TW294792B - - Google Patents

Description

A7 B7 Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of the invention (1) 1 1 a) Field of invention 1 1 I The present invention relates to a liquid crystal advisory lattice and its production method 9 In particular, a 1 1 liquid crystal display lattice Μ and a method of making it possible to change the angle of view. 0 / &lt; -S. Please 1 1 b) Read the technical description of the phase 1 1 Back 1 Borrow Sj in the liquid crystal lattice of the liquid crystal display or the liquid crystal lattice of the liquid crystal display Part 1 Some external operations m »For example, the electric field 9 can change the special orientation of the liquid crystal molecules. Note 1 event 1 state to a different state. The optical term caused by the change in the orientation of the liquid crystal molecules. 1 I. The property change is used as the visual in the display. Change 〇 Normally, the positive side of the liquid crystal 1 is located in a special state where the crystal molecules are located in a special state and the liquid crystal layer sandwiches the glass substrate sheet S_ ^ 1 1 Bit processing 〇1 I In the traditional diversion type liquid crystal lattice κ cotton cloth etc. in one direction 1 1 9 by rubbing the liquid crystal interlayer against the glass substrate Η (on the surface of the electric pole 1 azimuth layer etc. to complete the orientation The process is the so-called rubbing process. 1 When the rubbing process is completed on the substrate H, the rubbing direction is arranged such that the rubbing directions of the upper and lower substrates 1 I are perpendicular to each other. When the liquid crystal lattice is a negative display type, flat 1 | The row polarizer is configured to rub One of the directions is parallel to the optical axis 1 1 of the phase polarizer. If it is a positive display, the crossed sugar optical device is configured such that the polarizing axis is parallel to the phase line I and the rubbing direction of the adjacent base 〇1 1 The orientation of the liquid crystal molecules 1 1 becomes even when the substrate surface is aligned. So when the viewer looks at the display, 1 I 9 is The viewing angle dependence of the display can be easily viewed only from a limited range of 1 1. I I can refer to the beauty of the September 1 993 in terms of the viewing angle dependence of the indicator. 1 1 Patent Application SN 08/11 544 1; 1 February 4th, 994 application 1 1 I -3-1 1 1 This paper size applies to China National Standard Falcon (CNS) A4 specification (2 丨 OX297mm) A7 B7 Central Ministry of Economic Affairs Printed by the Bureau of Standards and Staff Consumer Cooperative V. Description of inventions (2) 1 1 SK 08/1 9 1554; and February 1, 1994, 4 Β A application SH 08/1 9 1 6 3 6 〇1 1 I * Friction may generate static charge 9 which may cause dielectric breakdown of the azimuth film 1 1 body breakdown or insufficient orientation of the liquid crystal molecules between them »so t causes display first 1 1 defect 〇 in the liquid crystal lattice using active (drive) matrix» Friction produces a charge of 1 m 1 It may cause the driving element or the winding formed on it to break. A large number of fine particles generated by the friction treatment may adhere by electrostatic force. Attention 1 Matter 1 On the substrate and it becomes the liquid crystal lattice incorrectly glare and / or display The reason for the black dot item is 1 I and the white dot defect. Fill out this 1 pack 1 Summary page of the invention S_ ^ 1 I The § of the present invention provides a liquid crystal display lattice and its manufacturing method is not 1 1 can only be exempted from the friction treatment The viewing angle dependence and other product defects 1 1 Sources such as display defect lattice breakage, etc .; and also provide a uniform viewing angle 1 fixed angle characteristics and high-quality display. 1 The inventor of the plan has planned a multi-domain LCD device. 1 I Display unit with many differential domains 〇 Recognizable in each differential domain The orientation of the molecules of the liquid crystal 1 I is uniform. However, the orientation is 1 1 that varies with each differential domain. This orientation can be obtained by removing the orientation. 0 line I. According to one form of the present invention, a liquid crystal display lattice includes a 1 1 pair of substrates: an asymmetric nematic liquid crystal layer or a nematic liquid crystal layer sandwiched between the pair of 1 1 substrates. An optical polarizing memory film forms a positive orientation structure on at least 1 I of the pair of substrates. Many micro-orientations with different orientations 1 1 subdomain 〇1 I According to another form of the present invention also provides a liquid crystal display lattice device 1 1 with a similar structure 9 Μ as described above and 1 1 on at least one of the pair of substrates | -4-1 1 1 This paper scale is applicable to China National Standard (CNS & A4 specification (210X297mm) 204792 at _B7 V. Invention description (3) Ministry of Economic Affairs Central Falcon Bureau I Work Consumers Fei cooperated to print the base of electricity, and the liquid surface on the selective rubbing structure shows the micro-domain 1 at the junction of the structure to show the @ 分之 合 结, such as the crystal of the base lattice example. In the four withdrawals, the position of the crystal shows the direction of the real lattice liquid, and the liquid is less adjacent to the upper homogeneity. It means that the lattice takes a crystal and enters the next to the positive. Actual M. The display of the crystal position shows a few bases in the group. It is obvious that there is a domain in the direction of the crystal, and it is suitable for taking the content of the crystal material of the PolyU liquid display. The crystal is placed at the place of the square. Evidence. The four W crystal poles in the liquid area are divided into one H. Examples are shown in the table below. When the plaque is displayed at 18, it is the cause of the amount of crystal t. Example Legend H, one bit each. Or Jing Yili's son. Ming Ming Shi Shi Shi Fang Ming Shi Moderate degree of liquid system has a separate system for taking hair, one through one, one through one for hair, which takes 90 kinds and controlled as crystal site cost. On top of this, the original is clear, and the position is one. The square of the M liquid is set according to the state, and the square is made according to the state. Root-like roots. Hair dress hair. The basic structure of the foundation is the same as that of the one-domain domain of the knot section. This picture is based on the picture. This picture is based on the position of the other, and the position is divided between the 1F at the 2B surface. Xiangming Fang cuts its subtle character to the sum, and the roots are cut into roots and crystals. For this purpose, a small amount of special students are given. 