KR100999063B1 - Apparatus for driving of display panel - Google Patents

Abstract

PURPOSE: A display panel driving apparatus is provided to allow a user to realize a short circuit in the display panel by detecting a current supplied to the display panel through a LDO regulator during a black data period. CONSTITUTION: A DC-DC converter boosts constant voltage to a drive voltage for a display panel. The constant voltage is supplied from a power supply unit. A LDO(Low Drop Output) regulator boosts the output voltage of the DC-DC converter. The LDO regulator(30) supplies a boosted output voltage to the display panel. A short circuit sensor(40) is enabled during a black data period and senses a short current supplied to the display panel through the LDO regulator. The short sensor controls the output voltage of the DC-DC converter.

Description

A driving device of a display panel {APPARATUS FOR DRIVING OF DISPLAY PANEL}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving device of a display panel. In particular, when a power applied to the display panel is shorted due to a crack generated in the display panel, the present invention detects this and is applied to the display panel from the DC-DC converter. The present invention relates to a driving device of a display panel which can cut off power.

With the development of semiconductor manufacturing technology and the development of image processing technology, commercialization and expansion of flat panel display elements that can easily achieve light weight, thinness, and high image quality are rapidly progressing. As such flat display elements, liquid crystal displays (Liquid Crystal Display) : LCD, Plasma Display Panel (PDP), Vacuum Florescent Display (VFD), Organic Light Emitting Diode (OLED), and the like.

Among the flat panel display devices, LCDs and OLEDs are widely used in personal portable devices such as mobile phones, PDAs, and portable computers because of their lightness, thinness, and high image quality. It is widely used for interior windows.

In particular, OLEDs are attracting attention as next-generation displays because they are thinner because they do not have a backlight such as an LCD as a self-luminous device and have a response speed of several tens of [ns], a wide viewing angle, and good contrast ratio.

As described above, as the display panel becomes thinner, cracks may also occur due to external impacts. When cracks occur in the display panel, a short occurs in power applied to the display panel. As a result, as the overcurrent flows through the display panel, the temperature rises, causing the display panel to burn. In addition, the short-circuit generated by the DC-DC converter is an overload condition, the DC-DC converter is destroyed, or the inductor (inductor) that is a peripheral component of the DC-DC converter is destroyed, which leads to the peripheral circuit There is a problem affecting.

Accordingly, in the related art, only a protection function for protecting a DC-DC converter or an inductor exists rather than a function for protecting the panel itself as a method for solving the above-mentioned problems.

Among the protection functions are the DC-DC converter's soft-start and thermal shutdown (TSD) functions.

However, according to the conventional TSD, when the temperature of the display panel drops below a certain temperature due to hysteresis characteristics, the TSD is restored and power is supplied from the DC-DC converter to the display panel again. There is a problem in that the power applied to the display panel from the DC-DC converter is cut off repeatedly by the TSD. In the case of a fine short in the driving region of the DC-DC converter (a few mA), it is not a complete short. There is a problem that the function does not work.

The present invention has been made to solve the above-described problem, when the display panel starts to drive, the short detection unit detects the current generated by the short during the black data period that the current should not flow in the display panel DC-DC It is an object of the present invention to provide a driving device of a display panel that can cut off power applied from the converter to the display panel.

It is another object of the present invention LDO (Low Drop Output) pass transistor and the ratio of the short sensing unit sensing transistor of the regulator (ratio), the short detecting unit resistance (R _S) short circuit current that changes the size to be detected by the short detecting unit The present invention provides a driving apparatus of a display panel that adjusts the level of the display panel to detect the minute short current generated by the minute short.

In order to achieve the above object, a display panel driving apparatus according to an embodiment of the present invention, the display panel; A DC-DC converter for boosting and outputting a constant voltage supplied from a power supply unit to a driving voltage of the display panel; A low drop output (LDO) regulator for stepping down the output voltage of the DC-DC converter to supply the display panel; Enabled during the black data period in which no current should flow in the display panel, and detects a short current applied to the display panel through the LDO regulator to detect whether or not a short occurs, and according to whether or not the short circuit occurs, the DC-DC It is preferable to include a short detection unit for outputting a short detection signal to the converter to control the output voltage of the DC-DC converter.

The short detector may include: a sensing transistor configured to have a ratio of N: 1 to a pass transistor of the LDO regulator, and sense a short current flowing through the pass transistor; A resistor connected to an output terminal of the sensing transistor to convert a short current sensed by the sensing transistor into a voltage; It is preferable that a comparator for outputting a short detection signal by comparing the voltage converted by the resistor and the reference voltage.

