DE2133844A1 - Control device for AC-level headlights, in particular a control device for stage lighting - Google Patents

Description

Control device for ac powered headlights, in particular a control device for a stage lighting The invention relates to a control device for AC powered headlights, in particular one Control device for a stage lighting, in which the regulation of the lighting by means of semiconductor switching elements such as thyristors and two-way diode thyristors.

As the lighting is a part of today in theaters and television studios of the artistic and technical entirety, the aim was always to do so more accurate and faster to control. You had to find out that the speed the human hand and human sense of proportion are no longer sufficient, and replaced this is therefore done by an automatic system with fixed logic or in computer form. While the rehearsal one strives to light situations in the memory of the computer to deposit, from where they can then be easily accessed during the actual performance can be. Both previously used devices had to analog voltage used to control the headlight bezels through an analog-to-digital converter converted into the more practical digital form. The analog signals can also cannot be fed directly into the converter1 so that a special measuring point selector, usually a rotary or relay selector is to be connected upstream.

When converting the analog voltage into digital form, the following results Difficulties: The control voltage generally contains all possible interference voltages, so that it must be carefully filtered, and all the more carefully, one at a time higher accuracy is sought. At the mechanical contacts of the measuring point selector thermal stresses and contact vibrations occur.

When reproducing the lighting situation, the digital signal must can be converted to analog form again. An accumulation of errors is the result, because in general it is not possible to carry out this conversion without errors.

The method of lighting with the help of semiconductors is also known to control, using their property in the event of a single power interruption to go out. By a semiconductor switching element like the thyristor or the Two-way diode thyristor "TRiACn", an ignition pulse is applied to the desired Place of the half-wave, and the extinction happens automatically at the 0-point the mains voltage.

The setting of the ignition moment is done by opening different ways e.g. from an RC switching circuit and one Unijunction transistor or a diode formed timing circuit with the network synchronized and by changing the time constants of this circuit the ignition pulse brings to the desired location.

Since each unit must be assigned a timer circuit, result difficulties arise immediately if one tries several units in larger groups summarize. Here it must be possible to use several apertures e.g. to regulate with the help of a main controller. This in turn results in the Requirement that these units have the same properties with high accuracy have to. The units must therefore have different types of regulators for compensation of the phases, and the requirements for quality and accuracy the components are very high. The result is that planning, experimentation, Production and test run increase in complexity, the better and more accurate Lighting systems are sought.

The invention is based on the object of a control device for To create lighting systems that work more accurately and a simpler construction than the devices briefly described above.

This object is achieved in a device of the type mentioned at the beginning Type in that the time of the ignition pulse of the semiconductor switching element is determined digitally by means of a counter, the counter at the beginning each half-phase of the supply current is placed and in the counter under constant Frequency pulses are fed and as soon as in the counter the on one with the device connected control register or the like. Set number of pulses arrived is, the ignition pulse is triggered.

The invention has the advantage that the control signal of of the sample in the same form, namely in digital form, up to the presentation remain. The simultaneous control of several lights (headlights) is designed simple. The device can easily be connected to a computer for control earth. Further features are characterized in the subclaims.

The invention is described below with reference to the accompanying drawings described in more detail.

Fig. 1 shows the device according to the invention applied to the Control of a headlight dimming.

Fig. 2 shows the control principle of the device.

Fig. 3 shows the device according to the invention connected to a computer controlled lighting control device.

Fig. 4 shows another embodiment of the invention applied on the control of a luminaire dimming.

A counter of the type SN 7490 from Texas Instrument can be used. The control register or the The reference number 2 is assigned to the number switch. The oscillator 3 and the synchronizer 4 can control one or more counters 2.

The capacity of the counter -1 will vary depending on the required Control accuracy selected, the same applies to the frequency of the oscillator 3. The Half-phase (10 mS) of the supply current is (Fig. 2) as it were in several, e.g. 100 parts disassembled, the length of the counter being 100 and the frequency of the oscillator 10 kHz. - The interval between two pulses is here 0.1 mß, which corresponds to an ignition angle change of about 1.8 degrees. The synchronizer 4 brings the counter 1 to zero at the network point. If the on the control register or number switch 2 set binary number and the binary number of counter 1 are the same are, the comparison circuit 5 supplies a pulse, with the help of which via the Ignition transformer the nhyristors 3 or the "TRIAC" 7 can be controlled. As a comparison circuit 5, for example, the DM 8200 circuit is suitable. When using a single oscillator 3, the point of departure is always the right one, regardless of the type of load Job.

night you can control the frequency of the oscillator 3 so that they m any Part of the half-phase (Fig. 2a) is larger, but the total number of pulses remains constant, the accuracy can be increased in this part, without having to change the basic components because of this.

3 shows the block diagram of a computer-controlled lighting control system. The actual computer is assigned the reference number 8, the printing unit the reference number 9, A suitable computer is, for example, the PDB 8 model from Digital Corporation. the Numbers 10 and 11 represent adaptation parts (intermediate components). The lighting controller the number 12 is assigned, the numbers 1300-1399 embody the individual to be controlled Lights (headlights). The reference numbers 1400-1499 are assigned to the diaphragms. They are constructed in principle according to FIG. 1, but with the difference that the Oscillator 3 and the synchromizer 4 are common to all diaphragms. Register and Number switch 2 are separated from each other in such a way that the register corresponds to the aperture 1400-1499 is assigned, while a compulsory value register acts as a number switch, either the computer's output memory or the numbers counter 17 and 18 also the address selector switch 19 and 20.

