公开(公告)号：US20240201454A1

公开(公告)日：2024-06-20

申请号：US18556149

申请日：2022-04-21

Applicant: CommScope Technologies LLC

Inventor： Patrick Jacques Ann DIEPSTRATEN ,  Philippe COENEGRACHT ,  Johan GEENS

IPC: G02B6/38

CPC classification number: G02B6/3891 ,  G02B6/3874

Abstract: The present disclosure relates to an optical connection system including a small-form-factor fiber optic adapter having a robust latching arrangement for securing a fiber optic connector within a connector port of the fiber optic adapter.

公开(公告)号：US20240195133A1

公开(公告)日：2024-06-13

申请号：US18581801

申请日：2024-02-20

Applicant: CommScope Technologies LLC

Inventor： Jeffrey D. Paynter

IPC: H01R24/40 ,  H01R9/05 ,  H01R13/518 ,  H01R25/00 ,  H01R107/00

CPC classification number: H01R24/40 ,  H01R9/05 ,  H01R13/518 ,  H01R25/003 ,  H01R2107/00

Abstract: A ganged connector assembly includes: first, second, third and fourth coaxial cables; first, second, third and fourth coaxial connectors, each of the coaxial connectors connected with a corresponding one of the coaxial cables; a shell surrounding the coaxial connectors, the shell configured to electrically isolate each of the coaxial connectors from the other coaxial connectors, wherein the coaxial connectors are arranged in a generally square pattern; and a strain relief boot comprising: first and second cover pieces that are assembled to create a cover around portions of the coaxial cables and the coaxial connectors; and first and second braces that reside within the cover, the first brace being positioned between first and second of the coaxial connectors, and the second brace being positioned between third and fourth of the coaxial connectors.

公开(公告)号：US20240195125A1

公开(公告)日：2024-06-13

申请号：US18472611

申请日：2023-09-22

Applicant: CommScope Technologies LLC

Inventor： David Patrick Murray ,  Bernard Harold Hammond, JR.

IPC: H01R13/6466 ,  H01R13/6461 ,  H01R13/6464 ,  H01R13/66 ,  H01R24/64 ,  H05K1/02 ,  H05K1/16

CPC classification number: H01R13/6466 ,  H01R13/6461 ,  H01R13/6464 ,  H01R13/6691 ,  H05K1/0228 ,  H01R13/6658 ,  H01R24/64 ,  H05K1/162 ,  H05K2201/09236 ,  H05K2201/09672 ,  H05K2201/10189 ,  Y10S439/941 ,  Y10T29/49204 ,  Y10T29/49208 ,  Y10T29/53209

Abstract: Methods and systems for providing crosstalk compensation in a jack are disclosed. According to one method, the crosstalk compensation is adapted to compensate for undesired crosstalk generated at a capacitive coupling located at a plug inserted within the jack. The method includes positioning a first capacitive coupling a first time delay away from the capacitive coupling of the plug, the first capacitive coupling having a greater magnitude and an opposite polarity as compared to the capacitive coupling of the plug. The method also includes positioning a second capacitive coupling at a second time delay from the first capacitive coupling, the second time delay corresponding to an average time delay that optimizes near end crosstalk. The second capacitive coupling has generally the same overall magnitude but an opposite polarity as compared to the first capacitive coupling, and includes two capacitive elements spaced at different time delays from the first capacitive coupling.

公开(公告)号：US20240195042A1

公开(公告)日：2024-06-13

申请号：US18581586

申请日：2024-02-20

Applicant: CommScope Technologies LLC

Inventor： Joy Huang ,  Amit Kaistha

IPC: H01Q1/00 ,  H01Q1/24 ,  H01Q1/42

CPC classification number: H01Q1/005 ,  H01Q1/246 ,  H01Q1/42

Abstract: A reduced wind load antenna includes: a radome having front, rear, and side surfaces; upper and lower end caps attached to upper and lower ends of the radome to define an internal cavity; and radiating elements positioned within the internal cavity and configured to transmit and receive radio frequency (RF) signals. The antenna includes at least one airflow separation delaying feature selected from the group consisting of: large radiused corners on the lower end cap; a domed upper end cap; a domed lower end cap; a plurality of protuberances on the front surface; a plurality of protuberances on each of the side surfaces; spiral ridges on the front surface; and a continuous protuberance on each of the side surfaces.

公开(公告)号：US12010510B2

公开(公告)日：2024-06-11

申请号：US17856164

申请日：2022-07-01

Applicant: CommScope Technologies LLC

Inventor： James J Ni ,  Shanthakumar Ramakrishnan ,  Tat Keung Chan ,  Alexander Medvinsky ,  Prashanth Venkatesh ,  Devaraj Sambandan

IPC: H04W12/0431 ,  H04L9/40 ,  H04W12/069

CPC classification number: H04W12/0431 ,  H04L63/0272 ,  H04W12/069

Abstract: In one embodiment, a method for secure virtualized wireless base station orchestration comprises: obtaining a node certificate and private key from a global CA defining a PKI signing certificate/private key; obtaining a sub CA certificate/private key from either an edge cloud node cluster or the global CA, using a PKI request signed using the PKI signing certificate/private key; establishing an orchestration access IPsec tunnel to a cloud comprising edge cloud orchestration functions; utilizing the orchestration functions to deploy on the node virtualized entities comprising VNFs of a wireless base station; obtaining at least one VNF certificate and private key for the VNFs from the global CA using a PKI request signed using the global certificate/private key; utilizing the VNF certificate/private key, establishing IPsec tunnels between the VNFs and a wireless network services operator network and/or to an OAM secure gateway for a DMS.

