KR20050033146A - Oled driver ic for reducing channel variation - Google Patents

Abstract

A driving apparatus for reducing current variation between channels in an organic EL(Electro Luminescence) driving chip is provided to prevent a signal distortion and a signal delay by using two or more power supply MOS(Metal Oxide Semiconductors)s. Power supply MOSs(12a,12b,12c) receive power from a power input terminal(40) to supply the power to output channel MOSs(14a,14b). A switch(18a) switches the power supply MOSs. The switch is operated by a control signal through a digital analog converter(20). The output channel MOSs are driven by the switch switching the power supply MOSs. A decoupling capacitor(16) is provided on an outside in order to reduce noise upon switching. Since power supply is uniformly provided to the output channel MOSs, a signal distortion and a signal delay are reduced.

Description

Driving device for reducing current variation between channels of organic EL driving chip {OLED Driver IC for Reducing Channel Variation}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving device for reducing current fluctuations between channels of an organic EL driving chip, and more particularly, a driving IC having two or more power supply MOSs and a power supply MOS to turn on a pixel. The present invention relates to a driving device for reducing current fluctuations between channels of an organic EL driving chip, by which a proper power supply is provided to prevent signal distortion and delay.

In general, EL stands for Electro Luminescence and is a display device using a light emitting image generated when an electric field is applied to a semiconductor material such as ZnS, CaS, or the like.

Organic EL was developed by Eastman Kodak in 1987. It is a display that displays characters and images using organic light emitting devices that emit light when voltage is applied. Its wide viewing angle and response speed are almost the same as that of CRT. The video can also be processed naturally.

In addition, it is possible to make the thickness as thin as 2mm because it does not need a backlight, and it is attracting attention as the most promising next-generation display due to its low power consumption. As research and development is being actively conducted for large-sized, it is expected to grow high enough to compete with TFT-LCD for the PC and TV market in the future.

On the other hand, an organic EL display is a self-luminous device, and its light emitting mechanism is a carrier injection type device similar to a light emitting diode, and the organic EL structure is sequentially formed on an anode (ITO) on a glass substrate, and then a hole transport layer, a light emitting layer, an electron transport layer, and It is a very simple structure in which the cathode is sequentially layered, and its features include high luminance, no viewing angle dependence, high-speed response, thin weight, etc. in addition to self-luminescence.

On the other hand, since the brightness of each organic EL varies depending on the amount of current, researches are conducted on the method of flowing the current through each channel to obtain a good image quality of the organic EL panel. It is desirable to ensure the properties, but when using the current current mirror there was a very difficult problem to ensure the accurate current uniformity of less than 5%.

In addition, in the case of designing current mirrors in general, due to the channel width modulation effect of PMOS, short channel effect, and sudden snap back phenomenon, in order to reduce the height, the current of large size of 10um or more is increased. The mirror had to be used, but if the transistor is made of such a large size, the width must be increased accordingly (to keep the W / L constant), which causes a problem of adding a large capacitance to the current mirror.

In addition, since the image quality is poor due to the charging effect when the switch is turned on and off, it is necessary to attach a decoupling cacher artificially.In the case of the organic EL driver IC, the pulse width modulation (PWM) In addition to the driving method, a pulse amplitude modulation (PAM) driving method may be used. When the decoupling capacitor is connected to the pulse amplitude modulation driving method, a large capacitance and a charge generated when the switch is turned on or off may be delayed. There was a problem that the frame rate is limited.

Especially when the size of the panel increases, this problem becomes even larger.

Therefore, many efforts have been made to reduce the time delay while ensuring uniformity of each channel, and this solution is a very important research subject in organic EL driving chips.

1 shows a diagram of driving a conventional organic EL panel.

As shown, the data chip 100, the scan chip 200, and the pixel 300 are formed, and the power emitter 310 of the pixel 300 sends power signals from the data chip 100 and the scan chip 200. ) To make the desired screen.

The data chip 100 comprises a current mirror 10 comprising a power supply MOS 12 and thus an output MOS 14 switched accordingly.

In the above structure, IR voltage drops due to line resistance when power is being sent. Therefore, this characteristic is linear when the same color is sprayed on the screen because the output current of the far side without power is very small. There is a problem that turns into.

In addition, in order to reduce improper connection, the MOS designed with a large vertical width exhibits an RC signal delay due to line resistance and large capacitance, so that the output channel at the edge of the chip is very vulnerable due to the RC signal delay effect. In general, this effect is that since all these capacitances are charged by the current mirror current, the delay time becomes very long due to the limitation of the supply current as well as the RC time delay. It is very important to design a current mirror that solves the two problems of stable power supply and signal delay prevention because it causes a signal delay to charge even when a decoupling capacitor is installed for stable supply.

2 illustrates the influence of factors that reduce the uniformity of the panel.

As shown in the drawing, the data chip operates one external input power supply (VDDH) by a current mirror structure, and the switching device 18 operates by a control signal through the digital analog converter 20 and the amplifier 30. Is designed to drive), the circuit configuration as described above has the effect of reducing the voltage due to the resistance component of the power supply line, so that the far side (part A in FIG. 2) from the power supply side flows with reduced current. There are disadvantages.

