CN2769949Y - Liquid crystal display device - Google Patents

Abstract

The utility model provides a liquid crystal display device comprising a first baseplate, a second baseplate, a liquid crystal layer, a pixel electrode, a common electrode, a lower storage capacitance electrode and an upper storage capacitance electrode, wherein the first baseplate and the second baseplate are oppositely arranged, the liquid crystal layer is positioned between the first baseplate and the second baseplate, the pixel electrode is arranged between the first baseplate and the liquid crystal layer and the common electrode is arranged between the second baseplate and the liquid crystal layer. The lower storage capacitance electrode and the upper storage capacitance electrode are arranged on the first baseplate, and the upper storage capacitance electrode is a reflecting electrode.

Description

Liquid crystal indicator

[technical field]

The utility model is about a kind of liquid crystal indicator.

[background technology]

Because advantages such as liquid crystal indicator has gently, approaches, power consumption is little are widely used in modernized information equipments such as notebook, mobile phone, personal digital assistant.But itself does not possess the characteristics of luminescence liquid crystal of liquid crystal indicator, therefore, for reaching display effect, must provide a planar light source device for liquid crystal indicator, and as backlight module, its function is to provide the area source that brightness is abundant and be evenly distributed to liquid crystal indicator.

Seeing also Fig. 1, is a kind of liquid crystal indicator structural representation of prior art.This liquid crystal indicator 1 comprises that two relative transparent lower substrate 10 and upper substrate 20, liquid crystal layers 30 are distributed between this infrabasal plate 10 and the upper substrate 20.The inboard of this infrabasal plate 10 is provided with thin film transistor (TFT) 11, pixel electrode 12, memory capacitance bottom electrode 13, this thin film transistor (TFT) 11 comprises grid 14, source electrode 15, drain electrode 16, wherein this pixel electrode 12 links to each other with drain electrode 16, is provided with insulation course 17 between this memory capacitance bottom electrode 13 and the pixel electrode 12.The inboard of this upper substrate 20 is provided with colored filter 21, public electrode 22, this colored filter 21 comprises coloured part 24 and black matrix part 25, wherein the position of the thin film transistor (TFT) 11 of this black matrix" part 25 and infrabasal plate 10, memory capacitance bottom electrode 13 is corresponding, is incident to this thin film transistor (TFT) 11, memory capacitance bottom electrode 13 to prevent extraneous incident light.During this liquid crystal indicator 1 work, form memory capacitance between memory capacitance bottom electrode 13 and the pixel electrode 12, form electric field between pixel electrode 12 and the public electrode 22 to drive the liquid crystal molecule rotation to keep the voltage of pixel electrode 12.

Because this liquid crystal indicator 1 itself is not had a characteristics of luminescence, therefore need arranged outside one backlight arrangement (figure does not show) at liquid crystal indicator 1 infrabasal plate 10, the light incident liquid crystal layer 30 that backlight arrangement sends, rotation by the electric field driven liquid crystal molecule is to realize Presentation Function, but backlight arrangement is the device of a highly energy-consuming, its power consumption surpasses the power consumption of liquid crystal indicator 1 usually, and when this liquid crystal indicator 1 places the stronger environment of ambient light, the contrast of liquid crystal indicator 1 and relative brightness must reduce, therefore the display quality of this liquid crystal indicator 1 is affected by the external environment bigger, for contrast and the relative brightness that keeps liquid crystal indicator 1, then must improve the power of backlight arrangement, its power consumption also with increase.Simultaneously since memory capacitance bottom electrode 13 not as the viewing area, so the aperture opening ratio of this liquid crystal indicator 1 is low.

[utility model content]

In order to overcome the defective that the power consumption of prior art liquid crystal indicator is high, aperture opening ratio is low, the utility model provides a kind of liquid crystal indicator energy-conservation, that aperture opening ratio is high.

The utility model provides another kind of liquid crystal indicator energy-conservation, that aperture opening ratio is high again.

