公开(公告)号：US20160277123A1

公开(公告)日：2016-09-22

申请号：US14442282

申请日：2013-11-15

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Johannes Fink ,  Christian Weinmann ,  Sebastian Eggert ,  Manfred Bauer

IPC: H04B10/80 ,  H04B3/44 ,  H04B10/2575

CPC classification number: H04B10/808 ,  H04B3/44 ,  H04B10/25752

Abstract: Passive fibre-optic enclosure comprising, a) one or more fibre-optic functional units of a telecommunication network, optically connectable, via an optical fibre, with a central network unit, for receiving telecommunication signals for one or more subscribers via the optical fibre from the central network unit, characterized in that the enclosure further comprises, on the inside of the enclosure, b) transceiving means, which is operable to generate first optical signals using electrical energy, which is operable to receive optical response signals from the central network unit, which is optically connectable to the optical fibre such that the first optical signals can be transmitted by the optical fibre to the central network unit, and such that optical response signals can be transmitted by the optical fibre from the central network unit to the transceiving means.

Abstract translation: 无源光纤外壳，包括：a）电信网络的一个或多个光纤功能单元，经由光纤与中央网络单元可光学连接，用于经由光纤从一个或多个用户接收电信信号， 所述中央网络单元的特征在于，所述外壳还包括在所述外壳的内部，b）收发装置，其可操作以使用电能产生第一光信号，所述电能用于从所述中央网络单元接收光响应信号 ，其可光学地连接到光纤，使得第一光信号可以由光纤传输到中央网络单元，并且使得光响应信号可以由光纤从中央网络单元传输到收发装置 。

公开(公告)号：US20140370741A1

公开(公告)日：2014-12-18

申请号：US14368030

申请日：2012-12-19

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Giuliano Bolcato ,  Jens Weichold ,  Pasquale J. Zanoli ,  Mark Gravermann ,  Michael H. Stalder ,  Holger Kurzhals ,  Sebastian Eggert ,  Christian Weinmann

IPC: H01R13/58 ,  H01R43/26 ,  H01R13/66

CPC classification number: H01R13/5845 ,  G01R15/06 ,  G01R15/142 ,  G01R15/16 ,  G01R15/181 ,  G01R19/0084 ,  H01B9/006 ,  H01R13/6683 ,  H01R43/26 ,  H02G15/064 ,  H02G15/184 ,  Y10T29/49208

Abstract: Terminal connection device (10) for connecting an end of a medium- or high-voltage power cable (42) to a connection point, the terminal connection device (10) comprising an interface cable (12) having first and second end portions, comprising an inner conductor (14) and a conductive or semiconductive layer (18). The terminal connection device further comprises a first stress control tube (36) comprising—a stress control element (38), and an insulating layer (40) arranged around the stress control element (38), wherein the first stress control tube (36) is mounted on the first end portion of the interface cable (12). The terminal connection device further comprises a first cable connector (24) for connecting the interface cable (12) to the power cable (42), the first cable connector (24) being connected to the second end portion of the interface cable (12); The terminal connection device (10) further comprises a second stress control tube (36′) comprising a stress control element (38), and an insulating layer (40) arranged around the stress control element (38), wherein the second stress control tube (36′) is mounted over the second end portion of the interface cable (12) and at least a portion of the first cable connector (24); The terminal connection device further comprises one or more tubular shrinkable sleeves (52, 52′, 52″). At least a portion of one of the tubular shrinkable sleeves (52, 52′, 52″) extends over at least a portion of the first stress control tube (36). At least a portion of one of the tubular shrinkable sleeves (52, 52′, 52″) extends over at least a portion of the second stress control tube (36′). The portion of the tubular shrinkable sleeve (52, 52″) extending over at least a portion of the first stress control tube (36) is shrunk down around at least a portion of the first stress control tube (36).

公开(公告)号：US20140158405A1

公开(公告)日：2014-06-12

申请号：US14178533

申请日：2014-02-12

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Anton Kuepper ,  Christian Weinmann

IPC: H01B1/14

CPC classification number: H01B1/14 ,  B65D5/62 ,  B65D2203/10 ,  G06K19/07771 ,  Y10T428/249953 ,  Y10T428/24997 ,  Y10T428/249987

Abstract: The invention provides a material for packaging of electronic components comprising a structured layer, wherein said structured layer comprises a mesh of cells, each cell comprising an electrically conductive rim and an electrically non conductive interior, said cells being interconnected so that any two adjacent cells share at least a portion of their respective rims.

