公开(公告)号：US20160149381A1

公开(公告)日：2016-05-26

申请号：US14898157

申请日：2014-06-14

Applicant: LATELEC

Inventor： Damien MORRISON ,  Bastien PUERTOLAS ,  Cyrille DELAME ,  Gerard BOUCOURT ,  Martial GRIMM ,  Bernard AMALRIC ,  Vincent BANASIAK ,  Jean Charles BERNADAC ,  Olivier ESCALAUP ,  Philippe GRI

IPC: H02B1/26 ,  B64D43/00

CPC classification number: H02B1/26 ,  B64D43/00 ,  H05K7/1447 ,  H05K7/20563

Abstract: The invention relates to optimize the use of electronic cabinets in connector technology, using simplified internal connector technology and flexibility in adapting the external connector technology to the connectors of the cabling assemblies—electronic and/or optical connector technologies—and on the structurally. To this end, according to an embodiment, an overall box-shaped electronic cabinet (1) that is fitted with at least one detachable interconnection module (6a, 6b) is provided with a bottom wall (14) including a bottom card (4) connected to a set of electronic modules (5). The rear wall (14) is extended by edges (14a, 14b) provided with connectors (C1a, C1b) that are capable of being coupled to the connectors (C6a, C6b) that are arranged on a side surface (62a, 62b) of the detachable interconnection module (6a) (6b). Devices for closing and releasably locking the at least one detachable interconnection module (6a, 6b) are provided between a handle (8a, 8b) of an interconnection module (6; 6a, 6b) and the side wall (15, 16) of the cabinet (1).

Abstract translation: 本发明涉及在连接器技术中优化电子机柜的使用，使用简化的内部连接器技术和将外部连接器技术适应于布线组件的连接器（电子和/或光学连接器技术）以及结构上的灵活性。 为此，根据实施例，装配有至少一个可拆卸互连模块（6a，6b）的整体盒形电子柜（1）设置有包括底卡（4）的底壁（14） 连接到一组电子模块（5）。 后壁（14）由设置有连接器（C1a，C1b）的边缘（14a，14b）延伸，连接器（C1a，C1b）能够连接到布置在侧面（62a，62b）的侧表面 可拆卸互连模块（6a）（6b）。 用于关闭和可释放地锁定所述至少一个可拆卸互连模块（6a，6b）的装置设置在互连模块（6; 6a，6b）的手柄（8a，8b）和所述互连模块的侧壁（15,16）之间 柜（1）。

公开(公告)号：US20200274632A1

公开(公告)日：2020-08-27

申请号：US16646338

申请日：2018-09-12

Applicant: LATELEC

Inventor： Cyrille DELAME ,  Serge BERENGER ,  Yoann REBIERE

IPC: H04J14/02 ,  H04B10/25 ,  H04B10/40 ,  H04Q11/00 ,  H04J14/08

Abstract: A data management structure (1a) on board a transportation device, incorporating a cabin (100) provided with seats (110), includes a data resource block (210) incorporating audiovisual transmission system units (211 to 213), outward communication systems (100) and/or cabin systems, a standardised data distribution architecture (10a), and devices (E1 to E4) for operating said systems. In the structure (1a), the standardised architecture (10a) includes a concentration box (11) for the bidirectional transfer, on the one hand, of base signals with the resource block (210) and, on the other hand, optical signals with the devices (E1 to E4) of the cabin (100) on at least one optical fibre (2, 3; 2a, 2′a; 2b). This concentration box (11) houses units for processing (211 to 213) by signal switching, bidirectional conversion into optical signals, and optical signal management by wavelength allocation and distribution of downstream (F1) and upstream (F2) optical flows. This concentration box (11) is connected to the devices (E1 to E4) of said systems via intermediate boxes (30, 40) also housing processing units (111 to 113) according to the devices (E1 to E4) to which they are connected.

公开(公告)号：US20200055612A1

公开(公告)日：2020-02-20

申请号：US16487904

申请日：2018-02-20

Applicant: LATELEC

Inventor： Cyrille DELAME ,  Jean-Paul PLATZER ,  Serge BERANGER

IPC: B64D41/00 ,  H02J4/00

Abstract: The method for on-board electrical power distribution according to the invention includes the producing a protected segregation interface (4A) between the primary distribution (2A) and the secondary distribution network for electrical power of the cabin system (30). referred to as the cabin network, so as to comply with the quality parameters for the primary distribution (2A); controlling the extraction of electrical power from the primary distribution (2A) by a cabin management system (G1, G2) depending on the availability of electrical power on this primary distribution (2A); converting and distributing this available electrical power in the cabin network (30) according to a suitable configuration of the loads (51, 52, 53) of this cabin network (30) and defined according to an electrical configuration of type, single/three-phase AC and DC, as well as of voltage level and frequency.