A kind of liquid crystal indicator of the present utility model, it comprises first substrate, second substrate, one liquid crystal layer, one pixel electrode, one public electrode, an one memory capacitance bottom electrode and a memory capacitance top electrode, this first substrate and second substrate are oppositely arranged, this liquid crystal layer is between this first substrate and second substrate, this pixel electrode is arranged between this first substrate and the liquid crystal layer, this public electrode is arranged between this second substrate and the liquid crystal layer, this memory capacitance bottom electrode and memory capacitance top electrode are arranged on this first substrate, and wherein this memory capacitance top electrode is a reflecting electrode.

Another kind of liquid crystal indicator of the present utility model, it comprises first substrate, second substrate, a liquid crystal layer, a transparent pixels electrode, a public electrode, a memory capacitance bottom electrode, this first substrate and second substrate are oppositely arranged, this liquid crystal layer is between this first substrate and second substrate, this pixel electrode is arranged between this first substrate and the liquid crystal layer, this public electrode is arranged between this second substrate and the liquid crystal layer, this memory capacitance bottom electrode is arranged on this first substrate, and wherein this memory capacitance bottom electrode is a reflecting electrode.

Compared with prior art, the memory capacitance top electrode or the memory capacitance bottom electrode of the utility model liquid crystal indicator are reflecting electrodes, it is used for reflection and shows, can be with ambient light reflected back liquid crystal layer, realize the reflection Presentation Function, this pixel electrode and public electrode are made by transparent indium tin oxide or indium zinc oxide, it is a penetrating type electrode, realization penetrates demonstration, therefore this liquid crystal indicator can be realized penetrating and reflect demonstration, in the stronger or weak environment of ambient light, use its demonstration contrast and relative brightness all higher, it can effectively utilize ambient light by this memory capacitance zone, therefore power that can corresponding reduction backlight arrangement is to reach purpose of energy saving.Because this memory capacitance bottom electrode is a reflecting electrode, be used for reflection and show, so this liquid crystal indicator aperture opening ratio is higher simultaneously.

[description of drawings]

Fig. 1 is the structural representation of prior art liquid crystal indicator.

Fig. 2 is the structural representation of the utility model liquid crystal indicator first embodiment.

Fig. 3 is the structural representation of the utility model liquid crystal indicator second embodiment.

Fig. 4 is the structural representation of the utility model liquid crystal indicator the 3rd embodiment.

Fig. 5 is the structural representation of the utility model liquid crystal indicator the 4th embodiment.

Fig. 6 is the structural representation of the utility model liquid crystal indicator the 5th embodiment.

[embodiment]

Seeing also Fig. 2, is the synoptic diagram of the utility model liquid crystal indicator first embodiment.This liquid crystal indicator 100 comprises that two relative transparent lower substrate 110 and upper substrate 120, a liquid crystal layer 130 are between this infrabasal plate 110 and upper substrate 120.The inboard of this infrabasal plate 110 is provided with thin film transistor (TFT) 111, pixel electrode 112, memory capacitance bottom electrode 113, memory capacitance top electrode 118.The inboard of this upper substrate 120 is provided with colored filter 121, public electrode 122.

This thin film transistor (TFT) 111 comprises grid 114, source electrode 115, drain electrode 116, wherein this pixel electrode 112 116 links to each other with drain electrode, and this pixel electrode 112 is made by transparent conductive material, as tin indium oxide (Indium Tin Oxide, ITO) or indium zinc oxide (Indium ZincOxide, IZO) etc.Be provided with insulation course 117 between this memory capacitance bottom electrode 113 and the pixel electrode 112, the size and location of this memory capacitance top electrode 118 are corresponding with the size and location of memory capacitance bottom electrode 113, and electrically connect with pixel electrode 112, its material is high reflectance conductive materials such as metallic aluminium, silver, neodymium aluminium alloy or yttrium aluminium alloy, and this memory capacitance top electrode 118 forms a memory capacitance zone with memory capacitance bottom electrode 113.This colored filter 121 comprises coloured part 124 and black matrix part 125, and wherein this black matrix" part 125 is corresponding with the position of the thin film transistor (TFT) 111 of infrabasal plate 110, is incident to this thin film transistor (TFT) 111 to prevent extraneous incident light.

