KR100480723B1 - Apparatus for Controlling Current of The Flat Panel Display Device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a current control device for a flat panel display device capable of correcting an error in an integrated circuit in a current control device for a flat panel display device. The first and second terminals may include a first and a second terminal. First and second transistors Q11 and Q12 that form a current mirror with a voltage source Vdd connected to each other, and the first and second transistors Q11 connected to the first and second terminals, respectively. Control means for controlling a ratio of a control current and a driving current of the current mirror, respectively, connected in series with a source of Q12, and connected to a drain of the first transistor Q11. A constant current controller for controlling a driving current, a third transistor Q13 and a second transistor connected to a source of an output terminal of the constant current controller by an externally input data signal; An organic EL element connected to the drain of the jistor Q12 to receive the driving current supplied from the current mirror and emitting light; and an organic EL element connected to a cathode of the organic EL element by a scan signal input from the outside Since the fourth transistor Q14 turns on / off the light emission of the integrated circuit, even if an error occurs in the integrated circuit, the ratio of the control current and the driving current can be accurately adjusted by changing the passive element from the outside. There is an effect to minimize the consumption of current and to realize a more reliable integrated circuit.

Description

Apparatus for Controlling Current of The Flat Panel Display Device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display, and more particularly, to a current control device of a flat panel display device capable of correcting errors in a design process of an integrated circuit (IC) for a current mirror in a flat panel display.

Recently, flat-panel displays started to take the lead in liquid crystal displays (LCDs), surpassing the CRT (Cathode Ray Tube), which has been the most used in the display field for decades. Fluorescent displays (FEDs), field emission displays (FEDs), light emitting diodes (LEDs), electroluminescence (EL), and the like are frequently used.

Such a late display can be divided into two types according to the driving method.

One of them is a voltage driven display used for PDP and VFD in a similar way to LCD, and the other is a current driven display used for FED, LED and EL.

At this time, the data to be displayed brighter is applied to the corresponding data line, the voltage driven type high voltage, the current driven type high current.

However, in order to apply such a high current or voltage, a stable current or voltage must always be maintained.

Therefore, a constant current source, which is a power source capable of supplying a constant current regardless of a load, having a very large internal impedance, is used. The constant current source has a characteristic in that the voltage across the load is converted in accordance with the change in the load resistance.

Hereinafter, a current control apparatus of a flat panel display device according to the related art will be described with reference to the accompanying drawings.

As shown in FIG. 1, a current control apparatus of a flat panel display device according to the related art includes first and second transistors Q1 and Q2 forming the current mirror 1 by inputting a voltage source Vdd, and the first and second transistors Q1 and Q2. A third transistor connected to a drain of the first transistor Q1 and a source connected to an output terminal of the constant current controller 2, the source being turned on / off by an externally input data signal (Q3), the organic EL element 3 connected to the drain of the second transistor Q2, and the cathode of the organic EL element 3 are connected to the organic EL element 3 The fourth transistor Q4 turns on / off the light emission.

Referring to the operation of the current control device of the flat panel display device according to the prior art configured as described above, first and second transistors (Q1, Q2) constituting the current mirror (1) uses the same characteristics.

The same voltage source Vdd is supplied to the first and second transistors Q1 and Q2 constituting the current mirror 1 so that the organic EL element is turned on or off in accordance with a data signal of the third transistor Q3. The current flowing in (3) is controlled.

The current flowing through the organic EL element 3 is controlled by the constant current controller 2 connected to the first transistor Q1. That is, when the element having a high resistance is used for the constant current controller 2, the current flowing through the organic EL element 3 is small, and when the element having a low resistance is used, the current flowing through the organic EL element 3 is high. .

In this case, the third transistor Q3 is used only for a switch and is controlled by a data signal, which is a signal input from the outside.

Further, in order to reduce current consumption in the current mirror 1 circuit, the control unit including the current mirror 1, the constant current control unit 2, and the third transistor Q3, the organic EL element 3, and the fourth transistor ( Q4) uses a design for minimizing the current consumption of the control unit by varying the sizing of the driving unit.

