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    • 4. 发明申请
    • ELECTROSTATIC DRIVE, MICROMECHANICAL COMPONENT AND METHOD FOR PRODUCING AN ELECTROSTATIC DRIVE AND A MICROMECHANICAL COMPONENT
    • 静电驱动,微机械结构和方法用于静电驱动器和微机械部件
    • WO2010046155A3
    • 2010-12-16
    • PCT/EP2009060881
    • 2009-08-24
    • BOSCH GMBH ROBERTPIRK TJALFPINTER STEFANKRUEGER MICHAELMUCHOW JOERGFRITZ JOACHIMFRIESE CHRISTOPH
    • PIRK TJALFPINTER STEFANKRUEGER MICHAELMUCHOW JOERGFRITZ JOACHIMFRIESE CHRISTOPH
    • H02N1/00
    • H02N1/006Y10T29/49002
    • The invention relates to an electrostatic drive having an interior frame (16), at least one intermediate frame (14) surrounding the interior frame, and an exterior frame (12) surrounding the interior frame (12) and the at least one intermediate frame (14), wherein two adjacent frames (12, 14, 16) of the interior, intermediate, and exterior frames (12, 14, 16) are connected to each other via a spring element (22, 24, 26), wherein the spring elements (22, 24, 26) through which two adjacent frames (12, 14, 16) of the interior, intermediate, and exterior frames (12, 14,16) are connected to each other are disposed such that the longitudinal directions of the spring elements (22, 24, 26) are positioned on a mutual spring longitudinal axis (28), and wherein electrode fingers are disposed on frame joists (12a,14a,16a) of the interior frame (16), of the at least one intermediate frame (14), and of the exterior frame (12), said joists being aligned directly parallel to the spring longitudinal axis (28). The invention further relates to a method for producing an electrostatic drive. The invention also relates to a micromechanical component (10) and to a method for producing a micromechanical component (10).
    • 本发明涉及一种具有内框架(16),至少一个围绕所述内框架中间框架(14)和所述内框架(12)和所述至少一个中间框架(14)围绕所述外框架(12),每两个相邻的帧(的静电驱动 12,14,16)(通过至少一个弹簧元件(22,24,26)内,中间和外框架12,14,16)被连接到彼此,其中所述弹簧元件(22,24,26),通过该 内层,中间和外框架(12,14,16)中的每两个相邻的帧(12,14,16)连接在一起,被布置成使得所述弹簧元件(22,24,26)的一个共同的弹簧轴线的纵向方向 (28)位于和直接平行于所述弹簧纵向轴线的内框架(16)的(28)框架梁(12A,14A,16A),所述至少一个中间框架(14)和所述外框架(12)的电极指排列。 本发明还涉及一种静电驱动器的制造方法。 此外,本发明提供了一种微机械部件(10)和用于微机械部件的制造方法(10)涉及。
    • 9. 发明申请
    • METHOD FOR OPERATING AN ELECTROSTATIC DRIVE AND ELECTROSTATIC DRIVES
    • 一种用于操作静电驱动和静态DRIVES
    • WO2010057703A3
    • 2011-08-18
    • PCT/EP2009062352
    • 2009-09-24
    • BOSCH GMBH ROBERTPIRK TJALFPINTER STEFANFRITZ JOACHIMFRIESE CHRISTOPH
    • PIRK TJALFPINTER STEFANFRITZ JOACHIMFRIESE CHRISTOPH
    • H02N1/00G02B26/08
    • H02N2/14G02B6/3512G02B26/0841H02N1/006
    • The invention relates to a method for operating an electrostatic drive having a stator electrode (50) and an actuator electrode (52), which are designed as multilayer electrodes, wherein the actuator electrode (52) in the de-energized starting position, without a voltage applied between a stator electrode subunit (50b, 50c) and an actuator electrode subunit (52b, 52c), is arranged with respect to the stator electrode (50) such that the first actuator electrode subunit (52b) has a smaller distance from the first stator electrode subunit (50b) than the second actuator electrode subunit (52c), comprising the steps of: predeflecting the actuator electrode (52) with respect to the stator electrode (50) out of the de-energized starting position and into a first end position by applying a first potential (p1) to the first stator electrode subunit (50b) and applying a second potential (p2) deviating from the first potential (p1) to the first actuator electrode subunit (52b); and applying a third potential (p3) to the second stator electrode subunit (50c) and to the second actuator electrode subunit (52c), which deviates from the first potential (p1) and the second potential (p2).
    • 本发明涉及一种方法,用于在其去激励的初始位置的定子电极(50)和形成为多层电极的致动器电极(52),其中,所述致动器电极(52)不具有一个定子之间操作的静电驱动 -Elektrodenuntereinheit(50B,50C)和一个Akior电极子单元(52B,52C)施加的电压被如此布置成相对于所述定子电极(50),该第一致动器电极子单元(52B)具有较小的Absland向第一定子 Eiektrodenuntereinheit(50B)AIS第二致动器电极子单元(52C),与所述步骤; 通过施加第一电势(P1)向第一定子Elektrodenuniereinheit前进相对于从在第一端部位置其spannursgsiosen初始位置定子电极(50)引导所述致动器电极(52)(50B)和第一的 电位(P1)不同的第二电势(P2)到所述第一致动器电极子单元(52B); 偏离并施加第三电位(P3)到第二定子电极子单元(50℃)和第二致动器电极子单元(52C),其从第一电位(P1)和所述第二电势(P2)。
    • 10. 发明申请
    • MICROMIRROR DEVICE AND METHOD FOR PRODUCING A MICROMIRROR DEVICE
    • 微镜装置及方法微镜装置
    • WO2009086977A2
    • 2009-07-16
    • PCT/EP2008065564
    • 2008-11-14
    • BOSCH GMBH ROBERTPIRK TJALFPINTER STEFANFRIESE CHRISTOPH
    • PIRK TJALFPINTER STEFANFRIESE CHRISTOPH
    • B81B7/00
    • G02B26/0841
    • The invention relates to a micromirror device, comprising a housing (10, 12), enclosing an inner volume (40), a mirror surface (28), arranged within the inner volume (40) and a light incidence window (14) arranged in a wall of the housing (10, 12), having a domed surface (42). The invention further relates to an optical device comprising a housing (10, 12), enclosing an inner volume (40), wherein an inner volume pressure (pI) exists in the inner volume (40), different from an external pressure (pA) in an external environment of the optical device and a pressure difference between the inner volume pressure (pI) and the external pressure (pA) is such that the light incidence window (14) is domed. The invention further relates to corresponding production methods for a micromirror device or an optical device.
    • 本发明涉及一种微镜装置,其包括壳体(10,12),其在所述内部(40)被布置包围的内部空间(40),至少一个反射镜板(28),和一个(在外壳10,12的壁 )形成的光入射窗(14)具有弯曲表面(42)的。 此外,本发明涉及一种包括一个壳体(10,12)具有内部(40),在内部空间中,所述(40)的存在的内部腔室压力(PI),其是光学装置围绕外叉开的外部压力(PA)的光学装置, 且其中形成的内部压力(Pa)之间的压力差(PI)和外部压力,使得光入射窗(14)是弓形的。 此外,微反射镜装置的本发明的相应的制造方法或光学器件涉及。