CN2769947Y - Semi-penetration and semi-reflection liquid crystal display device - Google Patents

Abstract

The utility model relates to a semi-penetration and semi-reflection type liquid crystal display device which comprises an upper basal plate, a lower basal plate, a liquid crystal layer which is arranged between the upper and the lower basal plates, a first upper delaying sheet which is arranged between the upper basal plate and the liquid crystal layer and a lower delaying sheet which is arranged between the lower basal plate and the liquid crystal layer, wherein the liquid crystal layer comprises a penetration region and a reflection region, the thickness of the liquid crystal layer of the reflection region is less than the thickness of the liquid crystal layer of the penetration region and the liquid crystal layer is in an optical curved compensation structure.

Description

Semi-penetrating semi-reflecting type liquid crystal displaying device

[technical field]

The utility model is about a kind of liquid crystal indicator, especially about a kind of semi-penetrating semi-reflecting type liquid crystal displaying device.

[background technology]

Liquid crystal indicator is because of characteristics such as have low diathermaneity, volume is compact and power consumption is low, and is therefore day by day extensive in the use, and along with the ripe and innovation of correlation technique, its kind is also various day by day.

According to the difference of light source that liquid crystal indicator utilizes, can be divided into penetration liquid crystal display device and reflective LCD device.Penetration liquid crystal display device must be provided with a backlight at the display panels back side and show to realize image, and still, the power consumption of backlight accounts for half of whole penetration liquid crystal display device power consumption, so the power consumption of penetration liquid crystal display device is bigger.Reflective LCD device can solve the big problem of penetration liquid crystal display device power consumption, but is difficult to realize that image shows under the faint environment of light.Semi-penetrating semi-reflecting type liquid crystal displaying device can solve above problem.

See also Fig. 1, a kind of prior art semi-penetrating semi-reflecting type liquid crystal displaying device 1 comprises that two relative transparent lower substrate 11 and upper substrate 12, liquid crystal layers 13 are clipped between this infrabasal plate 11 and the upper substrate 12.One transparent common electrode 14 and an alignment film 18 are successively set on the inner surface of this upper substrate 12, on one on the retardation plate 122 and a Polarizer 121 be successively set on the outer surface of this upper substrate 12.One transparency electrode 17, a passivation layer 16, a reflecting electrode 15 and an alignment film 19 are successively set on the inner surface of this infrabasal plate 11, this passivation layer 16 and reflecting electrode 15 tools one opening 151.Once retardation plate 112 and once Polarizer 111 be successively set on the outer surface of this infrabasal plate 11.

Should go up retardation plate 122 is quarter-wave lengthy motion picture (λ/4) with following retardation plate 112, and alignment film 18,19 is horizontal direction matching (Homogeneous Alignment), and last Polarizer 121 is orthogonal with the polarization direction of following Polarizer 111.Reflecting electrode 15 is the metallic aluminium (Al) of high reflectance, the material of transparent common electrode 14 and transparency electrode 17 be transparent conductive material such as tin indium oxide (Indium Tin Oxide, ITO) or indium zinc oxide (Indium Zinc Oxide, IZO).Liquid crystal layer 13 has different thickness, and wherein the liquid crystal layer between transparent common electrode 14 and the reflecting electrode 15 13 is the echo area, and its thickness is d ₁₁, liquid crystal layer 13 is a penetrating region between transparent common electrode 14 and the transparency electrode 17, its thickness is d ₁₂, d ₁₂Be approximately d ₁₁Twice.

The optical delay of the liquid crystal layer 13 of reflector space is:

Δn·d ₁₁＝λ/4

Because d ₁₂Be approximately d ₁₁Twice, so the optical delay of the liquid crystal layer 13 of penetration region is:

Δn·d ₁₂＝λ/2

Wherein Δ n is the birefraction of liquid crystal layer 13, and λ is the wavelength of light.

