CN1110716C - 液晶显示投影透镜 - Google Patents

液晶显示投影透镜 Download PDF

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CN1110716C
CN1110716C CN97194167A CN97194167A CN1110716C CN 1110716 C CN1110716 C CN 1110716C CN 97194167 A CN97194167 A CN 97194167A CN 97194167 A CN97194167 A CN 97194167A CN 1110716 C CN1110716 C CN 1110716C
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CN1220010A (zh
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杰克伯·莫斯科维基
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3M Precision Optics Inc
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US Precision Lens Inc
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    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B13/00Optical objectives specially designed for the purposes specified below
    • G02B13/16Optical objectives specially designed for the purposes specified below for use in conjunction with image converters or intensifiers, or for use with projectors, e.g. objectives for projection TV
    • GPHYSICS
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Abstract

提供一种与象素化面板(LCD)一起使用的投影透镜。透镜具有两个正透镜单元(U1,U2),孔径阑位于它们之间。每个透镜单元的光焦度使得第一透镜单元(U1)的焦距f1明显小于第二透镜单元(U2)的焦距f2,其中第一透镜单元(U1)位于系统的长共轭一侧,而第二透镜单元(U2)位于短共轭一侧。f1与f2的比最好小于大约0.75。

Description

液晶显示投影透镜
发明领域
本发明涉及投影透镜,尤其涉及能够用于形成由象素(诸如液晶显示器)组成的物体图象的投影透镜。
发明背景
投影透镜系统(这里也称为“投影系统”)用于在一观察屏上形成物体的图象。这种系统的基本结构示于图7,其中10是光源(例如,卤钨灯),12是照射光学装置,该装置形成光源的象(下面称为照射系统的“输出”),14是要投影的物体(例如,LCD面板的接通和断开象素的矩阵),以及13是由多个透镜元件构成的投影透镜,它在观察屏16上形成物体14的放大图象。
被投影物体是LCD或其他象素化面板的投影透镜系统有许多应用,包括数据显示系统。这种投影透镜系统最好使用单个投影透镜,它所形成的图象或者是例如具有红色、绿色和蓝色象素的单个面板的图象,或者是三个单独的面板(每个面板用于一种颜色)的象。为便于说明起见,在下面的讨论中将采取使用单个LCD面板的投影透镜系统,应该明白,本发明也能用于使用多个面板和/或其他象素化(pixelization)类型的系统。
发明内容
本发明的投影透镜具有两个正透镜单元,孔径阑位于两者之间。每个透镜单元的光焦度使得第一透镜单元(U1)的焦距f1明显小于第二透镜单元(U2)的焦距f2,其中第一透镜单元(U1)位于系统的长共轭一侧,而第二透镜单元(U2)位于短共轭一侧。特别是,f1与f2的比最好小于大约0.75。(参见表7,并注意当第二单元包括一个向场透镜例如菲涅尔向场透镜时,对f2值的计算不考虑该向场透镜。)相反,对于经典的双高斯形式,f1约等于f2,或大于f2。
本发明的投影透镜能够覆盖宽广的视场。它们的后焦距约等于透镜焦距。第一和第二透镜单元都至少有一个非球面。
位于孔径阑长共轭一侧的第一透镜单元由单个正元件构成。但是,为了获得对剩余象散和色差的较佳校正,该单元可以包括一个负元件和一个正元件,负元件在前,正元件紧跟在后,并且正元件可以颜色校正双合透镜。如表1-5所示,前面的负元件与正元件之间的间隔最多为第一透镜单元焦距的约5%。
位于孔径阑后面的第二透镜单元包括一个颜色校正双合透镜和至少有一个非球面的单个正元件。在第一透镜单元中可以获得大部分球差校正,而包括彗差和畸变的轴外象差以及色差则主要在第二透镜单元中校正。
附图概述
图1至6是按照本发明构造的投影透镜侧视示意图。
图7是示出能够采用本发明投影透镜的整个投影透镜系统的示意图。
包括在说明书中并且构成说明书一部分的上述附图示出了本发明的较佳实施例,并且用这些附图连同描述来说明本发明的原理。当然,应该明白,这些附图和描述仅仅用于说明而不是限制本发明。
较佳实施例的描述
图1至6描述了按照本发明构造的各种投影透镜。相应的说明和光学性质分别示于表1至6。表7列出了上述透镜单元与表1-6中透镜的各种元件和表面的对应关系。
对于在透镜系统中使用的玻璃,采用HOYA或SCHOTT牌号。在本发明的实践中能够采用由其他的制造商制造的等同的玻璃。对于苯乙烯和聚丙烯元件,采用工业上容许的材料。
在表中列出的非球面系数采用下述公式: z = cy 2 1 + [ 1 - ( 1 + k ) c 2 y 2 ] 1 / 2 + Dy 4 + Ey 6 + Fy 8 + Gy 10 + Hy 12 + Iy 14
这里,z是在离系统光轴的距离为y处的表面弛垂度,c是透镜在光轴处的曲率,而k是圆锥常数。
在表中,与各个表面相关的标记“a”代表非球面,即,在上述公式中的D、E、F、G、H或I中至少有一个不为零的表面。标记“c”表示一个圆锥表面,对于圆锥表面,上述公式中的k值不为零。标记“f”代表菲涅尔透镜表面(在图1和图3中,菲涅尔透镜用标记“FL”表示)。表中给出的所有的尺寸以毫米为单位。在制作这些表时假设光线在图中从左至右行进。在实践中,观察屏将在左方,而LCD面板将在右方,光线将从右向左行进。
虽然已经描述了本发明的一些特定的实施例,但应明白,根据上面的揭示,不背离本发明范围和精神的种种变更对于本领域内的一般技术人员而言将是显而易见的。
                        表1透镜数据
                                                   净通光
  表面编号 类型    半径        厚度      玻璃      孔径直径
  1        a     -1770.1750   8.00000    丙烯酸    84.11
  2        a      72.5195     10.00000             71.77
  3               63.3660     25.00000   SK18      68.98
  4              -63.3660     4.00000    KF6       65.89
  5               762.9749    9.16228              60.48
  6               孔径阑      35.18800             57.72
  7              -38.4192     5.00000    SF14      63.38
  8              -91.9407     1.00000              80.13
  9        a     -77.4031     18.00000   丙烯酸    83.60
