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    • 2. 发明授权
    • Method for fabricating a gold contact on a microswitch
    • 在微动开关上制造金触点的方法
    • US07300815B2
    • 2007-11-27
    • US11113344
    • 2005-04-25
    • Gordon TamJun Shen
    • Gordon TamJun Shen
    • H01L21/441
    • H01H50/005H01H2050/007
    • Described is a process to pattern adhesion and top contact layers in such a way that at least some portion of the top contact layers overlaps the adhesion layer, while another portion of the top contact layer overlaps with the bottom contacts, but does not overlap with the adhesion layer. The overlap between the top contact layer and the adhesion layer helps to hold the top contact layer onto the sacrificial layer. Because there is no overlap between the adhesion layer and the bottom contact, the removal of adhesion layer is no longer necessary, leading to better contacts and simplifying the fabrication process.
    • 描述了以使得至少部分顶部接触层与粘合层重叠的方式图案粘合和顶部接触层的过程,而顶部接触层的另一部分与底部接触部重叠,但是不与 粘附层。 顶部接触层和粘合层之间的重叠有助于将顶部接触层保持在牺牲层上。 因为粘合层和底部接触之间没有重叠,所以不再需要去除粘附层,导致更好的接触和简化制造过程。
    • 3. 发明授权
    • Latchable, magnetically actuated, ground plane-isolated radio frequency microswitch
    • 可锁定,磁力驱动,接地平面隔离射频微动开关
    • US07202765B2
    • 2007-04-10
    • US10845425
    • 2004-05-14
    • Jun ShenRimantas L. VaitkusGordon TamMeichun Ruan
    • Jun ShenRimantas L. VaitkusGordon TamMeichun Ruan
    • H01H51/22
    • H01P1/127H01H50/005H01H2050/007
    • Radio frequency (RF) switch comprising an electromagnet formed on a magnet, a transmission line formed on the electromagnet and having a ground line and a signal line, and a movable contact connected to either the ground line or the signal line and capable of electrically coupling the ground line with the signal line. The transmission line is capable of propagating a RF signal if the ground line is electrically decoupled from the signal line. Conversely, the transmission line is incapable of propagating a RF signal if the ground line is electrically coupled with the signal line. The electromagnet can comprise an electromagnetic coil, formed in a layer of dielectric material, electrically coupled to a current source. Preferably, the movable contact is capable of being magnetically actuated, and is latchable. The magnet, the electromagnet, the transmission line, and the movable contact can have dimensions at a micron order of magnitude. The transmission line can be a coplanar waveguide. The coplanar waveguide can include a ground plane positioned between a layer of dielectric material and the electromagnet. The coplanar waveguide can also include means to electrically couple the ground plane to the ground line.
    • 射频(RF)开关,其包括形成在磁体上的电磁体,形成在电磁体上并具有接地线和信号线的传输线,以及连接到地线或信号线的可移动触点,并且能够电耦合 地线与信号线。 如果接地线与信号线电耦合,则传输线能够传播RF信号。 相反,如果接地线与信号线电耦合,则传输线不能传播RF信号。 电磁体可以包括电磁线圈,其形成在电耦合到电流源的电介质材料层中。 优选地,可动触头能够被磁力驱动,并且可锁定。 磁体,电磁体,传输线和可动触点可以具有微米数量级的尺寸。 传输线可以是共面波导。 共面波导可以包括位于介电材料层和电磁体之间的接地平面。 共面波导还可以包括将接地平面电耦合到地线的装置。
    • 4. 发明授权
    • Latching micro-magnetic switch with improved thermal reliability
    • 具有提高热可靠性的锁存微型磁开关
    • US07420447B2
    • 2008-09-02
    • US11151663
    • 2005-06-14
    • Meichun RuanJun ShenGordon Tam
    • Meichun RuanJun ShenGordon Tam
    • H01H51/22
    • H01H50/005H01H2050/007
    • A micro-magnetic switch includes a permanent magnet and a supporting device having contacts coupled thereto and an embedded coil. The supporting device can be positioned proximate to the magnet. The switch also includes a cantilever coupled at a central point to the supporting device. The cantilever has a conducting material coupled proximate an end and on a side of the cantilever facing the supporting device and having a soft magnetic material coupled thereto. During thermal cycling the cantilever can freely expand based on being coupled at a central point to the supporting device, which substantially reduces coefficient of thermal expansion differences between the cantilever and the supporting device.
