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    • 21. 发明申请
    • FIELD EMISSION CHARGE CONTROLLED MIRROR (FEA-CCM)
    • 场发射电荷控制镜(FEA-CCM)
    • WO00022472A1
    • 2000-04-20
    • PCT/US1999/021455
    • 1999-10-14
    • B81B3/00G02B26/08G09G3/22H01J31/12H04N5/68H04N5/74G02B26/00
    • G02B26/0841H04N5/7458
    • A bright, high contrast, compact, large area, high-resolution light modulator (50) uses a field emitter array (FEA) (52) to address a charge controlled mirror (CCM) (54). The FEA deposits a charge pattern onto the CCM, which in turn produces electrostatic forces that deflect the micromirrors (58) in accordance with the amount of accumulated charge. The CCM that is used in combination with the FEA can be configured in many different ways to implement different actuation modes, e.g. attractive, repulsive, grid-actuated or membrane-actuated and different charge control modes, e.g. RC decay, RC sustain and charge control.
    • 明亮,高对比度,紧凑,大面积的高分辨率光调制器(50)使用场致发射阵列(FEA)(52)来寻址电荷控制镜(CCM)(54)。 FEA将电荷模式放置在CCM上,CCM又产生根据累积电荷的量偏转微镜(58)的静电力。 与FEA组合使用的CCM可以以许多不同的方式配置以实现不同的致动模式,例如, 有吸引力的,排斥的,栅格驱动的或膜致动的和不同的电荷控制模式,例如 RC衰减,RC持续和充电控制。
    • 22. 发明申请
    • METHOD OF PRODUCING LIGHT MODULATION DEVICE AND PROJECTOR
    • 生产调光装置和投影仪的方法
    • WO99054775A1
    • 1999-10-28
    • PCT/JP1998/001787
    • 1998-04-17
    • G02B26/08G02B26/02G09F9/00G09F19/22H04N5/74
    • G09F19/22G02B26/02G02B26/0858H04N5/7458
    • A method of producing a light modulation device in which no irregular reflection occurs. The method comprises the step (a) of forming a separation layer where separation occurs upon irradiation with light on a heat-resistant substrate, the step (b) of forming a piezoelectric layer on the separation layer, the step (d) of forming an electrode pattern on the piezoelectric layer and forming a mirror element in each of the pixels, the step (e) of electrically connecting an active element substrate on which active elements are provided in the respective pixels to the piezoelectric layer in such a way that the active elements correspond to the mirror elements, and the step (g) of causing separation in the separation layer by irradiating the separation layer with light from the heat-resistant substrate side.
    • 一种制造不发生不规则反射的光调制装置的方法。 该方法包括在耐热基板上照射光时形成分离层的步骤(a),在分离层上形成压电层的步骤(b),形成 电极图案,并且在每个像素中形成反射镜元件,步骤(e)将有源元件基板的各个像素中的有源元件电连接到压电层,使得有源元件基板 元件对应于镜元件,以及通过用耐光基板侧的光照射分离层而使分离层分离的步骤(g)。
    • 27. 发明申请
    • SCENE PROJECTOR
    • 场景投影机
    • WO1993008501A1
    • 1993-04-29
    • PCT/US1992008873
    • 1992-10-16
    • AURA SYSTEMS, INC.
    • AURA SYSTEMS, INC.UM, GregoryLEE, Yeon, Ho
    • G03B21/00
    • H04N9/3152G02B26/0816H04N5/7458
    • Optical energy from a broadband source (12) is focused on an aperture (30) in an opaque member (16). The energy exiting the aperture (30) is received off axis by a parabolic mirror (18) which collimates the energy. The collimated energy is reflected from each planar mirror of an actuated mirror array (20). The reflected energy from the mirror array (20) is reflected to the aperture (30) by the parabolic mirror (18). The orientation of each planar mirror determines the flux which passes through the aperture (30) or is reflected by a reflective face (28) of the opaque member (16). The energy reflected from this face (28) which is derived from each mirror corresponds to the flux intensity for a corresponding pixel. This energy may then be focused on a screen (24) to display the scene.
    • 来自宽带源(12)的光能聚焦在不透明构件(16)中的孔(30)上。 离开孔径(30)的能量通过准直能量的抛物面反射镜(18)离轴接收。 准直的能量从致动反射镜阵列(20)的每个平面镜反射。 来自反射镜阵列(20)的反射能量被抛物面镜(18)反射到光圈(30)。 每个平面镜的取向决定了通过孔(30)的通量或由不透明构件(16)的反射面(28)反射的通量。 从每个镜子导出的从该面(28)反射的能量对应于对应像素的通量强度。 然后可以将该能量聚焦在屏幕(24)上以显示场景。
    • 29. 发明申请
    • OPTICAL DEVICE FOR ENHANCING RESOLUTION OF AN IMAGE
    • 用于增强图像分辨率的光学装置
    • WO2016124782A1
    • 2016-08-11
    • PCT/EP2016/052580
    • 2016-02-06
    • OPTOTUNE AG
    • ASCHWANDEN, ManuelNIEDERER, DavidVENTURA, MarkSUTER, MarcelSTADLER, DavidSMOLKA, StephanPATSCHEIDER, RomanGEISSNER, Markus
    • G02B26/10
    • G02B7/1821G02B26/0816G02B26/0875G02B26/10H04N5/7458H04N9/3141H04N9/3188
    • The invention relates to an optical device (1) for enhancing the resolution of an image, comprising: a transparent plate member (10) configured for refracting a light beam (20) passing through the plate member (10), which light beam (20) projects an image comprised of rows and columns of pixels (40), a carrier (50) to which said transparent plate member (10) is rigidly mounted, wherein the carrier (50) is configured to be tilted between a first and a second position about a first axis (A), such that the plate member (10) is tilted between the first and the second position about the first axis (A), whereby said projected image (30) is shifted by a fraction (∆P) of a pixel, particularly by a half of a pixel, along a first direction (x), and an actuator means (60) that is configured to tilt the carrier (50) and therewith the plate member (10) between the first and the second position about the first axis (A).
    • 本发明涉及一种用于增强图像分辨率的光学装置(1),包括:透明板构件(10),其构造成折射通过所述板构件(10)的光束(20),所述光束(20) )投影由像素(40)的行和列组成的图像,刚性地安装有所述透明板构件(10)的载体(50),其中所述载体(50)构造成在第一和第二 使得所述板构件(10)围绕第一轴线(A)在第一和第二位置之间倾斜,由此所述投影图像(30)偏移分数(ΔP) 沿着第一方向(x)的像素,特别是像素的一半像素,以及致动器装置(60),其构造成使所述载体(50)和所述板构件(10)在所述第一和第二方向 关于第一轴线(A)的第二位置。