1Α To 2Α, 3 places, 4 places, 5 shows, 6A, 7 kinds of other places. To the medium and large angle production drawing, take the sketch map and display the square pattern. The square piece of the group is extremely different depending on the position of the map. The order is ---------------- line (please read the precautions on the back and then fill out this page) This paper size is suitable for China National Standard (CNS) Α4 specifications (210Χ297mm) 9V ^ 'r about a7 ... .-.-· --- 7 V. Description of the invention (4) The cross-sectional view of the lattice in the lattice. 8A and 8B are enlarged plan views showing an example of the state of azimuthal orientation processing in a substrate according to an example of the present invention. 9A to 9E are enlarged plan views showing an example of the state of azimuthal orientation processing in a substrate provided with a cut-off portion in a pixel electrode portion according to an example of the present invention. Fig. 10 is an enlarged section showing an example of a skewed electric field generated by the cut-off area, wherein the cut-off area is provided in the pixel electrode portion according to the example of the present invention. Figs. 11A to 11C are enlarged plan views showing the substrate according to the example of the present invention. An example of the state of middle orientation processing. The same reference symbols indicate the same components. Explanation of the symbols on the drawing: 1,1a: clear sub-area 2: glass substrate 3: glass substrate 4: transparent electrode 5, 5a, 5b: polarized light-recording film 6: liquid crystal material printed by the employee consumer cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs (Please read the precautions on the back before filling in this page) 7: Drive element 8: Pixel electrode 9: Laser oscillator 10, 10a, 10b: Optical system 1 1: Polarizer 1 2: Linearly polarized laser light 1 3: Transparent glass base Η This paper scale is applicable to the Chinese National Standard (CNS) Α4 specification (210Χ297mm) Printed by the Consumer Standardization Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs A7 ...... ΓΛ: ”一 Β7 V. Description of invention (4 ') 14: mobile station X. Υ. X. Y two-dimensional space 15: rectangular withdrawal sub-domain 16: mask 17, 18: polarizer d: thickness P: asymmetric pitch 19: injection port 2Θ: liquid crystal Molecule 21: Liquid crystal container 11 '23 Heating device 30: Pixel area 31, 32 9 33 i 34 51, 52, 53, 5 4: Squarely divided 35: Vertical boundary 36: Horizontal boundary 40, 50 t 60 9 70 80: Single pixel area 41, 42 9 43 I 44 &lt; 45, 46, 47, 48, 56, 57, 6 1 ~ 6 8 7 1 ~ 74 1 81 84 Fully divided field 55: electrode cut 58: slit-shaped electrode cut I ---------- 袈-(please read the precautions on the back before filling this page) This paper size Applicable to the Chinese National Standard (CNS) Λ4 specification (210X 297mm) V. Description of the invention (4 &quot;) A7 B7 The description of the preferred specific examples will be described with reference to the figures. Kan ’s position sequence can be applied before, _ file On September 14th, 1994, M 1 994, here, Satoshi and Fig. 1A to 1F are enlarged plan views. The arrow-based H surface is mentioned in each differential domain and is oriented in the positive direction. As a molecular orientation. However, the basic configuration and basic programming techniques of a liquid crystal display according to an example of the present invention and a liquid crystal display outside its structure will be described. Reference may be made to US Patent Application No. 08/1 1 544 1st, 1993; No. 08/19 1 554, filed in February and No. 08/1 9 1 636, filed on February 4th, reference. The azimuth orientation of the liquid crystal molecules on the head surface according to the azimuth state of the substrate according to the example of the present invention. Provides many differential domains 1 that constitute the smallest unit of pixels. The liquid crystal molecules adjacent to the base Η are essentially processed in a slant direction to align or direct the liquid crystal in each differential domain. Overall, the sister of the differential domain on the surface of the substrate (please read the precautions on the back before filling this page) The paper size printed by the Beigong Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs is applicable to the Chinese National Standard (CNS) Α4 specifications (210 X 297 mm) 204792 A7 B7 Printed by the Beige Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of invention (5 ) The azimuth orientation of the 1 1 piece is configured to effectively direct the liquid crystal molecules along each direction of the substrate plane 1 1 I. Macroscopic view> The substrate surface can then be considered to be isotropic or random. There is no need to have a large number of azimuth orientations with substantial isotropy ^ &gt; Please 1 1 characteristic 〇 e.g. 9 Many directions can be regarded as random azimuth Μ Substantially achieved etc. Read 1 Back 1 directional orientation ○ Substantial equivalence Orientation &quot; Orientation is one-way with prior technology The 1 position is compared. 1 The size of each differential domain 1 is designed as a unit pixel with a sufficiently large number of terms and the differential domain of 1 I. For example, 9 can be designed to fill in a 1 00 X 300 U Β 2 area This 1 pack 1 unit pixel of typical size contains tens of differential domains 0 Μ Phase page V --- f 1 I The differential domain of the same area fills a wide area of pixels t The shape of each differential domain 1 1 It is better to be as shown in Igt Figure 1 A-side shape t as shown in Figure 1B rectangle t as shown in Figure 1 1 1 1 C square 9 as shown in Figure 1D parallel four Jin shape 1 as shown in Figure 1E The diamonds specified by 1 ◆ Triangles as shown in Figure 1F »or the like 0 1 As shown in plaques 1 A to 1F, one of the substrate manufacturing methods with azimuth devices utilizes a 1 1 optical polarizing memory film 〇1 | _ 2 A and 2B are cut planes. FIG. 9 shows an example according to the present invention. The structure of the crystal lattice 1 1 〇 The glass substrate with a thin film transistor (TFT) drive element 7 3 lines I and IBfl pixel electrode 8 and the other glass with an ordinary transparent electrode (ordinary electrode) 4 1 1 glass substrate 2 Face-to-face is held together y and the liquid crystal layer is sandwiched. 