  10       a     -57.0000     Space 1              93.65
  11       c     -927.4539    29.50000   丙烯酸    119.77
  12       a     -79.0000     Space 2              124.99
  13       cf     185.6000    4.00000    丙烯酸    237.06
  14               -          象距                 236.86标记说明
  a-       多项式非球面
  c-       圆锥段
  f-       菲涅尔圆锥
  表面编号        常数
  11              -7.1739E+01
  13              -1.7000E+00偶次幂多项式非球面
表面编号    D           E           F            G        H            I
  1    -7.0051E-08 -6.3254E-12 -2.9530E-14  7.5364E-19  9.4792E-21 -3.0013E-24
  2     7.7762E-08  1.2679E-11  1.0260E-13 -3.2966E-17 -1.6803E-21  1.6991E-23
  9     4.1171E-07  2.1244E-10  1.0122E-14  4.0619E-18  4.4932E-21 -1.0666E-24
  10    2.4362E-07  1.2454E-10  1.2955E-14  1.0067E-17  1.8340E-21  3.0151E-24
  12    1.3759E-07  5.0414E-11 -2.7910E-15  1.1423E-18  3.9343E-23 -3.3950E-27可变间隔
  可变焦距    间隔1    间隔2     焦点位移    象距
  位置         T(10)    T(12)
  1            1.500    182.411    -1.425      10.021
  2            0.500    190.200    -1.000      10.015
  3            2.000    175.350    -1.800      10.013
                      表1(续)一阶数据
                                可变焦距位置
                   1               2                3
  f/数           3.50             3.50             3.50
  放大率        -0.0645          -0.1000          -0.0322
  物高          -1830.8          -1180.0          -3660.0
  物距          -3048.7          -1998.8           6010.2
  有效焦距       198.28           202.52           194.61
  象距           10.021           10.015           10.013
  总长度         3391.4           2348.3           6346.5
  前镜顶距离     342.78           349.56           336.21
  镜筒长度       332.76           339.55           326.20
  孔径阑表面编号 6                6                6
  至孔径阑的距离 0.00             0.00             0.00
  孔径阑直径     55.244           56.621           54.042
  入射光瞳距离   40.838           40.838           40.838
  出射光瞳距离  -2564.2          -2859.8          -2270.8元件的一阶性质
  元件编号     表面编号       光焦度         f′      1pp              l′pp
  1            1  2         -0.70980E-02    -140.88    5.1374         -0.21047
  2            3  4          0.18681E-01     53.532    8.2520         -8.2520
  3            4  5         -0.88988E-02    -112.38    0.20149        -2.4261
  4            7  8         -0.10095E-01    -99.059   -2.6268         -5.6025
  5            9  10         0.29494E-02     339.06    35.393          26.063
  6            11 12         0.57837E-02     172.90    21.342          1.8179
  7            13 14         0.26604E-02     375.88   -0.51716E-08    -2.6778双合透镜的一阶性质
  元件编号  表面编号        光焦度          f′        lpp            l′pp
  2  3        3  5          0.11187E-01     89.389    1.5277         -16.542透镜组的一阶性质
  组号      表面编号        光焦度          f′        lpp            l′pp
  1            1  10       -0.26248E-03    -3809.7    495.35          349.41
  2            11 12        0.57837E-02     172.90    21.342          1.8179
  3            13 14        0.26604E-02     375.88   -0.51716E-08    -2.6778透镜的一阶性质
  可变焦距
  位置编号                  光焦度            f′      lpp            l′pp
  1                         0.50433E-02     198.28    223.78         -199.63
  2                         0.49377E-02     202.52    228.97         -211.76
  3                         0.51385E-02     194.61    218.81         -189.07
                       表2透镜数据
  表面                                       净通光
  编号 类型    半径        厚度      玻璃    孔径直径
  1     a    -3501.6551   8.00000    丙烯酸   83.97
  2     a     73.8047     10.00000            72.07
