KR20110001782A - Light control system - Google Patents

Abstract

PURPOSE: A light control system is provided to detect the abnormality of an illumination device by controlling an illumination driving unit. CONSTITUTION: A light control system comprises a local controller(130) and at least one illumination units(140,150,160). The illumination unit is connected to the local controller through a wire and wireless communication. The illumination unit includes at least one illumination device, an illumination driving part, an illumination control part, and microcomputer. The lighting drive part drives the illumination device. The illumination control part senses the error of the illumination driving part through the lighting drive part. The microcomputer transmits the error information of the illumination control part to a local controller.

Description

Lighting control system {LIGHT CONTROL SYSTEM}

Embodiments relate to a lighting control system.

The lighting control system includes a lighting device and a lighting controller.

The conventional lighting control system provides a function of remotely turning on / off a lighting device using a wire controller or a wireless communication scheme using a lighting controller.

An embodiment provides a new light control system.

The embodiment provides a lighting control system capable of identifying and controlling an abnormality of a lighting device.

An embodiment provides a lighting control system capable of controlling the brightness of a lighting device.

Lighting control system according to an embodiment includes a local controller; And at least one lighting unit connected to the local controller in a wired communication manner or a wireless communication manner, wherein the lighting unit controls at least one lighting device, an lighting driver for driving the lighting device, and controls the lighting driver. And a lighting controller configured to detect an error occurrence of the lighting device through a lighting driver, and a microcomputer that controls the lighting controller and is connected to the local controller to transmit error occurrence information from the lighting controller to the local controller.

Embodiments can provide a new lighting control system.

The embodiment can provide a lighting control system capable of identifying and controlling an abnormality of a lighting device.

The embodiment can provide a lighting control system capable of controlling the brightness of the lighting device.

Hereinafter, a lighting control system according to an embodiment will be described in detail with reference to the accompanying drawings.

1 is a view for explaining an example that the lighting control system according to the embodiment is applied.

Referring to FIG. 1, a lighting control system according to an embodiment includes a first local computer 30 for controlling lighting of a first building 40 and a second local computer 31 for controlling lighting of a second building 41. ), A third local computer 32 controlling the lighting of the third building 42.

The first, second, and third buildings 40, 41, and 42 may be provided with a plurality of lighting units separated by floors or by sections or zones, respectively. The first, second, and third local computers 30,31, 32 may control the plurality of lighting units, respectively.

The first, second, and third local computers 30, 31, and 32 may be connected to the remote computer 10 through the TCP / IP network 20. The first, second, and third local computers 30, 31, and 32 may report a lighting control state to the remote computer 10 or perform a lighting control operation according to a control command of the remote computer 10. .

Although three buildings and three local computers are illustrated in FIG. 1, the number of buildings and local computers is not limited. In addition, although FIG. 1 illustrates that one local computer controls the lighting unit of one building, a plurality of local computers control a plurality of lighting units in one building, or one local computer is located in a plurality of buildings. It is also possible to control a plurality of lighting units. In addition, although FIG. 1 illustrates that the local computer and the remote computer are connected through the TCP / IP NETWORK 20, the local computer and the remote computer may be connected according to various wireless or wired communication standards. In addition, although the local computer and the remote computer are disclosed in FIG. 1, only one of the local computer and the remote computer may be provided.

2 is a block diagram illustrating a structure of a lighting control system according to an embodiment, and FIG. 3 is a block diagram illustrating a structure of a lighting unit in a lighting control system according to an embodiment.

3 illustrates a detailed structure of the first lighting unit 140, and although not shown, the second lighting unit 150 and the third lighting unit 160 also have the same structure as the first lighting unit 140. Can have

2 and 3, the lighting control system according to the embodiment includes a remote controller 110, a local controller 130, a first lighting unit 140, a second lighting unit 150, and a third lighting unit 160. ).

The remote controller 110 communicates with the local controller 130 through a TCP / IP (Transport Control Protocol / Internet Protocol). The local controller 130 communicates with the first, second, and third lighting units 140, 150, and 160 through a controller area network (CAN). The connection between the remote controller 110 and the local controller 130 and the connection between the local controller 130 and the first, second, and third lighting units 140, 150, and 160 may use other wired or wireless communication methods. .

