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    • 1. 发明申请
    • ELECTRONIC DEVICE AND CIRCUIT FOR PROVIDING TACTILE FEEDBACK
    • 用于提供触觉反馈的电子设备和电路
    • WO2009039068A2
    • 2009-03-26
    • PCT/US2008076474
    • 2008-09-16
    • MOTOROLA INCSADLER DANIEL JCRANFILL DAVID BOLLEY MICHAEL FTASHAKKOR ERIC VWAGNER DANIEL H
    • SADLER DANIEL JCRANFILL DAVID BOLLEY MICHAEL FTASHAKKOR ERIC VWAGNER DANIEL H
    • H01L41/09H04B1/38
    • G06F1/3203G06F3/016H01L41/042H03K2217/96062
    • A circuit (800) for controlling at least one piezoelectric actuator (142) includes a piezoelectric drive circuit (802) that generates unidirectional voltage drive signal, also referred to as Vout, at node (804). The piezoelectric actuator drive circuit (802) includes a boost switcher circuit or charging circuit (806), a buck switcher circuit or pulsed current sink discharge circuit (808) and a control signal generating circuit (810) that receives an input control signal (812) from, for example, a keyboard processor or other suitable processor (604) indicating that the device has requested generation of haptic feedback utilizing the piezoelectric actuator (142). The control signal generating circuit (810) provides at least two pulse-with-modulated control signals, one to control the charging circuit and one to control the discharging circuit to produce the unidirectional voltage drive signal, that in one example is a raised cosine drive signal (904).
    • 用于控制至少一个压电致动器(142)的电路(800)包括在节点(804)处产生单向电压驱动信号(也称为Vout)的压电驱动电路(802)。 压电致动器驱动电路(802)包括升压开关电路或充电电路(806),降压开关电路或脉冲电流吸收放电电路(808)和接收输入控制信号(812)的控制信号发生电路(810) )从例如键盘处理器或其他合适的处理器(604)指示设备已经请求使用压电致动器产生触觉反馈(142)。 控制信号发生电路(810)提供至少两个脉冲调制控制信号,一个用于控制充电电路,一个用于控制放电电路以产生单向电压驱动信号,在一个示例中为升余弦驱动 信号(904)。
    • 3. 发明申请
    • HANDHELD DEVICE HAVING LOCALIZED FORCE FEEDBACK
    • 手持设备具有局部力反馈
    • WO2006019629A3
    • 2007-01-25
    • PCT/US2005024347
    • 2005-07-08
    • MOTOROLA INCDAI XUNHUOLIVER MANUELSADLER DANIEL JFU CHIA-YU
    • DAI XUNHUOLIVER MANUELSADLER DANIEL JFU CHIA-YU
    • G09G5/00
    • G06F3/016G06F1/1626G06F3/0202G06F3/041
    • [0001] An electronic device (100) for performing intelligent operations includes a housing (112), a manually operable input (118, 122) for providing information to the electronic device, and a material (124) positioned between the manually operable input and the housing. An electromechanical transducer (218, 220) has a mechanical connection consisting of to the manually operable input and an electrical connection for receiving power, wherein substantially all of a mechanical output from the electromechanical transducer is provided to the manually operable input, the material preventing the mechanical output from being transmitted from the manually operable input to the housing. An electric circuit (210) is coupled mechanically to the housing and electronically to the electromechanical transducer for driving the electromechanical transducer in response to the intelligent operations so as to cause the electromechanical transducer to generate a tactile response that can be felt by a user through the manually operable input.
    • 一种用于执行智能操作的电子设备(100),包括外壳(112),用于向电子设备提供信息的手动操作输入(118,122)以及位于手动操作输入 住房。 机电换能器(218,220)具有由手动操作输入和用于接收电力的电连接组成的机械连接,其中来自机电换能器的基本上全部机械输出被提供给手动操作输入,材料防止 机械输出从手动操作输入端传递到壳体。 电路(210)机械地连接到外壳并且电子地连接到机电换能器以响应于智能操作来驱动机电换能器,以便使机电换能器产生用户可以感觉到的触觉响应 手动操作输入。
    • 5. 发明申请
    • METHOD AND APPARATUS FOR MANIPULATING A DISPLAYED IMAGE
    • 用于操纵显示图像的方法和装置
    • WO2009026052A4
    • 2009-06-04
    • PCT/US2008072913
    • 2008-08-12
    • MOTOROLA INCSADLER DANIEL JMANGAT PAWITTER J S
    • SADLER DANIEL JMANGAT PAWITTER J S
    • G06F3/041G06F3/048
    • G06F3/048G06F3/0488
    • A method is disclosed for manipulating an image displayed on an electronic device (100). The method includes panning the image in response to a detection of a first stroke (125, 410, 610 ) of a touch- and pressure-sensitive input modality (105) which is performed using an amount of touch pressure that meets a first pressure criterion, while the electronic device is in a pan mode; changing between the pan mode and a zoom mode in response to a touch pressure of the input modality that meets a second pressure criterion; and zooming the image in response to a second stroke (130, 415, 615) of the input modality, wherein the stroke is performed using an amount of touch pressure that meets a third pressure criterion, while the electronic device is in the zoom mode.