6 Figure 1 1 2 A shows an example of a liquid crystal display lattice with a positive orientation device &gt; where the 1 | device consists of only one of them-the glass substrate Η The optical memory film 5 is formed 1 1. In the figure, the memory film 5 is coated on the common electrode 4. In order to obtain a flatter I. The bottom layer 4 is advantageous to use the common electrode base H. FIG. 2B table has a positive square 1 1 bit An example of a liquid crystal display lattice of the device »Where the device consists of two glasses 1 1 I -7-1 1 1 This paper scale is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) A7 B7 Ministry of Economic Affairs Central Standards Bureau Printed by the industrial and consumer cooperatives 5. Instructions for inventions (6) 1 1 The optically polarized memory films 5 a and 5 b on the substrate form the orientation on the two substrates 1 1 1 The structure will make the orientation of the liquid crystal molecules easier and more stable. The device of shape 1 1 will be described below. Base Η Provides azimuth device for the use of optical bias 4r. 1 1 Differential domains of optical memory m 〇W Reading 1 Back 1 First * Optical polarizing memory film 5 is coated on one of the liquid crystal lattice-* or the surface 1 is transparent Glass substrate Η of 2 and 3-. On the side 〇 indicates contact with the liquid crystal ί 1 event 1 material 6 of the substrate __ · side 〇 optical polarization memory m 5 items on the memory film and then 1 I polarization direction y when When it is shot by a polarized light beam with a special wavelength, it is filled in with the optical deviation. 1 1 Optical memory film 5 The orientation of the liquid crystal material 6 that is connected to the direction is along the page V_✓ 1 I Remember on the film 5 Polarization direction memory can also give liquid crystal molecules a 1 1 I block mask. The optical memory film can be formed by the following: 1 Order 1) Silicon polyimide doped with diazide dye (for example, see Wei Engibo 1 Sun et al. Human Volume 35 1 (1991), Ρ 49) 1 I 2) Polyethylene alcohol doped with nitrogen as the main dye (for example, see Japan APPL 1 • PH YS • f 32 volume, 1 993, Ρ Ρ L93-L93) Μ and 1 1 3) photopolymer (for example, see Martin Schrodt et al., Japan, APPL. Line I PH YS • 9 31 volume, 1 992, Ρ Ρ 21 55-2164) 1 etc. 〇Here also join 1 1 Refer to some documents 〇1 1 m will describe the azimuth processing device of the optical polarizing memory film 〇1 I Figure 3 Table M Differential domain form to complete the azimuth processing device «where the differential 1 1 domain is located on the base The optical polarized memory of the film % System 10 (for example, 1 I contains an aperture and lens of a predetermined shape) covers the laser light from the laser oscillator 9 oscillating 1 1. The optical system 10 is more ~ 8 has the function of depolarizing the laser light. 0 1 1 1 1 1 1 This paper scale is applicable to China National Standard (CNS) A4 specification (210X297mm) A7 B7 Printed by the Central Consumer ’s Bureau of the Ministry of Economic Affairs Employee Consumer Cooperative V. Invention description (7) 1 1 Gwangtong 10 The laser beam is converted into a laser beam spot of a predetermined size and shape 1 1 I 〇 Polarizer 11 converts the laser beam into a linearly polarized laser beam 〇1 1 linearly polarized laser beam 12 on the surface of the transparent glass substrate H 1 3 Please 1 1 learn the polarized memory film to be irradiated into a beam point. The beam point is equal to each split. Read 1 back 1 field. The optical tin light memory film differentiated by the laser light. The differential field memory the polarization direction of the laser light. 1 Note 1Matter 1 The glass substrate Η 13 is placed in __. The shift term moving in the two-dimensional space X and Υ direction 1 again | moving table 1 4 〇 combined with the movement of the mobile station 14 9 laser scanning base Η not filled in 1 same The point 〇 by rotating the polarizer 11 around the optical axis to change the laser beam page '-^ 1 I polarization direction 〇 by simultaneously performing Μ up scanning and rotating operation Μ and through the use of 1 I light device to shoot laser pulses To the thin side »The side that changes with each differential domain 1 1 The orientation is memorized on the optical polarizing memory film. In this case« It is best to control the angular velocity of the polarizing plate 11 and the direction of rotation 1 direction * and the moving stage at the same time The direction and moving speed of 14 make 1 in total 1 | It is believed that many differential domains 1 have a random azimuth orientation in essence. For example, t 1st | After each nth differential domain skin can be exposed in one scan In the next 1 1 scan, you can expose different ones-the nth differential domain 9 and so on. After multiple line I exposure scans, you can expose all sub-domains. Alternately, you can set the number of 1 or 1 sub-domains. The rotation of the angle of the polarization direction makes S2 have a non-individual ratio of 1 1 at 360 degrees. The base Η can also remain stationary. With the help of optical systems such as the use of polygon mirrors 1 I, the laser beam can be scanned on the surface of the substrate. 0 1 1 Figure 4 shows another example according to the invention &gt; an enlarged plan view of the 1 I bit configuration on the surface of the base H surface nan according to the example »The azimuth layer cannot be regarded as &gt; recognize 1 1 as the azimuth of the adjacent differential domain is Random * but then the rectangular differential 1 1 I -9-1 1 1 This paper scale is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) A7 B7 Printed by the Consumer Labor Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs V. Description of Invention (8) 1 1 The azimuth orientation of the domain 15 9 is gradually (or even Burma) changed as shown by the arrow in m. 1 1 I changes. In this process, a half circle (rotation 1 1 rotation) of polarized light can occur in a small enough area Direction 〇 / · -N Please 1 1 The azimuth processing as shown in Nai 4 can be performed as follows. Corresponding to the reading of the differential domain 1 5 1 Back 1 The rectangular narrow is located in the light system as shown in IBfl Brain 3 »The polarizer 11 Fixed rotation at a very low speed of Λ 1 The laser beam of polarized light 12M pulse illuminate 1 incident 1 incident on a substrate that continuously moves K to change the irradiation position 0 items and then 1 I The system shown in Figure 3 in each differential domain Perform the laser beam spot irradiation to fill in this 1 AI. This step-by-step exposure will take time to illuminate the entire m area page of the base Η ', 1 I domain 〇 circle 5 m explanation as shown in Figure 1 A to 1F Azimuth processing device or 1 1 as shown in IBFI 4 on a relatively wide optical memory film area for faster 1 1 azimuth processing device 〇1 subscribed optical system 10 a expansion laser source 9 laser light output generation Pre-defined beam of a predetermined diameter. Then the expanded laser beam is transmitted through the mask 16 1 | Wheel Ο The mask 16 is a mask> and is a m light with many polarizer differential domains 1 1 1 a * The polarized laser light corresponding to any one of 9 rgl _ 1 A to 1 F 9 1 1 and having a random direction of polarization as shown in FIGS. 1 A to 1F. Line I transmitted through the mask 16 is polarized by another The optical system 10b focuses 1 1 Μ to form an image on the optical polarizing memory m on the glass substrate 1 3. Such 1 1 laser light in various polarization directions can simultaneously illuminate many differential domains. 