公开(公告)号：US20160207758A1

公开(公告)日：2016-07-21

申请号：US14914015

申请日：2014-08-26

Applicant: SILEX MICROSYSTEMS AB

Inventor： Edvard KALVESTEN ,  Thorbjorn EBEFORS ,  Niklas SVEDIN

IPC: B81B7/00 ,  B81C1/00

CPC classification number: B81B7/007 ,  B81B2201/01 ,  B81B2201/0264 ,  B81B2201/0271 ,  B81B2203/0118 ,  B81B2203/0127 ,  B81B2207/095 ,  B81C1/00301 ,  B81C2201/0153 ,  B81C2201/036 ,  B81C2203/0109 ,  B81C2203/0145 ,  H01L21/50 ,  H01L23/08 ,  H01L24/94 ,  H01L2924/16235

Abstract: A device includes a base substrate (700) with a micro component (702) attached thereto. Suitably it is provided with routing elements (704) for conducting signals to and from the component (702). It also includes spacer members (706) which also can act as conducting structures for routing signals vertically. There is a capping structure (708) of a glass material, provided above the base substrate (700), bonded via the spacer members (706), preferably by eutectic bonding, wherein the capping structure (708) includes vias (710) including metal for providing electrical connection through the capping structure. The vias can be made by a stamping/pressing method entailing pressing needles under heating to soften the glass and applying pressure, to a predetermined depth in the glass. However, other methods are possible, e-g- drilling, etching, blasting.

Abstract translation: 一种装置包括具有附接到其上的微型部件（702）的基底（700）。 适当地，它设置有用于向组件（702）进行信号的路由选择元件（704）。 它还包括间隔件（706），其也可以用作垂直路线信号的导电结构。 优选地通过共晶接合，通过间隔件（706），设置在基底基板（700）上方的玻璃材料的封盖结构（708），其中封盖结构（708）包括通孔（710），包括金属 用于提供通过封盖结构的电连接。 通孔可以通过冲压/压制方法制成，在加热下需要加压针，使玻璃软化并施加压力至玻璃中预定的深度。 然而，其他方法是可行的，例如钻孔，蚀刻，爆破。

公开(公告)号：US09041128B2

公开(公告)日：2015-05-26

申请号：US13768246

申请日：2013-02-15

Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATION

Inventor： George A. Dunbar, III ,  Jeffrey C. Maling ,  William J. Murphy ,  Anthony K. Stamper

IPC: H01L29/84 ,  H01H1/00 ,  H01L41/113 ,  B81C1/00 ,  H01H57/00 ,  B81B3/00 ,  G06F17/50

CPC classification number: B81B3/0072 ,  B81B3/0021 ,  B81B2201/01 ,  B81B2201/014 ,  B81B2203/0118 ,  B81B2203/0315 ,  B81B2203/04 ,  B81C1/0015 ,  B81C1/00365 ,  B81C1/00476 ,  B81C1/00619 ,  B81C1/00626 ,  B81C1/00666 ,  B81C2201/0109 ,  B81C2201/013 ,  B81C2201/0167 ,  B81C2201/017 ,  B81C2203/0136 ,  B81C2203/0172 ,  G06F17/5068 ,  G06F17/5072 ,  H01H1/0036 ,  H01H57/00 ,  H01H59/0009 ,  H01H2057/006 ,  H01L41/1136 ,  H01L2924/0002 ,  Y10S438/937 ,  Y10T29/42 ,  Y10T29/435 ,  Y10T29/49002 ,  Y10T29/49105 ,  Y10T29/49121 ,  Y10T29/49126 ,  Y10T29/4913 ,  Y10T29/49155 ,  Y10T29/5313 ,  H01L2924/00

Abstract: A Micro-Electro-Mechanical System (MEMS). The MEMS includes a lower chamber with a wiring layer and an upper chamber which is connected to the lower chamber. A MEMS beam is suspended between the upper chamber and the lower chamber. A lid structure encloses the upper chamber, which is devoid of structures that interfere with a MEMS beam. The lid structure has a surface that is conformal to a sacrificial material vented from the upper chamber.

