Abstract: A sliding latch release mechanism for a latched cable connector. The sliding latch release mechanism includes a fixed portion which is configured to fit securely around a latched cable connector, the latched cable connector having a latch release mechanism. The sliding latch release further includes a slideable portion which is housed within the fixed portion and is configured to move within a slot on the fixed portion. When slid back and forth, the slideable portion of the latch release mechanism engages the latch of the latched cable connector and releases the latch so the latched cable may be unplugged.
Type:
Grant
Filed:
February 8, 2016
Date of Patent:
February 13, 2018
Assignee:
Dell Products L.P.
Inventors:
Salvador D. Jimenez, III, Corey Dean Hartman, Bernard D. Strmiska
Abstract: Interconnection systems are shown that include communication contacts, and a guide. Configurations are shown with a guide that locates a male portion with respect to a female portion and guides their engagement before any communication contacts are engaged. Configurations are also shown with a guide that includes one or more power contacts.
Type:
Grant
Filed:
August 1, 2016
Date of Patent:
December 5, 2017
Assignee:
Micron Technology, Inc.
Inventors:
Michael George, Jonathan J. Hubert, John S. Geldman
Abstract: The invention relates to a method and arrangement for transmitting and receiving control information in a radio-access network. A network node transmits first control information in a first part and second control information in a second part of a time-frequency region that is transmitted after a control region in a subframe. The second part is located later in the subframe than the first part. The second control information may be less time-critical than the first control information. An intermediate node receives and decodes the first control information at the end of the first part. When the first control information indicates that the subframe comprises data payload to the intermediate node, the intermediate node receives and decodes the data payload. The intermediate node receives second control information at the end of the second part.