公开(公告)号：US20170092565A1

公开(公告)日：2017-03-30

申请号：US15283013

申请日：2016-09-30

Applicant: Microfabrica Inc.

Inventor： Richard T. Chen ,  Will J. Tan

IPC: H01L23/473 ,  H01L21/48 ,  H05K7/20

CPC classification number: H01L23/4735 ,  F28F3/12 ,  F28F13/06 ,  F28F2260/02 ,  H01L21/4871 ,  H01L21/4882 ,  H01L23/473 ,  H05K7/20254 ,  H05K7/20272 ,  H05K7/20281

Abstract: Embodiments of the present invention are directed to heat transfer arrays, cold plates including heat transfer arrays along with inlets and outlets, and thermal management systems including cold-plates, pumps and heat exchangers. These devices and systems may be used to provide cooling of semiconductor devices and particularly such devices that produce high heat concentrations. The heat transfer arrays may include microjets, microchannels, fins, and even integrated microjets and fins.

公开(公告)号：US20160258075A1

公开(公告)日：2016-09-08

申请号：US15091537

申请日：2016-04-05

Applicant: Microfabrica Inc.

Inventor： Dennis R. Smalley ,  Adam L. Cohen ,  Ananda H. Kumar ,  Michael S. Lockard

IPC: C25D1/00 ,  H05K3/46 ,  C25D1/20

CPC classification number: A61N1/00 ,  C23C18/1605 ,  C23C18/1651 ,  C25D1/003 ,  C25D1/20 ,  C25D5/022 ,  G01R1/0483 ,  G01R1/06716 ,  G01R1/07357 ,  G01R31/2886 ,  H05K3/467 ,  H05K3/4682

Abstract: Electrochemical fabrication processes and apparatus for producing multi-layer structures where each layer includes the deposition of at least two materials and wherein the formation of at least some layers including operations for providing coatings of dielectric material that isolate at least portions of a first conductive material from (1) other portions of the first conductive material, (2) a second conductive material, or (3) another dielectric material, and wherein the thickness of the dielectric coatings are thin compared to the thicknesses of the layers used in forming the structures. In some preferred embodiments, portions of each individual layer are encapsulated by dielectric material while in other embodiments only boundaries between distinct regions of materials are isolated from one another by dielectric barriers.

Abstract translation: 用于生产多层结构的电化学制造方法和装置，其中每个层包括至少两种材料的沉积，并且其中形成至少一些层，包括用于提供将第一导电材料的至少一部分与 （1）第一导电材料的其它部分，（2）第二导电材料或（3）另一种电介质材料，并且其中电介质涂层的厚度与用于形成结构的层的厚度相比较薄。 在一些优选实施例中，每个单独层的部分被电介质材料包封，而在其它实施例中，材料的不同区域之间的边界通过电介质屏障彼此隔离。

公开(公告)号：US20150311575A1

公开(公告)日：2015-10-29

申请号：US14675147

申请日：2015-03-31

Applicant: Microfabrica Inc.

Inventor： Elliott R. Brown ,  John D. Evans ,  Christopher A. Bang ,  Adam L. Cohen ,  Michael S. Lockard ,  Dennis R. Smalley ,  Morton Grosser

IPC: H01P3/06 ,  C25D5/02

CPC classification number: H01P3/06 ,  C25D1/003 ,  C25D5/022 ,  C25D5/10

Abstract: RF and microwave radiation directing or controlling components are provided that may be monolithic, that may be formed from a plurality of electrodeposition operations and/or from a plurality of deposited layers of material, that may include switches, inductors, antennae, transmission lines, filters, hybrid couplers, antenna arrays and/or other active or passive components. Components may include non-radiation-entry and non-radiation-exit channels that are useful in separating sacrificial materials from structural materials. Preferred formation processes use electrochemical fabrication techniques (e.g. including selective depositions, bulk depositions, etching operations and planarization operations) and post-deposition processes (e.g. selective etching operations and/or back filling operations).