Abstract translation: 微机电系统（MEMS）。 MEMS包括具有布线层的下室和连接到下室的上室。 MEMS梁悬挂在上室和下室之间。 盖结构包围上室，其没有干扰MEMS梁的结构。 盖结构具有与从上室排出的牺牲材料共形的表面。

公开(公告)号：US08685778B2

公开(公告)日：2014-04-01

申请号：US12973285

申请日：2010-12-20

Applicant: Christopher V. Jahnes ,  Anthony K. Stamper

Inventor： Christopher V. Jahnes ,  Anthony K. Stamper

IPC: B81C1/00

CPC classification number: B81B3/0072 ,  B81B3/0021 ,  B81B2201/01 ,  B81B2201/014 ,  B81B2203/0118 ,  B81B2203/0315 ,  B81B2203/04 ,  B81C1/0015 ,  B81C1/00365 ,  B81C1/00476 ,  B81C1/00619 ,  B81C1/00626 ,  B81C1/00666 ,  B81C2201/0109 ,  B81C2201/013 ,  B81C2201/0167 ,  B81C2201/017 ,  B81C2203/0136 ,  B81C2203/0172 ,  G06F17/5068 ,  G06F17/5072 ,  H01H1/0036 ,  H01H57/00 ,  H01H59/0009 ,  H01H2057/006 ,  H01L41/1136 ,  H01L2924/0002 ,  Y10S438/937 ,  Y10T29/42 ,  Y10T29/435 ,  Y10T29/49002 ,  Y10T29/49105 ,  Y10T29/49121 ,  Y10T29/49126 ,  Y10T29/4913 ,  Y10T29/49155 ,  Y10T29/5313 ,  H01L2924/00

Abstract: A method of forming at least one Micro-Electro-Mechanical System (MEMS) cavity includes forming a first sacrificial cavity layer over a lower wiring layer. The method further includes forming a layer. The method further includes forming a second sacrificial cavity layer over the first sacrificial layer and in contact with the layer. The method further includes forming a lid on the second sacrificial cavity layer. The method further includes forming at least one vent hole in the lid, exposing a portion of the second sacrificial cavity layer. The method further includes venting or stripping the second sacrificial cavity layer such that a top surface of the second sacrificial cavity layer is no longer touching a bottom surface of the lid, before venting or stripping the first sacrificial cavity layer thereby forming a first cavity and second cavity, respectively.

Abstract translation: 形成至少一个微机电系统（MEMS）腔的方法包括在下布线层上形成第一牺牲腔层。 该方法还包括形成层。 该方法还包括在第一牺牲层上形成与层接触的第二牺牲腔层。 该方法还包括在第二牺牲腔层上形成盖子。 该方法还包括在盖中形成至少一个通气孔，暴露第二牺牲腔层的一部分。 该方法还包括排气或剥离第二牺牲腔层，使得第二牺牲腔层的顶表面在不排除或剥离第一牺牲腔层之前不再接触盖的底表面，从而形成第一腔和第二腔 腔。

公开(公告)号：US08658452B2

公开(公告)日：2014-02-25

申请号：US13003328

申请日：2009-07-08

Applicant: Mourad El-Gamal ,  Frederic Nabki ,  Paul-Vahe Cicek

Inventor： Mourad El-Gamal ,  Frederic Nabki ,  Paul-Vahe Cicek

IPC: H01L21/00 ,  H01L27/14

CPC classification number: B81C1/00666 ,  B81B3/0021 ,  B81B7/008 ,  B81B2201/01 ,  B81B2201/0235 ,  B81B2201/0271 ,  B81B2201/03 ,  B81B2207/015 ,  B81B2207/03 ,  B81C1/00063 ,  B81C1/00246 ,  B81C1/00396 ,  B81C1/00587 ,  B81C2201/014 ,  B81C2201/0169 ,  B81C2201/0174 ,  B81C2203/0721 ,  B81C2203/0735

Abstract: A method of providing microelectromechanical structures (MEMS) that are compatible with silicon CMOS electronics is provided. The method providing for processes and manufacturing sequences limiting the maximum exposure of an integrated circuit upon which the MEMS is manufactured to below 350° C., and potentially to below 250° C., thereby allowing direct manufacturing of the MEMS devices onto electronics, such as Si CMOS circuits. The method further providing for the provisioning of MEMS devices with multiple non-conductive structural layers such as silicon carbide separated with small lateral gaps. Such silicon carbide structures offering enhanced material properties, increased environmental and chemical resilience whilst also allowing novel designs to be implemented taking advantage of the non-conductive material of the structural layer. The use of silicon carbide being beneficial within the formation of MEMS elements such as motors, gears, rotors, translation drives, etc where increased hardness reduces wear of such elements during operation.