1 1 I can be one or two Azimuth processing is performed on the chip. When the azimuth processing is performed on the optical 1 1 polarized memory film of the two substrates, one of them should be adjusted or registered. 1 I The polarization direction of each differential domain of the substrate is turned on the other substrate. 90 degrees 〇1 I do not need to adjust the type when only one of the substrates is processed for orientation. After the paper 1 1 | -1 0- 1 1 1 The paper size is applicable to the Chinese National Standard (CNS) A4 said grid (210X297 Mm) A7 2Q4792 B7 Fifth, the description of the invention (9) People may have their interests in industry. The two substrate κ gap control devices, such as quartz balls or rods, that have completed the azimuth processing are lost in between, and are placed face-to-face. Fig. 6A shows a liquid crystal display lattice structure according to an example. In this structure, a pair of glass substrates H2 and 3 are arranged face-to-face and sandwich a liquid crystal layer 6 of thickness d. A pair of polarizers 17 and 18 sandwich the glass substrates H2 and 3 between them. The thickness d of the liquid crystal layer is equal to the gap between the two glass substrates. The asymmetrical pitch P shown in FIG. 6B is the distance required for the liquid crystal material to twist 360 degrees. It is better to design the thickness d of the liquid crystal layer to satisfy the condition defined by the following formula (1), and more preferably to satisfy the condition defined by another formula (2): nearly 0 &lt; d / p <nearly 0.75 ----- ----- (1) 0.15 &lt; d / p &lt; 0.75 ---------- (2) For example, if an asymmetric nematic liquid crystal is used as a liquid crystal material, the formula (2) is satisfied Under the conditions, the liquid crystal has a polarization rotation angle from approximately 54 degrees to approximately 270 degrees. The condition defined by d / p = 0.25 is equal to 90 degrees of polarization rotation. Fig. 7 shows the steps of injecting the liquid crystal material into the liquid crystal lattice in a cross-sectional view. When the liquid crystal material is injected, the M heating devices 22 and 23, such as heaters, heat the liquid crystal material 6 from both sides. Set the temperature for heating the liquid crystal material to be equal to or higher than the phase transition temperature (N-I point) between the nematic phase and the isotropic phase of the liquid crystal material. In order to control the temperature of the liquid crystal, a temperature control technology can be used. That is, the amount of current is adjusted in the heating devices 22 and 23, and the temperature detector -11 inserted at the same time-This paper scale is applicable to the Chinese National Standard (CNS) Α4 specification (210Χ297 Mm) --------- ^ ------ lsτ ------ ^ (please read the notes on the back before filling in this page) Printed A7 B7 Printed by the Consumer Labor Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of the invention (10) 1 1 Monitor the temperature in the liquid crystal material 〇 The temperature can be controlled manually or in vain 1 1 I Heated liquid crystal 6 From injection Port 19 is injected into the gap between the bases H 1 1 2 and 3 by capillary phenomenon. Under this condition, the liquid crystal molecules 20 are isotropic without / -V. Please first 1 1 is caused by a certain __. Orientation 〇 Here «can be used Any reading of the injection of liquid crystal material 6 1 back 1 other devices »such as vacuum suction 〇ij of 1 after injection of liquid crystal material 9 borrow The heating power Ϊ of the low heating devices 22 and 23 is 1 I, which can gradually cool the material 6 〇Control the cooling rate and lower the temperature in the range of 0.1-1 0 to 1 I / min, for example, 0.5 V / min, At this rate, gradually fill the temperature into this book 1 and install it to the phase transition temperature (N -I point). F Liquid crystal material 6 Change its phase page 1 | From the original isotropy to nematicity 〇1 1 Here 9 when injected In the case of liquid crystals »It is best to keep the liquid crystal temperature equal to or higher than 1 1 nematic (N) phase and isotropic phase transition temperature between phases or liquid 1 N-I point of the crystal. Η Keep the liquid crystal in isotropic phase 〇After injection »The liquid crystal temperature gradually drops below the N-I point to bring the liquid crystal into the liquid crystal phase 0 This procedure will 1 1 make the display of the synthesized liquid crystal lattice better than the injected liquid crystal in the liquid crystal phase. LCD Moon * J * It is best to keep the substrate temperature The degree is equal to or higher than 1 1 at point H-I to inject liquid crystal between the substrates. Then the temperature of the base H can gradually decrease below the point I-N. Using this device will further strengthen the synthesis of the liquid crystal lattice 1 1 Appearance 〇1 1 The above injection device is suitable for aligning liquid crystals along the orientation of each differential domain. 1 | Molecule Even when the force of the optical polarizing memory film to guide the orientation of the liquid crystal molecules 1 1 is the weakest. Ο When the optical polarizing memory film has a strong power guide Positive liquid crystal molecules 1 | Orientation time 9 Especially when there are azimuth layers on both sides of the base f can be used 1 I Traditional injection device without heating procedure 0 1 1 1 -1 2- 1 1 1 The paper size is in accordance with Chinese national standards (CNS) A4 specification (210X297mm) A7 B7 Printed by the Beigong Consumer Cooperative of the Central Standards Bureau of the Ministry of Economy V. Invention description (11) 1 1 If it is 90 degrees, reverse the positive display 9 or The 90 degree twist of the parallel relationship 1 1 I When the negative direction is shown, the position of the pair of optometrists is a system where the polarizing axes are perpendicular to each other 1 1 〇 From this fact, it can be seen that »There is no azimuth reference direction on the surface of the base Η * Rumo / -V Please 1 1 Wipe the direction of the optical device. The direction of the light sleeve is not limited to parallel to the plane of the overseas Chinese optical device. Read 1 Back 1-'direction »except for their mutual relationship. 1 of S3 when 0 / P = 0. 