JP6876454B2 - DMX communication system - Google Patents

Description

The present invention relates to a DMX communication system used for lighting control, particularly a technique for dealing with direct lightning and induced lightning for a DMX communication system.

DMX communication is a standard for digital lighting data protocols established by the American Theater Technology Association (USITT), and is recognized by manufacturers of stage sets around the world. Digital control by DMX communication is used for applications such as digital lighting operation consoles used in large-scale or medium-sized concert halls and indoor stage plays, discolored light by computer processing, and color scrollers by computer processing of laser light. There is. And in recent years, attention has been focused on its applicability to various applications such as large-scale outdoor events and control of light-up lighting in high-rise buildings. Patent Document 1 discloses technologies related to various communication systems that enable high-speed DMX communication systems and various digital controls so that the DMX communication system can appropriately handle such various applications.

Japanese Patent No. 4718008

However, DMX communication is mainly suitable for applications where digital control is performed within a relatively short distance of about 100 m to 400 m indoors, but when performing lighting control over a long distance outdoors as described above, It can be said that it is difficult because of its characteristics. The DMX signal, especially the DMX512 signal, has a high frequency component of 250 Kbps, and when the transmission distance is long, it is necessary to install a large number of waveform shaping circuits in the middle. In addition, when using DMX communication for outdoor purposes, for example, when using it for a large-scale outdoor event, build a DMX communication system (installation of lighting equipment, wiring of cables, etc.) on a sunny day, and then Since it will be withdrawn immediately, it can be used without problems as long as the problem of communication distance can be cleared, but when using it for lighting up high-rise buildings in the city, once the DMX communication system is built, the cables etc. will remain installed outdoors after that. It becomes. Therefore, as with general electrical equipment, there is a risk of being affected by direct lightning strikes and induced lightning strikes. In order to avoid the effects of lightning, for example, it is possible to switch the communication wiring of the DMX communication system from wired to wireless, but in reality, in a location with skyscrapers in the city, many skyscrapers are lined up around it. In many cases, stable wireless communication is difficult due to unstable radio waves, and in some cases, the DMX communication may be hindered. In addition, when an antenna that outputs a strong electromagnetic wave such as a TV tower exists nearby, cross-modulation occurs due to the non-linearity of the high-frequency amplifier circuit of the receiving circuit provided in the DMX communication system, which makes it difficult to receive DMX communication. It is also possible that it will be.

The present invention has been made in view of the above problems of the prior art, and an object of the present invention is to use a DMX communication system outdoors for a long period of time in a stable digital manner while suppressing the effects of direct lightning and induced lightning. It is to provide a DMX communication system which enables lighting control.

In order to solve the above problems, the DMX communication system according to the present invention is
An operation means for inputting a digital control signal, a DMX transmission unit that converts a digital control signal from the operation means into a DMX signal and outputs the DMX signal, and a transmission means for transmitting a DMX signal from the DMX transmission unit, and transmission. A DMX communication system including a DMX receiving unit that receives a DMX signal and converts the DMX signal into a control command to the lighting device and outputs a control command to the lighting device.
In the DMX communication system, the transmission means is arranged outdoors, and the transmission means is arranged outdoors.
The DMX transmitter includes an optical conversion circuit that converts the DMX signal into an optical signal.
The DMX receiving unit includes a photoelectric conversion circuit that converts the optical signal into a DMX signal.
The transmission means is an optical fiber cable.

Further, the DMX communication system according to the present invention is
The DMX transmitter includes a balanced / unbalanced conversion circuit that converts the DMX signal, which is a balanced signal, into an unbalanced signal.
The DMX receiving unit is characterized by including an unbalanced / balanced conversion circuit that converts an unbalanced signal into the DMX signal which is a balanced signal.

Further, the DMX communication system according to the present invention is
The optical fiber cable is characterized by being provided with a resin reinforcing material in order to reinforce the strength of the optical fine bar cable.

Further, the DMX communication system according to the present invention is
The optical signal is characterized by being near infrared rays having a wavelength of 0.85 μm to 1.55 μm.

Further, the DMX communication system according to the present invention is
The optical fiber cable is characterized by being an SM type optical fiber cable or a GI type optical fiber cable.

Further, the DMX communication system according to the present invention is
The DMX receiving unit is characterized in that it is connected to two or more lighting devices.