In other words, in the configuration of the first and second transistors Q1 and Q2 constituting the current mirror 1, W / L (Width / Length) is predetermined to give a difference between a controlling current and a driving current. Set it as a ratio.

In general, when the current controlled by setting the ratio of W / L to a ratio of 1: 4 or 1: 5 is 10 mA, the driving current flows 40 mA or 50 mA depending on the W / L ratio.

However, the above-described current control apparatus of the flat panel display element according to the prior art has a size corresponding to each transistor due to an error in the integrated circuit in the design of the control unit for controlling the drive current of the display element (organic EL element). There was a problem that an error occurs. That is, since the ratio of the controlling current to the driving current is designed to be large, a large difference occurs in the amount of actually flowing current even if a slight error occurs.

Accordingly, the present invention has been made to solve the above-described problems of the prior art, an object of the present invention is to control the current of the flat panel display device to correct the error in the integrated circuit in the current control device of the flat panel display device To provide a device.

In order to achieve the above object, a current control device for a flat panel display device includes a current mirror having first and second terminals and inputting a voltage source Vdd connected to the first and second terminals, respectively. Is connected in series with a source of the first and second transistors Q11 and Q12 and the first and second transistors Q1 and Q2 respectively connected to the first and second terminals. Adjusting means for adjusting the ratio of the control current and the driving current of the current mirror, a constant current controller connected to the drain of the first transistor (Q11) to control the drive current of the current mirror, a source to the output terminal of the constant current controller Is connected to a drain of the third transistor Q13 and the second transistor Q12 that are turned on / off by a data signal input from the outside and supplied from the current mirror. An organic EL element that receives current and emits light, and a fourth transistor Q14 connected to a cathode of the organic EL element to turn on / off light emission of the organic EL element by a scan signal input from the outside; It is composed of its features.

In this case, the current mirror is designed by setting the W / L (Width / Length) ratio of the first and second transistors Q11 and Q12 to 1: 1 in the current control device of the flat panel display device. It is characterized by.

In addition, the adjusting means is characterized in that the variable resistance or laser trimming (Laser Trimming) or a device capable of voltage drop by a predetermined level.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, a current control apparatus for a flat panel display device according to the present invention will be described with reference to the accompanying drawings.

Here, the present invention is described below using as an example a current control device applied to an organic EL element.

2 is a block diagram showing a current control device of a flat panel display device according to the present invention.

As shown, the current control device of the flat panel display device according to the present invention is provided with a first mirror and a second terminal (not shown), the current mirror is input to the voltage source (Vdd) connected to the first and second terminals, respectively; Sources of the first and second transistors Q11 and Q12 forming the current mirror 11 and the first and second transistors Q11 and Q12 connected to the first and second terminals. Control means for controlling the ratio of the control current and the driving current of the current mirror 11 to be connected in series with each other, and connected to the drain of the first transistor Q11 to drive the current mirror 11. A constant current controller 12 for controlling current, a third transistor Q13 connected to a source at an output terminal of the constant current controller 12 and turned on / off by a data signal input from the outside, and the second transistor Q12 Connected to the drain of the The organic EL device 20 receives the driving current supplied from the runt mirror 11 and emits light, and the organic EL device is connected to a cathode of the organic EL device 20 by a scan signal input from the outside. And a fourth transistor Q14 for turning on / off the light emission of (20).

In this case, the adjusting means uses a variable resistor, laser trimming, or a device capable of voltage drop by a predetermined level. In the present embodiment, the adjusting means is used as the first and second variable resistors R11 and R12. Will be explained.

The first and second transistors Q11 and Q12 constituting the current mirror 11 use the same characteristics.

In addition, during the design process, the current mirror 11, the constant current controller 12, and the third transistor Q13 are designed as one integrated circuit (IC) 10, and the fourth transistor ( Q14) is designed as a scan integrated circuit 30.

The first and second variable resistors R1 and R2 are respectively provided outside the data integrated circuit 10, that is, source terminals of the first and second transistors Q11 and Q12 forming the current mirror 11. Configure by serial connection.

Looking at the operation of the current control device of the flat panel display device according to the present invention configured as described above are as follows.

