会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • SPEAKER FRONT VOLUME USAGE
    • 扬声器前置音量使用
    • US20130170688A1
    • 2013-07-04
    • US13343606
    • 2012-01-04
    • Sawyer I. CohenChristopher WilkRuchir M. Dave
    • Sawyer I. CohenChristopher WilkRuchir M. Dave
    • H04R1/20H04R1/02
    • H04R1/2842H04M1/035H04M1/6041H04R1/30H04R2499/11
    • A portable electronic device having an enclosure having a top wall, a bottom wall, at least one sidewall connecting the top wall to the bottom wall, an acoustic output opening and a back volume defined by the top wall, the bottom wall and the at least one sidewall. A speaker driver is positioned within the enclosure, the speaker driver including a sound radiating surface having a top face and a bottom face for emitting sound waves therefrom. A frame member is attached to the speaker driver, the frame member forming a front volume chamber acoustically coupling the top face of the sound radiating surface to the acoustic output opening and a back volume chamber that overlaps a side of the speaker drive and acoustically couples the bottom face of the sound radiating surface to the back volume.
    • 一种便携式电子设备,其具有外壳,所述外壳具有顶壁,底壁,连接所述顶壁与所述底壁的至少一个侧壁,由所述顶壁,所述底壁和所述至少 一个侧壁 扬声器驱动器位于外壳内,扬声器驱动器包括具有顶表面和底面的声辐射表面,用于从其发射声波。 框架构件附接到扬声器驱动器,框架构件形成声音耦合声音辐射表面的声音输出开口的前音量室和与扬声器驱动器的一侧重叠并且声音耦合 声辐射面的底面到后面的体积。
    • 4. 发明申请
    • SPEAKER MAGNET THERMAL MANAGEMENT
    • 扬声器磁控管理
    • US20130089231A1
    • 2013-04-11
    • US13253900
    • 2011-10-05
    • Christopher Raymond WilkRuchir M. DaveSawyer I. Cohen
    • Christopher Raymond WilkRuchir M. DaveSawyer I. Cohen
    • H04R1/00H04R31/00
    • H04M1/03H04R9/022
    • In one embodiment, a mobile device including a magnet unit that is thermally coupled to the heat sink portion of a housing of the mobile device is disclosed. The mobile device comprises a speaker driver that includes a magnet unit, a housing having a heat sink portion that is made of a material having a high thermal conductivity, and a thermal component. The heat sink portion has a first face that is coupled to the speaker driver and a second face that is exposed to the exterior of the mobile device. The thermal component binds the speaker driver to the first face of the heat sink portion to create a cooling path from the magnet unit to the exterior of the mobile device. Other embodiments are also described.
    • 在一个实施例中,公开了一种移动设备,其包括热耦合到移动设备的壳体的散热部分的磁体单元。 移动装置包括扬声器驱动器,其包括磁体单元,壳体,具有由具有高导热性的材料制成的散热部分和热部件。 散热部分具有耦合到扬声器驱动器的第一面和暴露于移动装置的外部的第二面。 扬声器驱动器将扬声器驱动器结合到散热器部分的第一面以形成从磁体单元到移动设备外部的冷却路径。 还描述了其它实施例。
    • 5. 发明授权
    • Method and apparatus for negotiating power between power sourcing equipment and powerable devices
    • 用于协商供电设备和电源设备之间的电源的方法和装置
    • US08078889B2
    • 2011-12-13
    • US12054131
    • 2008-03-24
    • Premkumar JonnalaNorman W. FinnQiang WuRuchir M. Dave
    • Premkumar JonnalaNorman W. FinnQiang WuRuchir M. Dave
    • G06F1/00
    • G06F1/26G06F1/28
    • The present invention provides a power negotiation protocol that enables PDs and PSEs to negotiate the amount of inline power that a PD consumes and the corresponding PSE provides. This power negotiation allows the PDs provide fine-grained power consumption level to PSEs, and the PSEs are able to manage inline power efficiently using the negotiation protocol of the present invention. The PDs can ask the PSEs for more power when needed rather than having to constantly reserve the maximum amount of power they can consume at all times. Similarly, the PDs can release reservation of excess power when their respective power requirements decrease. The PSEs can limit the amount of power that can be consumed by the PD, thereby providing the ability for an administrator to control how much power a given PD can consume.
