KR101310741B1 - Led electronic signboard and drive chip embedded therein - Google Patents

Abstract

PURPOSE: An LED electronic display board and a driving chip embedded in the LED electronic display board reduce current consumption by including the driving chip controlling a unit module, where LEDs are connected in series, with one route. CONSTITUTION: A driving chip (20) controls the flash of an LED module (10). A power supply unit (30) supplies power to the LED module and the driving chip. The LED module is made up of multiple unit modules formed by connecting a predetermined number of LEDs in series. The driving chip includes multiple driving pins (21) connected to multiple nodes, respectively. The driving pin makes a current provided to the unit module from the power supply unit flow in a bypass route formed by the LED or a switch device. [Reference numerals] (23) Flash control unit; (25) Luminance control unit; (30) Power supply unit; (40) Flash information providing unit; (50) Luminance information providing unit

Description

LED ELECTRONIC SIGNBOARD AND DRIVE CHIP EMBEDDED THEREIN

The present invention relates to an LED display board and a driving chip embedded therein, and more particularly, to an LED display board and a driving chip embedded therein, which can reduce the amount of current and heat generated when the LED is driven.

Recently, in order to effectively transmit various visual information, LED signboards are variously used for roads, interior and exterior walls. The LED signboard is implemented by including hundreds or thousands of LEDs, and in order to display various characters, an LED driving circuit for controlling the blinking and brightness of each LED by applying power to a plurality of LEDs is required.

Referring to Figure 1 will be described the configuration and operation of the LED driving circuit included in the conventional LED display.

FIG. 1 is a circuit diagram of an LED driving IC formed by connecting a plurality of TLC5944 chips 1 having 16 channels as a driving chip manufactured by Texas Instrument as an example of a conventional LED driving circuit.

As such, the conventional LED display board individually selects LEDs through the driving chip 1 having a plurality of channels and the controller 2 connected thereto, and individually controls the blinking. Specifically, the controller 2 controls the operation of the plurality of inverters 3 to select a row of LEDs to be lit, and selects a column of LEDs to be lit through the chip 1 having 16 channels, respectively. It will control the blinking.

In such a conventional LED driving circuit, a plurality of inverter 3 circuits are added to the controller 2 to select a row of LEDs, so that the circuit configuration is complicated and the size of the inverter 3 element is large, so that the volume of the circuit is increased. There was a disadvantage that is increased. In addition, since the paths for controlling the blinking of the LEDs in one channel of the chip 1 are different for each row, there is a problem that the amount of current consumption is relatively high and the amount of heat generated by the chip 1 increases. Since heat generation is a major factor affecting the lifespan and operation of various devices, it is important to reduce heat generation in chip design.

Therefore, there is a need for an LED driving circuit that can simplify the LED driving circuit and reduce the current consumption and the amount of heat generated by the chip by adjusting a path for controlling the LED.

The present invention has been proposed to solve the above problems, and to provide an LED display board and a driving chip embedded therein that can reduce the amount of heat generated when driving the LED.

The above object is an LED signboard according to an aspect of the present invention, the LED module consisting of a plurality of LEDs arranged in a matrix form on the front of the display panel; A driving chip for controlling the blinking of the LED module; And a power supply unit supplying power to the LED module and the driving chip, wherein the LED module includes a plurality of unit modules in which a predetermined number of LEDs are connected in series, and the driving chip is the predetermined number. It includes a plurality of driving pins for one-to-one connection with a plurality of nodes formed in series connected to the LED, the driving pin is determined whether the connection between the adjacent driving pins by a switch element formed therein from the power supply The electric current provided to the unit module can be achieved by the LED display board, characterized in that formed to flow through the bypass path formed by the LED or the switch element.

In addition, the driving chip, the blinking information input pin electrically connected to the blinking information providing unit for providing information on the blinking of the LED module; And a flashing control unit for separately applying a control signal for controlling the operation of the switch element to the switch element in response to the information about the blinking of the LED module.

The driving chip may further include: a brightness information input pin electrically connected to a brightness information providing unit providing information regarding brightness of the LED module; And a luminance controller configured to control the luminance of the LED module by adjusting a magnitude of a current flowing through the unit module in response to the information about the luminance of the LED module.

According to another aspect of the present invention, there is provided a driving chip embedded in an LED display board, comprising: a plurality of driving pins formed to be connected to a plurality of nodes formed by connecting a plurality of LEDs in series; A plurality of switch elements connected to the driving pins one-to-one and determining whether to connect the adjacent driving pins through a switching operation; Blinking information input pin for receiving information about the blinking of a plurality of LEDs included in the LED display board; And a flashing control unit for separately applying a control signal for controlling the operation of the switch element to the switch element in response to the information on the flashing of the plurality of LEDs. Can be achieved.

On the other hand, the driving chip embedded in the LED display board according to the present invention includes a brightness information input pin for receiving information on the brightness of the plurality of LEDs; And a luminance controller configured to control luminance by adjusting magnitudes of currents flowing through the plurality of LEDs based on the information about the luminance of the plurality of LEDs.