See also Fig. 2, be the bright attitude of semi-penetrating semi-reflecting type liquid crystal displaying device and the Liquid Crystal Molecules Alignment synoptic diagram under the dark attitude.The liquid crystal molecule along continuous straight runs is not arranged when applying voltage, because the optical delay of the liquid crystal layer 13 of reflector space is λ/4, the optical delay of the liquid crystal layer 13 of penetration region is λ/2, so this semi-penetrating semi-reflecting type liquid crystal displaying device 1 is bright attitude.Liquid crystal molecule is arranged along the direction of vertical substrate 11,12 when applying voltage, and the optical delay of liquid crystal layer 13 is 0, so this semi-penetrating semi-reflecting type liquid crystal displaying device 1 is dark attitude.Can realize that by the voltage that applies different value different GTGs shows.

But, when applying voltage, owing to have grasp energy (Anchoring Energy) between alignment film 18,19 and near the liquid crystal molecule that is positioned at it, near the alignment film 18,19 liquid crystal molecule can not be arranged along the direction of vertical substrate 11,12 fully, and light is when this liquid crystal layer 13, owing in the echo area and the light path difference of penetrating region, have optical path difference, so the generation optical delay makes this semi-penetrating semi-reflecting type liquid crystal displaying device 1 have light leakage phenomena when dark attitude.See also Fig. 3, be the voltage of prior art semi-penetrating semi-reflecting type liquid crystal displaying device 1 and the curve map of penetrance, when voltage raise gradually (when reaching 5 volts), the penetrance of this semi-penetrating semi-reflecting type liquid crystal displaying device 1 is not 0, that is to say and to realize this moment complete deceiving, still there is part light to pass through, the forward contrast that influence shows, cause viewing angle characteristic poor, and, this kind LCD alignment mode response speed is slower, has residual image when promptly showing dynamic menu, causes display effect not good.

[utility model content]

In order to overcome the slow problem of response speed of LCD in the prior art, the utility model provides a kind of semi-penetrating semi-reflecting type liquid crystal displaying device with quick response.

The technical scheme that the utility model technical solution problem is adopted is: provide a kind of semi-penetrating semi-reflecting type liquid crystal displaying device to comprise that a upper substrate, an infrabasal plate, one are arranged on retardation plate and on first between this upper substrate and this liquid crystal layer at the liquid crystal layer, between this upper substrate and this infrabasal plate and are arranged on first time retardation plate between this infrabasal plate and liquid crystal layer, this liquid crystal layer comprises penetrating region and echo area, the thickness of the liquid crystal layer of this echo area is less than the thickness of this penetrating region liquid crystal layer, and this liquid crystal layer is an optics compensate for bend structure.

Semi-penetrating semi-reflecting type liquid crystal displaying device of the present utility model comprises that further one is arranged on the last Polarizer in the upper substrate outside, one is arranged on the following Polarizer in this infrabasal plate outside, and one is separately positioned on and reaches retardation plate and second time retardation plate on second between time Polarizer and the first time retardation plate on Polarizer and first between the retardation plate.

The utility model can further cooperate compensate film, and the position of this first upper and lower retardation plate, the second upper and lower retardation plate and compensate film can exchange mutually.

Compared to existing technology, the beneficial effects of the utility model are: the liquid crystal layer of this semi-penetrating semi-reflecting type liquid crystal displaying device is an optics compensate for bend structure, make this liquid crystal molecule under the effect of voltage, can rotate within a short period of time, improve the response speed of liquid crystal molecule, thereby improve the response characteristic of this semi-penetrating semi-reflecting type liquid crystal displaying device.Cooperate retardation plate on first and second, first and second down retardation plate and compensate film can be when applying voltage since liquid crystal molecule and the phase delay that not exclusively causes perpendicular to the substrate arrangement compensate, thereby the light leakage phenomena when reducing dark attitude, improve the contrast of this semi-penetrating semi-reflecting type liquid crystal displaying device, and cooperate different compensate films further to improve viewing angle characteristic.

[description of drawings]

Fig. 1 is the diagrammatic cross-section of prior art semi-penetrating semi-reflecting type liquid crystal displaying device.

Fig. 2 is the bright attitude of prior art semi-penetrating semi-reflecting type liquid crystal displaying device and the Liquid Crystal Molecules Alignment synoptic diagram under the dark attitude.

Fig. 3 is the penetrance and the driving voltage graph of relation of prior art semi-penetrating semi-reflecting type liquid crystal displaying device.

Fig. 4 is the diagrammatic cross-section of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device first embodiment.

Fig. 5 is the diagrammatic cross-section of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device second embodiment.

