KR20080002955U - Wireless Control Lighting Apparatus using Static Current-driven Semiconductor - Google Patents

Abstract

The present invention relates to a wirelessly controlled lighting device using a constant current driving semiconductor, which is a remote control control indoor and outdoor lighting device using a constant current driving semiconductor and a motion sensing sensor, which minimizes power consumption, and enables color adjustment and brightness control. The present invention relates to a wireless control lighting device using a constant current driving semiconductor for indoor lighting to operate by sensing a fine temperature of an internal operation in a control manner.

Wireless control lighting apparatus using a constant current drive semiconductor of the present invention for achieving the above object is a cover portion coated with a fluorescent material on the inner surface; An inner frame part provided inside the cover member; A printed circuit board unit coupled to the inner frame and having a circuit diagram for electrical operation of an internal element including a constant current driving semiconductor and a central control unit; A diffusion type light emitting diode unit mounted on the printed circuit board and operated by an operation signal generated through the central control unit; A motion detection sensor mounted on the printed circuit board to detect a slight heat of a human body and amplify the detected signal to process a signal; An infrared receiver mounted on the printed circuit board and configured to receive a signal from an external device to operate the central control unit and the motion sensing thinner; And a power supply unit configured to supply power for the operation of each unit.

 Constant Current Drive Semiconductor, Sensor, Light Emitting Diode, Printed Circuit Board, Univid

Description

Wireless Control Lighting Apparatus Using Constant Current Drive Semiconductors {Wireless Control Lighting Apparatus using Static Current-driven Semiconductor}

1 is a block diagram showing a wireless control lighting apparatus using a constant current driving semiconductor according to an embodiment of the present invention;

2 is a block diagram showing the configuration of a printed circuit board according to an embodiment of the present invention;

3 is a circuit diagram illustrating an internal circuit system of a constant current driving semiconductor according to an embodiment of the present invention;

4 is a perspective view showing a diffusion type light emitting diode according to an embodiment of the present invention;

5 is an exemplary view showing an installation position of a diffusion type light emitting diode according to an embodiment of the present invention; And

6 is an experimental diagram showing a brightness comparison according to whether the constant current driving semiconductor according to an embodiment of the present invention is applied.

※ Explanation of symbols for main parts of drawing

100: radio control lighting device 110: cover

120: internal frame portion 130: printed circuit board portion

131: constant current driving semiconductor 131a: constant current circuit

131b: output stage 131c: amplification control output stage

131d: forced power control stage 131e: protection circuit

131f: concave lens 131g: diffuser

132: central processing unit 133: diffused light emitting diode unit

134: motion detection sensor 135: infrared receiver

The present invention relates to a wirelessly controlled lighting device using a constant current driving semiconductor, which is a remote control control indoor and outdoor lighting device using a constant current driving semiconductor and a motion sensing sensor, which minimizes power consumption, and enables color adjustment and brightness control. The present invention relates to a wireless control lighting device using a constant current driving semiconductor for indoor lighting to operate by sensing a fine temperature of an internal operation in a control manner.

In general, the use of general lamp-type lighting has been common in modern society, but in recent years, as the luminance of light emitting diodes (LEDs) increases, they can be applied to various fields and can be used to replace lighting lamps.

In recent years, as the lighting interiors have increased in each home, interest in decorative lighting or atmosphere lighting has increased, and a new perspective on lighting has been obtained.

In the case of conventional decorative and atmosphere lighting, the fluorescent lamp consumes about 30W of electricity in a general incandescent lamp or a fluorescent lamp, and is applicable only in a limited place where power is always supplied.

In the case of the lighting to which the conventional lamp is applied, electric safety installation must be performed separately to install the lamp, and power installation must be performed at the same time. That is, for example, a product using an incandescent lamp consumes more than 30W of current and thus cannot be used without power supply.

Therefore, in order to compensate for this problem and to be able to use lighting without power supply, lighting using light emitting diodes (LEDs) has been developed.

In the case of lighting using such a light emitting diode, less than 5W of power is required, so the power consumption is low, which is suitable for decorative and atmosphere lighting.

However, in the case of lighting using the conventional light emitting diode as described above, since a general light emitting diode (LED) is used as a light or a direct light emitting diode (LED) is used as a light, it is difficult to produce various color combinations or a light emitting diode ( There was a problem that the brightness (brightness) as the lamp by the LED) is not sufficient.

