KR20090021093A - Group control type fluorescent, led and/or halide lighting control system - Google Patents

Abstract

A system for controlling fluorescent lamp, LED lamp, and halide lamp of group control type capable of performing dimming control and luminance control is provided to reduce wiring length and installation cost by requiring a parallel/serial wiring of only one set in an identical control loop. A system for controlling fluorescent lamp, LED lamp, and halide lamp of group control type capable of performing dimming control and luminance control comprises a control interface(1), a first control driver, and a first driver. The control interface generates a main control signal. The first control driver receives the main control signal, generates a first control signal, and drives a first light source. The first driver generates a corresponding action according to the first control signal for driving a second light source, and is cascaded in the first control driver. The first control driver is selected among electronic ballasts(11~13), electronic modulators, and LED module controllers.

Description

Group control type fluorescent, LED and / or halide lighting control system

The present invention relates to a lighting device, and more particularly to a group control type fluorescent, LED and / or halide lighting control system that is easy and easy to assemble.

In addition to providing indispensable lighting or mood for living at night, lighting devices also play an important role for work and commerce during the day. Thus, ideal lighting in office buildings and homes should include basic lighting, decorative lighting and functional lighting.

Since the invention of electric lamps, various types of new light sources have been proposed suitable for different places. Regardless of fluorescent lights, halide lamps or LED modules, the wirings are pre-layout or specified based on different locations for the installation of the lamps, in particular for group control type lighting design. In general, if the group control type lighting design is one wired design, for example, the European Digital Addressable Lighting Interface (DALI), each controlled light source can typically be combined and controlled by the user via an interface device. Therefore, it is necessary to extend the wiring from the control switch through the interface device to the place where the light source is located. The further the light source is from the control switch, the longer the wiring. Moreover, because too long wiring causes too much noise, some repeaters are typically required to increase the signal strength, which makes the installation complicated and wastes a lot of wiring. For today's users, this is too much and very inconvenient, and the material and manpower consumption required for installation will lead to a substantial increase in costs. On the other hand, if the group control type lighting design is a wireless design, the wiring can be saved but it is necessary to perform setting operations for signal matching before use. Users must learn complicated installation procedures before use, which causes a lot of inconvenience.

It is therefore an object of the present invention to propose a group control type fluorescence, LED and / or halide lighting control system, which achieves the advantages of wiring reduction and easy operation in order to effectively alleviate the above disadvantages of the prior art. cascade method.

It is an object of the present invention to provide a group control type fluorescence, LED and / or halide lighting control system, where only one set of parallel / serial wiring is required in the same control loop, thus effectively saving wiring length and installation . Furthermore, at least one controllable dimmable driver can be arranged in series wiring to cascade more light sources.

Another object of the present invention is to provide a group control type lighting control system, which does not require any preset action and can be used immediately after installation. Therefore, the user does not need to learn complicated usage settings. The advantages of simple operation and easy learning are thus achieved.

It is yet another object of the present invention to provide a group control type fluorescence, LED and / or halide lighting control system wherein the repeaters, controllers or control signal amplifiers required in the prior art are saved and no wiring to them is required. Not. Therefore, the original decoration will not be destroyed, and existing control devices and costs can also be reduced.

In order to achieve the above objects, the present invention provides a group control type fluorescent, LED and / or halide lighting control system, which comprises at least one control interface, at least one first controllable driver and at least one first driver. It includes. The control interface generates a main control signal to the first controllable driver. The first controllable driver receives the main control signal and generates a corresponding action to drive the first light source. The first controllable driver also generates a first control signal. The first driver is cascaded to the first controllable driver. The first driver generates a corresponding action according to the first control signal to drive the second light source.

Further, the control interface or the at least one second controllable driver to receive the main control signal or the first control signal for generating a corresponding action and also for generating a second control signal for controlling the actions of the plurality of second drivers. It may be further connected to the first driver. In this way, the number of installed light sources can be continuously increased without limitation.