Abstract translation: 提供RF和微波辐射引导或控制部件，其可以是单片的，其可以由多个电沉积操作和/或从多个沉积的材料层形成，其可以包括开关，电感器，天线，传输线，滤波器 ，混合耦合器，天线阵列和/或其他主动或无源部件。 部件可以包括用于将牺牲材料与结构材料分离的非辐射入口和非辐射出口通道。 优选的形成方法使用电化学制造技术（例如包括选择性沉积，体积沉积，蚀刻操作和平坦化操作）和后沉积工艺（例如选择性蚀刻操作和/或反向填充操作）。

公开(公告)号：US20150308006A1

公开(公告)日：2015-10-29

申请号：US14676716

申请日：2015-04-01

Applicant: Microfabrica Inc.

Inventor： Adam L. Cohen ,  Jill R. Thomassian ,  Michael S. Lockard ,  Marvin M. Kilgo, III ,  Uri Frodis ,  Dennis R. Smalley

IPC: C25D1/00 ,  C25D5/10 ,  C25D5/02

CPC classification number: C25D1/003 ,  C25D1/00 ,  C25D1/20 ,  C25D5/02 ,  C25D5/022 ,  C25D5/10 ,  C25D5/14 ,  C25D5/48 ,  C25D5/50

Abstract: Numerous electrochemical fabrication methods and apparatus are provided for producing multi-layer structures (e.g. having meso-scale or micro-scale features) from a plurality of layers of deposited materials using adhered masks (e.g. formed from liquid photoresist or dry film), where two or more materials may be provided per layer where at least one of the materials is a structural material and one or more of any other materials may be a sacrificial material which will be removed after formation of the structure. Materials may comprise conductive materials that are electrodeposited or deposited in an electroless manner. In some embodiments special care is undertaken to ensure alignment between patterns formed on successive layers.

Abstract translation: 提供了多种电化学制造方法和装置，用于使用粘附的掩模（例如由液体光致抗蚀剂或干膜形成）从多层沉积材料制备多层结构（例如具有中尺度或微尺度特征），其中两个 或者可以在每层中提供更多的材料，其中至少一种材料是结构材料，并且任何其它材料中的一种或多种可以是在形成结构之后被去除的牺牲材料。 材料可以包括以无电解方式电沉积或沉积的导电材料。 在一些实施例中，特别注意确保在连续层上形成的图案之间的对准。

公开(公告)号：US20150108002A1

公开(公告)日：2015-04-23

申请号：US14572472

申请日：2014-12-16

Applicant: Microfabrica Inc.

Inventor： Kieun Kim ,  Adam L. Cohen ,  Willa M. Larsen ,  Richard Chen ,  Ananda H. Kumar ,  Ezekiel J.J. Kruglick ,  Vacit Arat ,  Gang Zhang ,  Michael S. Lockard ,  Christopher A. Bang ,  Jeffrey A. Thompson

IPC: C25D5/02 ,  C25D7/00

CPC classification number: C25D1/003

Abstract: Embodiments of the present invention are directed to the formation of microprobe tips elements having a variety of configurations. In some embodiments tips are formed from the same building material as the probes themselves, while in other embodiments the tips may be formed from a different material and/or may include a coating material. In some embodiments, the tips are formed before the main portions of the probes and the tips are formed in proximity to or in contact with a temporary substrate. Probe tip patterning may occur in a variety of different ways, including, for example, via molding in patterned holes that have been isotropically or anisotropically etched silicon, via molding in voids formed in exposed photoresist, via molding in voids in a sacrificial material that have formed as a result of the sacrificial material mushrooming over carefully sized and located regions of dielectric material, via isotropic etching of the tip material around carefully sized and placed etching shields, via hot pressing, and the like.