When moving to the computerized system, the number of Control buttons by assigning as many tasks as possible to the lighting master to be reduced to the computer. There is no doubt that from an individual Person can only operate a very limited number of rain buttons at the same time can. On the other hand, the use of just one or two control buttons is sufficient not always off, so that e.g.

10 control buttons, distributed between groups 17 and 18, as a good solution can apply. The routes to be regulated by cone buttons will be selected via the group selection keys 79 and 20.

In this way, the dimensions of the control panels can also be several Hundreds of stretches of comprehensive systems can be dealt with within reasonable limits. Will If long-term storage is required, the system is provided with perforated tape and / or magnetic tape stations affiliated.

Since the lighting is designed according to the respective needs, As far as the exposure is concerned, the same conditions prevail during rehearsals and presentations. The individual situations (scenes) do not need to be related to feedback to be corrected on every single line; rather, it is sufficient if the mains voltage changes in the rehearsal and show lighting situations are taken into account. To the Eliminate the influence of voltage fluctuations one makes use of the skill of the computer to perform arithmetic operations within a very short time. The computer measures the voltage fluctuations and corrects the ignition angle accordingly. Sine The second option is to stabilize the supply voltage. Is the line voltage not stabilized, the system includes a voltmeter for measuring the mains voltage.

When transitioning sound from one lighting situation to the other, if the system is controlled by a computer, not all headlight values to be changed at the same time, but it can be arbitrary in this case Set the rate of change. The lighting situation as static State is actually no longer to be understood in the same way as it used to be. It a dynamic moment can now be brought into the situation by e.g. some of the headlights (lights) reduce and increase the light intensity and proceeding in reverse with another part at the same time, this in the case of the individual Lighting situation. If the half-phase is divided into sufficiently small parts (40), so the eye cannot perceive the change of one level at all. on The linear switching is based on this fact with the aid of a single reference value register - Usually, two output registers are used. In the desired time intervals the number values of the register are changed by one or two numbers, and after A sufficient number of such changes will result in the desired brightness value achieved. In the case of a quick change, the content of the register can of course be replaced by a single command can be changed. It is particularly important to note that the content the register does not need to be renewed after each half-phase; rather this is only required if there is a change in relation to the route concerned it is asked for.

As mentioned above, by changing the density sequence the pulses supplied by the oscillator without affecting the duration of the half-phase omitted number of pulses would be changed, a control curve with if necessary also very Achieve small control steps without changing the diaphragm components because of this will need.

In television studios, for example, where very high illuminance levels are used the frequency of the oscillator would be immediately after synchronization (Fig. 2b) largest and would decrease towards the end of the half-phase.

Should the illuminance be maintained while maintaining the value in the reference value register can only be changed by The oscillator frequency is regulated using the control button 2. With a sufficiently large frequency adjustment range, the illuminance can be from completely dark "up to its maximum value regardless of the values of the reference value register rules.

Fig. 4 shows a second embodiment of the invention. The in mentioned Figure shown device with the oscillator 3, the synchronizer 4, the Ignition device 6, the counter 15 and the steamer register or number switch 16 differs from the embodiment shown in Fig. 1 in that the counter 15 at the beginning of each half-phase on the control register or number switch 16 is set so that the ignition pulse occurs when the Counter 15 is filled with pulses.

The drawings and the related description are intended to serve only to illustrate the idea of the invention. The individual embodiments the invention, however, can be considerable within the scope of the following claims be modified.

Expectations:

Claims (5)

Claims control device for AC powered headlights, in particular a control device for stage lighting in which the control lighting by means of semiconductor switching elements such as thyristors and two-way diode thyristors takes place, characterized in that the time of the ignition pulse of the semiconductor switching element is determined digitally by means of a counter (1, 15), the counter (1, 15) is set at the beginning of each half-phase of the supply current and in the counter pulses are fed in at a constant frequency and as soon as the on a control register or the like (2, 16) connected to the device Number of pulses has arrived, the ignition pulse is triggered. 2. Apparatus according to claim 1, characterized in that the counter (1) is set to zero at the beginning of each half-phase of the supply current and in the Counter (1) with constant frequency pulses are fed in, and as soon as the counter (1) reaches the position indicated by the control register or the like (2), the comparison circuit (5) determines this and delivers an ignition pulse. 3. Apparatus according to claim 1, characterized in that the counter (15) at the beginning of each half-phase of the supply current to the control register (16) displayed value is set, whereby the ignition pulse occurs as soon as the counter is filled with pulses. 4. Apparatus according to claim 1, 2 or 3, characterized in that that for the purpose of correcting the general lighting level with the help all Headlights (lights) changed the frequency (3) fed into the counter (1, 15) without changing the contents of the control register. 5. Device according to claim 1, 2, 3 or 4, characterized in that that the frequency (3) fed into the counter (1, 15) is thus in a relationship of dependency at the moment it is said that the control of the ignition timing is based on a certain part the half-phase is coordinated.