KR20170111617A - Lighting control apparatus and method - Google Patents

Abstract

An illumination control apparatus according to an embodiment includes: an illumination unit having a light emitting module having a plurality of light emitting diodes and a module control unit for controlling the light emitting module; A microcomputer for receiving and analyzing a pulse signal having illumination control information and outputting an illumination control signal to the illumination unit; And a memory in which the address and control information of the light emitting module are stored according to the illumination control signal of the microcomputer.

Description

TECHNICAL FIELD [0001] The present invention relates to a lighting control apparatus,

Embodiments relate to an apparatus and method for controlling illumination with light emitting diodes.

An illumination device having a light emitting diode (LED) is advantageous in that it is driven with less power consumption and has a longer life than a general lamp. The LED lighting device can produce various kinds of LEDs by controlling the flashing sequence, the emission color, the brightness (dimming), and the like for the arranged LEDs. LED lighting devices are mainly used in general lighting of interior decorations, mood lighting to produce a specific atmosphere, and advertisement lighting of shops. In addition, recent lighting apparatuses are simply turned on and off, and functions that allow the user to freely adjust brightness to a desired level are applied.

Embodiments provide an illumination control apparatus and method that can control illumination of a light emitting diode by transmitting information according to the number of operations of an operation switch.

Embodiments provide an illumination control apparatus and method that can control illumination of a light emitting diode by transmitting illumination control information along an input signal of an operation switch as a pulse signal.

The embodiment provides a lighting control apparatus and method for transmitting various kinds of illumination control information corresponding to operation signals of operation switches by pulses and controlling illumination of the light emitting diodes according to the transmitted illumination control information.

An illumination control apparatus according to an embodiment includes: an illumination unit having a light emitting module having a plurality of light emitting diodes and a module control unit for controlling the light emitting module; A microcomputer for receiving and analyzing a pulse signal having illumination control information and outputting an illumination control signal to the illumination unit; And a memory in which the address and control information of the light emitting module are stored according to the illumination control signal of the microcomputer.

A lighting control method according to an embodiment of the present invention includes the steps of: receiving a lighting control signal as a pulse signal in accordance with an operation signal of an operation switch; Interpreting address data and dimming data included in the illumination control signal from the received pulse signal; And controlling the color and dimming of the light emitting module having the light emitting diode according to the interpreted illumination control signal.

In the embodiment, information is provided in a pulse form according to the operation of the operation switch and received and processed, thereby reducing the number of separate communication ICs and circuit components for reception.

The embodiment has an effect that individual control of illumination and color control of illumination can be performed by the operation information of the operation switch.

The embodiment can simply constitute a receiving circuit.

Since the embodiment does not transmit the illumination control signal using the voltage magnitude, there is an effect that distance communication is possible because there is no influence of line noise.

In the embodiment, by transmitting information by a pulse signal, noise filtering of a signal is possible, and a stable lighting state can be maintained.

The embodiment can improve the reliability of the lighting control device.

1 is a block diagram of a lighting control apparatus according to an embodiment.
2 is a block diagram showing a receiving circuit of the microcomputer of FIG.
3 is a signal showing illumination control data transmitted by the control unit according to the embodiment.
4 is a diagram showing voltages for dimming control in the comparative example.
5 is a flowchart showing a lighting control method in the lighting control apparatus according to the embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. It is to be noted that the same components of the drawings are denoted by the same reference numerals and symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. Also, when a part is referred to as "including " an element, it does not exclude other elements unless specifically stated otherwise.

Fig. 1 is a block diagram of a lighting control apparatus according to an embodiment, Fig. 2 is a configuration diagram showing a receiving circuit of the microcomputer 21 in Fig. 1, Fig. 3 is a diagram showing a lighting control data transmitted from a control unit according to an embodiment Respectively.

1, the illumination control apparatus includes an operation switch 11, a control unit 13, a storage unit 16, a pulse generator 18, a microcomputer 21, a memory 25, an illumination unit 31 ).