  3           63.9262     25.00000   SK18     69.86
  4          -63.9262     4.00000    KF6      67.04
  5           570.3825    2.53228             60.39
  6          -41.97092    59.72
  7          -39.0852     5.00000    SF14     64.45
  8          -83.4350     1.00000             80.90
  9     a    -77.4031     18.00000  丙烯酸    83.88
  10    a    -57.0000     0.50000             94.26
  11    c    -927.4539    30.50000  丙烯酸    119.04
  12    a    -79.0000     194.22819           124.60标记说明
  a-    多项式非球面
  c-    圆锥段
                   焦点偏移=-1.97869圆锥
  表面编号       常数
  11         -7.5322E+01偶次幂多项式非球面表面编号      D            E            F           G           H            I1          -8.1680E-08 -9.0415E-12 -2.8846E-14  9.7292E-19  9.4877E-21 -2.8507E-242           6.1549E-08  5.4266E-12  9.8518E-14 -3.4835E-17 -1.5392E-21  1.7744E-239           3.8615E-07  1.8759E-10  1.0984E-14  7.6281E-18  5.6048E-21 -1.6720E-2410          2.7112E-07  1.4686E-10  1.7530E-14  1.0200E-17  1.4695E-21  2.8348E-2412          1.1260E-07  4.4374E-11 -2.9777E-15  1.1981E-18  4.3134E-23 -6.5187E-27一阶数据
  f/数             3.50         总长度                3505.33
  放大率          -0.0645       前镜顶距离            340.731
  物高            -1830.8       镜筒长度              146.503
  物距            -3164.60      入射光瞳距离          40.9073
  有效焦距         198.998      出射光瞳距离         -145.903
  象距             194.228      孔径阑直径            57.224
  孔径阑表面编号   6            到孔径阑的距离        6.43
                                 表2(续)元件的一阶性质
  元件编号  表面编号    光焦度          f′      lpp         l′pp
  1          1  2     -0.68364E-02    -146.28    5.2411    -0.11047
  2          3  4      0.18530E-01     53.965    8.2460    -8.2460
  3          4  5     -0.90617E-02    -110.35    0.26468   -2.3616
  4          7  8     -0.99405E-02    -100.60   -2.6199    -5.5926
  5          9  10     0.29494E-02     339.06    35.393     26.063
  6          11 12     0.57859E-02     172.83    22.057     1.8788双合透镜的一阶性质
  元件编号  表面编号    光焦度          f′      lpp         l′pp
  2  3       3  5      0.10898E-01     91.762    1.1692    -16.833透镜的一阶性质
        光焦度             f′          lpp            l′pp
        0.50252E-02        199.00      119.64         -15.627表面1-5的一阶数据
         K                 PP1          PP2            f′
        0.490176E-02       30.3186    -1.10148         204.00表面7-12的一阶数据
         K                 PP1          PP2            f′
        0.232360E-02       147.569     172.803         430.37
                       表3透镜数据
  表面                                         净通光
  编号 类型    半径       厚度      玻璃       孔径直径
  1     a    -148.4666   6.00000    丙烯酸     51.92
  2     a     54.4747    0.50000               45.04
  3           40.0292    15.00000    SK18      45.07
  4          -130.3723   6.26676               42.15
  5           孔径阑     21.40605              34.58
  6          -23.1527    3.00000     SF13      39.96
  7          -64.2034    1.50000               54.39
  8          -54.0449    16.67610    丙烯酸    54.69
  9     a    -35.8273    0.50000               63.68
  10    a    -3465.3279  24.66862    丙烯酸    93.09
  11    a    -54.7193    121.94030             95.74
  12    cf    120.0000   4.00000     丙烯酸    166.79
  13          -          9.99997               166.48标记说明
  a-    多项式非球面
  c-    圆锥段
  f-    菲涅尔
              焦点偏移=-1.94463圆锥
  表面编号       常数
  12           -2.0085E+00偶次幂多项式非球面
  表面编号         D         E             F         G           H           I
  1          -1.0532E-06 -1.0364E-09  1.3079E-12 -2.2637E-15  4.0754E-18 -2.4681E-21
  2          -1.0077E-06  1.3853E-10 -5.4208E-12  1.3555E-14 -3.2354E-18 -5.1055E-21
