公开(公告)号：DE112009003660T5

公开(公告)日：2012-08-02

申请号：DE112009003660

申请日：2009-11-12

Applicant: CORNING INC

Inventor： CHAMARTI ARAVIND ,  SUTHERLAND JAMES SCOTT ,  WEBB DALE ALAN ,  WHITING MATTHEW SCOTT ,  DOWNIE JOHN DAVID ,  WAGNER ROBERT S

IPC: H05K7/18 ,  G06F1/18 ,  H02B1/30

Abstract: Ein Geräteschrank (2), umfassend eine Vorderwand (4), eine Seitenwand (6, 8), sowie ein Geräterack (20), mit einer Breite (28) und einer Stirnebene (32). Die Vorderwand umfasst eine vordere Öffnung (16) mit einer Breite (18). Die Breite des Racks ist ungefähr gleich wie die Breite der vorderen Öffnung oder breiter als diese. Ein Zwischenraum (14) ist zwischen dem Rack und der Seitenwand sowie zwischen dem Rack und der vorderen Wand angeordnet. Ein Befestigungswinkel (40) umfasst eine Platte (42) und einen Vorsprung (44), wobei die Platte an das Rack, die vordere Wand, oder die Seitenwand gekoppelt ist. Der Vorsprung ist in dem Zwischenraum angeordnet und umfasst eine im Wesentlichen plane Oberfläche (45), die weder parallel zur Stirnebene Ist, noch in derselben Ebene wie diese liegt. Ein Patchpanel (50), ein Adaptermodul (54), RFID-Komponenten (60), oder ein RFID-Leser und/oder Leseantenne (64) können an den Vorsprung gekoppelt werden.

公开(公告)号：IN6566DEN2014A

公开(公告)日：2015-05-22

申请号：IN6566DEN2014

申请日：2014-08-05

Applicant: CORNING INC

Inventor： DOWNIE JOHN DAVID ,  SUTHERLAND JAMES SCOTT ,  WAGNER RICHARD EDWARD ,  WEBB DALE ALAN ,  WHITING MATTHEW SCOTT

IPC: H04Q1/02 ,  G06K7/10 ,  H04B5/00

Abstract: Protocols systems and methods are disclosed for two or more RFID tags to communicate with each other and a device using direct connections. A disclosed system includes a first RFID tag a second RFID tag and a device. The first and second RFID tags are configured to mate to each other and directly exchange information. The second RFID tag is further configured to directly exchange information with the device such that information received directly at the second RFID tag from the first RFID tag may then be directly exchanged with the device. The first RFID tag may send a first tag identification directly from the first RFID tag to the second RFID tag. The second RFID tag may then send a first acknowledgement to the first RFID tag if the first tag identification was correctlyreceived by the second RFID tag.

公开(公告)号：IN6564DEN2014A

公开(公告)日：2015-05-22

申请号：IN6564DEN2014

申请日：2014-08-05

Applicant: CORNING INC

Inventor： DOWNIE JOHN DAVID ,  SUTHERLAND JAMES SCOTT ,  WAGNER RICHARD EDWARD ,  WEBB DALE ALAN ,  WHITING MATTHEW SCOTT

IPC: H04Q1/02 ,  G06K7/10 ,  H04B5/00

Abstract: Protocols systems and methods are disclosed for at least one RFID tag and a device to communicate with each other using direct connections wherein the at least one RFID tag and the device are configured to mate and directly exchange identification information. A message comprising a tag identification may be sent directly from the RFID tag to the device and the RFID tag may receive a first acknowledgement from the device if the first tag identification was correctly received. A connection may be detected between the RFID tag and the device prior to directly exchanging information. The exchange of information may include sending data from the device to the RFID tag.

公开(公告)号：WO2014058784A3

公开(公告)日：2014-07-17

申请号：PCT/US2013063694

申请日：2013-10-07

Applicant: CORNING INC

Inventor： DOWNIE JOHN DAVID ,  SUTHERLAND JAMES SCOTT ,  TRICE JAMES PATRICK ,  WAGNER RICHARD EDWARD ,  WHITING MATTHEW SCOTT

IPC: G06K19/07 ,  G06K19/077

CPC classification number: G06K19/0715 ,  G06K19/0704 ,  G06K19/0705 ,  G06K19/07749

Abstract: Excess radio-frequency (RF) power storage and power sharing RF Identification (RFID) tags, and related RFID tag connection systems and methods are disclosed. The excess RF power storage and power sharing RFID tags and related RFID tag connection systems and methods in embodiments disclosed herein allow connected RFID tags to store excess energy derived from excess received RF power in a shared energy storage device. In this manner, an individual RFID tag or a group of connected RFID tags in the RFID tag connection system can continue operation during temporary times when sufficient RF power is not being received from a RFID reader. Sharing stored energy derived from excess received RF power in a shared energy storage device among connected RFID tags in a RFID tag connection system can significantly mitigate problems of RF power interruption.