During these liquid crystal indicator 100 work, electrically connect between this pixel electrode 112 and the memory capacitance top electrode 118, form memory capacitance between memory capacitance bottom electrode 113 and the memory capacitance top electrode 118, therefore can keep the voltage of pixel electrode 112, form electric field between pixel electrode 112 and the public electrode 122 to drive the rotation of liquid crystal molecule.

Because this memory capacitance top electrode 118 is by metallic aluminium, silver, high reflectance conductive materials such as neodymium aluminium alloy or yttrium aluminium alloy are made, it can serve as a reflecting electrode with ambient light reflected back liquid crystal layer 120, therefore realize in the memory capacitance zone that reflection shows, this pixel electrode 112 is made by transparent indium tin oxide or indium zinc oxide, it is a penetrating type electrode, the light that backlight arrangement (figure does not show) sends penetrates this public electrode 102 incident liquid crystal layers 120, realization penetrates demonstration, therefore this liquid crystal indicator 100 can be realized penetrating and reflect demonstration, in the stronger or weak environment of ambient light, use its demonstration contrast and relative brightness all higher, it can effectively utilize ambient light by this memory capacitance top electrode 118, therefore power that can corresponding reduction backlight arrangement is to reach purpose of energy saving.

And, the ambient light of can utilizing this memory capacitance top electrode 118 realizes that reflection shows, therefore reduce the area of the black matrix part 125 of colored filter 121, make the position of this black matrix" part 125 corresponding with the position of the thin film transistor (TFT) 111 of infrabasal plate 110, preventing that extraneous incident light is incident to this thin film transistor (TFT) 111, thereby increase the aperture opening ratio of liquid crystal indicator 100.

Seeing also Fig. 3, is the synoptic diagram of the utility model liquid crystal indicator second embodiment.This liquid crystal indicator 200 is roughly the same with liquid crystal indicator 100 structures, and the difference of itself and liquid crystal indicator 100 is: form memory capacitance between pixel electrode 212 and the memory capacitance bottom electrode 213, to keep the voltage of pixel electrode 212; One reflecting plate 218 is arranged on the pixel electrode 212, and its position and size are corresponding with the position and the size of memory capacitance bottom electrode 213.This reflecting plate 218 can be made by high reflectance conductive material or dielectric material, as metallic aluminium, silver, neodymium aluminium alloy, yttrium aluminium alloy or resin reflectance coating etc.The part of this pixel electrode 212 and reflecting plate 218 serve as the memory capacitance top electrode, and itself and memory capacitance bottom electrode 213 produce memory capacitance, and realize reflection demonstration effect.

Seeing also Fig. 4, is the synoptic diagram of the utility model liquid crystal indicator the 3rd embodiment.This liquid crystal indicator 300 is roughly the same with liquid crystal indicator 100 structures, the difference of itself and liquid crystal indicator 100 is: the part of transparent pixels electrode 312 is served as the memory capacitance top electrode, form memory capacitance between itself and the memory capacitance bottom electrode 313, to keep the voltage of pixel electrode 312.This memory capacitance bottom electrode 313 is made by the high reflectance conductive material, as metallic aluminium, silver, neodymium aluminium alloy or yttrium aluminium alloy etc.

Seeing also Fig. 5, is the synoptic diagram of the utility model liquid crystal indicator the 4th embodiment.This liquid crystal indicator 400 is roughly the same with liquid crystal indicator 300 structures, the difference of itself and liquid crystal indicator 300 is: this memory capacitance top electrode 418 is transparency electrodes, it is connected with transparent pixels electrode 412, and and memory capacitance bottom electrode 413 between form memory capacitance, to keep the voltage of pixel electrode 412.This memory capacitance bottom electrode 413 is made by the high reflectance conductive material, as metallic aluminium, silver, neodymium aluminium alloy or yttrium aluminium alloy etc.