  9          -7.2513E-07  1.8571E-09 -2.8477E-12  1.3532E-15  6.7032E-19 -5.6155E-22
  10         -2.1332E-07  2.4887E-11  3.2458E-14  8.2905E-18  2.9285E-22 -1.2661E-25
  11          5.7413E-07  4.5720E-11  4.8259E-14  2.5315E-17 -1.5472E-20  9.1310E-24一阶数据
  f/数              3.50        总长度               1401.46
  放大率           -0.1083      前镜顶距离           231.458
  物高             -762.00      镜筒长度             221.458
  物距             -1170.00     入射光瞳距离         20.3913
  有效焦距          129.271     出射光瞳距离         5729.90
  象距              9.99997     孔径阑直径           34.576
  孔径阑表面编号    5           到孔径阑的距离       0.00
                              表3(续)元件的一阶性质
  元件编号  表面编号    光焦度           f′       lpp            l′pp
  1         1  2      -0.12511E-01    -79.928     2.9100         -1.0677
  2         3  4       0.20219E-01     49.458     2.2234         -7.2414
  3         6  7      -0.19987E-01    -50.032    -0.99970        -2.7722
  4         8  9       0.60514E-02     165.25     25.425          16.855
  5         10 11      0.89025E-02     112.33     16.739          0.26432
  6         12 13      0.41148E-02     243.03    -0.82019E-08    -2.6778透镜的一阶性质
       光焦度          f′      lpp       l′pp
    0.77357E-02      129.27    152.58    -131.33
                       表4透镜数据
  表面                                         净通光
  编号  类型    半径       厚度      玻璃      孔径直径
  1      a    -143.9480   6.00000    丙烯酸    52.57
  2      a     54.0933    0.50000              46.45
  3            39.9766    15.00000   SK18      47.01
  4           -138.3967   6.26676              44.55
  5           -           23.26477             37.09
  6           -23.3945    3.00000    SF13      41.34
  7           -57.7517    1.50000              55.58
  8           -50.6040    16.57162   丙烯酸    56.00
  9      a    -36.2946    0.50000              64.89
  10     a    -2367.8999  24.39444   丙烯酸    92.92
  11     a    -54.6713    134.17166            95.59标记说明
  a-     多项式非球面
         焦点偏移=-1.24114偶次幂多项式非球面
  表面编号      D             E         F          G            H            I
  1          -7.8786E-07 -7.4301E-10  1.2284E-12 -2.6558E-15  3.7917E-18 -1.8308E-21
  2          -4.9688E-07  6.22845-10 -5.5378E-12  1.2528E-14 -4.7256E-18 -2.2320E-21
   9         -6.7035E-07  1.6035E-09 -2.8384E-12  1.4275E-15  6.5802E-19 -6.1437E-22
  10         -2.4379E-07  2.3325E-11  3.2535E-14  8.2976E-18  2.0542E-22 -2.1158E-25
  11          6.0221E-07  5.9205E-11  4.6922E-14  2.3851E-17 -1.6076E-20  8.9490E-2 4一阶数据
  f/数              3.50      总长度               1473.17
  放大中           -0.1083    前镜顶距离           231.169
  物高             -762.00    镜筒长度             96.9976
  物距             -1242.00   入射光瞳距离         20.8429
  有效焦距          129.736   出射光瞳距离        -136.607
  象距              134.172   孔径阑直径           36.897
  孔径阑表面编号    5         到孔径阑的距离       0.45元件的一阶性质
  元件编号  表面编号    光焦度         f′       lpp       l′pp
  1          1  2    -0.12684E-01    -78.838    2.8906    -1.0862
  2          3  4     0.19996E-01     50.010    2.1178    -7.3318
  3          6  7    -0.18289E-01    -54.677   -1.2146    -2.9983
  4          8  9     0.53197E-02     187.98    28.371     20.349
  5          10 11    0.88539E-02     112.94    16.659     0.38462
                     表4(续)透镜的一阶性质
  光焦度           f′        lpp          l′pp
  0.77080E-02    129.74      85.332       -8.3775表面1-4的一阶数据
  K               PP1         PP2          f′
  0.825105E-02   11.8672    -1.63760       121.20表面6-11的一阶数据
  K               PP1         PP2          f′