Abstract translation: 公开了过量的射频（RF）功率存储和功率共享RF识别（RFID）标签以及相关的RFID标签连接系统和方法。 本文公开的实施例中的多余的RF功率存储和功率共享RFID标签和相关的RFID标签连接系统和方法允许连接的RFID标签在共享的能量存储装置中存储从过量接收的RF功率导出的多余能量。 以这种方式，当没有从RFID阅读器接收到足够的RF功率时，RFID标签连接系统中的单独的RFID标签或一组连接的RFID标签可以在临时时间继续操作。 在RFID标签连接系统中共享的能量存储设备中共享从过量接收到的RF功率导出的存储能量可以显着地减轻RF功率中断的问题。

公开(公告)号：WO2014022731A3

公开(公告)日：2014-07-10

申请号：PCT/US2013053335

申请日：2013-08-02

Applicant: CORNING INC

Inventor： BLAIGNAN VINCENT BERNARD ,  TRICE JAMES PATRICK ,  WAGNER RICHARD EDWARD ,  WEBB DALE ALAN ,  WHITING MATTHEW SCOTT

IPC: G06K19/07 ,  G06K7/10

CPC classification number: G06K19/0717 ,  G06K7/10108

Abstract: Disclosed herein are radio-frequency identification (RFID) tag event occurrence detection, generation, and monitoring. Related components, RFID readers (34), systems (10), and methods are also disclosed. The RFID tags (12) are configured to sense an event(s) that occurred in the RFID tag (12) or in proximity thereto. In response, the RFID tags (12) are configured to set an event occurrence indicator(s) (22) in a memory (22) of the RFID tag indicating the occurrence of the sensed event(s). A RFID reader (34) is configured to perform a query of a population of RFID tags (12) in communication range to detect which RFID tags have a set event occurrence indicator(s) (22), so a RFID reader (34) can then specifically communiate with RFID tags (12) that experienced an event(s) to request and service the event(s) type without having to perform those same operations for the entire RFID tag population. The RFID reader (34) can be configured to take desired actions based on detection of events.

Abstract translation: 本文公开了射频识别（RFID）标签事件发生检测，生成和监视。 还公开了相关组件，RFID读取器（34），系统（10）和方法。 RFID标签（12）被配置为感测在RFID标签（12）中或其附近发生的事件。 作为响应，RFID标签（12）被配置为将RFID标签的存储器（22）中的事件发生指示器（22）设置为指示感测到的事件的发生。 RFID读取器（34）被配置为在通信范围内执行对RFID标签（12）的群体的查询，以检测哪些RFID标签具有设置的事件发生指示符（22），因此RFID读取器（34）可以 然后具体地与经历事件的RFID标签（12）通信，以便请求和维护事件类型，而不必对整个RFID标签群体执行相同的操作。 RFID读取器（34）可以被配置为基于事件的检测来采取期望的动作。

公开(公告)号：WO2014058784A2

公开(公告)日：2014-04-17

申请号：PCT/US2013063694

申请日：2013-10-07

Applicant: CORNING INC

Inventor： DOWNIE JOHN DAVID ,  SUTHERLAND JAMES SCOTT ,  TRICE JAMES PATRICK ,  WAGNER RICHARD EDWARD ,  WHITING MATTHEW SCOTT

IPC: G06K19/07

CPC classification number: G06K19/0715 ,  G06K19/0704 ,  G06K19/0705 ,  G06K19/07749

Abstract: Excess radio-frequency (RF) power storage and power sharing RF Identification (RFID) tags, and related RFID tag connection systems and methods are disclosed. The excess RF power storage and power sharing RFID tags and related RFID tag connection systems and methods in embodiments disclosed herein allow connected RFID tags to store excess energy derived from excess received RF power in a shared energy storage device. In this manner, an individual RFID tag or a group of connected RFID tags in the RFID tag connection system can continue operation during temporary times when sufficient RF power is not being received from a RFID reader. Sharing stored energy derived from excess received RF power in a shared energy storage device among connected RFID tags in a RFID tag connection system can significantly mitigate problems of RF power interruption.

Abstract translation: 公开了过量射频（RF）电力存储和功率共享RF标识（RFID）标签和相关RFID标签连接系统和方法。 在本文公开的实施例中的多余的RF功率存储和功率共享RFID标签和相关的RFID标签连接系统和方法允许连接的RFID标签将从多余的接收的RF功率获得的多余的能量存储在共享的能量存储装置中。 以这种方式，RFID标签连接系统中的单个RFID标签或一组连接的RFID标签可以在没有从RFID读取器接收到足够的RF功率的临时时间内继续操作。 在RFID标签连接系统中的连接的RFID标签之间共享能量存储装置中从多余的RF功率获得的存储能量可以显着地减轻RF功率中断的问题。