The sensing transistor may be implemented as a PMOS transistor having a gate terminal receiving a signal output from an error amplifier of the LDO regulator and a source terminal receiving an output voltage of the DC-DC converter.

The comparator may output a low level short detection signal to the PWM controller of the DC-DC converter until the voltage converted by the resistor is greater than the reference voltage.

In addition, it is preferable to adjust the level of the short current that can be detected by the short detector by changing at least one of the ratio between the pass transistor and the sensing transistor and the magnitude of the resistance.

In addition, the output terminal of the pass transistor and the output terminal of the sensing transistor is made of an operational amplifier and a transistor such that the voltage is the same voltage, but the non-inverting input terminal of the operational amplifier voltage applied to the output terminal of the pass transistor A voltage applied to an output terminal of the sensing transistor is input to the inverting input terminal, and the transistor is implemented between the sensing transistor and the resistor and is sensed according to the output voltage of the operational amplifier input through a gate terminal. It is preferable to receive the short current output from the transistor through the source terminal and output the short current.

According to the driving device of the display panel of the present invention, it is possible to know whether a short occurs by detecting a current (current caused by a short) applied to the display panel through the LDO regulator during a black data period in which no current should flow through the display panel. Will be. In addition, the power applied to the display panel from the DC-DC converter can be cut off depending on whether a short occurs.

In addition, by adjusting the ratio of the pass transistor of the LDO regulator and the sensing transistor of the short sensing unit and the resistance (R _S ) of the short sensing unit, the level of the short current that can be detected by the short sensing unit is adjusted, thereby reducing the fine short. It can also detect fine short currents (a few mA levels).

1 is a view schematically showing a driving device of a display panel according to an embodiment of the present invention.
2 is a circuit diagram illustrating a short detector applied to the present invention.
3 is a timing diagram according to an operation of a driving apparatus of a display panel according to an exemplary embodiment of the present invention.

Hereinafter, a driving apparatus of a display panel according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a driving apparatus of a display panel according to an embodiment of the present invention.

In FIG. 1, the power supply unit 10 supplies a constant voltage to the DC-DC converter 20.

The DC-DC converter 20 boosts and outputs the constant voltage supplied from the power supply unit 10 to the driving voltage of the display panel 50.

As described above, the DC-DC converter 20 includes a PWM controller 25 for controlling the driving of the DC-DC converter 20.

As described above, the PWM controller 25 controls the output voltage of the DC-DC converter 20 based on the signal applied from the short detector 40.

That is, the PWM controller 25 applies a voltage from the DC-DC converter 20 to the display panel 50 when a low level signal is applied from the short detector 40 and from the short detector 40. When a high level signal is applied, the voltage applied to the display panel 50 from the DC-DC converter 20 is cut off.

Meanwhile, the LDO regulator 30 steps down the output voltage of the DC-DC converter 20 and supplies it to the display panel 50.

The short detector 40 is implemented between the display panel 50 and the DC-DC converter 20, and is enabled during the black data period in which no current flows in the display panel 50 and through the LDO regulator 30. The DC-DC converter 20 senses a current applied to the display panel 50 to detect whether a short occurs, and outputs a short detection signal to the DC-DC converter 20 depending on whether the short occurs.

That is, when the driving power ELVDD and ELVSS applied to the display panel 50 are shorted due to the cracks generated in the display panel 50, a short current flows from the DC-DC converter 20 to the display panel 50.

However, when the crack generated in the display panel 50 is minute, the short current flowing from the DC-DC converter 20 to the display panel is small so that the display panel 50 cannot be detected while driving.

Accordingly, the short detector 40 is enabled during the black data period in which no current flows in the display panel 50 when no crack is generated in the display panel 50, so that the DC-DC converter ( In step 20), whether the short current flows to the display panel 50 is detected. In this case, when no crack occurs in the display panel 50, a short current does not flow from the DC-DC converter 20 to the display panel 50, and when a crack occurs in the display panel 50, the DC-DC Short current flows from the converter 20 to the display panel 50.

As described above, the short detector 40 detecting the short current during the black data period applies the short detection signal to the PWM controller 25 of the DC-DC converter 20 according to the detection result. .

Here, the black data section is a section in which black data is applied before the image data is applied to the display panel 50 according to the display panel driving signal. No current flows through the normal display panel 50 while the black data is applied. .

2 is a circuit diagram illustrating a short detector applied to the present invention.