  0.412919E-02   105.968     138.422       242.18
                         表5透镜数据
  表面                                         净通光
  编号  类型    半径        厚度     玻璃      孔径直径
  1      a    -215.0838   6.00000    丙烯酸    50.10
  2      a     51.3941    0.50000              44.84
  3            39.5202    15.00000   SK18      45.08
  4           -204.0199   6.26676              41.86
  5            -          24.70386             37.34
  6           -23.5819    3.00000    SF13      42.80
  7           -54.9838    17.48359   SK5       58.11
  8           -38.5513    0.50000              68.16
  9      a    -442.7462   22.96924   丙烯酸    93.18
  10     a    -54.6936    133.38308            95.54标记说明
  a-     多项式非球面
         焦点偏移=-1.06757偶次幂多项式非球面
  表面编号      D           E          F            G          H            I
  1          -6.2558E-07 -6.6007E-10  1.3377E-12 -2.7764E-15  3.6207E-18  -1.7047E-21
  2          -4.7729E-07  2.8390E-10 -5.2520E-12  1.3608E-14 -6.5024E-18  -3.3618E-21
  9          -4.6643E-08  3.6819E-11  2.8968E-14  8.8163E-18  1.7148E-21   2.3288E-25
  10          5.3589E-07  1.0862E-10  4.8657E-14  2.7503E-17 -1.4201E-20   9.3743E-24一阶数据
  f/数              3.50      总长度               1471.80
  放大率           -0.1083    前镜顶距离           229.807
  物高             -762.00    镜筒长度             96.4234
  物距             -1241.99   入射光瞳距离         19.6498
  有效焦距          129.598   出射光瞳距离        -136.742
  象距              133.383   孔径阑直径           37.137
  孔径阑表面编号    5         到孔径阑的距离      -0.86元件的一阶性质
  元件编号  表面编号    光焦度             f′        lpp      l′pp
  1          1  2      -0.11992E-01      -83.389    3.2180    -0.76895
  2          3  4       0.18904E-01       52.899    1.5196    -7.8449
  3          6  7      -0.17354E-01      -57.623   -1.3444    -3.1347
  4          7  8       0.63978E-02       156.30    26.344     18.471
  5          9  10      0.80676E-02       123.95    17.207     2.1256
                        表5(续)双合透镜的一阶性质
元件编号    表面编号     光焦度            f′      lpp         l′pp
  3  4        6  8      -0.76835E-02    -130.15    -25.890    -48.110透镜组的一阶性质
  光焦度             f′        lpp         l′pp
  0.77162E-02      129.60     83.934      -9.1868表面1-4的一阶数据
  K                  PPl        PP2
  0.754400E-02     10.2057   -3.41220表面6-10的一阶数据
  K                  PP1        PP2
  0.446394E-02     93.0606    115.413
                         表6透镜数据
  表面                                         净通光
  编号  类型    半径      厚度       玻璃      孔径直径
  1     a     94.4760    15.00000    丙烯酸    42.79
  2     a    -528.9612   0.50000               37.32
  3           -          21.29889              36.84
  4          -27.7690    3.00000     丙烯酸    40.46
  5     a    -407.8987   4.00000               53.21
  6          -74.3345    12.15783    BK7       53.55
  7          -42.4453    0.50000               61.02
  8     a     164.4718   26.97190    丙烯酸    92.86
  9     a    -62.3055    135.01787             95.37标记说明
  a-    多项式非球面
        焦点偏移=0.74200偶次幂多项式非球面
  表面编号       D           E            F            G            H             I
  1          -2.1948E-07  -3.1161E-09   7.4142E-12  -1.0377E-14  -2.2299E-17  3.2858E-20
  2          -1.5111E-06  -5.1899E-09  -3.6485E-12   2.3336E-14   2.8430E-17 -1.0133E-19
  5          -3.9131E-07  -6.8333E-10   5.5582E-13   6.5433E-16   1.3386E-20 -7.1347E-22
  8          -2.9686E-07  -3.7064E-12   9.5859E-15   4.9355E-18   1.5459E-21  5.8285E-25
  9           5.6173E-07   1.1183E-10   1.3209E-14   1.5832E-17-  1.7718E-20  7.9237E-24一阶数据
  f/数              3.50           总长度               1460.42