The operation switch 11 may be an illumination control switch, or may be an AC power switch as another example, or an on / off switch for controlling lighting or lighting of the illumination unit 31. [ The operation switch 11 may be a wired switch or a wirelessly connected remote controller.

The control unit 13 can input an illumination control signal stored in the storage unit 16 according to the number of times the operation switch 11 is operated I will read it.

When the number of manipulations of the illumination control signal is 1 to 10, a signal corresponding to the dimming voltage magnitude as shown in FIG. 4 may be input according to the number of manipulations. For example, if the number of manipulations is 1, the dimming voltage is input with a dimming voltage of 1 V, and if the manipulation frequency is 2, the dimming voltage is input with a dimming voltage of 2 V. Accordingly, it can be recognized that the dimming voltage magnitude of nV (n = 1 or more integer) is input when the number of manipulations is n (n = 1 or more integer). As another example, if the number of manipulations is 1, it is inputted with a dimming voltage size of 10 V, and when the manipulation number is 2, it can be inputted with a dimming voltage size of 9 V. [ Accordingly, it can be recognized that the dimming voltage magnitude of nV (n = 10 or less integer) is input when the number of manipulations is n (n = 10 or less integer).

The control unit 13 transmits a control signal to the pulse generator 18 and the pulse generator 18 transmits a pulse signal corresponding to the illumination control signal according to the control signal of the control unit 13.

The pulse signal has a data frame such as a start bit (SB), address data (AD), dimming data (DD), and stop bit (SB) The address data AD includes information for controlling each of the light emitting modules 35, and is allocated to 3 bits. The address data AD includes information for controlling each of the light emitting modules 35, And the dimming data DD may include brightness information for dimming control and may be allocated to 5 bits, and the stop bit SB may be allocated to 2 bits. The address data AD and the dimming data DD may be different depending on the object or function to be controlled and the bit number of the data frame may be changed. These kinds of data frames can be transmitted by putting each kind of illumination control information in a combination of 0 and 1. The data frame may be followed by a stop signal (SB), a null signal and a break signal. The MAB signal may be input in about 200 ms, the null signal may be input in about one second, and the break signal may be input in the range of 66 to 330 msec, but the present invention is not limited thereto. The address data AD and the dimming data DD can be distinguished using continuous intermittent information and time information. For example, since the address data AD is 3 bits, it is detected as an operation signal inputted within 2 seconds, The dimming data DD can be detected by an operation signal inputted after 2 seconds. Such operation time information can be adjusted according to the user, but is not limited thereto.

Here, FIG. 4 shows a dimming control signal of the comparative example in which the dimming control signal is divided according to the magnitude of the voltage. That is, the dimming control signal is inputted from the user by subdividing the voltage from 1V to 10V. In this case, there is a problem that a separate communication IC or a circuit component for reception must be provided. In addition, if the dimming voltage is low, there is a problem that it is difficult to control the dimming voltage because of the influence of line noise. In addition, since all the lights are controlled in a batch, individual control becomes impossible and only simple dimming control is performed. In addition, there is a problem that the illumination control or the lighting state is unstable when the noise having the ripple which fluctuates in the voltage magnitude can not be filtered.

The control unit 13 according to the embodiment transmits the pulse of the illumination control signal generated by the pulse generator 18 through the signal output unit 14. [ The illumination control signal may be an encoded signal containing information on the pulse signal of the pulse generator 18. [ The signal output unit 14 may include an A / D (Analog / Digital) converter for converting a digital signal into an analog signal. As another example, the signal output section 14 may include a radio transmission section for transmitting a radio signal. Since the control unit 13 transmits a pulse signal, it can reduce the influence of noise and can be used for a long distance, and the influence of a signal due to external noise can be small. Also, since it is transmitted by pulse, not by voltage, it is not necessary to include a communication IC or a separate receiving circuit.