Abstract translation: 本发明提供了一种用于包装结构化层的电子部件的封装材料，其中所述结构化层包括一个电池网，每个电池包括导电边缘和非导电内部，所述电池互连，使得任何两个相邻电池共享 它们各自的边缘的至少一部分。

公开(公告)号：US11423279B2

公开(公告)日：2022-08-23

申请号：US15561211

申请日：2016-03-17

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Ronald D. Jesme ,  Andrew P. Bonifas ,  Nicholas T. Gabriel ,  Christian Weinmann

IPC: G06K19/077

Abstract: Radio frequency identification (RFID) tags are described that include a substrate, an antenna disposed on a major surface of the substrate, an integrated circuit (IC) disposed on a major surface of the substrate, and one or more stand-alone capacitors disposed on a major surface of the substrate. The antenna may have a length less than about 2 meters between first and second ends of the antenna. The integrated circuit may have an effective capacitance less than about 1000 pF and the one or more stand-alone capacitors may have an equivalent capacitance greater than 500 pF and may be connected in parallel with the antenna and the IC.

公开(公告)号：US11119053B2

公开(公告)日：2021-09-14

申请号：US16623883

申请日：2018-06-13

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Zohaib Hameed ,  Nicholas T. Gabriel ,  Ronald D. Jesme ,  Christian Weinmann ,  Kristin J. Godbey ,  Bret W. Ludwig ,  John P. Baetzold

IPC: G01N22/04 ,  H01Q1/22 ,  H04B5/00

Abstract: Wireless sensing devices including stable near-field antennas are provided. A spacer layer is attached to a portion of the substrate adjacent to the antenna. The spacer layer has a thickness T, a relative permittivity k, and a figure of merit defined as the ratio of T (in micrometers) by k. The spacer layer has the figure of merit no less than 20 (micrometers).

公开(公告)号：US10345340B2

公开(公告)日：2019-07-09

申请号：US15106648

申请日：2014-12-16

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Mark Gravermann ,  Friedrich A. Busemann ,  Bernd Schubert ,  Gerhard Lohmeier ,  Andreea Sabo ,  Rainer Reeken ,  Michael H. Stalder ,  Christian Weinmann ,  Sebastian Eggert ,  Dipankar Ghosh ,  Myungchan Kang ,  Christopher D. Sebesta

IPC: G01R15/16 ,  G01R19/00

Abstract: The invention relates to a voltage sensing device for a high and/or medium-voltage power-carrying conductor, the voltages sensing device comprising: • a carrier element (3) with a passageway for receiving the power-carrying conductor, • wherein the carrier element comprises an electrode (4) extending in an axial direction of the passageway of the carrier element and operable as a first electrode of the voltage sensing device, wherein • a conductor (1) of the power cable is operable as the second electrode of the voltage sensing device and wherein • the carrier element has a coefficient of thermal expansion that is less than 5×10^−6 1/K at 20 C.

公开(公告)号：US20190162839A1

公开(公告)日：2019-05-30

申请号：US16321376

申请日：2017-07-27

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Christian Weinmann ,  Markus G.W. Lierse ,  Benjamin Muenstermann ,  Ronald D. Jesme ,  Volker Korsten

IPC: G01S13/75 ,  H01Q15/14 ,  H01Q1/32 ,  H01Q19/30

Abstract: Radar radiation redirecting tapes (1, 2) include a first plurality of individual radar-reflecting directional antennae (5, 11). Each directional antenna comprises at least three elongate, unevenly spaced antenna conductors (10, 20, 30), arranged with their long extensions parallel to each other in the plane of the tape, such that the directional antenna is operable to reflect incoming radar radiation predominantly in a direction (80) which is orthogonal to the long extension of the antenna conductors and parallel to the plane of the tape.