Abstract translation: 提供了一种提供与硅CMOS电子器件兼容的微机电结构（MEMS）的方法。 该方法提供了将MEMS制造的集成电路的最大曝光限制在低于350℃并可能低于250℃的工艺和制造顺序，从而允许将MEMS器件直接制造到电子器件上，例如 作为Si CMOS电路。 该方法进一步提供具有多个非导电结构层的MEMS器件，例如用小的侧向间隙分离的碳化硅。 这种碳化硅结构提供增强的材料性能，增加环境和化学弹性，同时还允许利用结构层的非导电材料来实现新颖的设计。 在形成MEMS元件（例如马达，齿轮，转子，平移驱动器等）中使用碳化硅是有益的，其中增加的硬度降低了操作期间这些元件的磨损。

公开(公告)号：US20130221454A1

公开(公告)日：2013-08-29

申请号：US13768246

申请日：2013-02-15

Applicant: International Business Machines Corporation

Inventor： George A. DUNBAR, III ,  Jeffrey C. MALING ,  William J. MURPHY ,  Anthony K. STAMPER

IPC: B81B3/00

CPC classification number: B81B3/0072 ,  B81B3/0021 ,  B81B2201/01 ,  B81B2201/014 ,  B81B2203/0118 ,  B81B2203/0315 ,  B81B2203/04 ,  B81C1/0015 ,  B81C1/00365 ,  B81C1/00476 ,  B81C1/00619 ,  B81C1/00626 ,  B81C1/00666 ,  B81C2201/0109 ,  B81C2201/013 ,  B81C2201/0167 ,  B81C2201/017 ,  B81C2203/0136 ,  B81C2203/0172 ,  G06F17/5068 ,  G06F17/5072 ,  H01H1/0036 ,  H01H57/00 ,  H01H59/0009 ,  H01H2057/006 ,  H01L41/1136 ,  H01L2924/0002 ,  Y10S438/937 ,  Y10T29/42 ,  Y10T29/435 ,  Y10T29/49002 ,  Y10T29/49105 ,  Y10T29/49121 ,  Y10T29/49126 ,  Y10T29/4913 ,  Y10T29/49155 ,  Y10T29/5313 ,  H01L2924/00

Abstract: A Micro-Electro-Mechanical System (MEMS). The MEMS includes a lower chamber with a wiring layer and an upper chamber which is connected to the lower chamber. A MEMS beam is suspended between the upper chamber and the lower chamber. A lid structure encloses the upper chamber, which is devoid of structures that interfere with a MEMS beam. The lid structure has a surface that is conformal to a sacrificial material vented from the upper chamber.

Abstract translation: 微机电系统（MEMS）。 MEMS包括具有布线层的下室和连接到下室的上室。 MEMS梁悬挂在上室和下室之间。 盖结构包围上室，其没有干扰MEMS梁的结构。 盖结构具有与从上室排出的牺牲材料共形的表面。

公开(公告)号：US20110315527A1

公开(公告)日：2011-12-29

申请号：US12974854

申请日：2010-12-21

Applicant: Dinh DANG ,  Thai DOAN ,  George A. DUNBAR, III ,  Zhong-Xiang HE ,  Russell T. HERRIN ,  Christopher V. JAHNES ,  Jeffrey C. MALING ,  William J. MURPHY ,  Anthony K. STAMPER ,  John G. TWOMBLY ,  Eric J. WHITE

Inventor： Dinh DANG ,  Thai DOAN ,  George A. DUNBAR, III ,  Zhong-Xiang HE ,  Russell T. HERRIN ,  Christopher V. JAHNES ,  Jeffrey C. MALING ,  William J. MURPHY ,  Anthony K. STAMPER ,  John G. TWOMBLY ,  Eric J. WHITE