Various objects and advantages of the invention will be more readily understood from the following detailed description when read in conjunction with the accompanying drawings.

The present invention provides a group control type fluorescence, LED and / or halide illumination control system wherein only one set of parallel / serial wiring is required in the same control loop, thus effectively saving wiring length and installation. Moreover, at least one controllable driver can be arranged in series wiring to cascade many light sources.

The group control type lighting control system of the present invention includes at least one control interface, which is an interface controlled by a user. The control interface may be a common transfer switch, a control panel, a remote controller, a knob switch, a touch switch, a voice control switch, a computer or a portable electronic device. The portable electronic device can be a mobile phone or a PDA. This control interface is based on the user's manipulation to generate the main control signal in digital or analog form. This control interface is connected with one or several first controllable drivers, which drive the first light source in accordance with the main control signal. The first controllable driver is in turn cascaded to one or several first drivers. The first driver controls the movement of the second light source in accordance with the first control signal generated by the first controllable driver. The number and shape of the controllable drivers, drivers and light sources used in the present invention depend on the requirements of the user. For example, the driver can be selected from a dimmable electronic ballast, a dimmable electronic converter and an LED module driver. The technical features of the invention will be described in detail below on the basis of the different forms of the driver.

If the controllable electronic driver is a controllable dimmable electronic ballast, the light source will be a fluorescent lamp. As shown in FIG. 1, the control interface 1 is first connected to a controllable electronic ballast 10 having a dimming function. The controllable electronic ballast 10 drives the fluorescent lamp 16. This controllable electronic ballast 10 is then cascaded into dimmable electronic ballasts 11-15. Dimmable electronic ballasts 11-15 are connected to fluorescent lights 18-21, respectively, to drive fluorescent lights 18-21. The controllable electronic ballast 22 is connected to the dimmable electronic ballast 15 and drives the fluorescent lamp 28. This controllable electronic ballast 22 is then cascaded to the dimmable electronic ballasts 23-27 in order. Dimmable electronic ballasts 23-27 are connected to fluorescent lights 29-33, respectively, to drive fluorescent lights 29-33. The terminal dimmable electronic ballast 27 can be further extended to connect with the controllable electronic ballast 34 for driving the fluorescent lamp 40. This controllable electronic ballast 34 is then cascaded to the dimmable electronic ballasts 35-39 in order. Dimmable electronic ballasts 35-39 are connected to fluorescent lights 41-45, respectively, to drive fluorescent lights 41-45. After the control interface 1 transmits the main control signal, the controllable electronic ballast 10 acts upon the action of the fluorescent lamp 16 (e.g., turn-on, brightness control, turn-off or brightness memory control) in accordance with the main control signal. And simultaneously transmit the first control signal to the dimmable electronic ballasts 11-15 and the controllable electronic ballast 22, allowing the fluorescent lamps 17-21, 28 to produce corresponding actions. The controllable electronic ballast 22 generates a second control signal in accordance with the first control signal and allows the fluorescent lamps 29-33, 40 to generate corresponding actions, while controlling the dimmable electronic ballast 23-27 and control. The second control signal is transmitted to the possible electronic ballast 34 in order. The controllable electronic ballast 34 then generates a third control signal in accordance with the second control signal and causes the fluorescent lights 41-45 to generate corresponding actions while providing a third to the dimmable electronic ballasts 35-39. Send a control signal. Of course, the main control signal transmitted by the control interface 1 may be divided into only one group (e.g., decomposable controllable electronic ballast 22 and dimmable electronic ballasts 23-27). It is also possible to drive 33) only to turn it on or off. Although this embodiment is illustrated in three groups, more groups may be added to the present invention. Furthermore, the first control signal, the second control signal and the third control signal are all digital serial signals.