Fig. 6 is the diagrammatic cross-section of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 3rd embodiment.

Fig. 7 is the diagrammatic cross-section of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 4th embodiment.

Fig. 8 is the running synoptic diagram of the penetrating region of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 4th embodiment.

Fig. 9 is the running synoptic diagram of the echo area of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 4th embodiment.

Figure 10 is the diagrammatic cross-section of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 5th embodiment.

[embodiment]

Seeing also Fig. 4, is the structural representation of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device first embodiment.The utility model semi-penetrating semi-reflecting type liquid crystal displaying device 10 comprise a upper substrate 22, one and the infrabasal plate 21, that is oppositely arranged of upper substrate 22 be positioned at the liquid crystal layer 23 of 22,21 of this two substrates, this liquid crystal layer 23 comprises a plurality of eurymeric liquid crystal molecules (indicating).This liquid crystal layer comprises penetrating region and echo area, the thickness of the liquid crystal layer of this echo area is less than the thickness of this penetrating region liquid crystal layer, this liquid crystal layer is optics compensate for bend (Optical Compensation Bend, OCB) structure, the tilt angle of the liquid crystal molecule of this liquid crystal layer 23 be 0 degree to 15 degree, make the easier rotation of liquid crystal molecule.

The outer surface of this upper substrate 22 sets gradually on one first on the retardation plate 521, one second Polarizer 32 on the retardation plate 522 and.The inner surface of this upper substrate 22 sets gradually alignment film 42 on a public electrode 221 and.This public electrode 221 is a transparent conductive material, as tin indium oxide or indium zinc oxide.

The outer surface of this infrabasal plate 21 sets gradually one first time retardation plate 511, one second time retardation plate 512 and Polarizer 31 once.Through electrode 46 and reflecting electrode 45 are arranged at the inboard of this infrabasal plate 21, constitute pixel electrode together, when applying voltage, 221 of pixel electrode and this public electrodes produce one perpendicular to the deflection with the control liquid crystal molecule of the electric field of substrate 22,21, realize that image shows.This through electrode 46 is a transparent conductive material, and as tin indium oxide, this reflecting electrode 45 is for having the metal material of high reflectance, as aluminium.One passivation layer 25 further is set between this reflecting electrode 45 and this infrabasal plate 21, makes the thickness of liquid crystal layer of this echo area less than the thickness of this penetrating region liquid crystal layer.

This pixel electrode, public electrode 221 and the liquid crystal layer 23 that is positioned at wherein constitute a pixel region.With reflecting electrode 45 pairing pixel regions be reflector space, with through electrode 46 pairing pixel regions be penetration region.The liquid crystal layer 23 that external environment light passes through penetrating region by liquid crystal layer 23 backs of penetrating region once more by the reflex of reflecting electrode 45 realizes that image shows.

This on first retardation plate 521 and first time retardation plate 511 be quarter-wave lengthy motion picture (λ/4), this on second retardation plate 522 and second time retardation plate 512 be half-wave plate (λ/2).

The optical axis of this retardation plate 522 on second and polarization axle tool one angle theta of last Polarizer 32 ₁, then the angle of the polarization axle of the optical axis of this retardation plate 521 on first and last Polarizer 32 is 2 θ ₁± 45 °.Polarization axle tool one angle theta of the optical axis of this second time retardation plate 512 and this time Polarizer 31 ₂, the optical axis of this first time retardation plate 511 is 2 θ with the angle of the polarization axle of following Polarizer 31 ₂± 45 °.

θ ₁Between 8 °～22 ° or 68 °～82 °, θ ₂Between 8 °～22 ° or 68 °～82 °.Work as θ ₁=θ ₂The time, the polarization axle of last Polarizer 32 is vertical with the polarization axle of following Polarizer 31, and the optical axis of retardation plate 521 is vertical with the optical axis of first time retardation plate 511 on first, and the optical axis of retardation plate 522 is vertical with the optical axis of second time retardation plate 512 on second.

Seeing also Fig. 5, is the structural representation of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device second embodiment.The difference of the present embodiment and first embodiment is: present embodiment further is provided with compensate film 621 on, and compensate film 621 is arranged on this on first between retardation plate 521 and this upper substrate 22 on this.

