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Current load device and method for driving the same

a current load and driving circuit technology, applied in the direction of electronic switching, pulse technique, instruments, etc., can solve the problems of reducing the image the disadvantage of the first conventional example, and the reduction of the quality of the display device, so as to achieve the effect of eliminating the capacitance of the current load element, retaining the current, and reducing the quality of the imag

Inactive Publication Date: 2007-06-21
ABE KATSUMI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This solution ensures precise current supply and retention, improving image quality by reducing the impact of TFT characteristic variations and enabling higher definition and larger screen displays without degradation in device characteristics, similar to CRT operations for moving images.

Problems solved by technology

The first conventional example has a disadvantage.
Consequently, the light emitting devices are not supplied with a current enough to provide an expected brightness, and thus, the quality of the display device is reduced.
In particular, there is quite large deviation of current / voltage characteristics of poly-silicon TFTs, which are often used in display devices, so that the image quality thereof is significantly reduced.
However, there is quite large deviation of current / voltage characteristics of poly-silicon TFTs, and even if the same voltage is applied to the gates of TFTs, the light emitting devices are supplied with various currents, and thus, the brightness thereof varies.
Therefore, there is a disadvantage that it is difficult to cause the light emitting device to emit light with an intended brightness, and the quality of the display device is reduced.
However, unlike with a crystalline silicon transistor, it is possible that the transistors of the pair have current / voltage characteristics which are significantly different from each other even when they are disposed close to each other.
Therefore, a difference in current / voltage characteristics appears between the transistor for retaining (converting) the current and the transistor for supplying the current to the light emitting device, and thus, it becomes difficult to reproduce an intended brightness with high precision.
Thus, when a pixel is to be selected, it takes a long time for the current value of the driving TFT to settle at a value for supplying an expected current to the light emitting device and for the voltages of the parts to settle in a state where the expected current is supplied to the light emitting device.
Then, the light emitting device LED emits light with an unexpected brightness, and thus, the image quality is reduced.
That is, the third conventional example has a disadvantage in that enhancing the definition reduces the image quality.

Method used

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  • Current load device and method for driving the same
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  • Current load device and method for driving the same

Examples

Experimental program
Comparison scheme
Effect test

first embodiment

[0066]FIG. 1 is a circuit diagram showing a configuration of one pixel according to a first embodiment of this invention. As shown in FIG. 1, a signal line SL extending in a column direction, control lines CL1 to CL3 extending in a row direction and voltage supply lines PB1 to PB3 run through a pixel 2, and a TFT Q, switches SW1 to SW3, a capacitance element C and a light emitting device LED are arranged in the pixel 2. A first terminal of the TFT Q, which is one of the drain or source thereof, is connected to the voltage supply line PB2, the switch SW3 is connected between a second terminal of the TFT Q, which is the other of the drain or source thereof, and the light emitting device LED, and the switch SW1 is connected between the second terminal of the TFT Q and the signal line SL. A terminal of the light emitting device LED on the other side of the switch SW3 is connected to the voltage supply line PB1. The switch SW2 is connected between the second terminal and gate of the TFT ...

second embodiment

[0082]FIG. 5 is a circuit diagram showing a configuration of one pixel according to a second embodiment of this invention. As shown in FIG. 5, a signal line SL extending in a column direction, control lines CL1 to CL3 extending in a row direction and voltage supply lines PB1 to PB3 run through a pixel 2, and a TFT Q, switches SW1 to SW3, a capacitance element C and a light emitting device LED are arranged in the pixel 2. A first terminal of the TFT Q, which is one of the drain or source thereof, is connected to the voltage supply line PB2, the switch SW3 is connected between a second terminal of the TFT Q, which is the other of the drain or source thereof, and the light emitting device LED, and the switch SW1 is connected between the second terminal of the TFT Q and the signal line SL. A terminal of the light emitting device LED on the other side of the switch SW3 is connected to the voltage supply line PB1. The switch SW2 is connected between the signal line SL and the gate of the ...

third embodiment

[0089]FIG. 7 is a circuit diagram showing a configuration of one pixel according to a third embodiment of this invention. As shown in FIG. 7, a signal line SL extending in a column direction, control lines CL1 to CL3 extending in a row direction and voltage supply lines PB1 to PB3 and PB5 run through a pixel 2, and a TFT Q1, a TFT Q2, switches SW1 to SW3, a capacitance element C and a light emitting device LED are arranged in the pixel 2. The TFT Q1 and the TFT Q2 are connected in series, one of the drain and source of the TFT Q2, which is not connected to the TFT Q1, is connected to the voltage supply line PB2, the switch SW3 is connected between the light emitting device LED and one of the drain and source of the TFT Q1, which is not connected to the TFT Q2, and the switch SW1 is connected between the signal line SL and the terminal of the TFT Q1, which is not connected to the TFT Q2. A terminal of the light emitting device LED on the other side of the switch SW3 is connected to t...

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Abstract

This invention provides a precise current load device. A cell includes a power supply line, a ground line, first and second voltage supply lines, a signal line, first, third and fourth control lines, first to fourth switches, a p-type TFT, a capacitance element, and a current load element. A source of the p-type TFT is connected to the power supply line, one terminal of the current load element is connected to the ground line, the first switch is connected between the signal line and a drain of the p-type TFT, the second switch is connected between the drain and the gate of the p-type TFT, the third switch is connected between the drain of the p-type TFT and the current load element, and the fourth switch is connected between the voltage supply line and the current load element.

Description

BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to a current load driving circuit for driving a current load element and a method for driving the same. In particular, it relates to a current load device comprising current load elements and current load driving circuits arranged in a matrix, and a method for driving the same. [0003] 2. Description of the Prior Art [0004] In recent years, a device having cells arranged in a matrix, each of the cells comprising a current load element that operates depending on a current passing therethrough and a current load driving circuit for driving the current load, has been developed. [0005] For example, in many light emitting display devices with an organic EL (electroluminescence) device serving as the current load element, pixels each comprising the organic EL device and a drive-circuit therefor are arranged in a matrix and driven according to the active matrix method. FIG. 37 is a schematic pl...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G09G3/30G09G3/32H03K17/041
CPCG09G3/3233G09G2300/0842G09G2300/0861G09G2310/0251G09G2310/0262G09G2320/0252H03K17/04106
Inventor ABE, KATSUMI
Owner ABE KATSUMI