In addition to the coupling scheme of FIG. 1, several controllable electronic ballasts may be coupled directly to the control interface as shown in FIG. 2. The control interface 1 is connected to the controllable electronic ballast 10, the controllable electronic ballast 22 and the controllable electronic ballast 34 and uses the main control signals to control all of them. The controllable electronic ballast 10 is based on the main control signal to send a first control signal to the dimmable electronic ballasts 11-15 to drive the fluorescent lamps 17-21. The controllable electronic ballast 22 is based on the main control signal to send a second control signal to the dimmable electronic ballasts 23-27 to drive the fluorescent lamps 29-33. Similarly, controllable electronic ballast 34 is based on a main control signal to transmit a third control signal to dimmable electronic ballasts 35-39 to drive fluorescent tubes 41-45. Of course, these three groups can be driven to operate simultaneously or separately, and each group of dimmable electronic ballasts can also be driven to operate individually in accordance with the main control signal.

In the above two embodiments with different coupling schemes, the dimmable electronic ballasts can be replaced with a dimmable electron converter and the fluorescent lamps can be replaced with halide lamps or tungsten lamps. Or dimmable electronic ballasts may be replaced with LED modules. The same effect can be achieved regardless of what kind of driver and light source is used.

The invention can also be extended to be a narrow or wide area color illumination control system as shown in FIGS. 3 and 4. The connection wiring structure of FIG. 3 is the same as that of FIG. 1, and the connection wiring structure of FIG. 4 is the same as that of FIG. They differ only in light sources. As shown in FIG. 3, the controllable electronic ballast 10 is connected to a white light 46 for driving and the dimmable electronic ballast 11 is connected to a red light 47 for driving and dimmable. Electronic ballast 12 is connected to green light 48 for driving and dimmable electronic ballast 13 is connected to blue light 49 for driving. The controllable electronic ballast 22 is connected to a white light 50 for driving, the dimmable electronic ballast 23 is connected to a red light 51 for driving, and the dimmable electronic ballast 24 is driven. And a dimmable electronic ballast 25 is connected to a blue light 53 for driving. Similarly, the controllable electronic ballast 34 is connected to a white light 54 for driving, the dimmable electronic ballast 35 is connected to a red light 55 for driving, and the dimmable electronic ballast 36 is driven. And a dimmable electronic ballast 37 is connected to a blue light 57 for driving. The rest can be deduced similarly. In this way, through the control signals of the controllable electronic ballasts 10, 22, 34 and the main control signal of the control interface 1 arranged, lighting combinations that change the color light sources provide functions of dimming control and brightness control. Can be achieved.

Furthermore, the present invention is not limited to the shape of the light source, and many kinds of light sources can be used. As shown in FIG. 5, the control interface 1 includes a controllable electronic ballast 10 for controlling and driving each of the white light 46, the red light 47, the green light 48, and the blue light 49. ) And dimmable electronic ballasts 11-13. In addition, the control interface 1 can be controlled by the controllable electronic transducer 58 and the controllable electronic transducer 58 to drive each of the halide lamps 62-65. Can be cascaded in turn. Of course, the control interface 1 can also be connected to LED module controllers cascaded to the controllable LED module controller 66 and the controllable LED module controller 66 to drive each of the LED modules 70-73. have. By using this system configuration, a multi-light source lighting system with section control can be achieved to meet the multifunctional requirements of dimming control and brightness adjustment.

All of the controllable drivers of the present invention have the functions of receiving and transmitting signals. Arranged with drivers having a receiving function, the light sources can be cascaded indefinitely, which is very convenient. In addition, the control interface can transmit the main control signal by wired transmission, wireless signal, IR signal or voice signal, thus having a very wide range of application.

In summary, the wiring used in the present invention is characterized by two line designs, namely a common ground line and a signal line. The user only needs to plug in these two lines to plug in the driver and complete the installation. This signal line is furthermore used to transmit digital serial signals, which are used as control signals between the controllable driver and between the drivers or between the drivers. Users do not need to learn complicated usage settings because the present invention can be used soon after installation without requiring any preset actions. The advantages of simple operation and easy learning can also be achieved. Furthermore, repeaters, controllers or control signal amplifiers required in the prior art can be saved, and no wiring for them is required. Therefore, the original decoration will not be destroyed, and existing control devices and expenses can also be reduced.