Seeing also Fig. 6, is the structural representation of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 3rd embodiment.The difference of the present embodiment and first embodiment is: present embodiment further is provided with compensate film 611, and this time compensate film 611 is arranged between this first time retardation plate 511 and this infrabasal plate 21.

Seeing also Fig. 7, is the structural representation of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 4th embodiment.The difference of the present embodiment and first embodiment is: present embodiment further is respectively arranged with on one compensate film 622 and compensate film 612 once, should go up compensate film 622 and be arranged on this on first between retardation plate 521 and this upper substrate 22, this time compensate film 612 is arranged between this first time retardation plate 511 and this infrabasal plate 21.Compensate film 612 was the disklike molecule film under upward compensate film 622 reached.

Seeing also Fig. 8, is the penetrating region running synoptic diagram of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 4th embodiment.When not applying voltage, external ambient light is transformed into the polarization direction linearly polarized light parallel with the polarization axle of last Polarizer 32 through behind the last Polarizer 32, wavelength is that the linearly polarized light of 550nm turns over 2 θ angles by retardation plate (half-wave plate) 522 rear polarizer directions on second, still is linearly polarized light.The optical axis of retardation plate 521 (quarter-wave lengthy motion picture) becomes 2 θ+45 ° angle with the polarization axle of last Polarizer 32 on the cause first, therefore change circularly polarized light behind the retardation plate 521 from the linearly polarized light of 522 outgoing of retardation plate on second on by first, the elliptically polarized light of other wavelength also changes circularly polarized light into, so the linearly polarized light of nearly all wavelength is by all changing circularly polarized light into behind the retardation plate 522 on the retardation plate 521 and second on first.The liquid crystal molecule along continuous straight runs of liquid crystal layer 23 is not arranged when applying voltage, last compensate film 622 is λ/4 with the optical delay summation of penetrating region liquid crystal layer 23, circularly polarized light is reflected also once more process liquid crystal layer 23 and is gone up compensate film 622 by reflecting electrode 45 by last compensate film 622 and liquid crystal layer 23 backs, circularly polarized light reaches the optical effect of going up compensate film 622 by liquid crystal layer 23 twice and is equivalent to 1/2nd wavelength plates, so circularly polarized light changes the opposite circularly polarized light of sense of rotation into by liquid crystal layer 23 and after going up compensate film 622.

The optical axis that this circularly polarized light is transformed into retardation plate 522 on the polarization direction and second after by retardation plate 521 on first becomes the linearly polarized light at θ angle, this linearly polarized light turns over 2 θ angles clockwise through retardation plate 522 rear polarizer directions on second, parallel with the polarization axis direction of last Polarizer 32 and can be by going up Polarizer 32, this moment, this semi-penetrating semi-reflecting type liquid crystal displaying device shows bright attitude.

When applying voltage, the operation that external ambient light enters after by last Polarizer 32 before the liquid crystal layer 23 is consistent when not applying voltage.When applying voltage, the liquid crystal molecule edge is perpendicular to substrate 22,21 direction is arranged, residual phase near substrate postpones by last compensate film 622 compensation, making the liquid crystal layer 23 and the phase delay of last compensate film 622 summations is zero, circularly polarized light is reflected also once more process liquid crystal layer 23 and is gone up compensate film 622 rear polarizer states by reflecting electrode 45 by liquid crystal layer 23 backs and do not change, this circularly polarized light changes linearly polarized light into after by retardation plate 521 on first, the optical axis of retardation plate 521 angle at 45 on the polarization direction of this linearly polarized light and first, with second on the optical axis of retardation plate 522 become 90 °+θ degree angle.This linearly polarized light by retardation plate 522 on second after, polarization direction Rotate 180 °+2 θ degree angles, vertical with the polarization axle of last Polarizer 32, so light can not pass through last Polarizer 32, this semi-penetrating semi-reflecting type liquid crystal displaying device shows dark attitude.