The present invention for solving the above problems is low power consumption, color combination is possible, can be controlled through a wireless control method and at the same time can provide a wireless control lighting device using a constant current drive semiconductor capable of brightness control. have.

Wireless control lighting apparatus using a constant current drive semiconductor of the present invention for achieving the above object is a cover portion coated with a fluorescent material on the inner surface; An inner frame part provided inside the cover member; A printed circuit board unit coupled to the inner frame and having a circuit diagram for electrical operation of an internal element including a constant current driving semiconductor and a central control unit; A diffusion type light emitting diode unit mounted on the printed circuit board and operated by an operation signal generated through the central control unit; A motion detection sensor mounted on the printed circuit board to detect a slight heat of a human body and amplify the detected signal to process a signal; An infrared receiver mounted on the printed circuit board and configured to receive a signal from an external device to operate the central control unit and the motion sensing thinner; And a power supply unit configured to supply power for the operation of each unit.

Here, the constant current driving semiconductor includes eight constant current circuits, and the constant current circuit has respective output stages, an amplifying control output stage having the same amplification rate, and a forced power control capable of forcibly opening and closing to minimize leakage current. It is characterized in that it has a structure including a protection circuit for preventing overvoltage and the overvoltage.

In addition, the central control unit is composed of 8-bit microcomputer, it characterized in that the operation signal is controlled through a two-stage pulse width modulation operation.

In addition, the diffusion type light emitting diode unit is characterized in that it comprises a concave lens having a diffusion angle of 140 ° and a diffuser of a translucent material having a thickness of 0.1 ~ 0.5㎛.

In addition, the diffusion type light emitting diode unit is characterized by consisting of a high brightness light emitting diode of red, green, blue.

On the other hand, the wireless control lighting apparatus further comprises a remote control unit for controlling the light, the remote control unit is an infrared communication method is applied, characterized in that the signal communication is made by the two-stage signal transmission with the infrared receiver.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the accompanying drawings, Figure 1 is a block diagram showing a wireless control lighting apparatus using a constant current drive semiconductor according to an embodiment of the present invention, Figure 2 is a block diagram showing the configuration of a printed circuit board according to an embodiment of the present invention, 3 is a circuit diagram illustrating an internal circuit system of a constant current driving semiconductor according to an embodiment of the present invention, FIG. 4 is a perspective view showing a diffusion type light emitting diode according to an embodiment of the present invention, and FIG. 5 is an embodiment of the present invention. An exemplary view showing the installation position of the diffusion type light emitting diode according to the present invention.

  1 and 2, the wireless control lighting apparatus 100 using the constant current driving semiconductor of the present invention includes a cover 110, an inner frame 120, a printed circuit board 130, and a power supply (not shown). City) and a remote control unit (not shown).

Cover unit 110

The cover 110 is to protect the internal device, which is preferably using a sanded glass material of about 6.5㎛ size, the silicate-based fluorescent material is about 0.5 on the inner surface of the glass cover 110 Coated to a thickness of ˜1 mm.

The glass cover 110 illustrated in the embodiment of the present invention has a structure that can evenly distribute the light of the diffusion type light emitting diode 131 to be described below, which is a plastic made by plastic processing as well as a glass cover You can also use materials.

Internal frame part 120

The inner frame part 120 is to be coupled to the inside of the cover 110, the member to which the printed circuit board 130 to be described later.

Printed circuit board unit 130

Referring to FIG. 2, the printed circuit board 130 is located in the inner space of the inner frame part 120, and an internal circuit diagram is formed therein, and the constant current driving semiconductor 131 is included in the internal circuit diagram. The central control processing unit 132, the diffusion type light emitting diode unit 133, the motion detection sensor unit 134, and the infrared receiver 135 are mounted.

Referring to FIG. 3, the constant current driving semiconductor 131 includes eight constant current circuits 131 a, which have each output terminal 131 b and have the same amplification factor. It is composed of an amplification control output stage 131c and a forced force control stage 131d capable of forcibly opening and closing in order to minimize leakage current.

The constant current circuit 131a of the constant current driving semiconductor 131 is configured such that a voltage coming into an input power source operates at a constant voltage at an output terminal 131c of the amplifier, thereby maintaining a constant brightness regardless of power consumption (not shown). I can make it.