25 When * Like the usual TN lattice-* like 9 those who care about 1 thing 1 parallel to the direction of the injected liquid crystal molecules on the surface of the polarization direction of the polarized light and then the differential domain of the I direction • due to its light rotation force 1 Light rays and rotation or filling% 1 1 Λ 1 Reverse the direction of the light 90 degrees. Similarly * Those polarizing pages created by the injected light v __ ^ 1 I The differential domain with vertical orientation will be like the usual TN lattice. Inject 1 1 light 〇1 1 but for those 1¾ which are not parallel or perpendicular to the direction of polarization of the injected light 1 Order subdomain »The twisting angle of the transmitted light is determined by the rotational force of polarized light and deceleration 1 △ η • d (where Δ η Is the anisotropy of the refractive index of the liquid crystal layer) and the torsion angle has a wavelength dependence of 1 1. As a result, after passing through these mu differential domains, the 1 1 line of light transmitted from other polarizers will be colored. However, due to The probability line I of the azimuth orientation in the multi-division domain is equal in each direction and the wavelength phase of the transmitted light can be canceled. 1 1 Dependency. If it is positive display, it is OFF when the color is OFF. 1 1 Because of this A substrate with azimuth structure 9 Liquid crystal molecules on the azimuth surface 1 I are aligned 0 For the thickness direction of the liquid crystal layer »The orientation of the liquid crystal molecules is coordinated 1 1 Not Pole rotation. In this way, a multi-domain liquid crystal lattice is formed. The above-mentioned device can provide K and tens of hundreds of withdrawals in a single pixel. 1 1 domain 9 where the differential domains have different orientations. However, &gt; Even fEU _ Suinai 1 1 I -1 3- 1 1 1 This paper scale is applicable to the Chinese National Standard (CMS) A4 specification (210X29 * 7 mm) A7 B7 Printed by the Beigong Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 2. Description of the invention (I2) 1 1 Differential domain with a smaller amount of light> By entanglement when selected, an optical device with a lattice of M is biased 1 1 I Optical axis direction 9 Compared with traditional technology 1, a more symmetrical viewing angle can also be obtained Features 1 1 〇 Please 1 I first 1 namely * Read the reading at the interface between the substrate and the transmission sleeve or the absorption axis of the adjacent optical device 1 Back 1 The orientation of the liquid crystal molecules in a differential domain is arranged parallel to each other Or the vertical ^ 3 of 1 can achieve a smaller number of azimuth orientation angle changes. Basically, when the intentional 1 thing 1 four or more azimuth orientations are achieved, the change of the angle of view angle is the same as that of the light wheel and the 1 1 wheel axis. The relationship between the molecular orientation and orientation is filled in. 1 For example • Figure 8 A is an enlarged plan view * shown on the inner surface of the base H surface page-> 1 I example of orientation configuration. In this example 9 pixel area 30 is composed of The four domains 1 I are square differential domains of equal size 31 * 32 »33 &gt; 34 constitute 〇 each 1 1 differential domain azimuth orientation 陙 clock difference 9 0 degrees» Aligned to constitute the direction of the four of the pixels 1 〇1 _ 8 The arrows of the differential domains shown in A indicate the azimuthal orientation of the subdomains 0 1 I The end of the arrow refers to the direction of pretilt. Each pair of differential domains 31 and 32 * and 33 1 I and 34, by vertical Straight line 35 borders »adjacent to each other t with orientation 1 1 orientation 90 degrees different from each other each another pair of withdrawal sub-domains 31 and 34 &32; line I 33« Boundary 1 bounded by horizontal boundary 36 1 adjacent to each other up and down »There are also azimuths taken in 1 1 directions 90 degrees 9 different from each other 〇1 1 The polarized polarizers _ placed in parallel or perpendicular to the differential domain are taken in directions 1 I to 9 viewing angle characteristics are more effective and become the same in every direction. It is needless to say that the combination of the four azimuth orientations in the pixels is not limited to that shown in FIG. 8A »And the similar effects of class 1 I can be achieved by other configurations. The orientations of the neighboring differential domains take 1 1 to be different from each other 90 degrees or 180 degrees 1 1 I -14- 1 1 1 This paper scale is applicable to the Chinese National Standard (CNS) A4 specifications (210X297 mm). The Central Standards Bureau of the Ministry of Economic Affairs of the Ministry of Economic Affairs of the Ministry of Economic Affairs du printed A7 B7 V. Description of invention ( 13) By setting the four orientations of the differential domain, the following can be obtained fruit. Since each differential domain can be configured to be parallel or perpendicular to the polarizer polarizer, the wavelength dependence of the light transmitted from each differential domain can be reduced, and the problem of coloration of the liquid crystal lattice can also be reduced. In the case of a liquid crystal lattice composed of two adjacent sub-domains that differ in azimuth orientation by 180 degrees, when viewed from an oblique angle in the vertical direction of the lattice, the display is seen as a black-white anti-white system. However, there is no such display inversion in this example, because this example uses four sub-domains with orientations that differ by 90 degrees. Fig. 8B is an enlarged plan view showing an example of azimuth arrangement in pixels on the surface of the substrate according to another example of the present invention. In this example, the single-circle prime region 40 is composed of differential domains 41-48 located in the vertical and lateral directions. Note that the area of the four differential domains 41, 42, 43 and 44 (or sub-domains 45, 46, 47 and 48) is a unit area, similar to the situation shown in Figure 8A, the unit area is covered by four orientations. The differential domain consists of 90 degrees. The base H of the example shown in Figure 8B has a pixel 40, which is composed of many (or any majority) similar unit regions each formed of four differential domains (e.g., 41, 42, 43, and 44). The four differential domains in the unit area are effectively symmetrical to the center of the unit area. This example has a similar effect as obtained by the example shown in FIG. 8A. As shown in the situation shown in FIG. 8A, this effect is also not limited to the specific way of combining the orientation of the four differential domains. As described above, in the configuration of four differential domains with orientations different from each other by 90 degrees, the pretilt angle can be removed and the orientation of the liquid crystal molecules can be controlled by using oblique electric fields (ie, marginal fields) between the opposing electrodes. -15- This paper scale is applicable to China National Standard (CNS) A4 specification (210Χ297mm) --------- 1 ------ 1Τ ------. Il (please listen first Read the precautions on the back and fill in this page) A7 B7 Printed by the Central Standards Bureau of the Ministry of Economic Affairs of the Negative Labor Consumer Cooperative V. Invention Instructions (14) 1 1 Picturesque 8 A * In Figure 9 A »ESI Guosu Area 50 by 4 A square differential domain 1 1 I 51 »52 • 53 9 54 constitutes« where the differential orientation of each differential domain differs by 90 degrees 1 1 Ο Because there is no pre-tilt in the sub-domain 9 and the reverse orientation of the one shown in group 8 A becomes the same ^ -V Please first 1 1 as shown in FIG. 8 A. Then there are two orientations. 