Seeing also Fig. 9, is the echo area running synoptic diagram of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 4th embodiment.Because the linearly polarized light tool compensating action of 512 pairs of incidents of second time retardation plate, so most of visible light changes circularly polarized light into during by first time retardation plate 511, effectively improves the utilization factor of light.Last compensate film, down compensate film 622,612 can be when applying voltage liquid crystal molecule and not exclusively arrange and the phase delay that causes compensates perpendicular to substrate 22,21, thereby the light leakage phenomena when reducing dark attitude improves the contrast and the viewing angle characteristic of this semi-penetrating semi-reflecting type liquid crystal displaying device.This time compensate film 612 and last compensate film 622 also can compensate contrast and the aberration under the different visual angles, improve the viewing angle characteristic of this semi-penetrating semi-reflecting type liquid crystal displaying device.

In the embodiment of the present utility model, on this on compensate film 622, first on the retardation plate 521 and second retardation plate 522 positions commutative, same, this time compensate film 612, first time retardation plate 511 and second time retardation plate 521 position also can exchange.

Because the linearly polarized light tool compensating action of 512 pairs of incidents of second time retardation plate, so most of visible light changes circularly polarized light into during by first time retardation plate 511, effectively improves the utilization factor of light.

The liquid crystal layer of semi-penetrating semi-reflecting type liquid crystal displaying device of the present utility model is set to optics compensate for bend structure, make this liquid crystal molecule under the effect of voltage, can rotate within a short period of time, improve the response speed of liquid crystal molecule, thereby improve the response characteristic of this semi-penetrating semi-reflecting type liquid crystal displaying device.Cooperate retardation plate on first and second, first and second down retardation plate and compensate film can be when applying voltage since liquid crystal molecule and the phase delay that not exclusively causes perpendicular to the substrate arrangement compensate, thereby the light leakage phenomena when reducing dark attitude, improve the contrast of this semi-penetrating semi-reflecting type liquid crystal displaying device, and cooperate different compensate films further to improve the visual angle.

Seeing also Figure 10, is the structural representation of the utility model semi-penetrating semi-reflecting type liquid crystal displaying device the 5th embodiment.The present embodiment and the first enforcement side to the difference of the 4th embodiment is: have retardation plate 511 in the present embodiment one first time, this first time retardation plate 511 is a quarter-wave lengthy motion picture (λ/4), have retardation plate 512 on one first, this on first retardation plate 512 be a quarter-wave lengthy motion picture (λ/4).

Claims (9)

1. semi-penetrating semi-reflecting type liquid crystal displaying device, it comprises: a upper substrate, an infrabasal plate, one are arranged on retardation plate and on first between this upper substrate and this liquid crystal layer at the liquid crystal layer, between this upper substrate and this infrabasal plate and are arranged on first time retardation plate between this infrabasal plate and liquid crystal layer, this liquid crystal layer comprises penetrating region and echo area, the thickness of the liquid crystal layer of this echo area is characterized in that less than the thickness of this penetrating region liquid crystal layer: this liquid crystal layer is an optics compensate for bend structure.

2. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 1 is characterized in that: the liquid crystal molecule tilt angle of this liquid crystal layer is that 0 degree is to 15 degree.

3. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 2 is characterized in that: this on first retardation plate be the quarter-wave lengthy motion picture, this first time retardation plate is the quarter-wave lengthy motion picture.

4. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 3, it is characterized in that: further comprise one be arranged on this on first the retardation plate outside second on retardation plate, it is 1/2nd wavelength, one is arranged on second time retardation plate in this first time retardation plate outside, and it is a half-wave plate.

5. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 2 is characterized in that: comprise that further one is arranged on this last compensate film between retardation plate and this upper substrate on first.

6. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 2, it comprises that further one is arranged on the following compensate film between this first time retardation plate and this infrabasal plate.

7. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 2 is characterized in that: comprise that further one is arranged on the last Polarizer in the retardation plate outside on first, one is arranged on the following Polarizer in this first time retardation plate outside.

8. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 7 is characterized in that: the optical axis of this retardation plate on second and polarization axle tool one angle theta of last Polarizer ₁, the angle of the optical axis of this retardation plate on first and the polarization axle of last Polarizer is 2 θ ₁± 45 °.

9. semi-penetrating semi-reflecting type liquid crystal displaying device according to claim 7 is characterized in that: polarization axle tool one angle theta of the optical axis of this second time retardation plate and this time Polarizer ₂, the optical axis of this first time retardation plate is 2 θ with the angle of the polarization axle of following Polarizer ₂± 45 °.

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