    • 微型磁性开关包括永磁体和具有与其连接的触点和嵌入式线圈的支撑装置。 支撑装置可以靠近磁体定位。 开关还包括在支撑装置的中心点处联接的悬臂。 悬臂具有接近靠近支撑装置的悬臂的端部和一侧上的导电材料,并且具有与其连接的软磁性材料。 在热循环期间,悬臂可以基于在支撑装置的中心点处联接而自由地膨胀,这大大降低了悬臂与支撑装置之间的热膨胀差异系数。
    • 7. 发明申请
    • Method for fabricating a gold contact on a microswith
    • 在微型金属上制作金接触的方法
    • US20060084252A1
    • 2006-04-20
    • US11113344
    • 2005-04-25
    • Gordon TamJun Shen
    • Gordon TamJun Shen
    • H01L21/20
    • H01H50/005H01H2050/007
    • Described is a process to pattern adhesion and top contact layers in such a way that at least some portion of the top contact layers overlaps the adhesion layer, while another portion of the top contact layer overlaps with the bottom contacts, but does not overlap with the adhesion layer. The overlap between the top contact layer and the adhesion layer helps to hold the top contact layer onto the sacrificial layer. Because there is no overlap between the adhesion layer and the bottom contact, the removal of adhesion layer is no longer necessary, leading to better contacts and simplifying the fabrication process.
    • 描述了以使得至少部分顶部接触层与粘合层重叠的方式图案粘合和顶部接触层的过程,而顶部接触层的另一部分与底部接触部重叠,但是不与 粘附层。 顶部接触层和粘合层之间的重叠有助于将顶部接触层保持在牺牲层上。 因为粘合层和底部接触之间没有重叠,所以不再需要去除粘附层,导致更好的接触和简化制造过程。
    • 8. 发明授权
    • Micromagnetic latching switch packaging
    • 微电磁闭锁开关包装
    • US06894592B2
    • 2005-05-17
    • US10147915
    • 2002-05-20
    • Jun ShenPrasad S. GodavartiJohn StaffordGordon Tam
    • Jun ShenPrasad S. GodavartiJohn StaffordGordon Tam
    • H01H50/00H01H51/22H01M51/22
    • H01H50/005H01H2050/007
    • Packages for a micromachined magnetic latching switch, and methods for assembling the packages are described. In one aspect, a substrate is defined by opposing first and second surfaces. A micromagnetic switch integrated circuit (IC) chip is mounted to the first surface. A contact pad on the chip is coupled to a trace on the first surface. A permanent magnet is positioned closely adjacent to the chip. A cap is attached to the first surface. An inner surface of the cap forms an enclosure to enclose the chip on the first surface. The chip can be alternatively mounted to the inner surface of the cap. The chip can be oriented in a standard or flip-chip fashion. In another aspect, a moveable micro-machined cantilever is supported by a surface of a substrate. A cap is attached to the surface. An inner surface of the cap forms an enclosure that encloses the cantilever on the surface of the substrate. A permanent magnet is positioned closely adjacent to the cantilever. An electromagnet is attached to the inner surface or an outer surface of the cap.
    • 描述了用于微加工磁性锁定开关的封装以及用于组装封装的方法。 在一个方面,衬底由相对的第一和第二表面限定。 微型开关集成电路(IC)芯片安装在第一表面。 芯片上的接触焊盘与第一表面上的迹线耦合。 永久磁铁定位成紧邻芯片。 盖子连接到第一表面。 盖的内表面形成外壳以将芯片封装在第一表面上。 芯片可以替代地安装到盖的内表面。 该芯片可以以标准或倒装芯片方式定向。 另一方面,可移动的微加工悬臂由衬底的表面支撑。 盖子贴在表面上。 盖的内表面形成在衬底的表面上包围悬臂的外壳。 永磁体与悬臂紧邻。 电磁铁连接到盖的内表面或外表面。
    • 10. 发明授权
    • Micro magnetic switching apparatus and method
    • 微磁开关装置及方法
    • US06750745B1
    • 2004-06-15
    • US10229227
    • 2002-08-27
    • Chengping WeiJun ShenGordon Tam
    • Chengping WeiJun ShenGordon Tam
    • H01H5122
    • H01H50/005H01H2036/0093H01H2050/007
    • Micro magnetic switching apparatus includes a permanent magnet supported on a base and a coil supported by the base so as to define a plurality of sides. A plurality of latching micro magnetic relays each includes a magnetic cantilever positioned to open a first electric circuit in a first orientation and to close the first electric circuit in a second orientation. One each of the relays is mounted adjacent each of the plurality of sides of the coil and adjacent the permanent magnet so as to be latched in one of the first and second orientations when the coil is not activated and to switch to the other of the first and second orientations when the coil is activated and to be latched in the other of the first and second orientations by the permanent magnet.
    • 微型磁开关装置包括支撑在基座上的永磁体和由基座支撑以限定多个侧面的线圈。 多个闭锁微型磁继电器各自包括磁悬臂,定位成以第一方向打开第一电路并且以第二取向关闭第一电路。 一个继电器中的每一个被安装在线圈的多个侧面中的每一个周围并且与永磁体相邻,以便当线圈未被激活时被锁定在第一和第二取向中的一个中并且切换到第一 以及当线圈被激活并且被永磁体锁定在第一和第二取向中的另一个中时的第二取向。