KR100611177B1 - LED driving module for LCD back light - Google Patents

Abstract

An object of the present invention is to provide a protection circuit for preventing the spread of an accident by stopping the whole module by detecting when an open accident occurs in one of a plurality of LEDs installed for the LCD backlight.

The present invention for achieving the above object is installed in each of the LED driving circuits for supplying power to the LED; A PWM IC for supplying a PWM width dimming signal to the driving circuits; And a protection circuit for shutting down the control voltage of the PWM IC when the voltages applied to the LEDs are greater than or equal to a predetermined voltage.

PWM, LED, LCD, Protection Circuit

Description

LED driver module for LCD backlight {LED driving module for LCD back light}

1 is a circuit diagram illustrating a conventional LED driver module.

FIG. 2 is a block diagram of an IC of a driving circuit used in FIG. 1.

3 is a circuit diagram for explaining an embodiment of the present invention.

The present invention relates to a driver module for driving a plurality of LEDs that are light sources of an LCD backlight.

The LED driver module for lighting the red, green, and blue LEDs used as LCD backlights has a protection circuit to prevent an open accident caused by the destruction of the LED or the connector opening on the entire LED or the driver module. It is installed.

1 is a circuit diagram illustrating a conventional LED driver module.

The LED driver module includes a driving circuit (10), (20), (30) for driving LED1, LED2, and LED3, and a PWM IC (40) for supplying a PWM width dimming signal (Pulse Width Modulation Dimming Signal) to the driving circuit. It consists of a protection circuit 50 to detect the overvoltage rising due to the disconnection due to the opening of the LED1, LED2, LED3 to stop the operation of the driving circuit (10), (20), (30).

Each of the driving circuits 10, 20, and 30 is HV9910, which is an IC commonly used for driving LEDs, and an internal block diagram of the IC is shown in FIG. The signal from the PWM IC 40 is input to the PWM pin of the IC, the ON signal is applied to the gates of the switching elements Q1, Q2, and Q3 while the PWM signal is turned on. In the state where Q1), (Q2) and (Q3) are switched at high frequency, each LED is energized and turned on.

In addition, the protection circuit 50 has the output pins of the PWM IC outputting the PWM dimming signals of the driving circuits 10, 20, and 30 to the collector, respectively, and inputs of LED1, LED2, and LED3 to the base, respectively. It consists of switching elements Q4, Q5, and Q6 to which a voltage is applied. At this time, since the zener diodes ZD1, ZD2, and ZD3 are connected between the anodes of the LEDs 1, 2, and 3 and the bases of the switching elements Q4, Q5, and Q6, LED1, LED2, and LED3 are connected. When is opened, the voltage at the input terminals of the LED1, LED2, LED3 exceeds the zener voltage of the zener diode so that the switching elements Q4, Q5, and Q6 become conductive, thereby driving circuits 10, 20 ), Since the voltage is not applied to the PWM dimming signal input pins of (30), the switching elements Q1, Q2, and Q3 do not operate. Therefore, accidents are no longer spread to the driving circuits 10, 20, and 30.

However, since the LED driving module adopting such a protection circuit has to adopt a separate protection circuit for each driving circuit, the number of parts increases, which leads to an increase in manufacturing cost and volume. In addition, if an open phenomenon occurs in one channel among several output channels, only the generated channel has a protection circuit that is operated and the entire system is not stopped. Therefore, an open accident may affect other channels. .

The present invention has been made to solve these problems, an object of the present invention is to detect the occurrence of an open accident in one of the plurality of LEDs installed for the LCD backlight and to stop the spread of the accident by stopping the entire module temporarily It is to provide a protection circuit for preventing.

Still another object of the present invention is to protect a plurality of LED driving circuits integrally with one protection circuit, and to simplify the circuit to reduce the number of parts to reduce manufacturing cost and volume.

Another object of the present invention is to protect the circuit elements while reducing power consumption by configuring the protection circuit in a shut-down manner.

In order to achieve the above object, a feature of the present invention is an LED driver module for lighting a plurality of LEDs used in an LCD backlight, comprising: driving circuits installed in each of the LEDs to supply power to the LEDs; A PWM IC for supplying a PWM width dimming signal to the driving circuits; And a protection circuit for shutting down the control voltage of the PWM IC when the voltages applied to the LEDs are higher than or equal to a predetermined voltage.

In addition, in the present invention, the protection circuit includes a switching element having a gate; A voltage sensing unit connected to the gate to conduct the switching element when the voltage applied to the LEDs is greater than or equal to a preset value; It is preferable to include a switch block for cutting off the control power supply of the PWM IC when the switching element is conductive.

In the present invention, the voltage sensing unit preferably includes a plurality of zener diodes connected to the gate and the anodes of the LED.

In addition, in the present invention, the switching element is preferably SCR.

The switch block may include a first transistor connected to the control power supply and a power supply pin of the PWM IC; When the switching element is turned off, the first transistor is operated to apply the control power to the power terminal of the PWM IC. When the switching element is turned on, the first transistor is turned off and supplied to the power pin. It is preferred to include a second transistor for shutting off the power supply.

Hereinafter, an embodiment of the present invention according to the accompanying drawings will be described in detail.

3 is a circuit diagram showing the overall configuration of an embodiment of the present invention.

The LED driving module of one embodiment receives a PWM dimming signal for generating a PWM dimming signal for driving a plurality of LEDs, and receives a PWM dimming signal of the PWM IC 40 to supply power (VIN) to the LEDs (1), ( 2) by sensing the voltage input to the LED driving circuits (10), (20), (30) and LEDs (1), (2), (3) to supply LEDs (3) to light the LEDs The protection circuit 60 stops the operation of the PWM IC 40 when a voltage equal to or greater than a predetermined voltage is applied.

