KR101578221B1 - backlight unit - Google Patents

Abstract

A backlight unit is disclosed.

A backlight unit according to the present invention includes an LED array unit including a plurality of LED strings connected in series to each other and a plurality of transistors positioned at the ends of the LED string units to maintain a current flowing in the LED string units at a constant current, And a feedback control unit connected to a plurality of diodes connected to the drain electrodes of the plurality of transistors and feeding back the voltage provided to the LED strings, The LED driver includes first and second pads connected to gates and source electrodes of the plurality of transistors. The first and second pads are integrated circuits (ICs).

A light-emitting diode (LED), a DC-DC converter,

Description

BACKLIGHT UNIT [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight unit, and more particularly, to a backlight unit capable of reducing the manufacturing cost by constructing a feedback circuit for confirming whether a light emitting diode is disconnected with a simple circuit configuration and feeding back a driving voltage of the light emitting diode.

BACKLIGHT UNIT is a device that illuminates a display panel. In the past, Cold Cathode Fluorescent Lamp (CCFL) was used as a light source. However, when a cold cathode tube lamp is used, , The response speed is about 15ms slow, and the color reproducibility is about 75% lower than that of NTSC. In addition, various problems such as generation of pre-set white light occur, and therefore, light emitting diodes (LEDs) have become more popular as light sources in recent years.

The light emitting diodes (LEDs) are eco-friendly compared to cold cathode tube lamps (CCFLs), have a response speed of several nanoseconds, are capable of high-speed response, can be impulse driven, % To 100% or more.

In addition, the brightness and color temperature of the backlight unit can be arbitrarily adjusted by adjusting the light quantity of a light emitting diode (LED) that emits red (R), green (G), and blue (B)

The driving apparatus for lighting such a light emitting diode (LED) includes an LED array in which a plurality of light emitting diode elements are connected in series. Since the optical characteristic of the light emitting diode is determined by the current passing through the light emitting diode, it is preferable to control the voltage across the light emitting diode by sensing the current of the light emitting diode and feeding back the light emitting diode for effective control of the light emitting diode.

The LED array further includes a plurality of transistors arranged between a plurality of light emitting diode element ends connected in series and a ground (GND) voltage, wherein the plurality of transistors maintain the current of the plurality of light emitting diodes as a constant current do.

A plurality of light emitting diode elements and transistors included in the LED array are controlled and driven by an LED driving unit separately provided from the LED array.

The LED driving unit includes a detection unit for detecting whether the plurality of light emitting diode devices are disconnected, and a feedback control unit for sensing and feeding back currents flowing through the plurality of light emitting diodes. The LED driving unit may include an integrated circuit (IC).

The LED driving unit composed of an IC has a separate pin for driving a transistor included in the LED array. Specifically, the LED driving unit including the IC further includes three pins connected to the gate electrode, the source electrode, and the drain electrode of the transistor on a one-to-one basis. In particular, a pin connected to a drain electrode of the transistor is connected to a feedback control unit and a disconnection detection unit in the LED driving unit.

The transistors included in the LED array are connected to the three pins of the LED driving unit. When the number of transistors included in the LED array increases and the number of channels of the LED driving unit increases, the LED driving unit configured by the IC responds thereto The manufacturing cost of the LED driving unit is increased.

The present invention is characterized in that a drain electrode of a transistor located at the ends of a plurality of light emitting diodes is connected to a diode and is connected to one of the pins of the LED driving unit and a detection unit for detecting whether the light emitting diode is short- And a backlight unit which is connected to a pin connected to an electrode of the LED driving unit to drive the transistor, thereby reducing the manufacturing cost of the LED driving unit.

A backlight unit according to the present invention includes an LED array unit including a plurality of LED strings connected in series to each other and a plurality of transistors positioned at the ends of the LED string units to maintain a current flowing in the LED string units at a constant current, And a feedback control unit connected to a plurality of diodes connected to the drain electrodes of the plurality of transistors and feeding back the voltage provided to the LED strings, The LED driver includes first and second pads connected to gates and source electrodes of the plurality of transistors. The first and second pads are integrated circuits (ICs).

