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    • 4. 发明授权
    • Multi-optical fiber connector module having a cover comprising unfilled plastic having deformable features formed therein, and a method
    • 多光纤连接器模块,其具有包括其中形成有可变形特征的未填充塑料的盖,以及一种方法
    • US09086547B2
    • 2015-07-21
    • US13596473
    • 2012-08-28
    • Laurence R. McColloch
    • Laurence R. McColloch
    • G02B6/38
    • G02B6/3839G02B6/3865Y10T29/49826
    • A multi-optical fiber connector module is provided with an unfilled plastic cover that is used to secure the ends of a plurality of optical fibers at precise locations within the connector modules. The cover has deformable features that permanently deform when the cover is secured to a housing of the connector module. The permanent deformations are caused by forces that are exerted on the deformable features by respective unjacketed optical fibers when the cover is secured to the module housing. When the features deform, they partially wrap about the respective unjacketed optical fibers such that the respective fibers are pinned between the respective deformed features and the respective V-shaped grooves of the module housing. This contact between the deformed features, the respective unjacketed optical fibers and the respective V-shaped grooves maintains the respective unjacketed optical fibers in precise locations along respective optical pathways of the connector module.
    • 多光纤连接器模块设置有未填充的塑料盖,其用于将多根光纤的端部固定在连接器模块内的精确位置处。 盖具有可变形特征,当盖固定到连接器模块的壳体时,该特征将永久地变形。 永久变形是由盖子固定在模块壳体上时由相应的未遮盖的光纤施加在可变形特征上的力引起的。 当特征变形时,它们部分地围绕相应的未遮盖的光纤缠绕,使得相应的纤维被钉在相应的变形特征与模块壳体的相应的V形槽之间。 变形特征之间的接触,相应的未遮光的光纤和相应的V形槽在相应的连接器模块的光学路径处将相应的未遮光的光纤保持在精确的位置。
    • 5. 发明授权
    • Method and apparatus for mounting and positioning parallel optical transceiver modules in a mid-plane mounting configuration with improved mounting density and alignment accuracy
    • 将平行光收发器模块安装和定位在具有改进的安装密度和对准精度的中平面安装配置中的方法和装置
    • US08936402B2
    • 2015-01-20
    • US12711093
    • 2010-02-23
    • Laurence R. McColloch
    • Laurence R. McColloch
    • G02B6/36G02B6/43G02B6/42
    • G02B6/43G02B6/4246G02B6/4249
    • An optical communications system is provided in which module locating pins of the system mate with inwardly-shaped corners formed on parallel optical transceiver modules of the system when the parallel optical transceiver modules are mounted on a mid-plane mounting structure of the system. The inwardly-shaped corners of the parallel optical transceiver modules are complementary in shape to portions of the module locating pins. The mating of the module locating pins with the inwardly-shaped corners of the modules operates to passively position the modules at intended spatial locations relative to each other and relative to the mid-plane mounting structure. The inwardly-shaped corners consume very little space in the modules and the pins consume very little space in the optical communications system. Consequently, the pitch between adjacent parallel optical transceiver modules can be kept very small and the mounting density of the modules on the mid-plane mounting structure can be very high.