Abstract translation: 本发明的实施例涉及形成具有各种构造的微探针尖元件。 在一些实施例中，尖端由与探针本身相同的建筑材料形成，而在其它实施例中，尖端可以由不同的材料形成和/或可以包括涂层材料。 在一些实施例中，尖端在探针的主要部分之前形成，并且尖端形成在临时衬底附近或与临时衬底接触。 探针尖端图案化可以以各种不同的方式发生，包括例如通过在各向异性或各向异性地蚀刻硅的图案化孔中模制，通过在曝光的光致抗蚀剂中形成的空隙中模制，通过在牺牲材料中的空隙中模制， 由于牺牲材料通过电介质材料的细小尺寸和定位的区域，经由热压等等仔细地尺寸和放置的蚀刻屏蔽部分上的尖端材料的各向同性蚀刻而形成。

公开(公告)号：US20140238865A1

公开(公告)日：2014-08-28

申请号：US14194564

申请日：2014-02-28

Applicant: Microfabrica Inc.

Inventor： Ananda H. Kumar ,  Jorge S. Alberron ,  Adam L. Cohen ,  Kieun Kim ,  Michael S. Lockard ,  Uri Frodis ,  Dennis R. Smalley

IPC: B81C1/00 ,  C25D5/02

CPC classification number: B81C1/00666 ,  C25D5/022

Abstract: Electrochemical fabrication processes and apparatus for producing single layer or multi-layer structures where each layer includes the deposition of at least two materials and wherein the formation of at least some layers includes operations for reducing stress and/or curvature distortion when the structure is released from a sacrificial material which surrounded it during formation and possibly when released from a substrate on which it was formed. Six primary groups of embodiments are presented which are divide into eleven primary embodiments. Some embodiments attempt to remove stress to minimize distortion while others attempt to balance stress to minimize distortion.

Abstract translation: 用于生产单层或多层结构的电化学制造方法和装置，其中每个层包括至少两种材料的沉积，并且其中形成至少一些层包括当结构被释放时减少应力和/或曲率失真的操作 牺牲材料，其在形成期间包围它，并且可能当从其形成的基底释放时。 呈现了六个主要实施例的组，它们分为十一个主要实施例。 一些实施例尝试去除应力以最小化失真，而另一些实施例试图平衡应力以最小化失真。

公开(公告)号：US20140197904A1

公开(公告)日：2014-07-17

申请号：US14194592

申请日：2014-02-28

Applicant: Microfabrica Inc.

Inventor： Elliott R. Brown ,  John D. Evans ,  Christopher A. Bang ,  Adam L. Cohen ,  Michael S. Lockard ,  Dennis R. Smalley ,  Morton Grosser

IPC: H01P1/202 ,  H01P11/00

CPC classification number: H01P1/202 ,  B33Y10/00 ,  B33Y70/00 ,  B81B2201/042 ,  C25D1/003 ,  G01P15/0802 ,  G01P15/125 ,  H01P3/06 ,  H01P5/183 ,  H01P11/00 ,  H01P11/005 ,  H01P11/007 ,  H05K3/4647 ,  Y10T29/49002 ,  Y10T29/49016 ,  Y10T29/49018

Abstract: Multi-layer, multi-material fabrication methods include depositing at least one structural material and at least one sacrificial material during the formation of each of a plurality of layers wherein deposited materials for each layer are planarized to set a boundary level for the respective layer and wherein during formation of at least one layer at least three materials are deposited with a planarization operation occurring before deposition of the last material to set a planarization level above the layer boundary level and wherein a planarization occurs after deposition of the last material level above the layer boundary level and wherein a planarization occurs after deposition of the last material whereby the boundary level for the layer is set. Some formation processes use electrochemical fabrication techniques (e.g. including selective depositions, bulk depositions, etching operations and planarization operations) and post-deposition processes (e.g. selective etching operations and/or back filling operations).