According to the present invention, the DMX transmitting unit is provided with an electric light conversion circuit for converting a DMX signal into an optical signal, and the DMX receiving unit is provided with a photoelectric conversion circuit for converting an optical signal into a DMX signal. By connecting an optical fiber cable to the unit and transmitting the DMX signal as an optical signal, a stable lighting device that suppresses direct lightning and induced lightning even when the DMX communication system is permanently installed outdoors. It is possible to provide a DMX communication system capable of digital control of the above.

The schematic block diagram of the DMX communication system which concerns on 1st Embodiment of this invention is shown. The schematic installation image figure of the DMX communication system which concerns on 1st Embodiment of this invention is shown. The schematic block diagram of the DMX communication system which concerns on 2nd Embodiment of this invention is shown.

Hereinafter, the DMX communication system of the present invention will be described with reference to the drawings, but the present invention is not limited to the following examples as long as the gist of the present invention is not exceeded.
<First Embodiment>

FIG. 1 shows a schematic configuration diagram of a DMX communication system according to the first embodiment of the present invention. The DMX communication in the present embodiment is a DMX512 capable of exchanging lighting control data for 512 channels with one digital cable and controlling signals of each channel in 256 steps. The DMX communication system 10 shown in the figure includes an operation console 12 for inputting a digital control signal, a DMX transmission unit 14 for converting a digital control signal from the operation console 12 into a DMX signal and outputting the DMX transmission, and the DMX transmission. DMX reception that receives the output signal from the cable 16 that transmits the output signal from the unit 14 and the transmitted DMX transmission unit 14 and converts it into a control command to the lighting device 20 and outputs the control command to the lighting device. It is provided with a part 18.

First, the operation console 12 and the DMX transmitter 14 will be described. First, the operation pattern of the lighting device 20 connected to the DMX communication system 10 is determined. Then, the operation parameters of the lighting device 20 are set by the operation console 12, and the set operation parameters are transmitted to the DMX transmission unit 14 as a digital control signal. The console 12 is a man-machine interface provided with, for example, a large number of keyboards and switches. The digital control signal output from the console 12 reaches the DMX transmitter 14. The DMX transmission unit 14 uses a DMX transmission circuit 22 that converts a digital control signal into a DMX signal, a balanced / unbalanced conversion circuit 24 that converts a DMX signal that is a balanced signal into an unbalanced signal, and an optical unbalanced signal. It includes a lightning conversion circuit 26 that converts a signal. When the digital control signal is input to the DMX transmission circuit 22, the DMX transmission circuit 22 converts it into a DMX signal. This DMX signal is a balanced signal using, for example, RS422, RS485, or the like. The DMX signal, which is a balanced signal, is converted into an unbalanced signal by the balanced / unbalanced conversion circuit 24. Specifically, as shown in FIG. 1, the signal between Data1- and Data1 + is converted into a signal between ground and Data1. The balanced / unbalanced circuit 24 preferably includes, for example, a ring-shaped toroidal core having a high relative magnetic permeability. With such a configuration, it is possible to perform conversion such as equilibrium / unbalance without emitting magnetic flux to the outside and without being affected by the external magnetic flux. Then, this unbalanced signal (signal between ground and Data1) is converted into an optical signal by the lightning conversion circuit 26 and output from the DMX transmission unit 14.

Here, in the case of a general DMX communication system, it is sufficient to control the lighting device installed in a limited space such as a concert hall or a theater, so that the DMX signal between the DMX transmitter and the DMX receiver can be controlled. Communication (basically one-way communication from the DMX transmitter to the DMX receiver) is done via a metal wire or the like. However, since the DMX communication system 10 in the present embodiment is used for lighting up high-rise buildings and the like, it is actually used in a place where high-rise buildings in the city are lined up, and the DMX communication system 10 is constructed. After that, it will be installed outdoors as it is without withdrawal. Specifically, as shown in FIG. 2, the lighting device 20, the DMX receiver 18, and the cable 16 are attached to the wall surface of the skyscraper, which is outdoors for lighting up the skyscraper 200, and the operation console 12 is arranged indoors. The DMX transmitter 14 will digitally control the lighting device 20. In such a case, if the conventional DMX communication system is introduced as it is, it is expected that it will be affected by direct lightning and guided lightning with high probability. In addition, lightning rods are always installed on the roof of general buildings, and lightning rods always fall on low-rise buildings such as homes, but in environments such as high-rise buildings, lightning rods are always installed on the roof. Even if it is installed in the building, it is often seen that lightning strikes on the wall surface of the middle of the building.