As described above, according to the present invention, a driving chip for controlling a unit module in which a predetermined number of LEDs are connected in series by one path may be used to reduce current consumption and reduce heat generation of the chip when the LED is driven.

In addition, the drive circuit can be simplified because an inverter element for selecting a row of the LED module is unnecessary when controlling the blinking of the LED.

1 is an example of an LED driver driving circuit included in a conventional LED display board;
2 is a block diagram of an LED signboard according to an embodiment of the present invention;
3 is an LED driving circuit diagram of an LED display board according to an embodiment of the present invention; And
4 is a view for explaining a current flow path according to the operation of the switch element constituting the driving chip of the LED sign according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

2 is a block diagram of an LED display board according to an embodiment of the present invention.

2, the LED display board according to the embodiment of the present invention includes an LED module 10, a driving chip 20, a power supply unit 30, a flashing information providing unit 40, and a luminance information providing unit 50. Include.

The LED module 10 is composed of a plurality of LEDs arranged in a matrix form on the front of the display panel to display various characters, symbols, etc. through selective blinking of the LEDs. The LED module 10 is divided into a plurality of unit modules 11 formed by connecting a predetermined number of LEDs in series.

The driving chip 20 controls the blinking and the brightness of the LED module 10 based on data related to the blinking and the brightness of the LEDs provided to the driving chip 20, and for this purpose, an input pin for receiving various data and It is implemented to include a plurality of driving pins for controlling the blinking and brightness of the LED module 10 in response to the received data.

The power supply unit 30 supplies power to the LED module 10 and the driving chip 20 so that the LED module 10 may be flickered and the brightness may be controlled.

The flashing information providing unit 40 provides data regarding the blinking of the LED module 10 to the driving chip 20, and the driving chip 20 blinks a plurality of LEDs constituting the LED module 10 based on this. To control them individually.

The luminance information providing unit 50 provides data about the luminance of the LED module 10 to the driving chip 20, and the driving chip 20 is based on the data provided by the luminance information providing unit 50. By controlling the amount of current provided to (10) it is possible to adjust the brightness of the LED.

Hereinafter, the configuration of the driving chip 20 will be described in detail with reference to FIG. 3.

3 is a LED driving circuit diagram of the LED display board according to an embodiment of the present invention.

Referring to FIG. 3, the driving chip 20 provides a flow path of the current supplied from the power supply unit 30 so as to individually control the blinking of the LEDs constituting the LED module 10. And a flashing information input pin 22, a flashing control unit 23, a brightness information input pin 24, and a brightness control unit 25.

The driving pin 21 is connected one-to-one with a plurality of nodes N formed by connecting a predetermined number of LEDs of the unit module 11 and a plurality of switch elements S formed in the driving chip 20. . Through this, the conduction between the adjacent driving pins 21 is determined by the switching operation of the switch element S, so that the blinking of the LED for each unit module 11 can be controlled.

Referring to FIG. 4, the flow path of the current according to the switching operation of the switch element S will be described.

Looking at the coupling relationship between the plurality of switch elements (S), the driving pin 21, and the LED constituting the unit module 11 formed in the driving chip 20, the switch elements (S) are arranged in series with each other The switch elements S and the LEDs of the unit module 11 are arranged in parallel while having a one-to-one relationship. The driving pin 21 is located in the middle of the LED and the switch element S to mediate the connection between the switch element S and the LED.

In order for the LED to be turned on, a current provided from the power supply unit 30 must flow in the LED, so the switch element S must be turned off. On the other hand, in order for the LED to be turned off, a current path must be formed so that no current flows in the LED, so that the switch element S corresponding to the LED to be turned off is turned on to form a bypass path.

For example, assuming that all LEDs except for LED 1 and LED 2 are turned on, a current path as shown in FIG. 4 should be formed. That is, the switch elements S1 and S2 corresponding to the LEDs 1 and 2 are turned on to provide a bypass path, and the switch elements S3 and S4 corresponding to the LEDs 3 to 6 are turned on. S5 and S6 are off to form a current path so that current can flow through the LED. As such, the path of the current is determined by the switching operation of the switch element S in the driving chip 20, and accordingly, the blinking of the LED of the unit module 11 is controlled.

Referring back to FIG. 3, the blinking information input pin 22 is electrically connected to the blinking information providing unit 40 to flash the plurality of LEDs constituting the LED module 10 from the blinking information providing unit 40. Get information about it.

Flashing control unit 23 is a signal for on / off individually to the plurality of switch elements (S) connected to the driving pin 21 based on the information on the blinking of the LED received through the flashing information input pin 22 Apply. The flow path of the current is determined according to the switching operation of the switch element S corresponding to the applied signal, thereby controlling the blinking of the LED.

