This application claims the benefit of Taiwan application Serial No. 95116424, filed May 9, 2006, the subject matter of which is incorporated herein by reference.
1. Field of the Invention
The invention relates in general to an active matrix organic light emitting diode (AMOLED) panel, and more particularly to an AMOLED panel driven by a large current.
2. Description of the Related Art
Normally, in an AMOLED display, images are displayed by a large number of pixels on the AMOLED panel. Each pixel of the AMOLED panel is controlled according to a data signal so as to display the required luminance.
Referring to
Afterward, in a display time period, the scan signal Scan turns off the transistor T1 and T2 to electrically isolate the transistor T4 from the data driving unit 12. The voltage difference between the source and gate of the transistor T4 can be stabilized at the corresponding voltage level by the capacitor C. Therefore, the current IOLED can be maintained at a certain value stably. However, the above data driving unit 12 can provide only a limited current IData. If a larger current is to be required, the area of the data driving unit 12 has to be increased, thereby improving production cost.
The invention is directed to an AMOLED panel. By using a number of mirror output circuits, a larger current can be provided to drive the pixels of the AMOLED panel.
According to the present invention, an AMOLED panel is provided. The AMOLED panel comprises an AMOLED pixel unit, a scan driving unit and a data driving unit. The scan driving unit is coupled to the AMOLED pixel unit. The data driving unit is coupled to the AMOLED pixel unit and a voltage source. The data driving unit comprises a reference current source circuit, (N+1) mirror output circuits and (N+1) switch elements. The reference current source circuit is for providing a reference current. (N+1) mirror output circuits are coupled to the reference current source circuit for outputting (N+1) corresponding data currents to the AMOLED pixel unit, wherein N is a positive integer. The m-th data current of the (N+1) data currents is 2m times of the reference current, and m is an integer 0˜N. The switch elements are disposed in correspondence with the mirror output circuits for controlling the data currents to be outputted to the AMOLED pixel unit.
The invention will become apparent from the following detailed description of the preferred but non-limiting embodiments. The following description is made with reference to the accompanying drawings.
The invention uses (N+1) mirror output circuits to provide a larger current for driving pixels. Referring to
Referring to
The AMOLED 36 is coupled to a voltage source, such as a ground voltage GND. The transistor MP1 has a first terminal coupled to the data driving unit 32 and a control terminal coupled to the scan driving unit 34. The transistor MP2 has a first terminal coupled to a second terminal of the transistor MP1 and a control terminal coupled to the scan driving unit 34. The transistor MP3 has a first terminal coupled to the first terminal of the transistor MP2, a second terminal coupled to a first voltage, such as an operational voltage VDD, and a control terminal coupled to a second terminal of the transistor MP2. The transistor MP4 has a first terminal coupled to the AMOLED 36, a second terminal coupled to the operational voltage VDD and a control terminal coupled to the control terminal of the transistor MP3. The capacitor C has a first terminal coupled to the control terminal of the transistor MP4 and a second terminal coupled to the second terminal of the transistor MP4.
During a writing time period, a scan signal Scan outputted by the scan driving unit 34 turns on the transistors MP1 and MP2. Due to a current IData of the data driving unit 32, the transistor MP3 also generates the same current IData. Owing that the transistors MP3 and MP4 form a circuit of current mirror, the transistor MP4 generates a current IOLED proportional to the current IData and outputs the current IOLED to the AMOLED 36 to display the corresponding luminance. At the same time, the capacitor C is also charged to the corresponding voltage level.
Afterward, during a display time period, the scan signal Scan turns off the transistors MP1 and MP2, and thus the transistor MP4 is electrically isolated from the data driving unit 12. The voltage difference between the source and gate of the transistor MP4 stably maintains at the corresponding voltage level by the capacitor C, and thus the current IOLED stably maintains at a specific value.
In the above AMOLED panel 30, the data driving unit 32 includes a reference current source circuit 310, (N+1) mirror output circuits 320˜32n and (N+1) switch elements S0˜Sn, wherein N is a positive integer. The reference current source circuit 310 is for providing a reference current I. The mirror output circuits 320˜32n are coupled to the reference current source circuit 310. The AMOLED pixel unit 31 can draft data currents I0˜In from the data driving unit 32. The data currents I0˜In have a proportion relationship corresponding to the reference current I, such as the data current Im (m=0˜n) is 2m×I, wherein I is a constant current.
The switch elements S0˜Sn are disposed in correspondence with the mirror output circuits 320˜32n for controlling the AMOLED pixel unit 31 to draft the data currents I0˜In. The position of switch elements S0˜Sn can be changed. For example, each of the switch elements S0˜Sn has a first terminal coupled to a ground voltage GND and a second terminal coupled to the corresponding mirror output circuit 320˜32n. The switch elements S0˜Sn can also be disposed at different positions. For example, each of the switch elements S0˜Sn has a first terminal coupled to the corresponding mirror output circuit 320˜32n and a second terminal coupled to the AMOLED pixel unit 31.
Whether the AMOLED pixel unit 31 can draft the data currents I0˜In to generate the data current IData depends on openness or closeness of the switch elements S0˜Sn. That is, the amount of the data current IData is controlled by the switch elements S0˜Sn. For example, when only the switch element S0 is turned on, the data current IData is smallest, which is equal to I. When the switch elements S0˜Sn are all turned on, the data current IData is largest, which is equal to (1+2+4+ . . . +2n)I=(2n+1−1)I. As mentioned above, the AMOLED pixel unit 31 can obtain (2n+1−1) different kinds of data currents IData. Therefore, the AMOLED panel 30 can drive the AMOLED 36 by a large current.
In the above AMOLED panel 30, the first switch element to the fourth switch element can also be implemented by n-type metal oxide semiconductor (NMOS) transistors. Referring to
The above AMOLED panel 40 operates in the same rule as the AMOLED panel 30.
The AMOLED panel disclosed by the above embodiment of the invention uses a number of mirror output circuits to provide a larger current for driving the AMOLED pixels and provide different currents for driving the AMOLED pixels.
While the invention has been described by way of example and in terms of a preferred embodiment, it is to be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures.
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