Therefore, in the DMX communication system 10 of the present embodiment, an optical fiber cable is used as the cable 16 instead of using a conventional metal wire as a means for transmitting a signal from the DMX transmitting unit 14 to the DMX receiving unit 18. It was decided to transmit it as an optical signal. The cable 16 corresponds to the transmission means in the present invention. By using an optical fiber cable as a transmission means, it is possible to reduce the number of metal parts that may be affected by direct lightning strikes and the like in each stage. Therefore, in the DMX communication system 10 of FIG. 1, an optical fiber cable is connected as a cable 16 between the DMX transmitting unit 14 and the DMX receiving unit 18.

Since RS422 used in the DMX communication system 10 is a balanced signal that is not affected by an external electromagnetic field, this signal is converted into unbalanced by the balanced / unbalanced conversion circuit 24, and further lightning. It is necessary to convert it into an optical signal by the conversion circuit 26 and then put it on the optical fiber cable. Further, in order to reduce the attenuation in signal transmission, it is preferable to use near infrared rays for the optical signal and to use an optical fiber cable corresponding to this, and more preferably, it has a wavelength region of about 0.85 μm to 1.55 μm. It is preferable to use near infrared rays and use an optical fiber cable corresponding to the near infrared rays. Specifically, when the transmission distance of an optical signal extends to several kilometers, the wavelength used for near infrared rays should be 1.31 μm or 1.55 μm, and an SM type optical fiber cable with low transmission loss and excellent characteristics should be used. Is preferable. Further, when the transmission distance of the optical signal is about several hundred meters, it is preferable to use an inexpensive GI type optical fiber cable in which the wavelength used for near infrared rays is 0.85 μm and the optical fiber connection is easy. By using a specific optical fiber cable for transmitting the DMX signal in this way, the problem of the usable distance of the DMX communication system can be solved, and direct lightning and induced lightning when used outdoors can be suppressed. Further, it is preferable that the DMX receiving unit 18 and the cable 16 (optical fiber cable) are devised such as waterproof specifications or drip-proof specifications so that they can be used outdoors, for example. By devising such a device, stable lighting control becomes possible even if the DMX communication system 10 is permanently installed outdoors for a long period of time.

Then, the optical signal from the DMX transmitting unit 14 in FIG. 1 reaches the DMX receiving unit 18 by the optical fiber cable (cable 16). The DMX receiving unit 18 converts the optical signal into a photoelectric conversion circuit 28 that converts an optical signal into an unbalanced signal (signal between ground and Data1) and the unbalanced signal into a DMX signal that is a balanced signal (Data1-, Data1 +, ground signal). It includes an unbalanced / balanced conversion circuit 30 that converts the DMX signal into a control command to the lighting device 20, and a DMX receiving circuit 32 that converts the DMX signal into a control command to the lighting device 20 and outputs the control command to the lighting device 20.

The optical signal transmitted by the cable 16 using the optical fiber cable is converted from the optical signal to the unbalanced signal by the photoelectric conversion circuit 28. In the photoelectric conversion circuit 28, an optical signal is received by a photodiode, a phototransistor, or the like, converted into an electric signal, and the waveform is adjusted by a waveform shaping circuit to obtain an unbalanced signal. This unbalanced signal is converted into a DMX signal of the balanced signal by the unbalanced / balanced conversion circuit 30. Then, the DMX signal is converted into a control command to the lighting device 20 by the DMX receiving circuit 32 and sent to the lighting device 20, and stable digital control of the lighting device 20 is performed.

In this way, by using an optical fiber cable for the cable 16 (transmission means) of the DMX communication system, even in steady outdoor use such as lighting up a high-rise building, while suppressing direct lightning and induced lightning, Lighting control by stable DMX communication becomes possible. Further, the reinforcing material for reinforcing the optical fiber cable generally contains metal, but even in such an optical fiber cable, compared with the case where a metal wire or the like is used as the cable 16. It is possible to suppress direct hit lightning and guided lightning. Further, the optical fiber cable used in the present embodiment preferably does not contain metal as a reinforcing material, and for example, the reinforcing material is preferably resin or the like.
<Second Embodiment>

FIG. 3 shows a schematic configuration diagram of the DMX communication system according to the second embodiment of the present invention. The DMX communication system 110 shown in the figure includes an operation console 112 for inputting a digital control signal, a DMX transmission unit 114 that converts a digital control signal from the operation console 112 into a DMX signal and outputs the DMX transmission, and the DMX transmission. The cable 116 (optical fiber cable) that transmits the output signal from the unit 114 and the transmitted output signal from the DMX transmission unit 114 are received and converted into a control command to the lighting device 120 to be converted into a control command to the lighting device 120. It is provided with a DMX receiving unit 118 for outputting the above.