The luminance information input pin 24 is electrically connected to the luminance information providing unit 50 to receive information about the LED luminance constituting the unit module 11 from the luminance information providing unit 50.

The brightness controller 25 receives information about the brightness of the LED constituting the unit module 11 received through the brightness information input pin 24, and based on this, the brightness of the LED can be controlled by adjusting the amount of current. Make sure In this case, the brightness control of the LED may be made through various methods. For example, the brightness information providing unit 50 may adjust the brightness of the LED by changing the on / off duty of the brightness control signal using a pulse width modulation (PWM) method.

Hereinafter, a series of processes of controlling the blinking and the brightness of the LED through the LED driving circuit of FIG. 3 will be described.

The flashing information providing unit 40 provides information on blinking of a plurality of LEDs constituting the LED module 10 through the flashing information input pin 22, and the information is provided on the flashing control unit 23 of the driving chip 20. Is provided.

The blink control unit 23 applies a signal for turning on / off individually to the plurality of switch elements S based on the information about blinking of the LED. The path of the current provided from the voltage providing unit 30 is determined according to the switching operation of each switch element S corresponding to the LED constituting the unit module 11, thereby controlling the blinking of the LED. That is, when the LED is turned on, the switch element S is turned off so that current is conducted directly to the LED. When the LED is turned off, the switch element S is turned on to provide a bypass path. Do not allow current to flow through. In this case, current flows through the driving pin 21 of the driving chip 20 to provide a bypass path through the switch element S inside the chip.

On the other hand, the brightness information providing unit 50 provides information on the brightness of the LED constituting the unit module 11 through the brightness information input pin 24, this information is the brightness control unit 25 of the driving chip 20 Is provided).

The brightness controller 25 controls the brightness of the LED by adjusting the amount of current based on the provided information. In this case, the present invention is not limited to a specific brightness control method, and the brightness may be controlled in various ways as described above.

As described above, according to the LED display panel according to the present invention, each of the unit modules 11, in which a predetermined number of LEDs are configured in series, employs a driving chip 20 that can control the LED using a single current path. Compared with the conventional LED driving circuit that controls the blinking by using a separate path for each LED of the LED, the current consumption is reduced, thereby reducing the amount of heat generated by the driving chip 20. For example, if about 20 mA is required to turn on one LED, as shown in FIG. 4, the LED display board according to the embodiment of the present invention in which six LEDs constitute the unit module 11 controls the blinking of 30 LEDs. A total current of 0.1 [A] is required. However, if each LED is controlled through a separate path as in the prior art, a total current of 0.6 [A] would be required.

In addition, since the inverter element for selecting the row or column of the LED module 10 is unnecessary, the volume of the circuit can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Accordingly, it should be understood that the scope of protection of the present invention is not limited to the technical ideas and equivalents defined in the following claims.

10: LED module 11: unit module
20: driving chip 21: driving pin
22: blinking information input pin 23: blinking control unit
24: luminance information input pin 25: luminance control unit
30: power supply 40: flashing information providing unit
50: luminance information providing unit

Claims (5)

In the LED billboard,
An LED module composed of a plurality of LEDs arranged in a matrix form on the front of the display panel;
A driving chip for controlling the blinking of the LED module; And
It includes a power supply for supplying power to the LED module and the driving chip,
The LED module is composed of a plurality of unit modules formed by connecting a predetermined number of LEDs in series,
The driving chip includes a plurality of driving pins connected one-to-one with a plurality of nodes formed by connecting the predetermined number of LEDs in series, and the driving pins are connected between adjacent driving pins by a switch element formed therein. LED is determined so that the current supplied from the power supply to the unit module flows through the bypass path formed by the LED or the switch element.
The method of claim 1, wherein the driving chip,
A blinking information input pin electrically connected to a blinking information providing unit providing information regarding blinking of the LED module; And
And a flashing control unit for individually applying a control signal for controlling the operation of the switch element to the switch element in response to the information about the blinking of the LED module.
The method of claim 1, wherein the driving chip,
A brightness information input pin electrically connected to a brightness information providing unit providing information on brightness of the LED module; And
And a brightness controller configured to control the brightness of the LED module by adjusting a magnitude of current flowing through the unit module in response to the information about the brightness of the LED module.
In the driving chip embedded in the LED display,
A plurality of driving pins formed to be connected to a plurality of nodes formed by connecting a plurality of LEDs in series;
A plurality of switch elements connected to the driving pins one-to-one and determining whether to connect the adjacent driving pins through a switching operation;
Blinking information input pin for receiving information about the blinking of a plurality of LEDs included in the LED display board; And
And a flashing control unit for separately applying a control signal for controlling the operation of the switch element to the switch element in response to the information on the blinking of the plurality of LEDs.
5. The method of claim 4,
A luminance information input pin configured to receive information regarding luminance of the plurality of LEDs; And
And a brightness controller configured to control brightness by adjusting the magnitude of current flowing through the plurality of LEDs based on the information on the brightness of the plurality of LEDs.

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