A backlight unit according to the present invention includes a feedback control unit provided outside a LED driving unit for driving a light emitting diode, a drain electrode of a transistor for holding a current of a light emitting diode as a constant current is connected to a separate diode, And a short-circuit detector for detecting whether the light emitting diode is short-circuited is connected to a pin connected to any one of the gate electrode and the source electrode of the transistor to drive the transistor.

In addition, since the backlight unit according to the present invention drives the transistor using only two pins, the number of pins of the LED driving unit can be reduced and the manufacturing cost can be reduced.

In addition, the backlight unit according to the present invention can arrange the feedback control unit outside the LED driving unit to secure the effective area of the LED driving unit and add a circuit according to the optional function to the LED driving unit.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings.

1 is a schematic view of a backlight unit according to a first embodiment of the present invention.

1, the backlight unit 100 according to the first embodiment of the present invention includes an LED array unit 110 having a plurality of light emitting diodes (LEDs) for generating light, And an LED driving unit 130 for controlling and driving the LED driving unit 110.

The LED array unit 110 is mounted on a backlight unit of a display such as a liquid crystal display (LCD), and a plurality of LED strings are connected in parallel. A plurality of light emitting diodes (LED1 to LEDn) are connected in series to the respective LED string portions. In addition, the LED array unit 110 further includes first to third transistors T1 to T3 disposed between the respective ends of the LED string part and a ground (GND) voltage.

In addition, the backlight unit 100 according to the first embodiment of the present invention includes a voltage line to which an input voltage VCC of a DC voltage level is input and a voltage line to which a voltage between the drain electrodes of the first to third transistors T1 to T3 And first to third diodes D1 to D3 connected to the first to third diodes D1 to D3. The backlight unit 100 includes an F / B control unit 120 connected to one side of the first to third diodes D1 to D3 to feed back currents flowing in the plurality of LED strings, .

The LED driver 130 includes a DC / DC converter 150 for converting a power source voltage into a DC voltage required for driving the LED driver 130 and outputting the DC voltage, and an LED short detection unit 150 for detecting whether the LED string unit is short- And first to third comparison units 170a to 170c connected to the first to third transistors T1 to T3 of the LED array unit 110 to sense a current flowing through the LED string unit .

The LED driver 130 is also connected to a DC / DC controller (not shown) for controlling the output voltage of the DC / DC converter 110 using a voltage fed back from the F / B controller 120 ). ≪ / RTI >

When the output voltage of the DC / DC converter unit 150 is higher than the forward voltage of the LED, the LED driver 130 is normally driven. Therefore, the DC / DC converter unit 110 adjusts the output voltage So that the rated voltage is applied to the LED array unit 110.

The LED driving unit 130 includes an integrated circuit (IC), and the LED driving unit 130 supplies the output voltage from the DC / DC converter unit 110 to the LED string unit A second pad portion P2 for electrically connecting the first to third comparators 170a to 170c and the first to third transistors T1 to T3, And a third pad portion P3.

Here, the first to third pad portions P1 to P3 refer to pins of the LED driver 130 including the IC.

The second pad portion P2 includes a second -1 pad portion P2a connected between the output terminal of the first comparator 170a and the gate electrode of the first transistor T1, A second 2-2 pad portion P2b connected between the output terminal of the third transistor T3 and the gate electrode of the second transistor T2b and a second 2-2 pad portion P2b connected between the output terminal of the third comparator portion 170c and the gate of the third transistor T3 And a 2-3 pad (P2c) connected between the electrodes.

The third pad unit P3 includes a third -1 pad unit P3a connected between the inverting input terminal of the first comparator 170a and the source electrode of the first transistor T1, A third-2 pad portion P3b connected between the inverting input terminal (-) of the second comparator 170b and the source electrode of the second transistor T2, And a third-third pad unit P3c connected between the input terminal (-) and the source electrode of the third transistor (T3).

At this time, the second to ninth and second pads P2a to P2c of the second pad portion P2 are connected to the LED short detection portion 160, respectively.

The LED short detection part 160 is electrically connected to the second to the second pads P2a to P2c to detect whether the LED string part of the LED array part 110 is short-circuited. When the LED string portion is short-circuited, noise is momentarily generated in the gate electrodes of the first to third transistors (T1 to T3) connected to the LED string portion. The noise components are also introduced into the second to ninth and second pads P2a to P2c electrically connected to the noise generated gate electrode, The LED short detection unit 160 may determine whether the LED string unit is short-circuited.

