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    • 1. 发明授权
    • Compact display system controlled by eye position sensory system
    • 紧凑型显示系统由眼睛位置感觉系统控制
    • US06603443B1
    • 2003-08-05
    • US09182951
    • 1998-10-29
    • Alfred P. HildebrandGregory J. Kintz
    • Alfred P. HildebrandGregory J. Kintz
    • G09G500
    • G02B27/144G02B5/30G02B17/0808G02B17/0856G02B25/008G02B27/0101G02B27/027G02B27/1066G02B2027/0125G02B2027/0154G02B2027/0169G02B2027/0187
    • A compact virtual image electronic display system including a beamsplitting magnification optic on which a source object is projected, the beamsplitting magnification optic having a refractive surface and a partially reflective surface for magnifying and reflecting the source object as a magnified virtual image, and a reflective element positioned for receiving and reflecting the magnified virtual image back to the beamsplitting magnification optic. The beamsplitting magnification optic receives the reflected magnified virtual image and magnifies and transmits it through the beamsplitting magnification optic as a compound magnified image of the magnified virtual image to an observer. In this display system, the beamsplitting magnification optic and reflective element are positioned such that the source object is projected on the beamsplitting magnification optic at least partially within an area of the beamsplitting magnification optic on which the reflected magnified virtual image is received by the beamsplitting magnification optic.
    • 一种紧凑的虚像图像电子显示系统,包括其上投射有源物体的分束放大光学器件,具有折射表面的分束放大光学器件和用于放大和反射源物体作为放大虚像的部分反射表面,以及反射元件 定位成用于接收和反射放大的虚像回到分束放大镜。 分束放大光学器件接收反射的放大虚像,并通过分束放大光学器件放大并透射它作为放大虚像的复合放大图像给观察者。 在该显示系统中,分束放大光学元件和反射元件被定位成使得源物体至少部分地在分束放大镜的区域内投射到分束放大光学器件上,其中反射的放大的虚像被其分束放大 光学。
    • 2. 发明授权
    • Phone with ergonomic virtual image display
    • 手机具有符合人体工程学的虚拟图像显示
    • US06275714B1
    • 2001-08-14
    • US09031263
    • 1998-02-26
    • Gregory J. KintzDavid L. Phillips
    • Gregory J. KintzDavid L. Phillips
    • H04B138
    • H04M1/0254H04M1/0202H04M1/0262
    • A phone accessory which include an insert which can be positioned between a phone and power source. The insert has a first side with a set of electrical contacts which align with electrical contacts on the phone when the phone is attached to the insert. The insert also has a second side with a set of electrical contacts which align with electrical contacts on the power source when the power source is attached to the insert. When the insert is positioned between the phone and the power source, the phone is in electrical communication with the power source through the insert. The insert also includes an insert dataport which couples with a dataport on the phone when the phone is attached to the insert. A virtual image display is attached to the insert and in electrical communication with the insert dataport for receiving image data from the phone through the phone and insert dataports.
    • 一种电话附件,其中包括可位于电话和电源之间的插入件。 插入件具有第一侧,当手机连接到插入件时,具有一组电触点,其与电话上的电触点对准。 插入件还具有第二侧,当电源附接到插入件时,具有一组电触点,其与电源上的电触点对准。 当插入件位于电话和电源之间时,手机通过插入件与电源电连通。 该插入件还包括一个插入数据端口,当手机连接到插入件时,该数据端口与电话上的数据端口耦合。 虚拟图像显示器附接到插入件并与插入数据端口电通信,用于通过电话从手机接收图像数据并插入数据端口。
    • 4. 发明授权
    • Twice folded compound magnified virtual image electronic display
    • 两倍折叠复合放大虚拟图像电子显示
    • US5684497A
    • 1997-11-04
    • US441529
    • 1995-05-15
    • Alfred P. HildebrandGregory J. Kintz
    • Alfred P. HildebrandGregory J. Kintz
    • G02B5/30G02B17/08G02B25/00G02B27/00G02B27/01G02B27/02G02B27/14G02B27/10
    • G02B27/144G02B17/0808G02B17/0856G02B25/008G02B27/0101G02B27/027G02B27/1066G02B2027/0125G02B2027/0154G02B2027/0169G02B2027/0187G02B5/30
    • A compact, virtual image electronic display system is provided for forming a compound magnified virtual image of a source object. The display system includes a microdisplay for producing the source object, a first reflective magnification optic, and a second magnification optic which, in combination with the first magnification optic, forms a compound magnified virtual image. The first and second magnification optics may be separate optics. Alternatively, a single beamsplitting magnification optic may be used as both the first and second magnification optic. When a single beamsplitting magnification optic is employed, the beamsplitting magnification optic serves as both a first, reflective magnification optic to produce a magnified virtual image and as a second, transmissive magnification optic to produce a compound magnified virtual image which is seen by the observer. By using the same optic in a reflective mode as the first magnification optic and in a transmissive mode as the second magnification optic, any aberrations introduced into the image during the first stage of magnification are substantially removed during the second stage of magnification. As a result, the compound magnified virtual image produced is substantially aberration free.