As illustrated in FIG. 2, the short detector 40 includes a sensing transistor M1, a resistor R _S , a comparator 43, an operational amplifier 45, and a transistor M2.

In such a configuration, the sensing transistor M1 is implemented with a ratio of a pass transistor M0 of the LDO regulator 30 and N: 1 (for example, 100: 1), so that the pass transistor is implemented. Detect the short current flowing in (M0). At this time, since the magnitude of the current sensed by the sensing transistor M1 varies according to the ratio of the pass transistor M0 and the sensing transistor M1, the ratio of the pass transistor M0 and the sensing transistor M1 is changed. By adjusting the level of the short current that can be detected by the short detection unit 40.

As described above, the sensing transistor M1 may be implemented as a PMOS transistor. At this time, the signal output from the error amplifier 35 of the LDO regulator 30 is applied to the gate terminal of the PMOS transistor M1, and the output voltage V _M of the DC-DC converter 20 is applied to the source terminal. .

The resistor R _S is connected to the output terminal of the sensing transistor M1 to convert the short current I _SH 2 sensed by the sensing transistor M1 into a voltage V _Rs . In this case, the resistance becomes the value voltage (V _Rs) depending on the size of the (R _S), a resistor (R _S) by changing the size able to adjust the level of the short circuit current which can be detected by the short detecting unit 40 of the do.

As described above, the level of the short current detectable by the short detector 40 may be adjusted by changing the ratio of the pass transistor M0 and the sensing transistor M1 and the size of the resistor R _S. Will be. Accordingly, the short current due to the minute short caused by the minute crack can also be detected.

Meanwhile, the comparator 43 compares the voltage V _Rs converted by the resistor R _S with the reference voltage V _ref to output the short detection signal.

The comparator 43 described above has a low level short to the PWM controller 25 of the DC-DC converter 20 until the voltage V _Rs converted by the resistor R _S becomes larger than the reference voltage V _ref . When the sensing signal is output and the voltage V _Rs converted by the resistor R _S becomes greater than or equal to the reference voltage V _ref , the PWM controller 25 of the DC-DC converter 20 has a high level. Output the short detection signal.

Accordingly, the PWM controller 25 receiving the low level short detection signal from the comparator 43 generates a PWM control signal and applies it to a switch transistor (not shown), whereby the display panel ( 50), the DC-DC converter 20 does not generate a PWM control signal output to a switch transistor (not shown) when a high level short detection signal is applied from the comparator 43. The power is not applied to the display panel 50.

The short detector 40 may further include an operational amplifier 45 and a transistor M2 so that the voltage across the output terminal of the pass transistor M0 and the output terminal of the sensing transistor M1 is the same voltage. have.

The voltage applied to the output terminal of the pass transistor M0 is input to the non-inverting input terminal (+) of the operational amplifier 45 described above, and the voltage applied to the output terminal of the sensing transistor M1 is input to the inverting input terminal (-). do.

In addition, the transistor M2 is implemented between the sensing transistor M1 and the resistor R _S , and according to the output voltage of the operational amplifier 45 input through the gate terminal, the short current output from the sensing transistor M1 ( I _SH 2) is input through the source terminal and output to the resistor (R _S ).

3 is a diagram illustrating a timing diagram according to an operation of a driving apparatus of a display panel according to an exemplary embodiment of the present invention.

First, when the display panel 50 is enabled according to the display panel driving signal (a), image data is applied to the display panel 50, and a predetermined time (for example, 16 ms) before the image data is applied. Black data is applied (b). Here, when the display panel 50 is normal during the black data period to which the black data is applied, no current flows to the display panel 50. However, when a crack occurs in the display panel 50 and the power sources ELVDD and ELVSS are shorted, a short current flows in the display panel 50 during the black data period.

Accordingly, in order to detect the short current, the short detector 40 is enabled after the soft start operation (c) and the ELVDD is stabilized (d, e).

As described above, when the short detector 40 is enabled during the black data period, the short detector 40 is a DC-DC converter when the power ELVDD and ELVSS are shorted due to a crack occurring in the display panel 50. In operation 20, the current flowing to the display panel 50 is sensed.

That is, when the short detector 40 is enabled, the sensing transistor M1 of the short detector 40 detects a short current flowing through the pass transistor M0 of the LDO regulator 30.

In this case, when no crack occurs in the display panel 50, the short current does not flow from the DC-DC converter 20 to the display panel 50.

