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    • 12. 发明授权
    • Optical system with extended boresight source
    • 具有扩展视轴源的光学系统
    • US06396647B1
    • 2002-05-28
    • US09542354
    • 2000-04-03
    • Chungte W. Chen
    • Chungte W. Chen
    • G02B900
    • F41G3/326
    • An optical system has an extended boresight source including a boresight light source that produces a light beam, a condenser lens that receives the light beam from the boresight light source, a spatial light integrator that receives the light beam from the condenser and mixes the light beam to reduce its spatial inhomogeneities, a constriction through which the light beam from the spatial light integrator is directed, and a collimator that receives the light beam which passes through the constriction and outputs a boresight light beam. The boresight light beam is typically provided to a sensor imager that uses the boresight light beam to establish its centroid.
    • 光学系统具有扩展的视轴源,其包括产生光束的视轴光源,接收来自视轴光源的光束的聚光透镜,接收来自冷凝器的光束的空间光积分器,并将光束 以减少其空间不均匀性,来自空间光积分器的光束通过该缩小被引导;以及准直器,其接收穿过收缩部并输出视轴光束的光束。 视轴光束通常提供给使用视轴光束建立其重心的传感器成像器。
    • 13. 发明授权
    • Variable surface relief kinoform optical element
    • 可变表面浮雕kinoform光学元件
    • US5969864A
    • 1999-10-19
    • US937640
    • 1997-09-25
    • Chungte W. ChenDavid M. Capps
    • Chungte W. ChenDavid M. Capps
    • G02B3/08G02B5/18
    • G02B5/1876
    • A kinoform optical element (KOE) has different surface relief heights in different zones of the kinoform surface, in order to optimize the first order diffraction efficiency in each zone. By increasing the first order diffraction efficiency, noise as well as ghost image problems may be reduced and contrast and resolution may be enhanced. In an exemplary embodiment, each zone, or even different areas of the same zone, has a non-constant step height that is preferably defined by a predetermined relationship between an optimal step height and an associated predominant angle of incidence associated with that particular zone or area. In the case of an optical system having a relatively large aperture and a relatively narrow field of view, each point of the KOE sees the entire image; the associated predominant angle of incidence at that point may be defined by a so-called "marginal" ray from the center of the entire image space (i.e., on the optical axis and at the effective "middle" of the usable depth of field). In the case of an optical system having a relatively small aperture and a relatively wide field of view , each point of the KOE sees only a portion of the image; the associated predominant angle of incidence at that point may be defined by an exemplary ray from the portion of the image space that is visible from that point. Since the optimum surface relief is dependent on the angle of incidence of the radiation relative to the orientation of the surface, diffraction efficiency can also be optimized by providing the kinoform with a non-planar surface contour such that all the predominant rays are normal to the active surface, in which case all the steps may have the same height.
    • Kinoform光学元件(KOE)在kinoform表面的不同区域中具有不同的表面浮雕高度,以便优化每个区域中的一阶衍射效率。 通过增加一级衍射效率,可以降低噪声以及重影图像问题,并且可以提高对比度和分辨率。 在示例性实施例中,相同区域的每个区域或甚至不同区域具有非恒定台阶高度,其优选地由最佳台阶高度与与该特定区域相关联的相关联的主要入射角之间的预定关系限定,或 区。 在光学系统具有相对较大的光圈和相对较窄的视野的情况下,KOE的每个点看到整个图像; 在该点处的相关联的主要入射角可以通过从整个图像空间的中心(即,在光轴上和在可用景深的有效“中间”)的所谓“边缘”射线来定义, 。 在光学系统具有相对小的孔径和相对宽的视场的情况下,KOE的每个点仅仅看到图像的一部分; 可以通过从该点可见的图像空间部分的示例性射线来定义在该点处的相关联的主要入射角。 由于最佳表面浮雕取决于辐射相对于表面的取向的入射角,所以衍射效率也可以通过提供非平面表面轮廓的kinoform来优化,使得所有主要的光线垂直于 活动表面,在这种情况下,所有步骤可能具有相同的高度。