The first lighting unit 140 includes a memory 141a and a microcomputer 141 connected to the local controller 130, a sensor 142 connected to the microcomputer 141, and an illumination connected to the microcomputer 141. The controller 143 includes an illumination driver 144 connected to the illumination controller 143 and an illumination device 145 connected to the illumination driver 144.

The lighting device 145 may be, for example, an LED lighting device using a light emitting diode (LED) as a light source, and the lighting driver 144 may be an LED driver for driving the LED lighting device.

The lighting controller 143 controls the lighting driver 144 and detects an abnormality of the lighting device 145 through the lighting driver 144. In addition, the lighting control unit 143 has a unique address indicating an ID of the lighting device 145.

The microcomputer 141 stores the unique address of the lighting controller 143 in the memory 141a and transmits the current state of the lighting device 145 including the abnormality to the local controller 130. The microcomputer 141 is implemented as a microprocessor capable of CAN communication.

In addition, the microcomputer 141 may control the operation of the lighting control unit 143 according to a control command transmitted from the local controller 130. In addition, the microcomputer 141 may provide an appropriate control signal to the lighting controller 143 according to the signal detected by the sensor 142.

The sensor 142 may include at least one of a luminance sensor, a motion sensor, and a temperature sensor.

When the sensor 142 is a luminance sensor, the sensor 142 measures the luminance around the first lighting unit 140 and transmits the luminance measurement value to the microcomputer 141. The microcomputer 141 controls the brightness of the lighting device 145 according to the brightness detected by the sensor 142.

When the sensor 142 is a temperature sensor, the sensor 142 measures the temperature around the first lighting unit 140 and transmits a temperature measurement value to the microcomputer 141. The microcomputer 141 controls the brightness, color temperature, color reproduction mode, etc. of the lighting device 145 according to the temperature sensed by the sensor 142.

When the sensor 142 is a motion sensor, the sensor 142 detects a movement around the first lighting unit 140, and turns off the lighting device 145 when no movement is detected for a predetermined time, When a new movement is detected after a certain time, the lighting device 145 is turned on or the brightness of the lighting device 145 is controlled.

4 is a view for explaining the operation of the lighting control system according to the embodiment.

In describing the operation of the lighting control system according to the embodiment, the operation of the local controller 130 and the first lighting unit 140 will be described. Although not described, operations of the local controller 130, the second lighting unit 150, and the third lighting unit 160 are also the same. In addition, in describing the operation of the lighting control system according to the embodiment, a case in which the sensor 142 is a luminance sensor will be described.

4, first, the lighting system is initialized (S100). Power is applied and initialized to the remote controller 110, the local controller 130, and the first lighting unit 140.

The microcomputer 141 included in the first lighting unit 140 obtains a unique address from the lighting control unit 143 as power is applied and stores the unique address in the memory 141a. The unique address may be used by the microcomputer 140 to receive a control command from the local controller 130 or to report the current state of the lighting device 145 to the local controller 130.

The lighting controller 143 checks the abnormality of the lighting device 145 through the lighting driver 144 (S110). For example, the lighting controller 143 may check whether the lighting device 145 is abnormal by measuring the voltage or current of the lighting device 145 through the lighting driver 144.

The lighting controller 143 writes the error information to the memory 141a when an error occurs in the lighting device 145 (S120). In addition, the microcomputer 141 notifies the local controller 130 of the error state according to the error information recorded in the memory 141a (S130). The local controller 130 may notify the remote controller 110 of the error information. On the contrary, when there is no error in the lighting device 145, the lighting controller 143 records in the memory 141a that the lighting device 145 is operating normally.

When no error occurs in the lighting device 145 (S140), the microcomputer 141 measures the brightness of the lighting device 145 through the sensor 142. Here, the sensor 142 may be a luminance sensor. In operation S140, it is determined whether the measured luminance is normal luminance.