First, the same voltage source Vdd is supplied to each of the source terminals of the first and second transistors Q11 and Q12, respectively, to control the constant current (control current) of the current mirror 11 through the constant current controller 12. do.

Then, the driving current flowing through the organic EL element 20 is controlled by the constant current control of the constant current controller 12.

At this time, driving current supply control of the current mirror 11 flowing through the organic EL element 20 is controlled by an on / off operation according to an external input signal of the third transistor Q13, that is, a data signal.

Here, the third transistor Q13 is used only for a switch and is controlled by a data signal, which is a signal input from the outside.

As a result, the organic EL element 20 receives the driving current of the current mirror 11 according to the on / off operation of the third transistor Q13 and at the same time the fourth transistor Q14 by the input of an external scan signal. The light is emitted by the on / off operation of.

According to the present invention, the size of the control unit composed of the current mirror 11, the constant current control unit 12, and the third transistor Q13, and the drive unit composed of the organic EL element 20 and the fourth transistor Q14 is described. In other words, the ratio of W / L is designed equally (at 1: 1 ratio).

When the resistance values of the first and second variable resistors R1 and R2 attached to the exterior of the current mirror 11 are set equal to each other, a control current and a driving current are output at a 1: 1 ratio, and the control current is If the ratio of the driving current is to be set differently, the ratio of the control current and the driving current is adjusted by differently setting the ratio of the resistance values of the first and second variable resistors R1 and R2.

That is, in order to provide a difference between the controlling current and the driving current in the configuration of the first and second transistors Q11 and Q12 constituting the current mirror 11, an external portion of the data integrated circuit 10 is provided. The resistance values of the attached first and second variable resistors R1 and R2 are set at a predetermined ratio.

In addition, by setting the W / L (Width / Length) ratio of the first and second transistors Q11 and Q12 constituting the current mirror 11 to 1: N, the control current and the driving current are set to 1. The resistance values of the first and second variable resistors R1 and R2 are adjusted to more accurately output at an: N ratio.

Therefore, in the current mirror driver design, even if an error occurs in the integrated circuit process, it is possible to accurately adjust the ratio of the controlling current and the driving current by adjusting the resistance value of the external variable resistor. It is.

The current control apparatus of the flat panel display device according to the present invention described above allows the ratio of the control current and the driving current to be accurately adjusted by changing the passive element from the outside even when an error occurs in the integrated circuit, and consumes current. Minimize the number and realize more reliable integrated circuit.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

1 is a block diagram showing a current control device of a flat panel display device according to the prior art

2 is a block diagram showing a current control device of a flat panel display device according to the present invention

Explanation of symbols for main parts of the drawings

10: data integrated circuit 11: current mirror

Q11, Q12: first and second transistors

R11 and R12: first and second variable resistors

12: constant current control unit Q13: third transistor

20: organic EL element 30: scan integrated circuit

Q14: fourth transistor

Claims (4)

First and second transistors Q11 and Q12 having first and second terminals to form current mirrors as inputs of a voltage source Vdd connected to the first and second terminals, respectively; Regulating means connected in series with sources of the first and second transistors Q11 and Q12 respectively connected to the first and second terminals to adjust a ratio of a control current and a driving current of the current mirror; A constant current controller connected to a drain of the first transistor Q11 to control a driving current of the current mirror; A third transistor Q13 connected to a source of an output terminal of the constant current controller and turned on / off by a data signal input from an external source; An organic EL device connected to the drain of the second transistor Q12 and configured to emit light by receiving a driving current supplied from the current mirror; And a fourth transistor (Q14) connected to a cathode of the organic EL element to turn on / off light emission of the organic EL element by a scan signal input from the outside. Control unit. The method of claim 1, The current mirror is Designing by setting the W / L (Width / Length) ratio of the first and second transistors (Q11, Q12) to 1: 1. The method of claim 1, The current mirror is And the W / L (Width / Length) ratio of the first and second transistors (Q11, Q12) is set to 1: N. The method of claim 1, The adjusting means A device for controlling a current in a flat panel display device, characterized in that the device is capable of variable resistance or laser trimming or a voltage drop of a predetermined level.