  放大率           -0.1083         前镜顶距离           218.446
  物高             -762.00         镜筒长度             83.4286
  物距             -1241.97        入射光瞳距离         14.3855
  有效焦距          128.370        出射光瞳距离        -110.515
  象距              135.018        孔径阑直径           35.707
  孔径阑表面编号    3              孔径阑的距离         3.27元件的一阶性质
  元件编号  表面编号    光焦度         f′       lpp        l′pp
  1          1  2     0.73555E-02     135.95    1.4381     -8.0518
  2          4  5    -0.19908E-01    -50.232   -0.13781    -2.0243
  3          6  7     0.59254E-02     168.76    16.511      9.4276
  4          8  9     0.10498E-01     95.259    13.631     -5.1638
                  表6(续)透镜的一阶性质
  光焦度          f′         lpp       l′pp
  0.77900E-02    128.37     71.383    -7.9999表面4-9的一阶数据
  K               PP1         PP2
  0.444232E-02   92.8040    107.813
                                          表7
   单元1     单元2
实例编号   表面编号     表面编号     f1     f2     f     f1/f2
    1     1~5     7~12     199.16     448.33*     198.99*     0.444
    2     1~5     7~12     204.00     430.37     199.00     0.474
    3     1~4     6~11     115.38     257.84*     129.60*     0.447
    4     1~4     6~11     121.20     242.18     129.74     0.500
    5     1~4     6~10     132.56     224.02     129.60     0.592
    6     1~2     4~9     135.95     225.11     128.37     0.604
由于菲涅尔透镜根本上为向场透镜,用于使透镜的入射光瞳与照射系统的出射光瞳耦合,所以计算得到的值没有考虑菲涅尔透镜。因此,菲涅尔透镜对透镜总焦距的影响很小,但对f2的影响较大,该影响不代表f2单元的实际作用。

Claims (12)

1.一种用于形成物体(14)之图象(16)的投影透镜(13),所述透镜(13)具有焦距f和一个孔径阑,并且由下述单元按从其图象至其物体的次序构成:
(a)第一透镜单元(U1),它具有正光焦度,焦距为f1;
(b)第二透镜单元(U2),它具有正光焦度,焦距为f2;
其中(i)所述孔径阑位于所述第一透镜单元(U1)和所述第二透镜单元(U2)之间;并且
     (ii)f1小于f2,
其特征在于,所述透镜(13)具有近似等于透镜焦距的后焦距。
2.如权利要求1所述的投影透镜(13),其特征在于,f1与f2的比小于0.75。
3.如权利要求1所述的投影透镜(13),其特征在于,所述第一透镜单元(U1)和所述第二透镜单元(U2)都至少具有一个非球面。
4.如权利要求1所述的投影透镜(13),其特征在于,所述第一透镜单元(U1)由单个正透镜元件构成。
5.如权利要求1所述的投影透镜,其特征在于,所述第一透镜单元(U1)从其图象开始依次包括:
(a)一负透镜元件;和
(b)一正透镜子单元。
6.如权利要求5所述的投影透镜(13),其特征在于,所述正透镜子单元与所述负透镜元件的间隔距离小于或等于f1的5%。
7.如权利要求5所述的投影透镜(13),其特征在于,所述正透镜子单元是一个颜色校正双合透镜。
8.如权利要求1、5、6或7所述的投影透镜(13),其特征在于,所述第二透镜单元(U2)包括一个颜色校正双合透镜和一个至少有一个非球面的正透镜元件。
9.如权利要求1所述的投影透镜(13),其特征在于,所述第二透镜单元(U2)在其图像侧包括一个负透镜单元。
10.如权利要求1所述的投影透镜(13),其特征在于,f1/f小于或等于1.1。
11.一种用于形成物体(14)之图象(16)的投影透镜系统,其特征在于,所述透镜系统包括:
(a)照射系统,它包括光源(10)和用于形成光源(10)的象的照射光学装置(12);
(b)象素化面板,它构成物体(14);和
(c)权利要求1、9或10所述的投影透镜(13)。
12.如权利要求11所述的投影透镜系统,其特征在于,还包括一场透镜(FL),所述场透镜位于所述象素化面板和所述投影透镜(13)之间。
CN97194167A 1996-04-29 1997-04-28 液晶显示投影透镜 Expired - Fee Related CN1110716C (zh)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100414433C (zh) * 2003-11-28 2008-08-27 株式会社日立制作所 投影光学单元和投影型图像显示装置

Families Citing this family (57)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5870228A (en) * 1996-05-24 1999-02-09 U.S. Precision Lens Inc. Projection lenses having larger back focal length to focal length ratios
EP0825474B1 (en) * 1996-08-16 2003-11-26 3M Innovative Properties Company Mini-zoom projection lenses for use with pixelized panels
US5991089A (en) * 1997-01-31 1999-11-23 U.S. Precision Lens Inc. Long focal length projection lenses for use with large pixelized panels
US5900987A (en) * 1997-02-13 1999-05-04 U.S. Precision Lens Inc Zoom projection lenses for use with pixelized panels
EP1031050B1 (en) * 1997-11-13 2006-03-01 3M Innovative Properties Company Wide field of view projection lenses for compact projection lens systems employing pixelized panels
US6301057B1 (en) 1999-02-02 2001-10-09 Corning Precision Lens Long focal length projection lenses
JP2001124987A (ja) * 1999-10-29 2001-05-11 Sony Corp 投射レンズ
