Patent application number | Description | Published |
20110206328 | OPTOELECTRONIC MODULE WITH EMI SHIELD - An optoelectronic module for converting and coupling an information-containing electrical signal with an optical fiber including a housing having an electrical input for coupling with an external electrical cable or information system device and for transmitting and receiving information-containing electrical signals over such input, and a fiber optic connector adapted for coupling with an external optical fiber for transmitting and receiving an optical signal; an electro-optical subassembly coupled to the information containing electrical signal and converting it to and/or from a modulated optical signal corresponding to the electrical signal; and an electromagnetic shield including (i) a latchable top cover; (ii) an O-ring metallic seal surrounding the optical ports; and (iii) a spring-clip finger shaped sleeve circumferentially surrounding the optical ports. | 08-25-2011 |
20140126957 | COMMUNICATION MODULE LATCHING MECHANISM - An example embodiment includes a latching mechanism configured to selectively secure a communication module to a receptacle of a host device. The latching mechanism includes a latch, a cam, and a latch release. The latch includes a latch hook and a latch protrusion. The cam is mechanically coupled to the latch release. The cam is positioned with respect to the latch such that an activation force applied to the latch release translates the cam to contact the latch protrusion and displace the latch hook. | 05-08-2014 |
20140153866 | OPTICAL COMPONENT ARRAYS IN OPTICAL CONNECTORS - An example embodiment includes an optical connector. The optical connector includes a printed circuit board (PCB), multiple optical components, multiple optical fibers, and a lens assembly. The optical components are mounted to the PCB. Additionally, each of the optical components includes an aperture. The lens assembly is positioned on the PCB. The lens assembly defines a cavity in which the optical components are positioned. Additionally, the lens assembly defines optical fiber seats that are configured to receive the optical fibers. The lens assembly includes an angled surface that is configured to reflect optical signals between the optical components and the optical fibers. | 06-05-2014 |
20140178014 | PIN CADENCE FOR HIGH-SPEED CONNECTORS - A connector includes pins having a pinout including a functional designation cadence. The functional designation cadence includes a first ground pin, a first signal pin, a no-connect pin, a second signal pin, and a second ground pin, where the first signal pin is positioned between the first ground pin and the no-connect pin, the no-connect pin is positioned between the first and second signal pins, and the second signal pin is positioned between the no-connect pin and the second ground pin. Alternately, the functional designation cadence includes a first ground pin, a first signal pin, a third ground pin, a second signal pin, and a second ground pin, where the first signal pin is positioned between the first and third ground pins, the third ground pin is positioned between the first and second signal pins, and the second signal pin is positioned between the third and second ground pins. | 06-26-2014 |
20140185995 | OPTICAL FIBER SECURING DEVICE - An optical fiber securing device may include a passage, an epoxy well, an epoxy path, an optical fiber seat, and a protrusion. The passage may have an entrance and an exit, the passage configured to receive therein an optical fiber inserted through the entrance. The epoxy well may be configured to receive therein epoxy. The epoxy path may provide a pathway for epoxy between the epoxy well and the passage. The optical fiber seat may be configured to receive at least a portion of the optical fiber, the optical fiber seat configured to position an end of the optical fiber in optical alignment with a lens. The protrusion may define an upper boundary of the passage at the exit of the passage, the protrusion configured to restrain epoxy received within the passage such that the epoxy does not become interposed between the end of the optical fiber and the lens. | 07-03-2014 |
20150241646 | LATCH MECHANISM FOR COMMUNICATION MODULE - A latch may include a follower and a driver. The follower may include a follower opening configured to receive a post of a housing. The driver may include a driver opening configured to receive the post of the housing such that the driver is selectively rotatable relative to the post. The driver may further include an interfacing finger positioned to be received by the follower opening. The interfacing finger may be configured to urge the follower to slidingly move relative to the housing as the driver is rotated relative to the post. | 08-27-2015 |
20150263453 | LATCH MECHANISMS FOR MODULES - Latch mechanisms for modules are disclosed. A module includes a housing and a release slide. The housing includes a first rib located on a first side of the housing and a second rib located on a second side of the housing. The release slide is slidingly positioned on the housing. The release slide includes a release slide base, a first release slide arm extending from the release slide base, and a second release slide arm extending from the release slide base. A first flange extending from the first release slide arm is positioned at least partially over the first rib. A second flange extending from the second release slide arm is positioned at least partially over the second rib. | 09-17-2015 |
20150362686 | PLUGGABLE CONNECTOR - In an embodiment, a pluggable connector configured to removably couple an end of an optical cable to an optoelectronic module includes a first portion and a second portion. The first portion is configured to engage a latch slot of the optoelectronic module to retain within the optoelectronic module a ferrule optically coupled to optical fibers of the optical cable. The second portion is configured to engage the ferrule to prevent removal of the ferrule from within the optoelectronic module when the first portion engages the latch slot. | 12-17-2015 |