At this time, the LED 1 is operated under the control of the driving circuit 10, the LED 2 is operated under the control of the driving circuit 20, and the LED 3 is under the control of the driving circuit 30. It works. In addition, the power supply voltage VIN is supplied to the LED 1 and the driving circuit 10 by the boosted voltage through a boost converter composed of an inductor L1, a switching FET Q1, and a diode D1. HV9910, an IC (IC1) commonly used in the configuration of the LED lighting circuit, is used.The PWM dimming output signal of the PWM IC 40 is input to the PWM pin of the IC1, and the gate pin is the anode of the LED (1). Is connected to the gate of the MOSFET. When the high signal is input to the PWM pin of the driving circuit 10, the high signal is output from the gate pin, so that the switching element Q1 is operated so that the boosted voltage is supplied to the LED 1, on the contrary, the PWM pin. When the low signal is input to the gate, the gate of the switching element Q1 is turned low so that the boosted voltage is not input to the LED 1.

The drive circuit 20 for controlling the LED 2 and the drive circuit 30 for controlling the LED 3 also have the same configuration as the drive circuit 10. In addition, the voltages applied to the LED 1, the LED 2, and the LED 3 are detected by the Zener diodes ZD2, ZD3, and ZD3 of the protection circuit 60.

The protection circuit 60 includes a switch block 61 for supplying or cutting off the control voltage VCC of the PWM IC 40, a switching unit 62 and an LED 1 for shutting off the power of the switch block 61. The sensing unit 63 operates the switching unit when the voltage of the LED 2 and the LED 3 is detected and a voltage higher than a predetermined value is detected.

The switch block 61 includes a first transistor Q41 directly connected to the control voltage VCC and the VCC pin of the PWM IC 40 and biased by a resistor R41 connected between the emitter and the base, The collector is connected to the base of the first transistor Q41 via a resistor R42, the emitter is grounded, and the second transistor Q42 is connected to the zener diode ZD1. At this time, the VCC voltage is applied to the cathode of the zener diode ZD1 via the resistor R43, the zener voltage generation resistor R44 is connected, and the anode of the SCR of the switching unit 62 is connected. The switching unit 62 is composed of an SCR whose anode is connected to the zener diode ZD1, the cathode is grounded, and the gate is connected to the sensing unit 63 via the resistor R45. (R46) is connected and grounded. In addition, the sensing unit 63 includes zener diodes ZD1, ZD2, and ZD3 connected between the input terminals of the LEDs 1, 2, and 3 and the resistor R45. Between (ZD1), (ZD2), (ZD3) and resistor (R45), reverse current flow prevention diodes (D4), (D5), and (D6) are connected, respectively, to LEDs (1), (2), and (3). If an open accident occurs in any one of the zener diodes, one of the zener diodes is turned on to conduct the SCR.

The operation of the embodiment configured as described above will be described.

When the LEDs (1), (2), and (3) perform normal operation, the voltage applied to the zener diodes (ZD2), (ZD3), and (ZD4) is below the zener voltage. At this time, the second transistor Q42 is also in a conductive state, and the first transistor Q41 is also in a conductive state, thereby supplying a normal voltage to the PWM IC 40 with the control voltage VCC.

However, when any one of the zener diodes ZD2, ZD3, and ZD4 is opened, the potential of the input terminal of the open LED is raised, and the potential rise is the zener diodes ZD2, ZD3, which are connected to the input terminal. The zener voltage of the corresponding zener diode in ZD4 is exceeded, and a voltage is applied to the gate of the SCR. When a voltage is applied to the gate of the SCR and the conductive state is applied, the voltage of VCC applied to the cathode of the zener diode ZD1 forms a low potential due to the conductive state of the SCR, and the second transistor Q42 is opened ( Since the first transistor Q41 is also open because no control voltage VCC is applied to the PWM IC 40 because the first transistor Q41 is open, the driving circuits 10, 20, and 30 are LEDs. It becomes impossible to light up (1), (2) and (3).

According to the present invention having the above objects and configurations, when a plurality of LEDs and driving circuits for driving the LEDs are installed, the PWM IC for operating the driving circuits is shut down when the voltage is increased by sensing the voltage applied to the LEDs. By stopping the operation of the driving circuit at the same time, the driving circuit and the PWM IC can be protected. In addition, since the protection circuits for protecting the driving circuits are not integrated individually according to the driving circuits but are integrally installed, the number of parts can be reduced, and the size of the device can be reduced.

Claims (5)

In the LED driver module for lighting a plurality of LEDs used in the LCD backlight: Drive circuits installed in each of the LEDs to supply power to the LEDs; A PWM IC for supplying a PWM width dimming signal to the driving circuits; And a protection circuit for shutting down the control voltage of the PWM IC when the voltages applied to the LEDs are equal to or greater than a predetermined voltage. The method of claim 1, wherein the protection circuit A switching element having a gate; A voltage sensing unit connected to the gate to conduct the switching element when the voltage applied to the LEDs is greater than or equal to a preset value; And a switch block for cutting off the control power supply of the PWM IC when the switching element is turned on. The LED driver module of claim 2, wherein the voltage sensing unit comprises a plurality of zener diodes connected to the gate and the anodes of the LED. 4. The LED driver module according to claim 2 or 3, wherein the switching element is an SCR. The semiconductor device of claim 4, wherein the switch block comprises: a first transistor connected to the control power supply and a power supply pin of the PWM IC; When the switching element is turned off, the first transistor is operated to apply the control power to the power terminal of the PWM IC. When the switching element is turned on, the first transistor is turned off to supply the power pin power supply. LED driver module comprising a second transistor for blocking.

Images