JPH063756B2 - Lighting control device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a connection function capable of arbitrarily connecting a lighting device such as an incandescent lamp and a fader for controlling the lighting device, and a dimming level of each fader for several scenes. The present invention relates to a lighting control device used for stage lighting or the like that has a memory dimming function that can be stored and can perform lighting effects based on those scenes.

[Background Art] FIG. 3 shows a configuration of a device console 1 for lighting control operation. The console 1 is composed of an operation unit 2, an output unit 4 and a control unit 3. As shown in FIG. 4 (a), the operation unit 2 comprises a plurality of control units 6 each having a fader for setting a dimming level and each control unit 6 by a channel selection signal from the CPU of the control unit 3. It is composed of an analog switch 7 for switching the (fader channel) 6 and the output section 4 has a CP of the control section 3 as shown in FIG. 4 (b).
An analog switch 8 for switching and connecting dimming level signals of a plurality of dimming units 5 having a unique address according to a unit selection signal from U, and a sample for outputting the dimming level to the dimming unit 5 as a sample hold. And a hold circuit 9. Here, the dimming unit 5
The dimming level of the control unit (fader) 6 for setting the dimming level of the lamp which is dimming-controlled by the analog switch 7 is sequentially taken in time division, A / D converted and taken into the CPU. Then, the control section 3 stores the dimming level of each control unit 6 in a memory to create a scene for several scenes. The control unit 3 also stores the connection relationship between the control unit 6 and the dimming unit 5, and the output unit 4 sequentially outputs the dimming level for each dimming unit 5 to the sample hold circuit 9. The dimming level of each dimming unit 5 ₁ , 5 _2, ... Is created. Further, as shown in FIG. 5, the control unit 3 includes an I / O unit 11 including a CPU 10 and an A / D converter corresponding to the operation unit 2.
And an I / O unit 12 including a D / A converter corresponding to the output unit 4 and the like.

FIG. 6 shows a concrete configuration of the related art. The address is the number of the dimming unit 5 that controls the lighting fixture, and the data is the dimming level of the lighting fixture.
It has M13, and the address input of this RAM13 is CP
The address bus of U10 and the dimming unit designating means 14 for controlling the dimming output can be switched by the switching means 15, and the data output of the RAM 13 can be switched to the data bus of the CPU 10 and the dimming unit 5. Switching to the dimming signal line for outputting data is possible by the switching means 16. The switching by the switching means 15 and 16 is switched when the connection function between the control unit 6 and the dimming unit 5 or the current dimming level is changed, and is connected to the address bus and the data bus side of the CPU 10 so that the data of the RAM 13 is stored. Can be changed. At other times, the address input of the RAM 13 is connected to the dimming unit designating means 14 side, and the data input is connected to the dimming signal line side. The dimming unit designating means 14 sequentially counts to the dimming unit 5 ₁ by the CPU 10, and the output level data at that time is I / I.
The D / A conversion is performed in the O section 12, and the dimming signals are converted in the sample hold circuit 9 of the output section 4.

In the case of this circuit configuration, the current dimming level changes,
When the connection relationship between the control unit 6 and the dimming unit 5 changes, the dimming level data is changed and the connection data is changed. No)
And the address of the control unit 6 (fader channel N
From the connection data (o), the address of the control unit 6 (channel number of the fader), and the dimming level data of the dimming level, the data of the relation of the address of the dimming unit 5 and the dimming level data (dimming level) is obtained. It must be created and this data must be written to RAM 13. The relationship in this state is shown in FIG. That is, the memory of the control unit 3 stores in the dimming level storage area A the relationship between the dimming level and each control unit 6 for each scene (current output scene, scene 1, ..., Scene n). The connection data storage area B between the dimming unit 5 and the control unit 6 stores the connection data between the dimming unit 5 and the control unit 6, and the dimming unit is stored in the dimming level storage area C based on these data. 5 and the dimming level are stored, and the switching means 15, 1 are set as described above.
The data is written in the RAM 13 via the memory 6. In the case of such a conventional example, as described above, it is necessary to create the data of the relationship between the dimming unit 5 and the dimming level from the connection data and the dimming level data and write the data in the RAM 13, so that the processing of the CPU 10 increases. , RAM
There is a problem that the change interval of 13 becomes long and the dimming level does not change smoothly.

