The runtime of the broadcast timer only has to take so long until the control device receives the lamp-lit signal L has evaluated. This can be compared to a total cycle time between two rising flanks happen very quickly. To implement the invention Communication method offers a microcontroller, in which u. A few command cycles may be sufficient to achieve the necessary runtime of the send timer. Between times 7 and 8 and times 9 and 10 is the Any course of the lamp lit signal L. It only has to be guaranteed that a valid level has been reached at evaluation times 1, 3 and 5. This is in Example from times 8 and 10 the case.

FIG. 2 shows a longer time course of a synchronizing signal S, at to which a byte of information is transmitted. The transfer is initiated by a start bit labeled Start, which is a short sync signal pulse is realized. This is followed by 8 data bits D0 to D7. By hatching it is indicated that the data bits are short or long, depending on the information content can. After the last data bit D7, the byte is transmitted by a long stop bit marked with stop completed.

Claims (8)

Method for communicating a control unit with an operating device for lamps, to which the control unit cyclically supplies a synchronization signal (S), with the following method steps: Detection of an edge of the synchronous signal (S) by the operating device Waiting for a specified waiting time Evaluation of the level of an information signal Method according to claim 1, characterized in that the synchronization signal (S) is evaluated as the information signal. Method for communication with an operating device for lamps according to claim 2, characterized in that the duration of the synchronizing signal (S) can assume an L value and an H value and the operating device evaluates the synchronizing signal (S) at an evaluation point in time between the L value and the H value after detection of the rising edge of the synchronous signal (S). Method for communication with an operating device for lamps according to claim 1, characterized in that a lamp-lit signal (L), which is generated by the operating device, is evaluated as the information signal. Method for communication with an operating device for lamps according to claim 4, characterized in that the lamp-lit signal (L) is evaluated by the control unit at the same time as the rising edge of the synchronization signal (S). Method for communication with an operating device for lamps according to claim 1, characterized in that the level of two information signals is evaluated, the synchronizing signal (S) and a lamp-lit signal (L) generated by the operating device, the information signals form. Method for communication with an operating device for lamps according to one of the preceding claims, characterized in that a cycle time with which the synchronous signal (S) is repeated cyclically takes on different values. Device suitable for the projection of pictorial content with the following features: Light source Control gear that supplies the light source with energy, Control unit that controls the control gear, characterized in that a communication method according to one of the preceding claims runs between the operating device and the control unit.

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