    • 16. 发明授权
    • Lensless helmet/head mounted display
    • 无镜头盔/头戴式显示器
    • US5715094A
    • 1998-02-03
    • US758324
    • 1996-12-03
    • David A. AnsleyChungte W. ChenRonald G. Hegg
    • David A. AnsleyChungte W. ChenRonald G. Hegg
    • G02B27/00G02B27/01G02B27/14
    • G02B27/017G02B27/0172G02B2027/011G02B2027/0132
    • A helmet/head mounted display including a display image source and a reflective visor for each eye. The image source includes a fiber optic cover plate with a planar input surface and a curved output surface which has curvature providing the correct curvature. The image source further includes a self-emitting device such as a field electrode display or electroluminescent device, or a polymer dispersed liquid crystal (PDLC) sandwiched between a thin, sharply tapered fiber optic plate and the fiber optic cover plate. For the PDLC image source, back light illumination is introduced through the tapered fiber optic plate, passes through or is scattered by the PDLC and then through the fiber optic face plate to the visor, for reflection to the observer's eye. The fiber optic face plate is constructed with a very low numerical aperture. The fibers of the cover plate are oriented toward the eye as seen in the reflection from the visor to reduce undesirable reflected light. No lenses or beam splitters are in the light path between the image source and the visor.
    • 头盔/头戴式显示器,包括用于每只眼睛的显示图像源和反射遮阳板。 图像源包括具有平面输入表面的光纤盖板和具有提供正确曲率的曲率的弯曲输出表面。 图像源还包括诸如场电极显示器或电致发光器件的自发射器件或夹在薄的尖锐锥形光纤板和光纤覆盖板之间的聚合物分散液晶(PDLC)。 对于PDLC图像源,背光照明通过锥形光纤板引入,通过PDLC散射,然后通过光纤面板到达遮阳板,以反射到观察者的眼睛。 光纤面板的数值孔径非常小。 如从遮阳板的反射中看到的,盖板的纤维朝向眼睛定向以减少不期望的反射光。 没有镜头或分束器在图像源和遮阳板之间的光路中。
    • 18. 发明授权
    • Helmet visor display employing reflective, refractive and diffractive
optical elements
    • 使用反射,折射和衍射光学元件的头盔遮阳板显示器
    • US5526183A
    • 1996-06-11
    • US168785
    • 1993-11-29
    • Chungte W. Chen
    • Chungte W. Chen
    • G02B27/00G02B27/01G02B27/14
    • G02B27/0172G02B2027/011
    • An improved helmet visor display comprising three elements, including a tilted combiner, a refractive/diffractive relay module, and an image generator. The tilted combiner is a reflective-type combiner having either a spherical surface shape or a generalized aspheric surface shape. The relay module comprises a front-end collimating lens group, a pupil lens group in the middle, and a rear-end focusing lens group. The collimating lens group is comprised of one refractive doublet and one refractive-diffractive optical element. The combination of the refractive doublet and the refractive-diffractive optical element corrects for primary and secondary axial chromatic aberration, and significantly reduces higher order aberration as a result of power reduction in most lens elements. The pupil lens group comprises a conic or aspheric lens which reduces spherical aberration and enlarges the eye pupil. The focusing lens group comprises a refractive doublet and a wedge that relays the light emerging from the pupil lens group onto the image generator. A crown-flint refractive doublet in conjunction with a diffractive optical element may be employed in the focusing lens group to reduce primary and secondary lateral chromatic aberration and chromatic distortion. The wedge is used to reduce axial coma introduced by the tilted combiner.