US6515801B1 (en) 2001-12-21 2003-02-04 Koninklijke Philips Electronics N.V. Lateral color compensation for projection displays
JP4671588B2 (ja) * 2003-08-11 2011-04-20 株式会社日立製作所 投写光学ユニット及び投写型カラー映像表示装置とこれを用いた背面投写型カラー映像表示装置
JP2005195830A (ja) * 2004-01-07 2005-07-21 Hitachi Ltd 表示装置、及び背面投写型映像表示装置
GB0522968D0 (en) 2005-11-11 2005-12-21 Popovich Milan M Holographic illumination device
GB0718706D0 (en) 2007-09-25 2007-11-07 Creative Physics Ltd Method and apparatus for reducing laser speckle
JP5229955B2 (ja) * 2009-01-29 2013-07-03 富士フイルム株式会社 投写レンズおよびこれを用いた投写型表示装置
JP5199148B2 (ja) * 2009-02-24 2013-05-15 富士フイルム株式会社 投写レンズおよびこれを用いた投写型表示装置
US9335604B2 (en) 2013-12-11 2016-05-10 Milan Momcilo Popovich Holographic waveguide display
US11726332B2 (en) 2009-04-27 2023-08-15 Digilens Inc. Diffractive projection apparatus
US11204540B2 (en) 2009-10-09 2021-12-21 Digilens Inc. Diffractive waveguide providing a retinal image
TWI431324B (zh) * 2010-12-28 2014-03-21 Asia Optical Co Inc Miniature projection lens
CN103370645B (zh) * 2011-01-31 2016-09-14 富士胶片株式会社 投影镜头和投影显示设备
US9274349B2 (en) 2011-04-07 2016-03-01 Digilens Inc. Laser despeckler based on angular diversity
CN102819090B (zh) * 2011-06-09 2015-03-25 中山市云创知识产权服务有限公司 投影镜头
WO2013027004A1 (en) 2011-08-24 2013-02-28 Milan Momcilo Popovich Wearable data display
WO2016020630A2 (en) 2014-08-08 2016-02-11 Milan Momcilo Popovich Waveguide laser illuminator incorporating a despeckler
US10670876B2 (en) 2011-08-24 2020-06-02 Digilens Inc. Waveguide laser illuminator incorporating a despeckler
WO2013102759A2 (en) 2012-01-06 2013-07-11 Milan Momcilo Popovich Contact image sensor using switchable bragg gratings
CN106125308B (zh) 2012-04-25 2019-10-25 罗克韦尔柯林斯公司 用于显示图像的装置和方法
WO2013167864A1 (en) 2012-05-11 2013-11-14 Milan Momcilo Popovich Apparatus for eye tracking
JP5871743B2 (ja) * 2012-07-31 2016-03-01 キヤノン株式会社 結像光学系、及びそれを用いた投射型画像表示装置、撮像装置
US9933684B2 (en) * 2012-11-16 2018-04-03 Rockwell Collins, Inc. Transparent waveguide display providing upper and lower fields of view having a specific light output aperture configuration
WO2014188149A1 (en) 2013-05-20 2014-11-27 Milan Momcilo Popovich Holographic waveguide eye tracker
WO2015015138A1 (en) 2013-07-31 2015-02-05 Milan Momcilo Popovich Method and apparatus for contact image sensing
US10359736B2 (en) 2014-08-08 2019-07-23 Digilens Inc. Method for holographic mastering and replication
WO2016042283A1 (en) 2014-09-19 2016-03-24 Milan Momcilo Popovich Method and apparatus for generating input images for holographic waveguide displays
US10423222B2 (en) 2014-09-26 2019-09-24 Digilens Inc. Holographic waveguide optical tracker
WO2016113533A2 (en) 2015-01-12 2016-07-21 Milan Momcilo Popovich Holographic waveguide light field displays
CN107873086B (zh) 2015-01-12 2020-03-20 迪吉伦斯公司 环境隔离的波导显示器
CN107533137A (zh) 2015-01-20 2018-01-02 迪吉伦斯公司 全息波导激光雷达
US9632226B2 (en) 2015-02-12 2017-04-25 Digilens Inc. Waveguide grating device
US10459145B2 (en) 2015-03-16 2019-10-29 Digilens Inc. Waveguide device incorporating a light pipe
US10591756B2 (en) 2015-03-31 2020-03-17 Digilens Inc. Method and apparatus for contact image sensing
WO2017060665A1 (en) 2015-10-05 2017-04-13 Milan Momcilo Popovich Waveguide display
US10983340B2 (en) 2016-02-04 2021-04-20 Digilens Inc. Holographic waveguide optical tracker
EP3433659A1 (en) 2016-03-24 2019-01-30 DigiLens, Inc. Method and apparatus for providing a polarization selective holographic waveguide device
WO2017178781A1 (en) 2016-04-11 2017-10-19 GRANT, Alastair, John Holographic waveguide apparatus for structured light projection