As such, when no current flows from the DC-DC converter 20 to the display panel 50, the voltage V _Rs applied to the non-inverting input terminal (+) of the comparator 43 is inverted in the comparator 43. It becomes smaller than the reference voltage V _ref applied to the input terminal (−), for example, 0.6 V, and outputs a short level detection signal of a low level to the PWM controller 25 of the DC-DC converter 20.

The PWM controller 25 receiving the low level short detection signal from the short detection unit 40 generates a PWM control signal and applies it to a switch transistor (not shown), thereby displaying the display panel 50 in the DC-DC converter 20. Turn on the power.

On the other hand, when a crack occurs in the display panel 50, a short current flows from the DC-DC converter 20 to the display panel 50.

As such, when a short current flows from the DC-DC converter 20 to the display panel 50, the short current I _SH 1 flows through the pass transistor M0 of the LDO regulator 30. Like M0, the output signal of the error amplifier 35 is connected to the gate terminal, and the short current I _SH is also applied to the sensing transistor M1 to which the output voltage V _M of the DC-DC converter 20 is connected to the source terminal. 2) will flow.

In this case, the magnitude of the short current I _SH 1 and the short current I _SH 2 flowing through the pass transistor M0 and the sensing transistor M1 is a ratio of the pass transistor M0 and the sensing transistor M1. When the ratio of the pass transistor M0 and the sensing transistor M1 is, for example, 100: 1, a short current I _SH 1 of 100 mA is applied to the pass transistor M0. When flowing, a short current I _SH 2 of 1 mA flows through the sensing transistor M1.

As described above, the short current I _SH 2 flowing through the sensing transistor M1 is converted into a voltage V _Rs by the resistor R _S and applied to the non-inverting input terminal + of the comparator 43. 3 (f), the voltage V _Rs converted by the resistor R _S is greater than or equal to the reference voltage V _ref connected to the inverting input terminal (-) of the comparator 43. 3, the high level short detection signal is output to the PWM controller 25 of the DC-DC converter 20 as shown in FIG.

The PWM controller 25 receiving the high level short detection signal from the short detection unit 40 does not generate a PWM control signal applied to a switch transistor (not shown), thereby providing a display panel in the DC-DC converter 20. Do not apply power to (50).

The driving device of the display panel of the present invention is not limited to the above-described embodiments, and may be modified in various ways within the scope of the technical idea of the present invention.

10. power supply, 20. DC-DC converter,
25. PWM controller, 30. LDO regulator,
35. error amplifier, 40. short detector,
43. Comparator, 45. Op Amps
50. Display panel

Claims (6)

A display panel;
A DC-DC converter for boosting and outputting a constant voltage supplied from a power supply unit to a driving voltage of the display panel;
A low drop output (LDO) regulator for stepping down the output voltage of the DC-DC converter to supply the display panel;
Enabled during the black data period in which no current should flow in the display panel, and detects a short current applied to the display panel through the LDO regulator to detect whether or not a short occurs, and according to whether or not the short circuit occurs, the DC-DC And a short sensing unit for outputting a short sensing signal to the converter to control the output voltage of the DC-DC converter.
The method of claim 1, wherein the short detection unit,
A sensing transistor implemented with a ratio of N: 1 to a pass transistor of the LDO regulator and sensing a short current flowing through the pass transistor;
A resistor connected to an output terminal of the sensing transistor to convert a short current sensed by the sensing transistor into a voltage;
And a comparator for comparing the voltage converted by the resistor with a reference voltage and outputting a short detection signal.
The method of claim 2, wherein the sensing transistor,
And a PMOS transistor having a gate terminal receiving a signal output from the error amplifier of the LDO regulator and a source terminal receiving an output voltage of the DC-DC converter.
The method of claim 2, wherein the comparator,
And outputting a low level short detection signal to a PWM controller of the DC-DC converter until the voltage converted by the resistor is greater than a reference voltage.
The display panel of claim 2, wherein the level of the short current detectable by the short detector is adjusted by changing at least one of a ratio between the pass transistor and the sensing transistor and a magnitude of the resistance. Driving device.
The method of claim 2, further comprising an operational amplifier and a transistor such that the voltage across the output terminal of the pass transistor and the output terminal of the sensing transistor is the same voltage,
The voltage applied to the output terminal of the pass transistor is input to the non-inverting input terminal of the operational amplifier, and the voltage applied to the output terminal of the sensing transistor is input to the inverting input terminal.
The transistor is implemented between the sensing transistor and the resistor, and receives a short current output from the sensing transistor through a source terminal according to the output voltage of the operational amplifier input through a gate terminal to output to the resistor. A drive device for a display panel.

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