[Object of the Invention] The present invention has been provided in view of the above points, and when the dimming level is converted, the dimming level can be smoothly changed by shortening the processing time by the CPU. It is an object of the present invention to provide a lighting control device described above.

DISCLOSURE OF THE INVENTION Embodiment 1 An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, when the address data of the dimming unit 5 for dimming the lighting fixture is sequentially input from the dimming unit designating means 14 to the address input of the RAM 21 which is a storage element, the lighting fixture is output from the data output. The address data of the dimming unit 5 and the address data of the control unit 6 are made to face each other and stored in the RAM 21 so that the address data of the control unit 6 for controlling the control unit 6 are sequentially output. Further, the RAM 22 is a dimming device which outputs the current dimming level of the control unit 6 from the data output when the address data (fader channel number) of the control unit 6 for controlling the luminaire is input to the address input. The level data is output. In other words, this RAM
Reference numeral 22 stores address data of the control unit 6 and dimming level data at that time in association with each other. Both R above
A storage unit is configured by the AMs 21 and 22. The address input, which is the input means of the RAM 21, can be switched between the address bus of the CPU 10 and the dimming unit designation means 14 by the switching means 17, and the data output of the RAM 21 can be performed by the CPU.
The data bus 10 and the address input of the RAM 22 can be switched by the switching means 18. Further, the address input of the RAM 22 is performed by the address bus of the CPU 10 and the RAM 2
The data output of the RAM 22 can be switched to the data output of No. 1 by the switching unit 19.
The data bus 10 and the dimming signal line output to the dimming unit 5 can be switched by the switching means 20. still,
The switching means 18 and 19 and a part of the RAMs 21 and 22 constitute a conversion means, and the switching means 17 to 20 constitute a connection means.

When the connection function of the connection relationship between the light control unit 5 and the control unit 6 is changed, the RAM 2
The address input and data output of No. 1 are connected to the address bus and data bus of the CPU 10 via the switching means 17 and 18. Then, the connection function of the RAM 21 is changed. Further, when the current dimming level changes due to a scene change or the like, the address input and data output of the RAM 22 are connected to the address bus and data bus of the CPU 10 via the switching means 19 and 20. Then, the dimming level data in the RAM 22 is changed. RAM otherwise
The address input of 21 receives the address data of the control unit 6 from the light control unit designating means 14, and outputs the address data of the control unit 6 (fader channel No.) that controls the light control unit 5 to the data output. The address data is given to the address input of the RAM 22. The dimming level data at that time is output to the data output of the RAM 22. That is, the address data of the dimming unit 5 for which the dimming level is desired is stored in the RAM.
By applying it to the address input of 21, the RAM 21 converts it to the address data of the control unit 6 (fader channel No.), further converts it to the dimming level data by the RAM 22, and outputs the dimming level data to the data output of the RAM 22. Will be done.

(Embodiment 2) FIG. 2 shows another embodiment, in which the address input is address data (number) of the dimming unit 5 for controlling the lighting equipment, and the data output is a control unit for controlling the lighting equipment. No. 6 address data (fader channel No.), and a first storage area having address input as address data of the control unit 6 for controlling the lighting equipment, and data output as current dimming level of the address data. A RAM 23, which is a storage unit having two storage areas, is provided. That is, when the address data of the dimming unit 5 and the address data of the control unit 6 are input to the address input, the RAM 23 outputs the address data of the control unit 6 and the dimming level data from the data output. As described above, the address data of the dimming unit 5 and the address data of the control unit 6, and the address data of the control unit 6 and the dimming level data are stored in association with each other. In addition, RAM2
The address input of 3 is made by the switching means 25 to the address bus of the CPU 10, the dimming unit designating means 14 for controlling the dimming output, and the latch circuit 24 for latching the address data of the control unit 6 outputted from the data output. Switching is possible. The data output of the RAM 23 is CP
The switching means 26 enables switching to the data bus of U10, the latch circuit 24, and the dimming signal line for outputting the dimming level data to the dimming unit 5.

Then, when the connection function or the current dimming level changes, the address input and data output of the RAM 23 are connected to the address bus and data bus of the CPU 10 via the switching means 25 and 26. Then, the connection data or the current dimming level data is changed. At other times, the address data of the dimming unit 5 for which the dimming level is desired is given to the address input of the RAM 23 from the dimming unit designating means 14, and the address data of the control unit 6 (fader channel No.) at that time is supplied to the latch circuit 24.
Latch at. Next, the address data of the control unit 6 latched by the latch circuit constituting the conversion means is RA
When the address input of M23 is connected through the switching means 25, the dimming level data at that time is output to the data output. Compared to the previous embodiment, this embodiment requires only one RAM 23, which is a storage element, and requires fewer components.

