Display device with electronic equipment therewith
Abstract
Reduction in efficiency of a power supply circuit in a display device is prevented. A positive power supply generation circuit and a negative power supply generation circuit are placed close to a terminal portion to which a drive clock and a power supply electric potential are applied externally. The terminal portion 140 is formed in an edge portion of the TFT glass substrate 100 . That is, the positive power supply generation circuit 131 and the negative power supply generation circuit 132 are placed closer to the terminal portion 140 than primary circuits of the liquid crystal display device, which are the pixel portion 105 , the horizontal drive circuit 110 and the vertical drive circuit 120 . With this, there is obtained a layout that minimizes wiring loads (resistive and capacitive loads associated with wirings to provide the power supply and the drive clock) to prevent reduction in circuit efficiency.
Claims
exact text as granted — not AI-modified1 - 16 . (canceled)
17 . A display device comprising:
a pixel portion comprising a plurality of pixel transistors arrayed in a matrix form; a pixel electrode to which a video signal is applied through a pixel transistor, a polarity of the video signal being switched with a predetermined period; a drive circuit to drive the pixel transistors, the drive circuit including a vertical drive circuit for providing a gate signal to turn on and off the pixel transistors and a horizontal drive circuit for providing the video signal; a terminal portion to generate a power supply electric potential having a first potential; a negative power supply generation circuit to generate a negative power supply electric potential having a second potential that is supplied to the vertical drive circuit, wherein the second potential is generated based on the first potential and is less than the first potential, and the negative power supply electric potential having the second potential is output from the negative power supply generation circuit; a positive power supply generation circuit to generate a positive power supply electric potential having a third potential that is supplied to the vertical drive circuit, wherein the third potential is generated based on the first potential and is higher than the first potential, and the terminal portion externally provides the positive power supply generation circuit and the negative power supply generation circuit with the power supply electric potential having the first potential; a first wiring to supply the power supply electric potential from the terminal portion, the first wiring being arranged between the terminal portion and both the positive power supply generation circuit and the negative power supply generation circuit; a second wiring to supply a horizontal clock from the terminal portion to the horizontal drive circuit; a third wiring to supply a vertical clock from the terminal portion to the vertical drive circuit; and a substrate on which the pixel portion, the pixel electrode, the drive circuit, the positive power supply generation circuit, the negative power supply generation circuit, the terminal portion, the first wiring, the second wiring, and the third wiring are arranged, wherein the positive power supply generation circuit and the negative power supply generation circuit are arranged closer to the terminal portion than the pixel portion.
18 . The display device of claim 17 , further comprising a common electrode arranged to face the pixel electrode and receiving a common electrode signal that alternates between a high level and a low level and a liquid crystal arranged between the pixel electrode and the common electrode.
19 . The display device of claim 17 , wherein the positive power supply generation circuit and the negative power supply generation circuit are arranged next to each other in a direction parallel to an edge of a substrate along which the terminal portion is arranged.
20 . The display device of claim 17 , wherein a wiring load from the terminal portion to the positive power supply generation circuit is equal to a wiring load from the terminal portion to the negative power supply generation circuit.
21 . The display device of claim 17 , wherein the drive circuit to drive the pixel transistors is arranged on the substrate in a form of an LSI chip.
22 . Electronic equipment including a display device, the display device comprising:
a pixel portion comprising a plurality of pixel transistors arrayed in a matrix form; a pixel electrode to which a video signal is applied through a pixel transistor, a polarity of the video signal being switched with a predetermined period; a drive circuit to drive the pixel transistors, the drive circuit including a vertical drive circuit for providing a gate signal to turn on and off the pixel transistors and a horizontal drive circuit for providing the video signal; a terminal portion to generate a power supply electric potential having a first potential; a negative power supply generation circuit to generate a negative power supply electric potential having a second potential that is supplied to the vertical drive circuit, wherein the second potential is generated based on the first potential and is less than the first potential, and the negative power supply electric potential having the second potential is output from the negative power supply generation circuit; a positive power supply generation circuit to generate a positive power supply electric potential having a third potential that is supplied to the vertical drive circuit, wherein the third potential is generated based on the first potential and is higher than the first potential, and the terminal portion externally provides the positive power supply generation circuit and the negative power supply generation circuit with the power supply electric potential having the first potential; a first wiring to supply the power supply electric potential from the terminal portion, the first wiring being arranged between the terminal portion and both the positive power supply generation circuit and the negative power supply generation circuit; a second wiring to supply a horizontal clock from the terminal portion to the horizontal drive circuit; a third wiring to supply a vertical clock from the terminal portion to the vertical drive circuit; and a substrate on which the pixel portion, the pixel electrode, the drive circuit, the positive power supply generation circuit, the negative power supply generation circuit, the terminal portion, the first wiring, the second wiring, and the third wiring are arranged, wherein the positive power supply generation circuit and the negative power supply generation circuit are arranged closer to the terminal portion than the pixel portion.Join the waitlist — get patent alerts
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