The reference voltage V ref is input to the non-inverting input terminal of the first comparator 170a and the source electrode of the first transistor T1 and the ground GND are connected to the inverting input terminal - The voltage contacts are connected. A reference voltage V_ref is input to the non-inverting input terminal of the second comparator 170b and a negative voltage of the ground voltage GND is applied to the inverting input terminal of the second comparator 170b. The contacts are connected. The reference voltage V ref is input to the non-inverting input terminal of the third comparator 170c and the source electrode of the third transistor T3 and the ground GND are connected to the inverting input terminal - The voltage contacts are connected.

The first comparator 170a senses a current flowing through the LED string portion corresponding to the first transistor T1 through the voltage applied to the source electrode of the first transistor T1, The flowing current can be kept constant. Similarly, the second comparator 70b senses the current flowing through the LED string corresponding to the second transistor T2 through the voltage applied to the source electrode of the second transistor T2, So that the current flowing through the resistor can be kept constant.

The third comparator 170c senses the current flowing through the LED string portion corresponding to the third transistor T3 through the voltage applied to the source electrode of the third transistor T3, The current flowing in the portion can be kept constant.

The LED driving unit 130 may be connected to the first through third transistors T1 through T3 of the LED array unit 110 and the first through third comparators 170a through 170c, Only the pad portions P2 and P3 are provided to drive the first to third transistors T1 to T3 to realize short circuit and feedback of the LED string portion.

The backlight unit 100 according to the present invention includes first to third diodes D1 to D3 connected to the drain electrodes of the first to third transistors T1 to T3 on the outside of the LED driver 130, And an F / B control unit 120 connected to one side of the first to third diodes D1 to D3 is disposed. Accordingly, the backlight unit 100 according to the present invention feeds back the current flowing in the LED string portion from the outside of the LED driver 130.

In the backlight unit 100 according to the present invention, the gate electrodes and the source electrodes of the first to third transistors T1 to T3 are connected to the second and third pad portions P2 and P3 of the LED driver 130, And the first to third transistors T1 to T3 are driven by only two pad portions P2 and P3 to drive the first to third transistors using the three pad portions, Can be saved.

In addition, the backlight unit 100 according to the present invention includes the F / B control unit 120 disposed outside the LED driving unit 130 to secure an effective area of the LED driving unit 130, May be added to the LED driving unit 130.

2 is a schematic view illustrating a backlight unit according to a second embodiment of the present invention.

2, the backlight unit 200 according to the second embodiment of the present invention includes an LED array unit 210 having a plurality of light emitting diodes (LEDs) for generating light, And an LED driving unit 230 for controlling and driving the LED driving unit 210.

The backlight unit 200 shown in FIG. 2 is different from the backlight unit 100 shown in FIG. 1 in that the F / B control unit 120, the DC / DC converter unit 150, (D1 to D3) are the same as those of the components, so duplicate descriptions will be omitted.

The LED array unit 210 includes a plurality of LED strings connected in parallel. A plurality of light emitting diodes (LED1 to LEDn) are connected in series to the respective LED string portions. The LED array unit 210 further includes first to third transistors T1 to T3 disposed between the respective ends of the LED string portions and a ground (GND) voltage.

The LED driving unit 230 includes a DC / DC converter 150 for converting a power source voltage into a DC voltage required for driving the LED driving unit 230 and outputting the DC voltage, and an LED short detection unit 260) and first to third comparison units 270a to 270c connected to the first to third transistors T1 to T3 of the LED array unit 210 to sense a current flowing through the LED string unit .

The LED driving unit 230 includes an integrated circuit (IC), and the LED driving unit 230 supplies the output voltage from the DC / DC converter unit 110 to the LED string unit A second pad portion P2 for electrically connecting the first to third comparators 270a to 270c and the first to third transistors T1 to T3 to each other, And a third pad portion P3.

Here, the first to third pad portions P1 to P3 refer to pins of the LED driver 130 including the IC.

The second pad portion P2 includes a second -1 pad portion P2a connected between the output terminal of the first comparison portion 270a and the gate electrode of the first transistor T1, A second 2-2 pad portion P2b connected between the output terminal of the third transistor T3 and the gate electrode of the second transistor T2b, And a 2-3 pad (P2c) connected between the electrodes.