Abstract translation: 多层多材料制造方法包括在形成多个层期间沉积至少一种结构材料和至少一种牺牲材料，其中每层的沉积材料被平坦化以设定各层的边界水平， 其中在形成至少一个层期间，沉积至少三种材料，其中在沉积最终材料之前发生的平坦化操作，以将平坦化水平设置在层边界水平之上，并且其中在沉积层上方的最后材料层之后发生平坦化 并且其中在沉积最后的材料之后发生平坦化，由此设置该层的边界水平。 一些形成方法使用电化学制造技术（例如包括选择性沉积，体积沉积，蚀刻操作和平面化操作）和后沉积工艺（例如选择性蚀刻操作和/或反向填充操作）。

公开(公告)号：US20140197145A1

公开(公告)日：2014-07-17

申请号：US14156437

申请日：2014-01-15

Applicant: Microfabrica Inc.

Inventor： Arun S. Veeramani ,  Heath A. Jensen ,  Uri Frodis ,  Christopher G. Wiita ,  Michael S. Lockard ,  Irina Boguslavsky ,  Pavel Lembrikov ,  Dennis R. Smalley ,  Richard T. Chen

IPC: B23K26/38

CPC classification number: B23K26/38 ,  B23K26/0624 ,  B23K26/18 ,  B23K26/40 ,  B23K2101/40 ,  B23K2103/50 ,  G01R1/06738 ,  G01R1/06744 ,  G01R3/00

Abstract: Embodiments are directed to the formation micro-scale or millimeter scale structures or method of making such structures wherein the structures are formed from at least one sheet structural material and may include additional sheet structural materials or deposited structural materials wherein all or a portion of the patterning of the structural materials occurs via laser cutting. In some embodiments, selective deposition is used to provide a portion of the patterning. In some embodiments the structural material or structural materials are bounded from below by a sacrificial bridging material (e.g. a metal) and possibly from above by a sacrificial capping material (e.g. a metal).

Abstract translation: 实施例涉及形成微尺度或毫米级结构或制造这种结构的方法，其中结构由至少一个片状结构材料形成，并且可以包括附加的片状结构材料或沉积的结构材料，其中所有或部分图案化 的结构材料通过激光切割发生。 在一些实施例中，使用选择性沉积来提供图案化的一部分。 在一些实施例中，结构材料或结构材料由牺牲桥接材料（例如金属）从下方限定，并且可能由上面由牺牲性封盖材料（例如金属）限定。

公开(公告)号：US12255123B2

公开(公告)日：2025-03-18

申请号：US17699049

申请日：2022-03-18

Applicant: Microfabrica Inc.

Inventor： Onnik Yaglioglu ,  Richard T. Chen ,  Will J. Tan ,  Jia Li ,  Uri Frodis ,  Nina C. Levy ,  Dennis R. Smalley

IPC: H01L23/473 ,  F28F3/12 ,  F28F13/06 ,  H01L21/48 ,  H05K7/20

Abstract: Embodiments of the present invention are directed to heat transfer arrays, cold plates including heat transfer arrays along with inlets and outlets, and thermal management systems including cold-plates, pumps and heat exchangers. These devices and systems may be used to provide cooling of semiconductor devices or other devices and particularly such devices that produce high heat concentrations. The heat transfer arrays may include microjets, multi-stage microjets, microchannels, fins, wells, wells with flow passages, well with stress relief or stress propagation inhibitors, and integrated microjets and fins.

公开(公告)号：US12181493B2

公开(公告)日：2024-12-31

申请号：US17898446

申请日：2022-08-29

Applicant: Microfabrica Inc.

Inventor： Ming Ting Wu ,  Garret R. Smalley

IPC: G01R1/067 ,  G01R1/073 ,  G01R3/00

Abstract: Probe structures, arrays, methods of using probes and arrays, and/or methods for making probes and/or arrays wherein the probes include at least one flat tensional spring segments and in some embodiments include one or both of:(1) narrowed channel passage segments (e.g. by increasing width of plunger elements or by decreasing channel widths) along portions of channel lengths (e.g. not entire channel lengths) to enhance stability or pointing accuracy while still allowing for assembled formation of movable probe elements and/or (2) pairs of joined probes with at least one end of the probe set having independently compressible tips (e.g. as Kelvin probe pairs for use in 4 wire Kelvin probe tests).