 It is configured to enable brightness control using a resistor in the externally controllable amplification control output terminal 131c, and a power forced control stage (which is a kind of forced control electronic switch) 131d is configured to prevent power consumption when not in use. Each port includes a protection circuit 131e for preventing overvoltage. The power forced control stage 131d is a terminal that can be forcibly opened and closed in order to minimize leakage current generated when not in use.

The constant current driving semiconductor 131 has a transistor for controlling each terminal of the output therein and receives a pulse width modulation (PWM) signal supplied from the central control unit 132 to diffuse the light emitting diode The operation of the unit 131 can be sequentially controlled.

In addition, the constant current driving semiconductor 131 supplies a constant current, which does not have a change in brightness in any power source.

The constant current driving semiconductor 131 having the structure as described above is not suitable for a product of 10W or more, but is useful for a system using a light emitting diode as illumination.

On the other hand, the central processing unit 132 uses an 8-bit general purpose microcomputer, the operation signal is configured to control through a two-stage pulse width tuning (PWM) operation, so that the supply power is minimized when not in use.

The PWM signal sent from the central control unit 132 is input to the diffusion type LED unit 131 through a peripheral circuit portion, and the emitter of the diffusion type LED unit 131 is supplied to the constant current driving semiconductor 131. Configured to be connected.

Referring to FIGS. 1 and 4, the diffusion type light emitting diode unit 133 is composed of three high luminance light emitting diodes of red, blue, and green, so that a desired color can be realized according to a user's color, and the brightness is 10,000 mcd. ~ 25,000mcd and 1W light emitting diode is used.

The diffusion type light emitting diode unit 133 includes a concave lens 131f having a diffusion angle of 140 ° and a diffuser 131g of a translucent material having a thickness of 0.1 μm to 0.5 μm.

The concave lens 131f has a diffusion angle of 140 ° in order to widen the color combination angle of the light emitting diodes. When the concave lens 131f is wider than this diffusion angle, each diode affects an object of an adjacent diode and is set around the light emitting diode. It may have a color other than the color, and if it is smaller than this diffusion angle, the diffusion may fall and there may be a problem in the color combination.

The diffusion material 131g is added to increase the diffusivity than the linearity of the light emitting diode 131, which uses organic beads. The organic bead is a semi-transparent material having a circular structure of 0.1 ~ 0.5㎛ thickness, when the light is scattered to the surface of the organic bead having a circular structure serves to reduce the linearity of the light emitting diode.

At this time, the organic bead is suitable for the addition of 3% of the mold (mold) surrounding the light emitting diode 131, when less than this amount is added is not suitable for lighting due to the high linearity of the light of the light emitting diode, a larger amount than this When this is added, the light transmittance is lowered, which causes a problem as a light emitting diode for illumination.

The motion detection sensor unit 134 has a structure for sensing and amplifying a slight heat of the human body within a 5M radius after operating the wireless control lighting device 100 according to an embodiment of the present invention as a remote control unit (not shown). It is configured to include a sensor, and if the motion is not detected for a certain time to automatically stop the operation of the lighting device (100).

The motion detection sensor (not shown) automatically detects the heat of the human body and adjusts the data of the internal central processing unit 132 in a manner that detects it by two-stage amplification, and automatically illuminates when motion is not detected for 5 minutes. The device 100 is turned off.

The infrared receiver 135 is a general IR communication receiver and includes a noise removing capacitor (not shown) to increase white noise and an operating range.

The control system provided in the PCB 130 configured as described above is applied with a voltage of 4.5V from the power supply (not shown), the central control unit 132 and the infrared receiver 135 in the standby mode Wait for the signal. In this case, when the operation signal is applied from the remote controller (not shown), the infrared receiver 135 receives the signal to drive the central control processing unit 132 and the motion detection sensor unit 134.

In addition, the driven signal generates a PWM signal in the central control unit 132, and the generated signal drives the diffusion type light emitting diode 131 through the peripheral circuit, and the brightness is the constant current driving semiconductor 131. It will output consistently with the brightness set in).

This signal is always operated, but if no motion or mild heat is detected in the motion detection sensor unit 134, it is automatically set to a structure that reduces energy consumption by stopping the operation after 5 minutes.