Seeing also Fig. 6, is the synoptic diagram of the utility model liquid crystal indicator the 5th embodiment.This liquid crystal indicator 500 is roughly the same with liquid crystal indicator 100 structures, and the difference of itself and liquid crystal indicator 100 is: a plurality of projections 519 are set on memory capacitance top electrode 518 surfaces.This memory capacitance top electrode 518 is made by the high reflectance conductive material, as metallic aluminium, silver, neodymium aluminium alloy or yttrium aluminium alloy etc.The effect of these a plurality of projections 519 is: the evenly outgoing after 518 reflections of memory capacitance top electrode of extraneous incident light.

In the utility model second embodiment liquid crystal indicator, can on the pixel electrode 212 that the plate 218 that is reflected covers, a plurality of projections be set.In the 3rd embodiment, also a plurality of projections can be set on memory capacitance bottom electrode 313.In each embodiment of the utility model, can be in arranged outside one diffusion sheet of upper substrate to enlarge the visual angle of liquid crystal indicator.

In the utility model, the big I of area that penetrates viewing area and reflective display region territory is according to the different needs adjustment: liquid crystal indicator is generally used under the stronger environment of ambient light, and the area in reflective display region territory can be greater than the area that penetrates the viewing area; Liquid crystal indicator is generally used under the more weak environment of ambient light, and the area that penetrates the viewing area can be greater than the area in reflective display region territory; Certainly, the area that penetrates viewing area and reflective display region territory is also can size identical.

In the utility model, because memory capacitance top electrode, reflecting plate or memory capacitance bottom electrode can be with ambient light reflected back liquid crystal layers, therefore realize in the memory capacitance zone that reflection shows, this pixel electrode is made by transparent indium tin oxide or indium zinc oxide, it is a penetrating type electrode, realization penetrates demonstration, therefore this liquid crystal indicator can be realized penetrating and reflect demonstration, in the stronger or weak environment of ambient light, use its demonstration contrast and relative brightness all higher, it can effectively utilize ambient light, power that can corresponding reduction backlight arrangement reaches purpose of energy saving.Because this memory capacitance bottom electrode is a reflecting electrode, is used for reflection and shows simultaneously, so this liquid crystal indicator aperture opening ratio height.

Claims (7)

1. liquid crystal indicator, it comprises first substrate, second substrate, one liquid crystal layer, one pixel electrode, one public electrode, an one memory capacitance bottom electrode and a memory capacitance top electrode, this first substrate and second substrate are oppositely arranged, this liquid crystal layer is between this first substrate and second substrate, this pixel electrode is arranged between this first substrate and the liquid crystal layer, this public electrode is arranged between this second substrate and the liquid crystal layer, this memory capacitance bottom electrode and memory capacitance top electrode are arranged on this first substrate, it is characterized in that: this memory capacitance top electrode is a reflecting electrode.

2. liquid crystal indicator as claimed in claim 1 is characterized in that: this memory capacitance top electrode comprises transparency electrode and reflecting plate, and this reflecting plate covers this transparency electrode.

3. liquid crystal indicator as claimed in claim 1 is characterized in that: this memory capacitance upper electrode surface is provided with a plurality of projections.

4. liquid crystal indicator as claimed in claim 1 is characterized in that: arranged outside one diffusion sheet of this second substrate.

5. liquid crystal indicator, it comprises first substrate, second substrate, a liquid crystal layer, a transparent pixels electrode, a public electrode, a memory capacitance bottom electrode, this first substrate and second substrate are oppositely arranged, this liquid crystal layer is between this first substrate and second substrate, this transparent pixels electrode is arranged between this first substrate and the liquid crystal layer, this public electrode is arranged between this second substrate and the liquid crystal layer, this memory capacitance bottom electrode is arranged on this first substrate, it is characterized in that: this memory capacitance bottom electrode is a reflecting electrode.

6. liquid crystal indicator as claimed in claim 5 is characterized in that: this memory capacitance lower electrode surface is provided with a plurality of projections.

7. liquid crystal indicator as claimed in claim 5 is characterized in that: arranged outside one diffusion sheet of this second substrate.

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