The microcomputer 21 receives the illumination control signal transmitted from the control unit 13. [ The microcomputer 21 includes a signal receiving unit 22 and the signal receiving unit 22 may include a digital / analog (D / A) converter for converting an analog signal into a digital signal. As another example, the signal receiving unit 22 may include a wireless receiving unit for receiving a wireless signal.

The microcomputer 21 includes a decoder 23 and the decoder 23 interprets the illumination control signal and supplies the interpreted illumination control signal to the memory 25 via the address data and the dimming Data and the address and brightness information of the light emitting module (s) are detected. 2, the receiving circuit 20 may be connected to the input side of the microcomputer 21, and the receiving circuit 20 may connect the microcomputer 21 and the controller 13 to each other, If a normal voltage or overvoltage is input, it can be bypassed to the ground via the resistor R1 and the control diode D1.

The microcomputer 21 transmits a control signal to the illumination unit 31 using the illumination control signal read from the memory 25 and checks the illumination brightness level through the feedback signal F1 from the illumination unit 31 . The memory 25 includes a loop up table and stores control data such as address data, brightness, and color for controlling the light emitting module 35.

The illumination unit 31 includes a module control unit 33 and a light emitting module 35. The module control unit 33 includes a pulse width modulation (PWM) generator and a driver And controls the ON and OFF of the light emitting module 35 and the current intensity to control the color and the dimming. When a plurality of the module control unit 33 and the light emitting module 35 are arranged, they can be controlled according to the address data.

The light emitting module 35 may include a plurality of light emitting diodes, and the light emitting diodes may emit white light. For example, the light emitting module 35 may be a worm white, a cool white, a neutral white, And at least two of white (pure wihte), and can receive light color and brightness control of LED lighting.

In the embodiment, the number of operation of the operation switch 11 or the illumination control information according to the input signal is transmitted to the microcomputer 21 for lighting control by putting the light control information on the pulse signal, And dimming or brightness. Further, when there are a plurality of light emitting modules 35, there is an effect that individual control can be performed using the address data.

Referring to FIG. 4, the microcomputer 21 receives a signal of the operation switch 11 from an external user, for example, through the control unit 13 (51). The received signal at this time is an illumination control signal, and a pulse signal having a data frame as shown in Fig. 3 is received as an analog signal and converted into a digital signal. The microcomputer 21 interprets the received signal by referring to the memory 25 to read the address data and the dimming data 53 and 55. The color and brightness of the light emitting diode As shown in FIG. The embodiment can be selected by the address data when the number of the light emitting modules 35 having the light emitting diodes is plural, and the brightness and the color can be controlled.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

11: Operation switch 13:
14: Signal output unit 16:
18: Pulse generator 20: Receiving circuit
21: Microcomputer 22: Signal receiving section
25: Memory 31:
33: module control unit 35: light emitting module

Claims (6)

An illumination unit having a light emitting module having a plurality of light emitting diodes and a module control unit for controlling the light emitting module;
A microcomputer for receiving and analyzing a pulse signal having illumination control information and outputting an illumination control signal to the illumination unit; And
And a memory for storing address and control information of the light emitting module according to the lighting control signal of the microcomputer. The method according to claim 1,
Wherein the micom includes a decoder for interpreting the pulse signal. 3. The method according to claim 1 or 2,
A controller for transmitting the pulse signal as an analog signal to the microcomputer;
An operation switch for inputting an operation signal to the control unit;
A storage unit for storing data on an operation signal of the operation switch; And
And a pulse generator for generating a pulse according to data on the operation signal and transmitting the pulse to the control unit. The method of claim 3,
And a receiving circuit for protecting and connecting the overvoltage between the microcomputer and the control unit. The method of claim 3,
Wherein the illumination control signal includes address data and dimming data according to the number of operations. Receiving an illumination control signal corresponding to an operation signal of the operation switch as a pulse signal;
Interpreting address data and dimming data included in the illumination control signal from the received pulse signal; And
And controlling the color and dimming of the light emitting module having the light emitting diode according to the interpreted illumination control signal.

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