Power supply unit (not shown)

The power supply unit (not shown) serves to supply power for the operation of the above-described parts, the power circuit supplied by the power supply unit (not shown) is a general battery and a rechargeable battery, AC power supply, etc. It has a structure that can use a multi-purpose power supply.

Remote control unit (not shown)

The remote control unit (not shown) is a device for controlling the lighting of the lighting device 100 according to an embodiment of the present invention, which is provided separately from the lighting device 100 of the present invention, which is provided in the above-described printed circuit board unit 130. Infrared communication with the built-in infrared receiver 135. In addition, signal transmission is performed in two stages to minimize power consumption.

Meanwhile, referring to FIG. 5, the installation positions L and L ′ of the printed circuit board 130 on which the diffusion type light emitting diode unit 131 is mounted are located at the center of the cover unit 110. Preferably, the shadow is generated at the bottom of the installation position (L, L ') when going up, the color combination may not occur when going down. Therefore, the installation position (L, L ') is preferably about 5 ~ 6cm (L) at the bottom, it is preferable to maintain a distance of about 3 ~ 4cm with the glass cover which is the cover 110. .

Of the accompanying drawings, Figure 6 is an experimental view showing the brightness comparison according to whether the constant current driving semiconductor according to the embodiment of the present invention.

This shows the brightness of the lighting device according to the battery consumption when using a normal battery and a rechargeable battery as a power supply (not shown), Figure 4a shows the change in brightness when the constant current driving semiconductor is not used, Figure 4b Shows the change of brightness when using the constant current driving semiconductor.

As shown in the drawings, the wireless control lighting device 100 using the constant current drive semiconductor according to the present invention can be seen that the brightness is consistently displayed even when the battery and the rechargeable battery, which can be applied to various lighting equipment .

On the other hand, the wireless control lighting device 100 using the constant current driving semiconductor according to the present invention is amplification degree of the constant current driving semiconductor is adjusted to have a brightness of about 6,500 mcd when the maximum power consumption is less than 1W.

This is an optimal value that can control the brightness under the condition that the light emitting diode does not generate heat. The control resistance of the amplification control output terminal 131c is preferably 27 kV.

At this time, if you want to increase the brightness lower the control resistance value, the brightness is increased.

According to the wireless control lighting apparatus using the constant current driving semiconductor according to the present invention as described above, the power consumption is low, various color combinations are possible, and the light control can be controlled at the same time through the wireless control method.

Claims (6)

A cover part coated with a fluorescent material on an inner surface thereof; An inner frame part provided inside the cover member; A printed circuit board unit coupled to the inner frame and having a circuit diagram for electrical operation of an internal element including a constant current driving semiconductor and a central control unit; A diffusion type light emitting diode unit mounted on the printed circuit board and operated by an operation signal generated through the central control unit; A motion detection sensor mounted on the printed circuit board to detect a slight heat of a human body and amplify the detected signal to process a signal; An infrared receiver mounted on the printed circuit board and configured to receive a signal from an external device to operate the central control unit and the motion sensing thinner; And Wireless control lighting device using a constant current drive semiconductor, characterized in that consisting of a power supply for supplying power for the operation of each part. The method of claim 1, The constant current driving semiconductor includes eight constant current circuits, the constant current circuit having respective output stages, an amplifying control output stage having the same amplification rate, a forced force control stage capable of forcibly opening and closing to minimize leakage current, and Wireless control lighting apparatus using a constant current drive semiconductor, characterized in that having a structure including a protection circuit for overvoltage protection. The method of claim 1, The central control processing unit is composed of 8-bit microcomputer, a wireless control lighting apparatus using a constant current drive semiconductor, characterized in that the operation signal is controlled through a two-stage pulse width modulation operation. The method of claim 1, The diffusion type light emitting diode unit is a wireless control lighting device using a constant current drive semiconductor, characterized in that it comprises a concave lens having a diffusion angle of 140 ° and a translucent material having a thickness of 0.1 ~ 0.5㎛. The method of claim 1, The diffusion type light emitting diode unit is a wireless control lighting device using a constant current drive semiconductor, characterized in that consisting of a high brightness light emitting diode of red, green, blue. The method of claim 1, The wireless control lighting apparatus further includes a remote control unit for controlling light, wherein the remote control unit is applied with an infrared communication method, and wireless control lighting using a constant current driving semiconductor, characterized in that the signal communication is performed by transmitting a two-stage signal with the infrared receiver. device.

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