0 at the center of the pixel 50. 1 back 1 part 9 of which four differential domains touch the other »Provided .. Electrode cut 55 1 of Λ * It is formed by eliminating the transparent poles facing each other. One of them is focused on 1 | Part 〇 Each pixel corresponds to the transparency on the base Η pair facing each other The pair of electrode pairs ψ is again 1 | The pixel shown in 〇_ 9A also means an electrode with a transparent electrode. Fill in this II. When a voltage is applied to the electrode 9 Because the electrode is cut off 9 In the pixel area page V—✓ 1 I 50 A diagonal electric field is established around the inner electrode cutoff 55. ΠΒΒ Drawing 10 is I 1 an enlarged cut-away view> its corresponding pixel 50 is shown in FIG. 9 A-B of the virtual medium A-B cut 1 1 open. When a voltage is applied between the electrodes sandwiching the upper and lower sides of the liquid crystal layer 6 &gt; 1 is set around the electrode cut 55 «as indicated by the arrow a 9 generates an oblique electric field 1 (that is, a marginal field) 〇 The generated oblique electric field controls the liquid crystal molecules Tilt direction 〇1 | The orientation of the liquid crystal molecules can be directed to the desired direction without having to give any pre-tilt angle to the molecule. The shape of the electrode cut 55 is not limited to square * and can be any other shape Line I shape t such as circle or cross 9 as shown in Figs. 9B and 9C »or any other shape that can adjust the tilt direction of 1 1 knots 1 1 Come again * In FIG. 9D» The element area 60 consists of many vertical and The differential domain 6 1 -68 of the side 1 I direction constitutes »similar to the case of Fig. 8B ○ U in the case of 1 1 Fig. 8B * four differential domain regions 6 1, 62 63 and 64 (or sub-domain 1 I 65 &gt; 66 67 and 68) constitute a unit domain, one of which contains 1 1 four differential domains with a 90 degree difference in orientation from each other. 〇1 1 | -16- 1 1 1 This paper scale is applicable to the Chinese National Standard (CNS) A4 Specifications (210X297mm) A7 B7 Printed by the Beigong Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of invention (15) 1 1 Many of the four differential domains (eg 1 61 1 62 9 63 and 64) (or 1 1 I any many) similar unit areas constitute ten pixels 60 〇 in each unit | m domain 1 1 9 The electrode is cut 55 around the center * One of the transparent electrode pairs in the contact part of all the differential domains by borrowing each other partially facing each other 1 1 »The reading 1 as shown in FIG. 9A 1 back 1 case 〇 8B or The situation shown in FIG. 9A can obtain the effect of class U. 1 fEfl of FIG. 9E represents-a case »where two differential domains with a difference in orientation of 90 degrees Ϊ are close to 1 | formed in ΓΕΟ translation element. In this case * in The central part of the two differential domains 56 and 57 is again 1 | divided by the way of crossing the boundary between the sub-domains t a slit-shaped electrode is cut off 58 4 writing book I in this case 9 due to the oblique electric field due to the electrode cut off 58 9 Liquid crystal molecules are also controlled on the page. 1 I is controlled to be aligned along the orientation shown by the arrow. Examples of other orientation configurations will be described below. 1 1 _ 11 A, 1 1 B, and 11 C represent other areas of different shape differential domains Take 1 Example of orientation 〇 Four differential domains form a unit area ○ Arrows indicate orientation 1 Orientation ○ As in the above example> Any azimuth produces the same effect 〇1 I For units where the domain is formed by four differential domains forming a square Case 1 | «W The method of dividing the square into four differential domains by its two diagonals is represented by 1 1 in FIG. 11 A. As shown in the above example» The azimuth lines of the four differential domains I can be aligned parallel to The edge of the unit area »or the center of the white unit area 1 1 Radial 〇 As described above, the azimuthal orientation difference of the adjacent differential domain is 90 degrees 0 1 1 as shown by _ 11 B> Many units can also be provided in the pixel The area 〇1 I need not be said, but also for the above-mentioned example, the shape of the differential domain 9 is 9 1 1 which is further divided into four smaller squares of the square relative to the area. 1 I Case 9 The azimuth orientation of the four differential domains can also be aligned in the radial direction. Figure 11 C 1 indicates this configuration. 〇 1 1 1 -1 7- 1 1 1 The paper scale is applicable to the Chinese National Standard (CNS) A4 specification ( 210X297mm) V. Description of the invention (Work 6) A7 B7 Value table live structure should be used in the complex of the reform or development. Make it settled and construct it. The species can be limited, and the type in the upper corner of the knot can not be changed. At this time, the art of twisting the film is like the basic crystal hair technique. Each example is not divided into two parts. . In the crystal included. The essence can be even good. The liquid is filled with some, close, and change. The transformation of the shape is in Runa and there is the power and the power can be controlled. It is described in the Divine Example that the effect becomes 90. The time-out description of the master skill is changed to have the domain layer, the layer is already, and the description is that the angle is divided. Bit type bit. The method of refining and refining the mini squares of the Ming Dynasty on the Mingdi siege shows its scope. The methods of these revisions are mostly two-way domains. The system is clearly there. Zhi is limited to Daijing and those with multiple twisting cases. The special office can make liquids separately, and the actual description of the supply is 1 No, the type is fixed, and the shape of the device is good. The layers of each layer in the Ming Dynasty are shown to have been developed and applied, and it seems that the structure of the material is connected to the H display. All examples, liquid, two liquids are better --------- ^ ------ 1T ------ ^ (please read the notes on the back before filling this page) Ministry of Economic Affairs The standard of the paper printed by the Central Standards Bureau's Consumer Labor Cooperative is applicable to the Chinese national standard (CNS &gt; Α4 specification (210Χ297mm)