The DMX communication system 110 according to the present embodiment is configured to control not only the lighting device 120 but also another lighting device 134 at the same time. In such a case, addresses are specified for each lighting device (lighting device 120 and lighting device 134 in FIG. 3), and each lighting device recognizes only the control data for each address, so that the control signal is accompanied. Lighting control is performed. Specifically, the DMX receiving circuit (DMX receiving circuit 132 and DMX receiving circuit 136) extracts the data specified by the address from the DMX signal, converts the data into a PWM dimming signal, or dimming the meaning of the data. It is converted into a command value and sent to the lighting device (lighting device 120 and lighting device 134). That is, the individual lighting devices can be controlled completely independently of each other. Further, although two systems are described as the lighting devices in FIG. 3, the same lighting control is possible even if the number of lighting devices is three or more. In this way, even when using the DMX communication system outdoors when there are multiple lighting devices, by transmitting signals using an optical fiber cable, direct lightning and induced lightning can be suppressed and a stable lighting device can be used. Control is possible.

As described above, according to the DMX communication system of the present invention, the DMX transmitter is provided with an optical conversion circuit and the DMX receiver is provided with a photoelectric conversion circuit, and an optical fiber cable is connected between the receiver and the transmitter. By making the system that transmits the DMX signal as an optical signal, even if the DMX communication system is permanently installed outdoors, the DMX communication system that suppresses direct lightning and induced lightning and enables stable digital control of the lighting device. Can be provided. Further, by using an optical fiber cable as a transmission means and using near infrared rays of a specific wavelength as an optical signal as in the present invention, it is possible to use it outdoors such as a large-scale event or a high-rise building, which was difficult with a conventional DMX communication system. It was possible to secure a transmission distance that can be used even in the use of. Further, even when there are two or more lighting devices connected to the DMX communication system, lighting control can be similarly realized.

10 110 DMX communication system 12 112 operating console 14 114 DMX transmitter 16 116 cable 18 118 DMX receiver 20 120 lighting device 22 122 DMX transmitter circuit 24 124 balanced / unbalanced conversion circuit 26 126 lightning conversion circuit 28 128 photoelectric conversion circuit 30 130 unbalanced / balanced conversion circuit 32 132 DMX receiving circuit 134 lighting device 136 DMX transmitting circuit 200 high-rise building

Claims (6)

An operation means for inputting a digital control signal, a DMX transmission unit that converts a digital control signal from the operation means into a DMX signal and outputs the DMX signal, and a transmission means for transmitting a DMX signal from the DMX transmission unit, and transmission. A DMX communication system including a DMX receiving unit that receives a DMX signal and converts the DMX signal into a control command to the lighting device and outputs a control command to the lighting device.
In the DMX communication system, the transmission means is arranged outdoors.
The DMX transmitter includes an optical conversion circuit that converts the DMX signal into an optical signal.
The DMX receiving unit includes a photoelectric conversion circuit that converts the optical signal into a DMX signal.
The transmission means is a DMX communication system characterized by being an optical fiber cable. The DMX communication system according to claim 1.
The DMX transmitter includes a balanced / unbalanced conversion circuit that converts the DMX signal, which is a balanced signal, into an unbalanced signal.
The DMX receiving unit is a DMX communication system including an unbalanced / balanced conversion circuit that converts an unbalanced signal into the DMX signal which is a balanced signal. The DMX communication system according to any one of claims 1 and 2.
The optical fiber cable is a DMX communication system including a resin reinforcing material for reinforcing the strength of the optical fiber cable. The DMX communication system according to any one of claims 1 to 3.
A DMX communication system characterized in that the optical signal is near infrared rays having a wavelength of 0.85 μm to 1.55 μm. The DMX communication system according to any one of claims 1 to 4.
The optical fiber cable is a DMX communication system characterized by being an SM type optical fiber cable or a GI type optical fiber cable. The DMX communication system according to any one of claims 1 to 5.
A DMX communication system characterized in that the DMX receiving unit is connected to two or more lighting devices.

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