While the invention has been described in connection with the preferred embodiment, it will be understood that the invention is not limited to the specific details. Various alternatives and modifications have been proposed in the foregoing description, and others will occur to those skilled in the art. Therefore, all such substitutes and modifications are intended to be included within the scope of the invention as defined in the appended claims.

1 is a block diagram of a group control type white illumination of the present invention.

2 is a block diagram of another group control type white illumination of the present invention.

3 is a block diagram of group control type color illumination of the present invention.

4 is a block diagram of another group control type color illumination of the present invention.

5 is a block diagram of group control type illumination incorporating a plurality of light sources of the present invention.

Claims (13)

At least one control interface capable of generating a primary control signal; At least one first controllable driver for receiving the main control signal to generate a corresponding action and also generate a first control signal, and for driving a first light source; And Group control type fluorescent, LED and / or halide illumination comprising at least one first driver that generates a corresponding action in accordance with the first control signal for driving a second light source and is cascaded to the first controllable driver. Control system. The group control type fluorescent, LED and / or halide illumination control system of claim 1, wherein the first driver is cascaded sequentially into a plurality of drivers, the drivers each generating a corresponding action according to the first control signal. . The method of claim 1, further comprising at least one second controllable driver, wherein the second controllable driver is coupled to the first driver and generates a corresponding action and is cascaded to the second controllable driver. A group control type fluorescence, LED and / or halide illumination control system for receiving the first control signal to generate a second control signal for controlling second drivers. The method of claim 1, further comprising at least one second controllable driver, wherein the second controllable driver is coupled to the control interface, generates a plurality of actions and is cascaded to the second controllable driver. A group control type fluorescence, LED and / or halide illumination control system receiving the main control signal to generate a second control signal for controlling second drivers. The method of claim 1, wherein the first controllable driver is selected from a dimmable electronic ballast, a dimmable electronic converter and an LED module controller, wherein if the first controllable driver is an electronic converter, the first light source is a halide lamp or a tungsten lamp. And wherein the first light source is an LED module if the first controllable driver is an LED module controller. 6. The group control type fluorescent, LED and / or halide lighting control system of claim 5, wherein the first driver and the first controllable driver are of the same type. The method of claim 3, wherein the second controllable driver is selected from a dimmable electronic ballast, a dimmable electronic converter and an LED module controller, wherein if the second controllable driver is an electronic converter, it is necessary to drive a halide lamp or a tungsten lamp. And, if the second controllable driver is an LED module controller, which is used to drive the LED module. 8. The group control type fluorescent, LED and / or halide illumination control system of claim 7, wherein the second driver and the second controllable driver are of the same type. The method of claim 4, wherein the second controllable driver is selected from a dimmable electronic ballast, a dimmable electronic converter and an LED module controller, and if the second controllable driver is an electronic converter, this is to drive a halide lamp or a tungsten lamp. And, if the second controllable driver is an LED module controller, which is used to drive the LED module. 10. The group control type fluorescent, LED and / or halide illumination control system of claim 9, wherein the second driver and the second controllable driver are of the same type. The group control type fluorescent, LED and / or halide illumination control system of claim 1, wherein the control interface transmits the main control signal by wired transmission, wireless signal, IR signal or voice control signal. The method of claim 2, wherein the first light source driven by the first driver and the plurality of light sources driven by the drivers are selected from a white light source, a red light source, a blue light source, and a green light source to generate corresponding actions. Control type fluorescent, LED and / or halide lighting control system. The system of claim 1, wherein the control interface is a control panel, remote controller, transmission switch, knob switch, touch switch, voice control switch, computer or portable electronic device.

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