公开(公告)号：US20240176670A1

公开(公告)日：2024-05-30

申请号：US18517885

申请日：2023-11-22

Applicant: CommScope Technologies LLC

Inventor： Arjun Nanjundappa ,  Suresh N. Sriram ,  Devaraj Sambandan ,  Ehsan Daeipour

IPC: G06F9/50

CPC classification number: G06F9/5044 ,  G06F9/505

Abstract: A computing system having a vDAS compute node implementing at least one virtual network function (NF) in a virtualized distributed antenna system (vDAS) having a plurality of radio units (RUs). The computing system includes server and vDAS compute node. The vDAS compute node includes vDAS container(s) running on a first subset of cores. The server: receives periodic capacity usage reports from the vDAS compute node(s); compares scaling metric data derived from the periodic capacity usage reports to threshold limits to determine if any threshold limits have been reached by any scaling metric data for the vDAS compute node; when any threshold limits have been reached by any scaling metric data for at least one vDAS compute node: cause vDAS compute node to scale capacity by either instantiating or deleting additional vDAS container on second subset of cores of the at least one vDAS compute node.

公开(公告)号：US20240176090A1

公开(公告)日：2024-05-30

申请号：US18364560

申请日：2023-08-03

Applicant: CommScope Technologies LLC ,  CommScope Connectivity Belgium BVBA

Inventor： Christiaan RADELET ,  Thierry Mike DECLERCK ,  Gary William ADAMS ,  Matthew Peter GALLA ,  Roel Modest Willy BRYON ,  Dirk KEMPENEERS ,  Robert VANHENTENRIJK ,  Danny Willy August VERHEYDEN ,  David Thomas BROWN ,  Michael MARIS ,  Julian S. MULLANEY ,  Valja EVERAERT ,  Hans BOLS

IPC: G02B6/44 ,  H01B7/02 ,  H02G15/06

CPC classification number: G02B6/4444 ,  G02B6/445 ,  H01B7/02 ,  H02G15/06

Abstract: Aspects and techniques of the present disclosure relate to a cable sealing structure comprising a cable sealing body including a gel and methods of making anisotropic behavior in cable sealing structures made with a dry silicone gel. In one aspect, various three-dimensional printing techniques are used to make a cable sealing structure that includes a gel. The cable sealing body has a construction that elastically deforms to apply an elastic spring load to the gel. The cable sealing body has a construction with anisotropic deformation characteristics that allows the cable sealing body to be less deformable in one direction than in others. The cable sealing structure can be utilized to seal fiber optic cables more uniformly while limiting the potential of leakage.

公开(公告)号：US11997614B2

公开(公告)日：2024-05-28

申请号：US17703640

申请日：2022-03-24

Applicant: CommScope Technologies LLC

Inventor： Khalid W. Al-Mufti ,  Ariful Hannan

IPC: H04W16/14 ,  H04W4/02 ,  H04W16/10 ,  H04W40/24 ,  H04W52/24 ,  H04W52/36 ,  H04W72/0453 ,  H04W72/541 ,  H04W84/04

CPC classification number: H04W52/243 ,  H04W4/025 ,  H04W16/10 ,  H04W40/246 ,  H04W52/367 ,  H04W72/0453 ,  H04W72/541 ,  H04W16/14 ,  H04W84/042

Abstract: Techniques are provided for more efficiently determining frequency spectrum to allocate to General Authorized Access (GAA) citizens broadband radio service device(s) (CBSD(s)). Efficiency is enhanced by forming interference groups. Each of interference group may be analyzed in parallel and substantially contemporaneously, e.g., using parallel processing.

公开(公告)号：US11994733B2

公开(公告)日：2024-05-28

申请号：US18158760

申请日：2023-01-24

Applicant: CommScope Technologies LLC

Inventor： Michael J. Wentworth ,  Kenneth Allen Skluzacek

IPC: G02B6/00 ,  G02B6/38 ,  G02B6/44

CPC classification number: G02B6/4477 ,  G02B6/387 ,  G02B6/3878 ,  G02B6/3885 ,  G02B6/4431 ,  G02B6/4471

Abstract: A fiber optic cable transition assembly for transitioning a plurality of optical fibers from a multi-fiber cable to a plurality of furcation tubes. The fiber optic transition assembly has a housing with a front opening and an internal passageway that is defined by a wall and a narrow region. The housing is adapted to receive epoxy adhesive. The fiber optic transition assembly has a boot that is positioned at least partially inside the housing for receiving the multi-fiber cable to provide strain relief to the plurality of optical fibers extending therethrough. The fiber optic transition assembly has a plug supported by the boot and retained by the housing to prevent epoxy adhesive from entering the multi-fiber cable.

公开(公告)号：US20240170833A1

公开(公告)日：2024-05-23

申请号：US18424969

申请日：2024-01-29

Applicant: CommScope Technologies LLC

Inventor： Matthew Severin ,  Robert Campbell

IPC: H01Q1/24 ,  H01Q1/12 ,  H01Q1/42

CPC classification number: H01Q1/246 ,  H01Q1/1242 ,  H01Q1/42

Abstract: The present disclosure describes strand mounts for small cell radios. The strand mount assembly includes a cable strand and a strand mount. The strand mount includes two or more interconnected frame sections that form a frame, each frame section having opposing sides configured such that one or more small cell radios and/or antennas can be mounted thereto. The strand mount further includes a plurality of mount apertures sized and configured to receive the cable strand. Each of the mounting apertures is collinear with the other mounting apertures to create an unimpeded opening that the cable strand extends through, thereby mounting the strand mount on the cable strand. Alternative strand mounts and strand mount assemblies are also described.