As described above (the first and second embodiments), the connection data is composed of two data, that is, the address data of the dimming unit 5 and the address data of the control unit 6 for controlling the lighting equipment, and the dimming level data is the control unit. The address data of the control unit 6 and the dimming level thereof are two data, which are common to the address data of the control unit 6 (fader channel No.). CP with hardware configuration
This is a reduction in the processing time of U10.

EFFECTS OF THE INVENTION As described above, the present invention creates a plurality of dimming units having dimming control of a lighting fixture and having a unique address, and a dimming level signal of the dimming unit having a unique address. A plurality of control units and the dimming level data from the control unit are fetched by the CPU and the individual dimming level data is stored in the memory, and the connection data and control of the connection relationship between the dimming unit and the control unit are performed. A dimming level data relating to a unit and a dimming level is stored, and the dimming level data from the memory is transmitted to a dimming unit predetermined by the CPU to perform lighting effect. In the lighting control device described above, a dimming unit designating means for sequentially sending out a signal corresponding to the address of each dimming unit, and a signal from the dimming unit designating means. Between the input means for receiving as the address data and the output means for transmitting the dimming level data corresponding to the address of the dimming unit to the dimming unit as the control data,
A storage unit having a conversion unit for inputting the address data input to the input unit as address data of the control unit and converting the address data of the control unit in correspondence with the dimming level data of the dimming unit; Since the control means is provided with the means, the dimming unit designating means, and the connection means for switching the connection between the CPU and the control section, the signal corresponding to the address of the dimming unit from the dimming unit designating means is converted by the converting means. Converted as address data of control unit,
The control unit outputs the dimming level data corresponding to the address data of the control unit, and the address data input to the input unit is input as the address data of the control unit. Even if the connection data between the dimming unit and the control unit or the dimming level data is changed by the converting means for converting the address data of the dimming unit in correspondence with the dimming level data of the dimming unit, the dimming level is simply adjusted to the input means of the storage means. The dimming level data of the dimming unit is output from the output means of the storage means only by inputting the address data of the light unit. Connection data that stores the relationship between data and address data of the control unit, and control Since it is no longer necessary to convert the address data of the unit and the dimming level data that stores the relationship between the dimming level and the address data of the dimming unit to the relationship between the dimming level, the current dimming level Is shortened, the processing time of the CPU when the connection relation is changed is shortened, the CPU processing is facilitated, and the output dimming level can be changed more continuously. .

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention, FIG. 2 is a block diagram of another embodiment of the above, FIG. 3 is a block diagram of a console, and FIGS. 4 (a) and 4 (b) are operation units. 5 is a block diagram of the same as the above, FIG. 5 is a block diagram of the same as above, FIG. 6 is a block diagram of a control unit of a conventional example, and FIG. 7 is an explanatory diagram of the same. 3 is a control unit, 5 is a dimming unit, 6 is a control unit, 1
0 is a CPU, 14 is a dimming unit designating means, 21, 2
Reference numerals 2 and 23 denote RAMs, and 24 denotes a latch circuit.

Claims (1)

[Claims] 1. A plurality of dimming units for dimming a lighting fixture and having a unique address, and a plurality of control units having a unique address and generating a dimming level signal of the dimming unit, The dimming level data from the control unit is C
Each of the dimming level data acquired by the PU is stored in the memory, and the connection data of the connection relation between the dimming unit and the control unit and the dimming level data of the relation between the control unit and the dimming level are stored. In a lighting control device having a control section and transmitting dimming level data from a memory to a predetermined dimming unit by a CPU to perform lighting effects, a signal corresponding to an address of each dimming unit. Of the dimming unit, the input means for receiving the signal from the dimming unit designating means as address data, and the dimming level data corresponding to the address of the dimming unit as control data to the dimming unit. The address data input to the input means as input address data of the control unit. At the same time, the storage unit has a conversion unit for converting the address data of the control unit in correspondence with the dimming level data of the dimming unit, and the connection for switching between the storage unit, the dimming unit designating unit, and the CPU. And a lighting control device which is provided with a control unit.