Liquid crystal cells – elements and systems – Particular structure – Having significant detail of cell structure only
Reexamination Certificate
2001-12-06
2003-12-30
Chowdhury, Tarifur R. (Department: 2871)
Liquid crystal cells, elements and systems
Particular structure
Having significant detail of cell structure only
C349S143000
Reexamination Certificate
active
06671023
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to an active matrix display device, especially to an active matrix display device having a plurality of retaining circuits provided for each of the pixel elements.
2. Description of Related Art
There has been a great demand in the market for portable communication and computing devices such as a portable TV and cellular phone. All these devices need a small, light-weight and low-consumption display device, and development efforts have been made accordingly.
FIG. 7
shows a circuit diagram corresponding to a single pixel element of a conventional liquid crystal display device. A gate signal line
51
and a drain signal line
61
are placed on an insulating substrate (not shown in the figure) perpendicular to each other. A pixel element selection TFT
65
connected to the two signal lines
51
,
61
is formed near the crossing of the two signal lines
51
,
61
. The source
65
of the pixel element selection TFT
65
is connected to a pixel element electrode
17
of the liquid crystal
21
.
A storage capacitor element
85
holds the voltage of the pixel element electrode
17
during one field period. A terminal
86
, which is one of the terminals of the storage capacitor element
85
, is connected to the source
65
of the pixel element selection TFT
65
, and the other terminal
87
is provided with a voltage common among all the pixel elements.
When a gate signal is applied to the gate signal line
51
, the pixel element selection TFT
65
turns to an on-state. Accordingly, an analog image signal from the drain signal line
61
is applied to the pixel element electrode
17
, and the liquid crystal
21
through the pixel element electrode
17
, and the storage capacitor element
85
holds the voltage. The voltage of the image signal is applied to the liquid crystal
21
through the pixel element electrode
17
, and the liquid crystal
21
aligns in response to the applied voltage for providing a liquid crystal display image. Disposing the pixel elements as a matrix as described above provides a basic configuration of a LCD.
The conventional LCD is capable of showing both moving images and still images. There is a need for the display to show both a moving image and a still image within a single display. One such example is to show a still image of a battery within area in a moving image of a cellular phone display to show the remaining amount of the battery power.
However, the configuration shown in
FIG. 6
requires a continuous rewriting of each pixel element with the same image signal at each scanning in order to provide a still image. This is basically to show a still-like image in a moving image mode, and the scanning signal needs to activate the pixel element selection TFT
70
by the gate signal at each scanning.
Accordingly, it is necessary to operate a driver circuit which generates a drive signal for the gate signals and the image signals, and an external LSI which generates various signals for controlling the timing of the drive circuit, resulting in a consumption of a significant amount of electric power. This is a considerable drawback when such a configuration is used in a cellular phone device, which has only a limited power source. That is, the time a user can use the telephone under one battery charge is considerably short.
Japanese Laid-Open Patent Publication No. Hei 8-194205 discloses another configuration for display device suited for portable applications. This display device has a static memory for each of the pixel elements.
FIG. 8
is a plan view showing the circuit diagram of the active matrix display device with a retaining circuit disclosed in Japanese Laid-Open Patent Publication No. Hei 8-194205. A plurality of gate signal lines
51
and reference lines
52
are disposed in a predetermined direction. And a plurality of drain lines
61
are disposed in the direction perpendicular to the predetermined direction. Between a retaining circuit
54
and a pixel element electrode
17
, a TFT
53
is formed. By displaying image based on the data retained in the retaining circuit, the operation of a gate driver
50
and a drain driver
60
is stopped for the reduction of the electric power consumption.
FIG. 9
shows a circuit diagram corresponding to a single pixel element of the liquid crystal display device. On a substrate, the pixel element electrode is disposed in a matrix configuration. Between the pixel element electrodes
17
, the gate signal line
51
and the drain signal line
61
are placed perpendicular to each other. The reference line
52
is disposed parallel to the gate signal line
51
, and the retaining circuit
54
is formed near the crossing of the gate signal line
51
and the drain signal line
61
. A switching element
53
is formed between the retaining circuit
54
and the pixel element electrode
17
. A static memory (Static Random Access Memory: SRAM), in which two inverters
55
and
56
are positively fed back to each other, works as the retaining circuit for holding the digital image signal. Since the SRAM dose not need to refresh the memory for retaining the data, the SRAM, which is different from DRAM, is suitable for the display device.
In this configuration, the switching element
53
controls the resistance between a reference line and a pixel element electrode
17
in response to the divalent digital image signal held by the static memory and outputted from the retaining circuit in order to adjust the biasing of the liquid crystal
21
. The common electrode, on the other hand, receives an AC signal Vcom. Ideally, this configuration does not need refreshing the memory when the image stays still for a period of time.
However, when the static RAM is used in the retaining circuit
54
, the number of the required transistors of the retaining circuit is
4
or
6
, resulting in the enlargement of the circuit. Thus, it is inevitable to make the size of one pixel element relatively large, making it difficult to reduce the size of the device.
SUMMARY OF THE INVENTION
This invention is directed to reducing the size of a display device by using a retaining circuit.
The active matrix display device of this invention has a plurality of gate signal lines, a plurality of drain signal lines, a plurality of pixel element electrodes selected by the scanning signal fed from the gate signal line and provided with the image signal from the drain signal line, and the common electrode disposed facing to a plurality of the pixel element electrode. The device also has a liquid crystal disposed between the pixel element electrode and the common electrode, a storage capacitance electrode disposed facing to the pixel element electrode forming a storage capacitance element for holding the voltage applied between the pixel element electrode and the counter electrode, and a retaining circuit disposed for the pixel element electrode for storing the data corresponding to the image signal. The active matrix display device of this invention operates under two modes: the normal operation mode, under which the pixel element voltage corresponding to the sequentially inputted image signal is sequentially applied and the memory operation mode, under which display is made based on the data stored in the retaining circuit. Under the normal operation mode, at least a part of the retaining circuit is set for a predetermined voltage and works as a storage capacitance element for maintaining the voltage between the pixel element electrode and the common electrode.
In this configuration, as at least a part of the retaining circuit functions as the storage capacitance element, it is possible to reduce the size of the storage capacitance element originally equipped in the device. Therefore, as the area for the storage capacitance element becomes smaller, the size of the pixel element also becomes smaller, leading to the size reduction of the device.
The retaining circuit is disposed for a plurality of the pixel element electrodes. This creates a certain amount of parasitic capacitance between t
Tsutsui Yusuke
Yokoyama Ryoichi
Yoshimura Takeo
Chowdhury Tarifur R.
Di Grazio Jeanne
Morrison & Foerster / LLP
Sanyo Electric Co,. Ltd.
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