The third pad unit P3 includes a third -1 pad unit P3a connected between the inverting input terminal of the first comparator 270a and the source electrode of the first transistor T1, A third-2 pad portion P3b connected between the inverting input terminal (-) of the second comparator 270b and the source electrode of the second transistor T2, and a third-second pad portion P3b connected between the inverting input terminal And a third-third pad unit P3c connected between the input terminal (-) and the source electrode of the third transistor (T3).

In this case, the third to third pads P3a to P3c of the third pad portion P3 are connected to the LED short detection portion 260, respectively.

The LED short detection part 260 is electrically connected to the third to third pads P3a to P3c to detect whether the LED string part of the LED array part 210 is short-circuited. When the LED string is short-circuited, current does not flow to the drain electrodes of the first to third transistors (T1 to T3) connected to the LED string portion. Therefore, the third to third pads (P3a to P3c) The LED short detection part 260 may determine whether the LED string part is short-circuited.

The LED driving unit 230 may be connected to the first through third transistors T1 through T3 of the LED array unit 210 and the first through third comparison units 270a through 270c, Only the pad portions P2 and P3 are provided to drive the first to third transistors T1 to T3 to realize short circuit and feedback of the LED string portion.

The backlight unit 200 according to the present invention includes first to third diodes D1 to D3 connected to the drain electrodes of the first to third transistors T1 to T3 on the outside of the LED driver 230, And an F / B control unit 120 connected to one side of the first to third diodes D1 to D3 is disposed. Accordingly, the backlight unit 200 according to the present invention feeds back the current flowing from the outside of the LED driving unit 230 to the LED string unit.

In the backlight unit 200 according to the present invention, the gate electrodes and the source electrodes of the first to third transistors T1 to T3 are connected to the second and third pad portions P2 and P3 of the LED driver 230, And the first to third transistors T1 to T3 are driven by only two pad portions P2 and P3 to drive the first to third transistors using the three pad portions, Can be saved.

In addition, the backlight unit 200 according to the present invention includes the F / B control unit 120 disposed outside the LED driving unit 230 to secure an effective area of the LED driving unit 230, May be added to the LED driver 230.

1 is a schematic view of a backlight unit according to a first embodiment of the present invention.

2 is a schematic view of a backlight unit according to a second embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

100, 200: backlight unit 110, 210: LED array unit

120: F / B control unit 130, 230: LED driving unit

150: DC / DC converter unit 160, 260: LED short detection unit

170a, 270a: first comparison section 170b, 270b: second comparison section

170c and 270c:

Claims (8)

An LED array unit including a plurality of LED strings connected in series to each other and having a plurality of transistors positioned at an end of the LED strings and maintaining a current flowing in the LED strings at a constant current; An LED driving unit for driving the light emitting diode elements included in the LED array unit; A feedback controller connected to a plurality of diodes connected to the drain electrodes of the plurality of transistors to feed back the voltage provided to the LED string portion; And And a plurality of comparators electrically connected to the plurality of transistors to sense a current flowing in the LED strings, The LED driver A first pad unit formed of an integrated circuit (IC) for electrically connecting the gate electrodes of the plurality of transistors and the output terminals of the plurality of comparison units, and a first pad unit electrically connected to the source electrodes of the plurality of transistors, And a second pad portion electrically connecting the input terminal to the second pad portion. The method according to claim 1, The LED driving unit includes: A DC / DC converter unit for converting an input voltage into a DC voltage required for driving and outputting the DC voltage; And And an LED short detection part for detecting whether or not the LED string part is short-circuited. delete delete 3. The method of claim 2, Wherein the LED short detection part is electrically connected to the first pad part to determine whether the LED string part is disconnected through gate electrodes of the plurality of transistors. 3. The method of claim 2, Wherein the LED short detection part is electrically connected to the second pad part to determine whether the LED string part is disconnected through the source electrodes of the plurality of transistors. 3. The method of claim 2, Wherein the LED driving unit further comprises a third pad unit for electrically connecting the DC / DC converter unit and the LED string unit. The method according to claim 1, Wherein the plurality of comparison units receive a reference voltage at a non-inverting input terminal.

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