When the luminance measured by the sensor 142 is normal, the microcomputer 141 causes the lighting device 145 to operate until the power-off command of the lighting device 145 is input.

When the luminance measured by the sensor 142 is not normal, the microcomputer 141 recalculates the luminance setting value in order to output the normal luminance (S150).

Then, the new brightness value is reset in the illumination control unit 143, and the reset brightness value is recorded in the memory 141a (S160) (S170).

For example, when the lighting device 145 is set to emit light having 50% of the maximum brightness, but the actual brightness is only 40% of the maximum brightness due to long-term use, the brightness setting value is set to 60% of the maximum brightness. Reset to emit light with%. The reset luminance value is recorded in the memory 141a. Therefore, the light emitted from the lighting device 145 may have a luminance close to 50% of the initially set maximum luminance.

As described above, in the lighting control system according to the embodiment, the user can control the local controller 130 through the remote controller 110, and accordingly the first and second connected to the local controller 130 , 3 lighting unit (140,150,160) can be controlled.

In addition, a user may control the first, second, and third lighting units 140, 150, and 160 through the local controller 130.

In addition, although not shown, the user controls the on / off power of the first, second and third lighting units 140, 150 and 160 through a manual manipulator such as a switch provided in the first, second and third lighting units 140, 150 and 160. It is also possible.

In addition, the lighting control system according to the embodiment checks whether there is an abnormality of the lighting device through the microcomputer 141 provided in each of the first, second and third lighting units 140, 150 and 160, and if an error occurs, the local controller By reporting to the 130 and / or the remote controller 110, it is possible to quickly determine whether there is an abnormality of the lighting device 145 and to take action.

Features, structures, effects, and the like described in the above embodiments are included in at least one embodiment of the present invention, and are not necessarily limited to only one embodiment. Furthermore, the features, structures, effects, and the like illustrated in the embodiments may be combined or modified with respect to other embodiments by those skilled in the art to which the embodiments belong. Therefore, it should be understood that the present invention is not limited to these combinations and modifications.

Although described above with reference to the embodiment is only an example and is not intended to limit the invention, those of ordinary skill in the art to which the present invention does not exemplify the above within the scope not departing from the essential characteristics of this embodiment It will be appreciated that many variations and applications are possible. For example, each component specifically shown in the embodiment can be modified. And differences relating to these modifications and applications will have to be construed as being included in the scope of the invention defined in the appended claims.

1 is a view for explaining an example to which the lighting control system according to the embodiment is applied.

2 is a block diagram illustrating a structure of a lighting control system according to an embodiment.

3 is a block diagram illustrating a structure of a lighting unit in a lighting control system according to an embodiment.

4 is a diagram illustrating an operation of a lighting control system according to an embodiment.

Claims (8)

Local controller; And At least one lighting unit connected to the local controller in a wired or wireless communication method, The lighting unit controls at least one lighting device, an lighting driver for driving the lighting device, an lighting control unit for controlling the lighting driving unit, and detecting an error of the lighting device through the lighting driving unit, and controlling the lighting control unit. And a microcomputer connected to the local controller to transmit error occurrence information from the lighting controller to the local controller. The method of claim 1, And a remote controller connected to the local controller in a wired or wireless communication manner to control the local controller. The method of claim 1, The local controller is connected to the lighting unit via a controller area network (CAN). The method of claim 1, The microcomputer acquires unique address information from the lighting control unit and stores the unique address information in a memory. The method of claim 1, The illumination unit includes a brightness sensor, the brightness sensor transmits the measured brightness to the microcomputer, the microcomputer controls the lighting control unit according to the brightness value transmitted from the brightness sensor. The method of claim 1, The lighting unit includes a temperature sensor, wherein the temperature sensor transmits the measured temperature to the microcomputer, and the microcomputer controls the lighting control unit according to the temperature value transmitted from the temperature sensor. The method of claim 1, The lighting unit includes a motion sensor, wherein the motion sensor transmits the measured motion to the micom, and the micom controls the lighting control unit according to the motion transmitted from the motion sensor. The method of claim 1, The lighting device comprises an LED lighting device.

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