    • 本发明提供了一种功率协商协议,其使PD和PSE能够协商PD消耗的对等功率量和相应的PSE提供的功率。 该功率协商允许PD为PSE提供细粒度的功耗级别,并且PSE能够使用本发明的协商协议有效地管理在线功率。 PD可以在需要时向PSE询问更多的功率,而不必一直保留他们可以随时消耗的最大功率。 类似地,当它们各自的功率需求降低时,PD可以释放多余功率的预留。 PSE可以限制PD可以消耗的功率量,从而提供管理员控制给定PD可以消耗多少功率的能力。
    • 7. 发明申请
    • MICROPHONE ASSEMBLY
    • 麦克风组装
    • US20130108082A1
    • 2013-05-02
    • US13283506
    • 2011-10-27
    • Ruchir M. DaveSawyer Isaac CohenChristopher Wilk
    • Ruchir M. DaveSawyer Isaac CohenChristopher Wilk
    • H04R3/00
    • H04R1/086H04R2499/11
    • Embodiments of the invention include a microphone assembly having a microphone soldered on a bottom side of a bottom ported microphone flex circuit carrier, and a rigid coupler soldered on the top side of the carrier, opposite to the microphone. The coupler is inserted into and sealed to a microphone boot made out of a soft material. The top of the boot may be sealed to an electronic audio device into which the assembly is integrated. Acoustic openings through the housing, boot, coupler and carrier allow acoustic signals to reach the microphone. However, the seals between the housing, boot, coupler, carrier and microphone provide sound isolation, as well as a moisture and dust seal between the ambient and the inside of the electronic device. Such seals may include rings, grooves, threads, 0-rings between the boot and coupler; or a reinforcing ring around the soft material of the boot.
    • 本发明的实施例包括麦克风组件,其具有焊接在底部端口麦克风柔性电路载体的底侧上的麦克风,以及焊接在载体的与麦克风相对的顶侧上的刚性耦合器。 将耦合器插入并密封到由柔软材料制成的麦克风套管上。 靴子的顶部可以被密封到组装件被集成到其中的电子音频装置。 通过外壳,引导,耦合器和载体的声学开口允许声信号到达麦克风。 然而,壳体,护罩,耦合器,载体和麦克风之间的密封件提供隔音,以及电子设备的环境和内部之间的湿气和灰尘密封。 这种密封件可以包括环,槽,螺纹,靴和耦合器之间的O形环; 或围绕软靴材料的加强环。
    • 8. 发明授权
    • Negotiating power between power sourcing equipment and powerable devices
    • 电源设备和电源设备之间的谈判能力
    • US08266463B2
    • 2012-09-11
    • US12054176
    • 2008-03-24
    • Premkumar JonnalaNorman W. FinnQiang WuRuchir M. Dave
    • Premkumar JonnalaNorman W. FinnQiang WuRuchir M. Dave
    • G06F1/00
    • G06F1/26G06F1/28
    • The present invention provides a power negotiation protocol that enables PDs and PSEs to negotiate the amount of inline power that a PD consumes and the corresponding PSE provides. This power negotiation allows the PDs provide fine-grained power consumption level to PSEs, and the PSEs are able to manage inline power efficiently using the negotiation protocol of the present invention. The PDs can ask the PSEs for more power when needed rather than having to constantly reserve the maximum amount of power they can consume at all times. Similarly, the PDs can release reservation of excess power when their respective power requirements decrease. The PSEs can limit the amount of power that can be consumed by the PD, thereby providing the ability for an administrator to control how much power a given PD can consume.
    • 本发明提供了一种功率协商协议,其使PD和PSE能够协商PD消耗的对等功率量和相应的PSE提供的功率。 该功率协商允许PD为PSE提供细粒度的功耗级别,并且PSE能够使用本发明的协商协议有效地管理在线功率。 PD可以在需要时向PSE询问更多的功率,而不必一直保留他们可以随时消耗的最大功率。 类似地,当它们各自的功率需求降低时,PD可以释放多余功率的预留。 PSE可以限制PD可以消耗的功率量,从而提供管理员控制给定PD可以消耗多少功率的能力。
    • 10. 发明授权
    • Microphone assembly having an acoustic coupler
    • 具有声耦合器的麦克风组件
    • US09210492B2
    • 2015-12-08
    • US13283506
    • 2011-10-27
    • Ruchir M. DaveSawyer Isaac CohenChristopher Wilk
    • Ruchir M. DaveSawyer Isaac CohenChristopher Wilk
    • H04R25/00H04R1/08
    • H04R1/086H04R2499/11
    • Embodiments of the invention include a microphone assembly having a microphone soldered on a bottom side of a bottom ported microphone flex circuit carrier, and a rigid coupler soldered on the top side of the carrier, opposite to the microphone. The coupler is inserted into and sealed to a microphone boot made out of a soft material. The top of the boot may be sealed to an electronic audio device into which the assembly is integrated. Acoustic openings through the housing, boot, coupler and carrier allow acoustic signals to reach the microphone. However, the seals between the housing, boot, coupler, carrier and microphone provide sound isolation, as well as a moisture and dust seal between the ambient and the inside of the electronic device. Such seals may include rings, grooves, threads, O-rings between the boot and coupler; or a reinforcing ring around the soft material of the boot.
    • 本发明的实施例包括麦克风组件,其具有焊接在底部端口麦克风柔性电路载体的底侧上的麦克风,以及焊接在载体的与麦克风相对的顶侧上的刚性耦合器。 将耦合器插入并密封到由柔软材料制成的麦克风套管上。 靴子的顶部可以被密封到组装件被集成到其中的电子音频装置。 通过外壳,引导,耦合器和载体的声学开口允许声信号到达麦克风。 然而,壳体,护罩,耦合器,载体和麦克风之间的密封件提供隔音,以及电子设备的环境和内部之间的湿气和灰尘密封。 这种密封件可以包括环,槽,螺纹,靴和耦合器之间的O形环; 或围绕软靴材料的加强环。