EP3548939A4 (en) 2016-12-02 2020-11-25 DigiLens Inc. UNIFORM OUTPUT LIGHTING WAVEGUIDE DEVICE
US10545346B2 (en) 2017-01-05 2020-01-28 Digilens Inc. Wearable heads up displays
CN111386495B (zh) 2017-10-16 2022-12-09 迪吉伦斯公司 用于倍增像素化显示器的图像分辨率的系统和方法
JP7404243B2 (ja) 2018-01-08 2023-12-25 ディジレンズ インコーポレイテッド 導波管セル内のホログラフィック格子の高スループット記録のためのシステムおよび方法
US10914950B2 (en) 2018-01-08 2021-02-09 Digilens Inc. Waveguide architectures and related methods of manufacturing
CN108279485A (zh) * 2018-03-09 2018-07-13 浙江舜宇光学有限公司 投影镜头
EP4372451A2 (en) 2018-03-16 2024-05-22 Digilens Inc. Holographic waveguides incorporating birefringence control and methods for their fabrication
WO2020023779A1 (en) 2018-07-25 2020-01-30 Digilens Inc. Systems and methods for fabricating a multilayer optical structure
JP2022520472A (ja) 2019-02-15 2022-03-30 ディジレンズ インコーポレイテッド 統合された格子を使用してホログラフィック導波管ディスプレイを提供するための方法および装置
CN113728258A (zh) 2019-03-12 2021-11-30 迪吉伦斯公司 全息波导背光及相关制造方法
KR20220016990A (ko) 2019-06-07 2022-02-10 디지렌즈 인코포레이티드. 투과 및 반사 격자를 통합하는 도파관 및 관련 제조 방법
CN114341729A (zh) 2019-07-29 2022-04-12 迪吉伦斯公司 用于使像素化显示器的图像分辨率和视场倍增的方法和设备
WO2021041949A1 (en) 2019-08-29 2021-03-04 Digilens Inc. Evacuating bragg gratings and methods of manufacturing

Family Cites Families (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2346062A (en) * 1942-06-05 1944-04-04 Eastman Kodak Co Lens
US2380210A (en) * 1943-12-14 1945-07-10 Eastman Kodak Co Telecentric lens system
DE1902427A1 (de) * 1969-01-18 1970-08-06 Bosch Elektronik Gmbh Vorrichtung zum Ab- und Aufblenden fuer kinematographische Kameras
JPS5510171B2 (zh) * 1975-01-13 1980-03-14
JPS5737990A (en) * 1980-08-15 1982-03-02 Victor Co Of Japan Ltd Projection type color picture display device
GB2143962A (en) * 1983-07-25 1985-02-20 Philips Electronic Associated Projection lens systems
US4810075A (en) * 1984-03-26 1989-03-07 Hitachi, Ltd. Projection system with a cathode ray tube and a lens
US4776681A (en) * 1986-01-17 1988-10-11 U.S. Precision Lens, Incorporated Projection lens
US4682862A (en) * 1986-01-17 1987-07-28 U.S. Precision Lens Incorporated Projection lens
US5066113A (en) * 1989-08-18 1991-11-19 Nikon Corporation Projecting lens
US5200861A (en) * 1991-09-27 1993-04-06 U.S. Precision Lens Incorporated Lens systems
DE4236601A1 (en) * 1991-10-29 1993-05-06 Asahi Kogaku Kogyo K.K., Tokio/Tokyo, Jp Projection lens system - has lens dispersing indices determined by formula taking indices of refraction into account
US5218480A (en) * 1991-12-03 1993-06-08 U.S. Precision Lens Incorporated Retrofocus wide angle lens
US5677798A (en) * 1993-10-28 1997-10-14 Asahi Kogaku Kogyo Kabushiki Kaisha Image forming lens system
JP3445404B2 (ja) * 1994-08-12 2003-09-08 ペンタックス株式会社 投影レンズ及び投影装置
US5625495A (en) * 1994-12-07 1997-04-29 U.S. Precision Lens Inc. Telecentric lens systems for forming an image of an object composed of pixels
US5963375A (en) * 1996-01-31 1999-10-05 U.S. Precision Lens Inc. Athermal LCD projection lens
US5870228A (en) * 1996-05-24 1999-02-09 U.S. Precision Lens Inc. Projection lenses having larger back focal length to focal length ratios
US5699195A (en) * 1996-06-07 1997-12-16 Proxima Corporation Projection lens arrangement and method of using same
EP0825474B1 (en) * 1996-08-16 2003-11-26 3M Innovative Properties Company Mini-zoom projection lenses for use with pixelized panels
US5900987A (en) * 1997-02-13 1999-05-04 U.S. Precision Lens Inc Zoom projection lenses for use with pixelized panels

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100414433C (zh) * 2003-11-28 2008-08-27 株式会社日立制作所 投影光学单元和投影型图像显示装置

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