公开(公告)号：US20150070236A1

公开(公告)日：2015-03-12

申请号：US14262574

申请日：2014-04-25

Applicant: Apple Inc.

Inventor： Derek J. Walters ,  Michael Eng ,  Brian S. Tryon ,  Connor R. Duke ,  Kieran Poulain ,  Nicholas J. Kunst ,  Shaohai Chen ,  Shaoqing Xiang ,  Sung Woo Yoo ,  Chun Cheng Teo ,  Paul Nangeroni ,  Eric Steven Jol

IPC: H05K9/00 ,  H01Q1/52

CPC classification number: H01Q1/526 ,  H01Q1/243 ,  H04B15/00

Abstract: A wireless electronic device may be provided with components such as electrical and structural components. During transmission of radio-frequency signals, antennas and wireless communications circuitry of the wireless electronic device may produce associated time-varying magnetic fields. One or more components may be covered with magnetic-resistant shield structures that protect the components from the time-varying magnetic fields by preventing magnetic-induced vibrations. The magnetic-resistant shield structures may include a conductive base layer such a layer of brass. A magnetic-resistant layer may be plated onto the conductive base layer. The magnetic-resistant layer may be formed from an amorphous nickel-phosphorous alloy. The amorphous nickel-phosphorous alloy may be produced by controlling the manufacturing temperature and proportion of phosphorous in the alloy while performing the plating operations within a length of time that ensures non-equilibrium conditions during the plating operations.

Abstract translation: 无线电子设备可以设置有诸如电气和结构部件的部件。 在射频信号的传输期间，无线电子设备的天线和无线通信电路可产生相关联的时变磁场。 一个或多个部件可以用防磁屏蔽结构覆盖，该结构通过防止磁致振动来保护部件免受时变磁场的影响。 磁性屏蔽结构可以包括导电基底层，例如黄铜层。 可以将耐磁层电镀到导电基底层上。 耐磁层可以由非晶镍 - 磷合金形成。 可以通过在确保电镀操作期间的非平衡条件的时间长度内进行电镀操作来控制合金中的磷的制造温度和比例来制造无定形镍 - 磷合金。

公开(公告)号：US20140362522A1

公开(公告)日：2014-12-11

申请号：US14297576

申请日：2014-06-05

Applicant: Apple Inc.

Inventor： Brett W. Degner ,  Eric R. Prather ,  David H. Narajowski ,  Frank F. Liang ,  Jay S. Nigen ,  Jesse T. Dybenko ,  Connor R. Duke ,  Eugene A. Whang ,  Christopher J. Stringer ,  Joshua D. Banko ,  Caitlin Elizabeth Kalinowski ,  Jonathan L. Berk ,  Matthew P. Casebolt ,  Kevin S. Fetterman ,  Eric J. Weirshauser

IPC: G06F1/20

CPC classification number: G06F1/181 ,  G02B6/0001 ,  G02B6/0008 ,  G02B6/001 ,  G06F1/182 ,  G06F1/183 ,  G06F1/185 ,  G06F1/188 ,  G06F1/20 ,  G06F1/206 ,  G06F3/00 ,  G08B5/36 ,  G08B21/18 ,  H01L23/4093 ,  H05K1/0203 ,  H05K5/03 ,  H05K7/20009 ,  H05K7/20145 ,  H05K7/20154 ,  H05K7/20163 ,  H05K7/20172 ,  H05K7/20209 ,  H05K7/2039 ,  H05K7/2049

Abstract: The present application describes various embodiments regarding systems and methods for providing efficient heat rejection for a lightweight and durable compact computing system having a small form factor. The compact computing system can take the form of a desktop computer. The desktop computer can include a monolithic top case having an integrated support system formed therein, the integrated support system providing structural support that distributes applied loads through the top case preventing warping and bowing. A mixed flow fan is utilized to efficiently pull cooling air through the compact computing system.

Abstract translation: 本申请描述了关于用于为具有小外形尺寸的轻便且耐用的小型计算系统提供有效散热的系统和方法的各种实施例。 紧凑型计算系统可以采用台式计算机的形式。 台式计算机可以包括具有形成在其中的集成支撑系统的整体式顶壳，该集成支撑系统提供结构支撑，其通过顶壳分布施加的载荷，从而防止翘曲和弯曲。 利用混流风扇有效地将冷却空气拉过小型计算系统。