Claims (1)

Public and private-\ A8 B8 C8 D8 Patent application No. 83107745 "Liquid crystal display lattice and its manufacturing method" patent case (amended on April 15, 1985) The Central Consumer Standardization Bureau of the Ministry of Economic Affairs of the Employees Consumer Cooperative printed this orientation The square lattice of the square crystal has a few positions, and it is withdrawing a liquid to fix the crystal to the side, the side, the side, the side, the side, the side, the center, the middle, the middle, or the middle to set it. ; Coordination,,,,, hair, xiangdi, time, divide into squares, and place squares and squares into the crystal. Jing Jing crystalline crystalline one by one Η installed film shows that the direction of the display of the base is 100 million. Obviously, the apparent rate is significant, the apparent position is taken, the crystal is taken, the crystal is on the crystal, the crystal is arranged, the base crystal is transparent: the liquid crystal is transmissive, the liquid of the liquid of the liquid is a pair of squares. The partial basis of the partial basis is equal to the other, the same term, the term, the term, the term, the term, the term, the term, the term, the crystal, the light, the light, the light, the light, the quality, the quality, the side, and the square. The first category of the liquid is more than the first and the first is the first crystal. The sub is just a circle. The circle is surrounded by the circle: the base is divided into the domain, the domain contains the norm, the norm is the norm, the norm is divided. The scope shows the crystal direction and the distribution of the profit is based on the benefit of the profit. The liquid crystal is moved up and down. The special liquid is reserved. The special liquid is a patented liquid. The layer is Η. Please install it, please install it. Please include the application from the special application one by one. Shen Baozi. Apply one by one as always, as if by one, as if by one, as if by division, as if by division II 2345 6 7 Six, _— I installed &quot; &quot; &quot; I, v 'mouth (please read the notes on the back before filling in (This page) This paper scale is applicable to the Chinese National Standard (CNS) Α4 specification (210Χ297 mm). 6. The scope of the patent application includes many factors. The positive orientation device defines at least one group of four on at least one of the transparent bases. Throughout the domain, in the pixel area, the four consumer economic cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs printed 40 pictorial illustrations of § four different domains, and there were 8 very many through the 1 four through the application 1 ^ the f The prime area 1 is superficial and may contain, when Γ has a 3 | map plane. In the middle of the package, in the middle of the package on the package, ξ by a single table 1 pre-touch 0 its other still 9 its relative face. , Into one of the difference, domain, surface field I, sub-h structured in I piece with the phase Lolo Luo inter-lattice lattice at each break Hr part Bf pairing Bf basis points mutual t 丨 晶晶 晶 方The opposite part of the cut edge center group of the domain crystal and crystal is the same. ^ 0 shows that the domain of Hlslgr ^ KΓ is based on this, 0, and does not show the four bases. ai) The crystal of the crystal in the domain of the sub-d, where the crystal touches the domain, the domain is divided into corners, and the liquid is divided into two liquids, and the liquid is divided into 2 ,. The domain i produced the phase i, and the four U-zones were in the domain-like item zone one. When the lg-bits were mutually exclusive, the four-premier 7 zones were in the form of eight prime elements. Containing the first element, the first picture is in the middle, and the other is in the middle-the 1iRIs envelope location map is around the first pole IG system, and the IQ contains the domain model, each has a model, and the model is the model of the electric J® The J @ each zone form 1 is in it, the benefit is the heart, and the middle U part is called in the ilifi position. ^ The pole is divided into domains and specially designed for the towel. 5 | «if domain JII domain® to Η shape electricity Partially ask for the domain, please, the ^ -cutting ^ = area should be "very clear. The application voltage should be in the electrocardiographic cut-through level as thorough as the electric light." Single and medium. ¾ Clearly stated * · 11 CNJ (Please read the notes on the back of the performance first and then fill in this page) This paper scale is applicable to China National Standard Rate (CNS) A4 specification (210X297mm) A8 Βδ C8 D8 Patent application scope 1 3. As shown in item 9 of the patent application scope of the liquid crystal display lattice, wherein the cut-off 0 0 boundary between the boundary side ΤΤΠΓ L between the 1C -r6UN domain domain> crystal> separate display neighbor Obvious Adjacent to rm PP f if, Jing. Yu Yu M n η Shen Shen ί Yan J Yan Xiang, 2 »Points Ϊ 分 β. Wish 3mm 3 S Long Wai Chang Yan JI Yan Yiba a special youth branch Γ branch部 断 .air Paragraph Fan Li specially asked for the application of the grid crystal display liquid crystal, which should be included in the square slope of the pre-deposited delimited area prime map. The two spares are still in the middle, the domain area The 90-bit difference should be directed to each other and take the upper Η square base pair, the prime is in the domain of the map, the split pole S carries the sky clear, and the domain contains the segment cut off a top pole Ι ^ ΟΓ 1 0 The divisional domain of the neighboring pole phase S ΛZ -¾ Fang Ming extends through the divisional part of the broken heart and cuts the liquid crystal in which the lattice shows the liquid crystal item 7 The circumscribed Fan Li special application for such as degree 0 9 The layer crystal of the nearly-turning thick layer of liquid crystal along the axis of the sub-crystal layer contains the Shangge crystal to display the liquid crystal. The 7th Fan Li special request Φ Ruji to the clip and hang it vertically The other side is equipped with an axis optical polarizer and the optical axis is 1 axis The light deviates from the neighboring and-the domain of the straight line is divided or the same in the line, the other is to show the crystal liquid containing the Shangge crystal. Please pay attention to this page and then fill out this page.) The printed printing base of the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs is parallel to the holder and is equipped with an optical polarizer. The optical polarizer is aligned with the 1 side of the positioning axis. The domain of 0 and 1 is directly divided or the same in the line, and he asks Fan Li from the surrounding