    • 公开了一种用于操纵显示在电子设备(100)上的图像的方法。 该方法包括响应于触摸和压敏输入模态(105)的第一笔划(125,410,610)的检测来平移图像,所述第一笔触(125,410,610)使用满足第一压力标准的触摸压力量 ,而电子设备处于平移模式; 响应于满足第二压力标准的输入模态的触摸压力,在平移模式和变焦模式之间变化; 以及响应于所述输入模态的第二笔划(130,415,615)来放大所述图像,其中当所述电子设备处于缩放模式时,使用满足第三压力准则的触摸压力的量执行所述笔划。
    • 6. 发明申请
    • METHOD AND APPARATUS FOR MANIPULATING A DISPLAYED IMAGE
    • 用于操纵显示图像的方法和设备
    • WO2009026052A3
    • 2009-04-23
    • PCT/US2008072913
    • 2008-08-12
    • MOTOROLA INCSADLER DANIEL JMANGAT PAWITTER J S
    • SADLER DANIEL JMANGAT PAWITTER J S
    • G06F3/041G06F3/048
    • G06F3/048G06F3/0488
    • A method is disclosed for manipulating an image displayed on an electronic device (100). The method includes panning the image in response to a detection of a first stroke (125, 410, 610 ) of a touch- and pressure-sensitive input modality (105) which is performed using an amount of touch pressure that meets a first pressure criterion, while the electronic device is in a pan mode; changing between the pan mode and a zoom mode in response to a touch pressure of the input modality that meets a second pressure criterion; and zooming the image in response to a second stroke (130, 415, 615) of the input modality, wherein the stroke is performed using an amount of touch pressure that meets a third pressure criterion, while the electronic device is in the zoom mode.
    • 公开了一种用于操纵显示在电子设备(100)上的图像的方法。 该方法包括响应于检测到使用满足第一压力标准的触摸压力量执行的触摸和压力敏感输入模态(105)的第一冲程(125,410,610) ,而电子设备处于平移模式; 响应于满足第二压力标准的输入模态的触摸压力在泛模式和缩放模式之间改变; 以及响应于所述输入模态的第二笔画(130,415,615)而缩放所述图像,其中,在所述电子设备处于所述缩放模式时,使用满足第三压力标准的触摸压力量来执行所述笔画。
    • 7. 发明申请
    • PHASE MIXING
    • 相混
    • WO2004101160A3
    • 2005-06-02
    • PCT/US2004014969
    • 2004-05-13
    • MOTOROLA INCSADLER DANIEL JCHANGRANI RAJNISH GCHOU CHIA FUZENHAUSERN FREDERIC
    • SADLER DANIEL JCHANGRANI RAJNISH GCHOU CHIA FUZENHAUSERN FREDERIC
    • B01F13/00B01F11/02B01F15/02F04B37/02F04F11/00H02K44/08
    • B01F13/0076
    • An exemplary system and method for providing substantially uniform mixing of fluid phases, wherein the frequency of operation, flow velocities and/or device dimensions generally correspond to otherwise substantially diffusion limited applications, is disclosed as comprising inter alia: a mixing chamber; a plurality of electrodes (150) for generating an electric field; an electromagnet (200) for generating a magnetic field; and a controller for oscillating the electric field and the magnetic field in order to produce a periodic frequency-difference phase cycling of the electric and magnetic fields. Disclosed features and specifications may be variously controlled, adapted or otherwise optionally modified to improve mixing operation in any diffusion limited application. Exemplary embodiments of the present invention representatively provide for efficient mixing of fluid phases at relatively high frequencies and may be readily integrated with existing micro-scale technologies for the improvement of device package form factors, weights and other manufacturing and/or device performance metrics.
    • 用于提供流体相的基本上均匀混合的示例性系统和方法,其中操作频率,流速和/或装置尺寸通常对应于基本上扩散受限的应用,其特征在于包括:混合室; 用于产生电场的多个电极(150); 用于产生磁场的电磁体(200); 以及用于振荡电场和磁场的控制器,以便产生电场和磁场的周期性的频差相位循环。 公开的特征和规格可以被不同地控制,适应或以其他方式任意地修改以改善任何扩散限制应用中的混合操作。 本发明的示例性实施例代表性地提供了在相对高的频率下有效地混合流体相,并且可以容易地与现有的微尺度技术集成以改进装置包装形状因子,重量以及其它制造和/或装置性能度量。
    • 9. 发明申请
    • HANDHELD DEVICE HAVING LOCALIZED FORCE FEEDBACK
    • 具有本地化力反馈的手持装置
    • WO2006019629B1
    • 2007-04-12
    • PCT/US2005024347
    • 2005-07-08
    • MOTOROLA INCDAI XUNHUOLIVER MANUELSADLER DANIEL JFU CHIA-YU
    • DAI XUNHUOLIVER MANUELSADLER DANIEL JFU CHIA-YU
    • G09G5/00
    • G06F3/016G06F1/1626G06F3/0202G06F3/041
    • [0001] An electronic device (100) for performing intelligent operations includes a housing (112), a manually operable input (118, 122) for providing information to the electronic device, and a material (124) positioned between the manually operable input and the housing. An electromechanical transducer (218, 220) has a mechanical connection consisting of to the manually operable input and an electrical connection for receiving power, wherein substantially all of a mechanical output from the electromechanical transducer is provided to the manually operable input, the material preventing the mechanical output from being transmitted from the manually operable input to the housing. An electric circuit (210) is coupled mechanically to the housing and electronically to the electromechanical transducer for driving the electromechanical transducer in response to the intelligent operations so as to cause the electromechanical transducer to generate a tactile response that can be felt by a user through the manually operable input.
    • 用于执行智能操作的电子设备(100)包括壳体(112),用于向电子设备提供信息的可手动操作的输入(118,122)以及位于手动可操作的输入和 住房。 机电换能器(218,220)具有由可手动操作的输入和用于接收功率的电连接组成的机械连接,其中机电换能器的机械输出基本上全部提供给可手动操作的输入,该材料防止 机械输出从手动操作的输入传送到外壳。 电路(210)机械耦合到壳体并且电子地耦合到机电变换器,用于响应于智能操作来驱动机电换能器,以便使机电换能器产生触觉响应,用户可以通过 手动输入。