    • 一种改进的头盔遮阳板显示器,包括三个元件,包括倾斜组合器,折射/衍射继电器模块和图像发生器。 倾斜的组合器是具有球形表面形状或广义非球面形状的反射型组合器。 继电器模块包括前端准直透镜组,中间的光瞳透镜组和后端聚焦透镜组。 准直透镜组由一个折射双折射衍射光学元件组成。 折射双折射和折射衍射光学元件的组合校正了一次和二次轴向色差,并且由于大多数透镜元件的功率降低,显着降低了高阶像差。 瞳孔透镜组包括减小球面像差并扩大眼睛瞳孔的圆锥或非球面透镜。 聚焦透镜组包括将从光瞳透镜组出射的光中继到图像发生器上的折射双折射和楔形物。 结合衍射光学元件的冠燧石折射双折射可以用于聚焦透镜组中以减少初级和次级横向色差和色度失真。 楔形件用于减少由倾斜的组合器引入的轴向彗差。
    • 19. 发明授权
    • Ultra-compact, wide field of view virtual image display optical system
    • 超小型,宽视场虚拟图像显示光学系统
    • US5357372A
    • 1994-10-18
    • US864863
    • 1992-04-07
    • Chungte W. ChenRonald G. Hegg
    • Chungte W. ChenRonald G. Hegg
    • G02B27/02G02B27/01G02B27/14
    • G02B27/0101
    • A virtual image display (VID) optical system that is very compact and has a wide field of view. The present optical system has good image quality, has simple optics, is very compact, provides wide field coverage, and has very large field overlaying. The system comprises a combiner and a catadioptric relay group disposed along an optical path between a cathode ray tube and an operator. The virtual image display system of the present invention is adapted to enlarge an image of the cathode ray tube viewed by the operator. The catadioptric relay group is typically comprised of a concave mirror and one refractive sub-group with at least one lens, and provides excellent image quality over a very wide field of view. The concave mirror contributes positive optical power to the system, thus providing for a compact optical system. The concave mirror may be tilted and/or decentered to balance the asymmetric aberrations generated by the combiner. The concave mirror may also have an axially symmetric or generalized surface shape to provide for aberration balance. The concave mirror and combiner cooperate to balance the field curvature introduced by a refractive shape of the relay group. The refractive group of the relay may also be tilted and/or decentered to reduce residual asymmetric aberration.
    • 虚拟图像显示(VID)光学系统非常紧凑并且具有广泛的视野。 本光学系统具有良好的图像质量,光学简单,非常紧凑,提供广泛的现场覆盖,并具有非常大的场覆盖。 该系统包括沿着阴极射线管和操作者之间的光路布置的组合器和反射折射继电器组。 本发明的虚拟图像显示系统适用于放大由操作者观察的阴极射线管的图像。 反射折射继电器组通常包括具有至少一个透镜的凹面镜和一个折射子组,并且在非常宽的视场中提供优异的图像质量。 凹面镜为系统提供了正光功率,从而为紧凑的光学系统提供了便利。 凹面镜可以倾斜和/或偏心以平衡由组合器产生的不对称像差。 凹面镜也可以具有轴对称或全面的表面形状以提供像差平衡。 凹面镜和组合器协调平衡由中继组的折射形状引入的场曲。 继电器的折射基还可以倾斜和/或偏心,以减少残余的不对称像差。
    • 20. 发明授权
    • Multiple-color null lens employing refractive and diffractive optical
elements
    • 使用折射和衍射光学元件的多色零透镜
    • US5155553A
    • 1992-10-13
    • US631834
    • 1990-12-21
    • Chungte W. Chen
    • Chungte W. Chen
    • G01B9/021G01B11/255
    • G01B11/255G01B9/021
    • Disclosed is an apparatus (10) for null lens testing of an optical element (20). This apparatus incorporates both refractive (32, 36) and diffractive (30, 34) optical elements to create a null lens testing apparatus (10) tuned to two separate wavelengths. By combining or superimposing the interference patterns from the two wavelengths in an interferometer (12) using the two-wavelength holographic technique, the null lens testing apparatus (10) can desensitize the tests such that a single null testing apparatus (10) can be used to test an optical element (20) from its early fabrication stages to its final polishing stages.
    • 公开了一种用于光学元件(20)的零透镜测试的装置(10)。 该装置包括折射(32,36)和衍射(30,34)光学元件,以产生调谐到两个分开的波长的零透镜测试装置(10)。 通过使用双波长全息技术在干涉仪(12)中组合或叠加来自两个波长的干涉图案,零透镜测试装置(10)可以使测试脱敏,使得可以使用单个零点测试装置(10) 以将光学元件(20)从其早期制造阶段测试到其最终抛光阶段。