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    • 6. 发明授权
    • Mount for integrated circuit device
    • 用于集成电路器件的安装
    • US6113043A
    • 2000-09-05
    • US2150
    • 1997-12-31
    • Frank J. PoradishJerry L. Taylor
    • Frank J. PoradishJerry L. Taylor
    • H01L23/12A47B96/06G02B7/00G02B26/08H01L23/32
    • G02B7/00G02B26/0833H01L23/32H01L2924/0002
    • A mount (10) for an integrated circuit, which permits the integrated circuit to be accurately positioned relative to other system components. The mount (10) rests on a base (200) that is part of some other system component and that has two mounting posts (210). The main body of the mount (10) is a frame (110) that holds the integrated circuit and has post apertures (120) that receive the mounting posts (210). The frame (110) has interior channels (170) that extend from the post aperture and that contain plunger/spring pairs (150, 160). A screw (181) pushed against a wedge-shaped end (152) of a plunger (150) causes the plunger (150) to push against a mounting post (210), causing the mount (10) to move relative to the base (200). The plunger/spring pairs (150, 160) provide translational and rotational adjustments. A tripod arrangement of set screws (181) provides adjustment of tilt and height. An inner frame (53) can be added to provide for electrical connections.
    • 用于集成电路的安装件(10),其允许集成电路相对于其他系统部件被精确定位。 安装件(10)位于作为一些其他系统部件的一部分并且具有两个安装柱(210)的基座(200)上。 安装架(10)的主体是保持集成电路并具有接收安装柱(210)的柱孔(120)的框架(110)。 框架(110)具有从柱孔延伸并且包含柱塞/弹簧对(150,160)的内部通道(170)。 按压柱塞(150)的楔形端部(152)的螺钉(181)使柱塞(150)推靠在安装柱(210)上,使得安装件(10)相对于基座( 200)。 柱塞/弹簧对(150,160)提供平移和旋转调节。 固定螺钉(181)的三脚架布置提供了倾斜和高度的调整。 可以添加内框架(53)以提供电连接。
    • 7. 发明授权
    • Lamp reflector cooling air deflector
    • 灯反射器冷却空气导流板
    • US07736026B2
    • 2010-06-15
    • US10186851
    • 2002-07-01
    • Bryan R. TeichgraeberFrank J. PoradishScott Patrick OvermannSteven P. Krycho
    • Bryan R. TeichgraeberFrank J. PoradishScott Patrick OvermannSteven P. Krycho
    • F21V11/00
    • F21V29/60F21V29/02F21V29/74F21V29/83G03B21/16
    • To improve the cooling efficiency and ensure uniform cooling of all portions of the inside back surface of the reflector, a deflector (108) has been developed. The air deflector (108) typically encircles the lamp (102) allowing air (110) to flow between the deflector (108) and the lamp (102). This air (110) cools the lamp (102). Air (112) passing between the deflector (108) and the reflector (100) is deflected outward to cool the inside surface of the reflector near the lamp (102). Because the deflector (108) is small and is located directly behind the lamp (102), it does not block any of the useful light generated by the lamp (102). The light striking the deflector (108) from the lamp (102), if not for the deflector (108), would have passed through the opening in the reflector (100) and would have been lost. The deflector (108) typically has a number of vanes around the perimeter of a cylindrical body portion. The vanes are bent outward at an angle sufficient to force part of the cooling air to flow across the inside back surface of the reflector.
    • 为了提高冷却效率并确保反射器内表面的所有部分的均匀冷却,已经开发了偏转器(108)。 空气导流板(108)通常环绕灯(102),允许空气(110)在偏转器(108)和灯(102)之间流动。 该空气(110)冷却灯(102)。 在偏转器(108)和反射器(100)之间通过的空气(112)向外偏转以冷却靠近灯(102)的反射器的内表面。 由于偏转器(108)小并且位于灯(102)的正后方,所以它不阻挡由灯(102)产生的任何有用的光。 如果不是用于偏转器(108),则从灯(102)撞击偏转器(108)的光将已经通过反射器(100)中的开口并且将已经丢失。 偏转器(108)通常具有围绕圆柱形主体部分的周边的多个叶片。 叶片以足以迫使部分冷却空气流过反射器内表面的角度向外弯曲。
    • 10. 发明授权
    • Automated lamp focus
    • 自动灯聚焦
    • US06788469B2
    • 2004-09-07
    • US10039127
    • 2001-12-31
    • Duane Scott DewaldWilliam B. WernerFrank J. Poradish
    • Duane Scott DewaldWilliam B. WernerFrank J. Poradish
    • G02B2714
    • H04N9/3105H04N9/3155H04N9/3194
    • Methods for measuring and automatically controlling the light distribution and overall brightness in electronic-based spatial light modulator projection display systems. One method takes a small fraction of the projected light from a partial turning mirror 407 in the projector's optics path and focuses this light on to a detector 420 for use in controlling the light distribution and brightness of the system. Another method uses an array of embedded light sensors 518-522 at chosen locations on the surface of a display screen 517 to control the light distribution and brightness parameters of the projection system. Both methods use a micro-controller, servomotors, and an adjustable power supply, controlled by the detector/sensor outputs, to maintain the desired light distribution and brightness in the projected image.
    • 用于测量和自动控制电子空间光调制器投影显示系统中的光分布和总体亮度的方法。 一种方法在投影仪的光学路径中占据部分转向镜407的投射光的一小部分,并将该光聚焦到检测器420上,以用于控制系统的光分布和亮度。 另一种方法是在显示屏幕517的表面上的选定位置处使用嵌入式光传感器518-522的阵列来控制投影系统的光分布和亮度参数。 两种方法都使用微控制器,伺服电机和由检测器/传感器输出控制的可调节电源,以保持投影图像中所需的光分布和亮度。