A patch on interposer (PoINT) package is described with a wireless communications interface. Some examples include an interposer, a main patch attached to the interposer, a main integrated circuit die attached to the patch, a second patch attached to the interposer, and a millimeter wave radio die attached to the second patch and coupled to the main integrated circuit die through the interposer to communicate data between the main die and an external component.

A blade computing system is described with a wireless communication between blades. In one embodiment, the system includes a first blade in the enclosure having a radio transceiver to communicate with a radio transceiver of a second blade in the enclosure. The second blade has a radio transceiver to communicate with the radio transceiver of the first blade. A switch in the enclosure communicates with the first blade and the second blade and establishes a connection through the respective radio transceivers between the first blade and the second blade.

A cell site sector includes: a mounting frame; an RF antenna mounted to one side of the mounting frame; and at least one (RRU mounted to a second, opposed side of the mounting frame and operationally connected with the antenna. The RRU and the RF antenna have horizontal width and depth dimensions, the width dimension being greater than the depth dimension, wherein the width dimension of the RRU is generally parallel with the width dimension of the RF antenna.

Systems and methods of managing a modular network element as a single entity and the modular network element includes a plurality of line modules and zero or more switch modules in a chassis. The plurality of line modules are located separate from the chassis and connected to the chassis and/or to one another via cabling. The method includes operating a management plane between the plurality of line modules and the zero or more switch modules via one or more dedicated links in the cabling; managing the plurality of line modules and the zero or more switch modules as a single network element utilizing a chassis management protocol over the management plane; and designating one of a controller in the chassis and a processor in one of the plurality of line modules operating as a virtual controller as primary for the chassis management protocol.

Cable backplane systems and communication devices are provided according to examples of the present disclosure. In one aspect, a cable backplane system includes a frame and a cable unit; the cable unit includes a first connector array, a second connector array and communication cables; the first connector array is fixed on the frame, wherein a first connector in the first connector array is connected with a first plug-in card, first connectors in a same row are connected with a same first plug-in card; the second connector array is fixed on the frame, wherein a second connector in the second connector array is connected with a second plug-in card, second connectors in a same column are connected with a same second plug-in card; and the communication cables is connected with the first connector array and the second connector array.

A modular, hybrid electrical connector suitable for use as a power connector with contacts for different types of power. Portions of the connector may be electrically and mechanically connected to an electronic assembly at different times or in different ways. A first portion of the connector may be electrically connected to a printed circuit board within the assembly. A second portion may be subsequently attached to the first portion and electrically connected to other components within the assembly through cables. With this configuration, the first portion may carry power contacts, coupled to a DC supply through the printed circuit board, and the second portion may carry power contacts, coupled to an AC supply through the cables. The first portion may be soldered to the printed circuit board such as through a reflow operation, without the heat of the reflow damaging the insulation of the cable, which may degrade if heated.

The disclosed apparatus may include (1) an FRU that (A) is designed to mate with a backplane of a telecommunications system and (B) facilitates communication among computing devices within a network and (2) at least one multi-bar ejector that (A) is coupled to the FRU, (B) fastens to a housing of the telecommunications system to enable the FRU to mate with the backplane of the telecommunications system, and (C) includes a spring coupled to at least one bar of the multi-bar ejector that, when the multi-bar ejector is fastened to the housing of the telecommunications system, applies a force on the FRU that pushes the FRU toward the backplane of the telecommunications system. Various other apparatuses, systems, and methods are also disclosed.

The disclosed apparatus may include (1) an FRU that (A) is designed to mate with a backplane of a telecommunications system and (B) facilitates communication among computing devices within a network and (2) at least one multi-bar ejector that (A) is coupled to the FRU, (B) fastens to a housing of the telecommunications system to enable the FRU to mate with the backplane of the telecommunications system, and (C) includes a spring coupled to at least one bar of the multi-bar ejector that, when the multi-bar ejector is fastened to the housing of the telecommunications system, applies a force on the FRU that pushes the FRU toward the backplane of the telecommunications system. Various other apparatuses, systems, and methods are also disclosed.

A blade computing system is described with a wireless communication between blades. In one embodiment, the system includes a first blade in the enclosure having a radio transceiver to communicate with a radio transceiver of a second blade in the enclosure. The second blade has a radio transceiver to communicate with the radio transceiver of the first blade. A switch in the enclosure communicates with the first blade and the second blade and establishes a connection through the respective radio transceivers between the first blade and the second blade.

A blade computing system is described with a wireless communication between blades. In one embodiment, the system includes a first blade in the enclosure having a radio transceiver to communicate with a radio transceiver of a second blade in the enclosure. The second blade has a radio transceiver to communicate with the radio transceiver of the first blade. A switch in the enclosure communicates with the first blade and the second blade and establishes a connection through the respective radio transceivers between the first blade and the second blade.