If the organic EL has 384 channels, the capacitance is 384 * the number of capacitors, so the power supply capacity to be supplied cannot be ignored, and at the same time, the added decoupling capacitor 16 is also subject to charge. Capacitor and line resistances are also negligible, resulting in large signal latency.

The phenomena that occur due to this appear largely in the signal delay when driven by the pulse amplification modulation (PAM) technique.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a circuit configuration for achieving stable power charging and reducing signal delay time.

As a means for achieving the above object,

The present invention relates to a driving apparatus including an external power input terminal and a digital analog converter, and supplying power to a desired pixel by selecting an output channel by controlling the power of the external power input terminal using a digital analog converter.

At least two external power input terminals; Two or more power supply MOSs that receive power from the external power input terminal and are connected to an output MOS; At least two switching elements for switching the power supply MOS is characterized in that it comprises.

In addition, a decoupling capacitor is further added to one end of the output MOS.

In addition, the output MOS is characterized in that it is configured by further connecting the amplifier to each power supply MOS so that power is supplied through the amplifier.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is an optimized organic EL driver IC structure proposed by the present invention when driving with pulse width modulation, and a decoupling capacitor 16 for reducing noise is connected and has a power connection structure for multiple power inputs.

The power connection structure for the multiple power input includes a power supply MOS 12a for receiving power from the power input terminal 40 and the power input terminal 40 to supply power to the output channel MOSs 14a and 14b. 12b, 12c, and switching means 18a for switching the power supply MOSs 12a, 12b, 12c.

According to the present invention made as described above, when power is input from the power input terminal 40 and transferred to the power supply MOSs 12a, 12b, and 12c, the power is connected to the output channel MOSs 14a and 14b. Therefore, the switching means 18a operates according to the control signal through the digital analog converter 20, and accordingly switches the power supply MOSs 12a, 12b, and 12c to drive the required output channel MOSs 14a and 14b. do.

At this time, since the power is input to the output channel MOS 14a, 14b and the decoupling capacitor 16 through the three power input terminals 40 as in the present invention, it is transmitted to the output channel MOS 14a, 14b. Stable power supply is achieved.

That is, the present invention attaches a decoupling capacitor 16 to the outside in order to reduce noise appearing during switching, and adds new power supply MOSs 12a, 12b, and 12c to the vulnerable portions instead of simply connecting the current in series. At the same time, switching terminals 18a are provided to switch them, so that the power supply is evenly transmitted to all output channel MOSs 14a and 14b, thereby reducing signal distortion and signal delay.

On the other hand, such a structure is suitable for the pulse width modulation (PWM) method, but not for the pulse amplification modulation (PAM) method, because the decoupling capacitor 16 causes additional signal delay, so that the gate voltage is An organic EL driving method having a structure as shown in FIG. 4 is applied to a variable pulse amplification modulation (PAM) method.

First, divide the power input stage 40 for supplying power in the current mirror into three, and if the mismatch does not fall within the limit even in this way, it can be divided into three or more, and at the same time the current mirror The structure 10 eliminates the signal delay by charging using the amplifier 19 rather than charging the large capacitor 16.

In other words, the decoupling capacitor 16 and the output channel MOS 19 feed the amplifier 19 to amplify the signal analogly and send it to reduce the signal distortion time.

5A and 5B show the difference between charging the capacitor 16 with the existing current mirror and increasing the current driving capability by using the amplifier 19.

5A shows that the current charging the capacitor by the power supply MOS 12 when charging the capacitor with the existing current mirror is charged with the current by Isource (I),

In the case of FIG. 5B, the capacitor 16 is charged by the driving capability of the amplifier 19 when the current driving capability of the amplifier 19 connected to the power supply MOS 12 is increased. You can get speed.

As described above, the present invention provides the effect of supplying multiple power sources to the current mirror circuit and allowing power to be delivered to the output MOS by an amplifier so that charging can proceed quickly and at the same time eliminate signal delay time.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various other modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

1 is a structure of a drive IC using a conventional current mirror.

2 is a view for explaining a phenomenon caused by parasitic capacitance and resistance when using a conventional current mirror.

Figure 3 is a structure of a drive IC applied when the pulse width modulation drive using the present invention.

Figure 4 is a structure of a drive IC applied when the pulse amplification modulation drive using the present invention.

5A shows that a capacitor is charged by a conventional current source.

Figure 5b is a view showing that the capacitor is charged by the driving capability of the amplifier of the present invention.

Explanation of symbols on the main parts of the drawings

10: current mirror

12, 12a, 12b, 12c: power supply MOS

14, 14a, 14b: MOS 16: Decoupling Capacitors for Channels

18, 18a: switching MOS 19: amplifier

20: digital to analog converter 30: amplifier

40: power input terminal 100: data chip

200: scan chip 300: pixel

310: light emitting element

Claims (3)

A driving apparatus comprising an external power input terminal and a digital analog converter, and controlling power of the external power input terminal using a digital analog converter to select an output channel to supply and display power to a desired pixel. At least two external power input terminals; Two or more power supply MOSs which receive power from the external power input terminal and are connected to an output MOS; And at least two or more switching elements for switching the power supply MOS. The method of claim 1, And a decoupling capacitor further added to one end of the output MOS. The method of claim 1, The output MOS is a drive device for reducing the current variation between the channel of the organic EL driving chip, characterized in that configured to further connect the amplifier to each power supply MOS so that power is supplied through the amplifier.