公开(公告)号：US09544066B2

公开(公告)日：2017-01-10

申请号：US14442282

申请日：2013-11-15

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Johannes Fink ,  Christian Weinmann ,  Sebastian Eggert ,  Manfred Bauer

IPC: H04B10/00 ,  H04B10/80 ,  H04B10/2575 ,  H04B3/44

CPC classification number: H04B10/808 ,  H04B3/44 ,  H04B10/25752

Abstract: Passive fibre-optic enclosure comprising, a) one or more fibre-optic functional units of a telecommunication network, optically connectable, via an optical fibre, with a central network unit, for receiving telecommunication signals for one or more subscribers via the optical fibre from the central network unit, characterized in that the enclosure further comprises, on the inside of the enclosure, b) transceiving means, which is operable to generate first optical signals using electrical energy, which is operable to receive optical response signals from the central network unit, which is optically connectable to the optical fibre such that the first optical signals can be transmitted by the optical fibre to the central network unit, and such that optical response signals can be transmitted by the optical fibre from the central network unit to the transceiving means.

Abstract translation: 无源光纤外壳，包括：a）电信网络的一个或多个光纤功能单元，经由光纤与中央网络单元可光学连接，用于经由光纤从一个或多个用户接收电信信号， 所述中央网络单元的特征在于，所述外壳还包括在所述外壳的内部，b）收发装置，其可操作以使用电能产生第一光信号，所述电能用于从所述中央网络单元接收光响应信号 ，其可光学地连接到光纤，使得第一光信号可以由光纤传输到中央网络单元，并且使得光响应信号可以由光纤从中央网络单元传输到收发装置 。

公开(公告)号：US20250035473A1

公开(公告)日：2025-01-30

申请号：US18717047

申请日：2022-12-09

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Joerg Hahn ,  Knut Schumacher ,  Benjamin Muenstermann ,  Robert J. Bialluch ,  Waleri Wischnepolski ,  Christian Weinmann ,  Michael Bahners ,  David M. Rudek ,  John A. Merchant ,  Alissa P. Wenner ,  Patrick G. Zimmerman ,  Vincent Jusuf ,  Kyle R. Hubbs ,  Max Kontak ,  Brijesh Gupta Chagi Ramesh ,  Robert J. Koch ,  Andreas M. Geldmacher ,  Marcus Saurborn ,  Kalc C. Vang

IPC: G01F1/64 ,  G01K13/02 ,  G01N27/07 ,  G01N27/08

Abstract: An electrical property sensor is presented that includes a printed circuit board with a first face separated from a second face by a thickness, the first face having a length and a width. The sensor also includes an aperture extending from a first face of the printed circuit board to a second face of the printed circuit board. The aperture includes a receiving electrode and a transmitting electrode. When a fluid flows through the aperture and a voltage is provided at the transmitting electrode, a cunent flow is measured at the receiving electrode.

公开(公告)号：US20240136730A1

公开(公告)日：2024-04-25

申请号：US18278391

申请日：2022-01-24

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Jens Eichler ,  Christian Weinmann ,  Tom Gaide ,  Michael H. Stalder ,  Sebastian Eggert-Richter

IPC: H01Q15/02 ,  B29C64/393 ,  B33Y10/00 ,  B33Y50/02 ,  B33Y80/00 ,  H01Q15/00

CPC classification number: H01Q15/02 ,  B29C64/393 ,  B33Y10/00 ,  B33Y50/02 ,  B33Y80/00 ,  H01Q15/0013 ,  H01Q15/0086 ,  B29C64/124

Abstract: The present disclosure provides methods, articles, and apparatuses related to altering electromagnetic radiation. A method of making articles includes a) forming an electromagnetic radiation altering material by providing a polymer matrix and optionally embedding dielectric particles in the polymer matrix and b) obtaining initial dielectric properties of the electromagnetic radiation altering material. The method further includes c) modeling electromagnetic radiation altering features of the material suitable for the article obtained from the material to have target electromagnetic radiation altering properties, thereby obtaining a simulation of the electromagnetic radiation altering article; and d) additive manufacturing the electromagnetic radiation altering article based on the simulation of the electromagnetic radiation altering article. An electromagnetic radiation altering article obtained by the method is also provided. Further, an apparatus is provided including the electromagnetic radiation altering article. Methods of altering electromagnetic radiation are provided, including integrating an electromagnetic radiation altering article into either an electronic device or an electromagnetic radiation producing device, or placing the article in the vicinity of the device. Aspects of the present disclosure advantageously contribute to achieving optimized materials and designs for electromagnetic radiation altering articles.