    • 提供了一种光通信系统,其中当并行光收发器模块安装在系统的中平面安装结构上时,系统的模块定位销与系统的并行光收发器模块上形成的向内形状的角配合。 并行光收发器模块的向内形状的角部在形状上与模块定位销的部分互补。 模块定位销与模块的向内的角部的配合操作以将模块以预定的空间位置相对于彼此和相对于中间平面安装结构被动地定位。 内部形状的拐角在模块中消耗的空间非常小,并且在光通信系统中引脚消耗的空间非常小。 因此,相邻的并行光收发器模块之间的间距可以保持非常小,并且中间平面安装结构上的模块的安装密度可以非常高。
    • 7. 发明申请
    • METHODS AND SYSTEMS FOR BLIND MATING MULTI-OPTICAL FIBER CONNECTOR MODULES
    • 用于开发多光纤连接器模块的方法和系统
    • US20140056560A1
    • 2014-02-27
    • US13593857
    • 2012-08-24
    • Laurence R. McColloch
    • Laurence R. McColloch
    • G02B6/38H05K3/36
    • G02B6/4292G02B6/3879G02B6/3885G02B6/3897G02B6/4204G02B6/4214G02B6/423G02B6/4246Y10T29/49126Y10T29/49899
    • Systems and methods are provided that enable a first bank, or array, of multi-optical fiber connector modules disposed in a plug that is mounted on a first structure to be simultaneously blind mated with a second bank of multi-optical fiber connector modules disposed on a receptacle that is mounted on a second structure. As the first and second structures are brought into engagement with one another, passive coarse alignment features on the plug and on the receptacle coarsely align the respective connector modules with one another. Then, as the respective connector modules begin to come into contact with one another, passive fine alignment features on the respective connector modules engage one another to finely align the respective connector modules such that their optical pathways are brought into precise optical alignment with one another.
    • 提供的系统和方法使得能够设置在安装在第一结构上的插头中的多光纤连接器模块的第一组或阵列同时与布置在其上的多光纤连接器模块的第二组盲配对 一个安装在第二个结构上的插座。 当第一和第二结构彼此接合时,插头和插座上的被动粗略对准特征将相应的连接器模块彼此粗略对准。 然后,当相应的连接器模块开始彼此接触时,各个连接器模块上的被动精细对准特征彼此相互接合,以使相应的连接器模块精细对准,使得它们的光学路径彼此进行精确的光学对准。
    • 10. 发明申请
    • TRANSCEIVER SYSTEM ON A CARD FOR SIMULTANEOUSLY TRANSMITTING AND RECEIVING INFORMATION AT A RATE EQUAL TO OR GREATER THAN APPROXIMATELY ONE TERABIT PER SECOND
    • 卡片收发系统同时发送和接收信息等于或大于每秒第一个令牌
    • US20100284698A1
    • 2010-11-11
    • US12190884
    • 2008-08-13
    • Laurence R. McColloch
    • Laurence R. McColloch
    • H04B10/00
    • H04B10/801G02B6/4201G02B6/4246G02B6/4249G02B6/4269G02B6/428H04B10/40H04B10/43
    • An optical transceiver system is provided that comprises multiple parallel transceiver modules that are mounted on a card. The transceiver card is small in terms of spatial dimensions, has very good heat dissipation characteristics, and is capable of simultaneously transmitting and receiving data at a rate equal to or greater than approximately one Tb per second (1 Tb/s). A plurality of the transceiver systems may be interconnected to achieve a communications hub system having even higher bandwidths. In addition, the transceiver system may be configured such that each card has a routing controller mounted thereon for performing router functions. The router functions include, for example: causing signals received by one transceiver module on the card to be routed to and transmitted by another of the transceiver modules; causing signals received by one transceiver module on the card to be retransmitted by the same transceiver module over one of it's optical transmit channels; and causing signals received by one transceiver module on the card to be routed to and transmitted by a transceiver module on a different card.
    • 提供了一种光收发器系统,其包括安装在卡上的多个并行收发器模块。 收发器卡在空间尺寸方面小,具有非常好的散热特性,并且能够以等于或大于约每秒Tb(1Tb / s)的速率同时发送和接收数据。 多个收发器系统可以互连以实现具有甚至更高带宽的通信集线器系统。 此外,收发器系统可以被配置为使得每个卡具有安装在其上的路由控制器用于执行路由器功能。 路由器功能包括,例如:使由卡上的一个收发器模块接收到的信号被路由到另一个收发器模块并由其发送; 使由卡上的一个收发器模块接收的信号由相同的收发器模块通过其光传输通道之一重发; 并且使得由卡上的一个收发器模块接收的信号被路由到由不同卡上的收发器模块发送和发送。