IPC: H01H57/00 ,  H01L21/66 ,  G06F17/50 ,  H01L21/28

CPC classification number: B81B3/0072 ,  B81B3/0021 ,  B81B2201/01 ,  B81B2201/014 ,  B81B2203/0118 ,  B81B2203/0315 ,  B81B2203/04 ,  B81C1/0015 ,  B81C1/00365 ,  B81C1/00476 ,  B81C1/00619 ,  B81C1/00626 ,  B81C1/00666 ,  B81C2201/0109 ,  B81C2201/013 ,  B81C2201/0167 ,  B81C2201/017 ,  B81C2203/0136 ,  B81C2203/0172 ,  G06F17/5068 ,  G06F17/5072 ,  H01H1/0036 ,  H01H57/00 ,  H01H59/0009 ,  H01H2057/006 ,  H01L41/1136 ,  H01L2924/0002 ,  Y10S438/937 ,  Y10T29/42 ,  Y10T29/435 ,  Y10T29/49002 ,  Y10T29/49105 ,  Y10T29/49121 ,  Y10T29/49126 ,  Y10T29/4913 ,  Y10T29/49155 ,  Y10T29/5313 ,  H01L2924/00

Abstract: Planar cavity Micro-Electro-Mechanical System (MEMS) structures, methods of manufacture and design structure are provided. The method includes forming at least one Micro-Electro-Mechanical System (MEMS) cavity having a planar surface using a reverse damascene process.

Abstract translation: 提供了平面腔微机电系统（MEMS）结构，制造方法和设计结构。 该方法包括使用反向镶嵌工艺形成具有平面表面的至少一个微机电系统（MEMS）空腔。

公开(公告)号：US20110314669A1

公开(公告)日：2011-12-29

申请号：US12973381

申请日：2010-12-20

Applicant: Anthony K. STAMPER ,  John G. TWOMBLY

Inventor： Anthony K. STAMPER ,  John G. TWOMBLY

IPC: H05K3/10 ,  H05K13/04

CPC classification number: B81B3/0072 ,  B81B3/0021 ,  B81B2201/01 ,  B81B2201/014 ,  B81B2203/0118 ,  B81B2203/0315 ,  B81B2203/04 ,  B81C1/0015 ,  B81C1/00365 ,  B81C1/00476 ,  B81C1/00619 ,  B81C1/00626 ,  B81C1/00666 ,  B81C2201/0109 ,  B81C2201/013 ,  B81C2201/0167 ,  B81C2201/017 ,  B81C2203/0136 ,  B81C2203/0172 ,  G06F17/5068 ,  G06F17/5072 ,  H01H1/0036 ,  H01H57/00 ,  H01H59/0009 ,  H01H2057/006 ,  H01L41/1136 ,  H01L2924/0002 ,  Y10S438/937 ,  Y10T29/42 ,  Y10T29/435 ,  Y10T29/49002 ,  Y10T29/49105 ,  Y10T29/49121 ,  Y10T29/49126 ,  Y10T29/4913 ,  Y10T29/49155 ,  Y10T29/5313 ,  H01L2924/00

Abstract: A method of forming at least one Micro-Electro-Mechanical System (MEMS) includes patterning a wiring layer to form at least one fixed plate and forming a sacrificial material on the wiring layer. The method further includes forming an insulator layer of one or more films over the at least one fixed plate and exposed portions of an underlying substrate to prevent formation of a reaction product between the wiring layer and a sacrificial material. The method further includes forming at least one MEMS beam that is movable over the at least one fixed plate. The method further includes venting or stripping of the sacrificial material to form at least a first cavity.

Abstract translation: 形成至少一个微电子机械系统（MEMS）的方法包括：对布线层进行图案化以形成至少一个固定板并在布线层上形成牺牲材料。 该方法还包括在至少一个固定板上形成一层或多层薄膜的绝缘体层，以及下层衬底的暴露部分，以防止在布线层和牺牲材料之间形成反应产物。 该方法进一步包括形成至少一个可在该至少一个固定板上移动的MEMS梁。 该方法还包括排出或剥离牺牲材料以形成至少第一腔。

公开(公告)号：US20110111545A1

公开(公告)日：2011-05-12

申请号：US13003328

申请日：2009-07-08

Applicant: Mourad El-Gamal

Inventor： Mourad El-Gamal

IPC: H01L21/02

CPC classification number: B81C1/00666 ,  B81B3/0021 ,  B81B7/008 ,  B81B2201/01 ,  B81B2201/0235 ,  B81B2201/0271 ,  B81B2201/03 ,  B81B2207/015 ,  B81B2207/03 ,  B81C1/00063 ,  B81C1/00246 ,  B81C1/00396 ,  B81C1/00587 ,  B81C2201/014 ,  B81C2201/0169 ,  B81C2201/0174 ,  B81C2203/0721 ,  B81C2203/0735