    • 提供了一种紧凑的虚像图像电子显示系统,用于形成源物体的复合放大虚像。 显示系统包括用于产生源物体的微显示器,第一反射放大光学器件和与第一放大光学元件组合形成复合放大虚像的第二放大光学器件。 第一和第二放大光学器件可以是分离的光学器件。 或者,单个分束放大光学器件可以用作第一和第二放大光学器件。 当使用单个分光放大光学器件时,分束放大光学器件用作第一反射放大光学器件以产生放大的虚像,并且用作第二透射放大光学器件,以产生由观察者看到的复合放大虚像。 通过使用与第一放大光学器件相同的光学器件,并且在作为第二放大光学器件的透射模式中,在放大的第二阶段期间,基本上去除了在放大的第一阶段期间引入到图像中的任何像差。 结果,所产生的化合物放大的虚拟图像基本上是无差错的。
    • 10. 发明授权
    • Compact display system controlled by eye position sensor system
    • 紧凑型显示系统由眼睛位置传感器系统控制
    • US6055110A
    • 2000-04-25
    • US372651
    • 1999-08-11
    • Gregory J. KintzAlfred P. Hildebrand
    • Gregory J. KintzAlfred P. Hildebrand
    • G02B5/30G02B27/00G02B27/01G02B27/02G02B27/14G02B17/00
    • G02B27/1033G02B27/0101G02B27/025G02B27/1066G02B27/126G02B27/144G02B2027/0118G02B2027/0125G02B2027/0169G02B5/30
    • A virtual image display system is provided which is made thinner through the use of an immersed beam splitter, and in one embodiment, total internal reflection. The display system includes an imaging surface on which a source object is formed, a first optical element having a reflective function and a magnification function, a second optical element having a magnification function and an immersed beam splitting element positioned between the first and second optical elements, the immersed beam splitting element including a beam splitter surrounded by an optically transparent material having a refractive index greater than air. An illumination source projects the source object formed at the imaging surface through the optically transparent material to the beam splitter. The beam splitter reflects the projected source object to the first optical element. The first optical element magnifies the projected source object and reflects a magnified virtual image of the projected source object to the beam splitter. The magnified virtual image traverses the beam splitter to the second optical element which magnifies the magnified virtual image to produce a compound magnified virtual image of the source object.
    • 提供一种通过使用浸入式分束器使其变薄的虚像显示系统,在一个实施例中,全内反射。 显示系统包括其上形成有源物体的成像表面,具有反射功能和放大功能的第一光学元件,具有放大功能的第二光学元件和位于第一和第二光学元件之间的浸入光束分离元件 所述浸入式分束元件包括由折射率大于空气的光学透明材料包围的分束器。 照明源将形成在成像表面处的源物体通过光学透明材料投射到分束器。 分束器将投射的源物体反射到第一光学元件。 第一光学元件放大投影的源对象并将投影的源对象的放大的虚像映射到分束器。 放大的虚拟图像将分束器穿过第二光学元件,该第二光学元件放大放大的虚拟图像以产生源对象的复合放大虚拟图像。