area. Ψ The cladding crystal liquid in which the lattice crystal shows the crystal liquid is the right or wrong direction. The size of this paper with the liquid crystal value is applicable to the Chinese National Standard Falcon (CNS) Α4 specification (210Χ297 mm) A8 B8 C8 D8 Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs 6. Patent application scope 1 I P indicates the direction The asymmetric pitch of a column or asymmetric nematic liquid crystal and d 1 I represents the thickness t of the liquid crystal layer in the direction sandwiched by the transparent substrate M Zugong 1 1 1 Formula 1 I Please 1 I Nearly 0 &lt; d / p &lt; Nearly 0.75 〇 First read 1 Read 1 1 20. If the liquid crystal display lattice of item 19 of the patent application scope, where the liquid The 1 crystal layer of the back 1 I contains asymmetric nematic liquid crystal and the d / ρ value is at least equal to 0.25. Note 1 21-a method of manufacturing a liquid crystal display lattice, including the following steps: 1 I and then on one of at least a pair of transparent substrates H is formed by coating an orientation film with an optical deviation of πτυ light to fill the device 1 billion standby Positive azimuth device »Then illuminate Xu page 1 1 Most polarized light with different polarized directions on different areas of the film 1 I to form a lot of different sub-domains with different azimuth orientations. Each of the 1 1 I domains has a uniform The azimuth orientation is determined to use the pair of substrates to combine a lattice for containing liquid crystal materials 1 1 and 1 1 to inject liquid crystal material between the pair of transparent substrates H and to heat the lattice 1 1 1 22 〇. The method for manufacturing a liquid crystal display lattice of claim 21 of the patent scope, wherein the step of forming a positive orientation device in -1 1 includes the step of forming an orientation thin film 1 | &gt; wherein the azimuth film has an optical polarization 1 I optical recording characteristic on at least one of the transparent substrates *, and irradiates a polarized laser beam with a light spot of the size of the sub-domain into the optical polarization recording On the azimuth film of 100 million standby time, move the irradiation point to scan the azimuth film. 1 | 23. For the method of manufacturing the liquid crystal display lattice of item 22 of the patent application, its 1 I -4 1 1 1 1 copy The paper standard is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) A8 B8 C8 D8 The Central Consumers Bureau of the Ministry of Economic Affairs, Employee Consumer Cooperative Seal, Six, Application for Patent Scope 1 1 The steps to form a positive orientation device include changing the Polarized laser 1 I Steps of light polarization direction ί Simultaneously move the 1 1 1 irradiation point of the polarized laser light 0 / · —S 1 I Please 1 I 24. If applying for patent No. 23 The manufacturing method of the liquid crystal display lattice of item 1, which first reads the step of changing the polarization direction in 1 I 1 1 includes transmitting the laser light t through the 1-polarized mw optical device with a predetermined polarization axis back 1¾ 1 I and around the Shock light __. Attention of the optical axis 1 Rotate the polarizer Ο Item 1 I then 25. If the method of manufacturing the liquid crystal display lattice of item 24 of the patent application, fill in the beam spot in this package I is slit-shaped Rectangular page 1 1 26. As for the manufacturing method of the liquid crystal display lattice of item 21 of the patent application, the step of forming the positive azimuth device in 1 I includes transmitting the laser light through a polarizer mask 1! 1 Step &gt; The mask has a different polarization direction of 1 order multiple scattered sub-domain I and is irradiated through the mask on the azimuth film 1 1-transmits light 1 The azimuth film is biased Billion characteristics 〇1 I 27. As for the method of manufacturing the liquid crystal display lattice of item 21 of the patent application, the step of forming the forward azimuth device in 1 | forms many four sub-domain groups t in at least the pair of transparent Different orientations on one of the base Η »1 1 The azimuth orientations of the four sub-domains are 90 degrees or 1 | 180 degrees between two adjacent sub-domains. I 28. For example, the 27th The manufacturing method of the liquid crystal display lattice includes 1 1 including the step of forming a transparent electrode on the surface of the pair of substrates. 1 The transparent electrode 1 has a cut-out portion 1 at a part of the transparent electrode in a predetermined shape. 5-1 1 1 1 1 This paper scale is applicable to the Chinese national standard (CNS> A4 specification (210 X 297 mm) A8 B8 C8 D8 6. Patent application scope 29. If the LCD display lattice of item 21 of the patent application scope is The method of production, its pole: Under the electricity, it is clear and transparent, and it forms a step-like shape, containing the area and containing the area. Step 1 Place the top of the top surface of the top surface. The direction of the base is transparent. The shape of the pole in the shape of the pre-formed part is determined by the shape of the cut S φΦΓ transparent and the like. Part of the near field is divided into this 丨 0 inward lattice takes the crystal position in the shape of the Fang Cheng 90 degrees difference between the two groups and the two groups and the multi-inclined inclination is almost the first Fan Fanli Φ as its legal system The crystal shows that the crystal liquid is at a high level or waits until the base is heated. The heat is added to the material crystal material containing the i step 13 steps rvi into the medium material temperature material through the liquid level, the interphase injection direction, etc. The column Η Xiangji's material is in the material and crystal, and the liquid temperature should be \ 1 / point (please read the notes on the back of the performance first and then fill out this page). Installed. The crystal shows that the liquid crystal is equivalent to the material crystal liquid. The heat is added to the liquid material containing the temperature of the step 05 of step 0. The material temperature crystal liquid is added to the I note N. Step — Item 15 orientation Forming the lattice of the legal system in which the crystal is displayed shows the formation of M base pairs ^ 3 This is the production of Qiguan halves of the production of the Department of Economic Cooperation of the Central Standards Bureau of the Ministry of Economic Affairs to complete the steps of each package. The base lattice of step Η should be combined into a group I crystal. The angle and the twist are based on the value, and the value is set to the value. Positioning and positioning the paper. The paper size is applicable to China National Standard (CNS) Α4 specification (210X297mm)