Abstract: A method of providing microelectromechanical structures (MEMS) that are compatible with silicon CMOS electronics is provided. The method providing for processes and manufacturing sequences limiting the maximum exposure of an integrated circuit upon which the MEMS is manufactured to below 350° C., and potentially to below 250° C., thereby allowing direct manufacturing of the MEMS devices onto electronics, such as Si CMOS circuits. The method further providing for the provisioning of MEMS devices with multiple non-conductive structural layers such as silicon carbide separated with small lateral gaps. Such silicon carbide structures offering enhanced material properties, increased environmental and chemical resilience whilst also allowing novel designs to be implemented taking advantage of the non-conductive material of the structural layer. The use of silicon carbide being beneficial within the formation of MEMS elements such as motors, gears, rotors, translation drives, etc where increased hardness reduces wear of such elements during operation.

Abstract translation: 提供了一种提供与硅CMOS电子器件兼容的微机电结构（MEMS）的方法。 该方法提供了将MEMS制造的集成电路的最大曝光限制在低于350℃并可能低于250℃的工艺和制造顺序，从而允许将MEMS器件直接制造到电子器件上，例如 作为Si CMOS电路。 该方法进一步提供具有多个非导电结构层的MEMS器件，例如用小的侧向间隙分离的碳化硅。 这种碳化硅结构提供增强的材料性能，增加环境和化学弹性，同时还允许利用结构层的非导电材料来实现新颖的设计。 在形成MEMS元件（例如马达，齿轮，转子，平移驱动器等）中使用碳化硅是有益的，其中增加的硬度降低了操作期间这些元件的磨损。

公开(公告)号：US20240359973A1

公开(公告)日：2024-10-31

申请号：US18028567

申请日：2022-04-27

Applicant: Beijing BOE Technology Development Co., Ltd. ,  BOE Technology Group Co., Ltd.

Inventor： Yingli SHI ,  Chao ZHOU ,  Yanzhao LI

IPC: B81B7/02 ,  B81C1/00 ,  H01H59/00 ,  H01P1/12

CPC classification number: B81B7/02 ,  B81C1/00142 ,  H01H59/0009 ,  H01P1/122 ,  B81B2201/01 ,  B81B2203/0109 ,  B81B2203/0323 ,  B81B2203/0353 ,  B81C2201/0105

Abstract: A MEMS switch, a preparation method thereof, and an electronic apparatus. The MEMS switch includes: a substrate, a coplanar waveguide line structure disposed on a side of the substrate, an isolation structure disposed on a side of the coplanar waveguide line structure away from the substrate, a film bridge disposed on a side of the isolation structure away from the substrate. The coplanar waveguide line structure includes a first wire, a first DC bias line, a second wire, a second DC bias line and a third wire arranged at intervals sequentially. The second wire is one of an RF signal transmission line and a ground line, the first wire and the third wire are the other of the RF signal transmission line and the ground line. The film bridge is crossed between the first wire and third wire, and is connected with the first wire and the third wire respectively.

公开(公告)号：US20240262678A1

公开(公告)日：2024-08-08

申请号：US18021582

申请日：2022-05-27

Applicant: Beijing BOE Technology Development Co., Ltd. ,  BOE TECHNOLOGY GROUP CO., LTD.

Inventor： Jingwen GUO ,  Jianxing LIU ,  Jianyun ZHAO ,  Biqi LI

IPC: B81B3/00 ,  B81C1/00

CPC classification number: B81B3/0008 ,  B81C1/00984 ,  B81B2201/01 ,  B81B2203/0109 ,  B81B2203/0118 ,  B81B2203/0127 ,  B81B2203/0323 ,  B81B2203/04 ,  B81B2207/99 ,  B81C2201/0109 ,  B81C2201/0132

Abstract: The present disclosure provides an MEMS device, a method for manufacturing an MEMS device and an electronic device, and belongs to the field of Micro-Electro-Mechanical System technology. The MEMS device includes: a first dielectric substrate and a first component on the first dielectric substrate; the first component and the first dielectric substrate enclose a movable space; the first component has a first portion corresponding to the movable space; the first portion has at least one first opening, and at least one protruding structure is on a side of the first portion close to the first dielectric substrate; orthographic projections of the at least one protruding structure and the at least one first opening on the first dielectric substrate do not overlap with each other, and a thickness of each protruding structure is smaller than a height of the movable space.