A battery cell includes a first power tab and a first conducting wire. The first power tab may include a proximal end connected to the battery cell, and may provide a first output terminal for the battery cell. The first conducting wire may be connected to a distal end of the first power tab, and may be encircled by the first power tab. The first conducting wire may connect with a power circuit board to provide power from the battery cell.

The invention relates to a computer system, comprising a chassis, a system board, which is arranged in the chassis, and a first power supply unit, which is directly connected to the system board via at least one first plug connector. Furthermore, the computer system comprises an expansion board, which is arranged in the chassis and connected to the system board via at least one second plug connector. Furthermore, the computer system comprises a second power supply unit, which is directly connected to the expansion board via at least one third plug connector, and a circuit, which is arranged on the system board, wherein the circuit is connected to the at least one first plug connector and the at least one second plug connector and is configured to enable a power supply of the computer system selectively by the first power supply unit and/or the second power supply unit.

An example system may comprise a network-attached storage device including a base station having a hardware interface including a drive port and a connectivity port; a modular storage drive attachable to and detachable from the drive port; and a modular wireless adapter attachable to and detachable from the connectivity port. The portable storage device is formable by detaching the modular storage drive and the modular wireless adapter from the hardware interface of the network-attached storage device, and coupling the modular storage drive and the modular wireless adapter to one another via a portable hardware interface. Further, a rechargeable modular power unit is removable from the base station and attachable to and detachable from a power port of the network-attached storage device.

A housing for an electronic device can include an enclosure at least partially defining an internal volume. The enclosure can include a bottom panel. The housing can also include a tubular frame that includes a first pair of tubular support members extending from the bottom panel and a second pair of tubular support members extending from the bottom panel. The housing can also include a first tubular top frame member disposed outside the internal volume and connected to an end of each of the first pair of tubular support members through an opening defined by the enclosure, and a second tubular top frame member disposed outside the internal volume and connected to an end of each of the second pair of tubular support members through an opening defined by the enclosure.

A modular mounting for a computer motherboard. An outer cabinet is designed to provide a protective enclosure for electrical components, and designed to permit throughhole drilling to facilitate mounting on a wall while avoiding disturbance of contents to be mounted within the outer cabinet. A subpanel plate is designed to detachably and securely attach a computer motherboard and cage assembly, and designed to removably mount the motherboard and cage assembly within the outer cabinet as a modular component, mounting of the motherboard and cage assembly being independent of power supply and nonvolatile storage. An inner cage is designed to protectably mount and enclose a computer motherboard and heat sink, and mount to the subpanel plate. A multipole switch may have a set of contacts for each conductor of a network cable entering the outer cabinet, one throw of the switch connecting all conductors of the cable, another throw of the switch disconnecting all contacts of the cable.

Described may be a modular network communication system for use in a foundational structure, for the inclusion of new foundational structure construction, or configured for mobility between different foundational structures. The network communication system may be configured to support a broad array of network-related communications. The foundational structure's modular network communication system may have a controller, a power connection point, a communication protocol, and may include one or more than one network node. The controller unit may have processing circuitry and may be configured to utilize a communication protocol for controlling the foundational structure's information flow of the modular network communication system. Additionally, the controller may be further configured to communicate with at least one, but also more than one network-connected device which may or may not be connected to the internet.

The present disclosure is directed to systems and methods for improving the rigidity or stiffness of an electronic device chassis or housing using a structural secondary battery. The structural secondary battery includes a compression skin disposed about one or more secondary storage cells. The compression skin exerts a compressive force of at least 0.5 atmospheres on the one or more secondary storage cells. A structural member is bonded to the compression skin. The structural member includes a relatively thin (e.g. 0.1 mm or less), rigid (e.g., Young's Modulus of at least 300 GPa), member, such as a sapphire crystal. The structural member may then be bonded or otherwise detachably or non-detachably affixed to an aperture formed in the electronic device chassis or housing. The bonding of the structural member to the electronic device chassis or housing beneficially improves the stiffness of the chassis or housing.

A power supply structure comprises a housing, a socket and a fan. The housing has a main housing, a terminal housing and a front panel, wherein the terminal housing connected with the main housing. The fan and the terminal housing disposed on one end of the main housing, and the fan attached to the front panel. The socket arranged in parallel with the fan and connected to the terminal housing.

The present invention is an apparatus and method for provisioning a compact power filter connection to a well-grounded connector in such a way as to include a capacitive and inductive circuit connection, extremely near the connector and filter, such that EMC compatibility is created in a space roughly 30% of traditional mechanisms and design approach to satisfy the aforementioned needs, provide the previously stated objects, include the above-listed features, and achieve the already articulated advantages. The present invention is carried out in a post-internal ferrite bead re-radiation noise-less manner, in a sense that ability to have noise introduced back onto a post-ferrite bead line has been greatly reduced.

The present invention provides a computing device, apparatus for holding a power supply device, and methods of installing a power supply device in the computing device. The apparatus comprises a container and at least one electrical contact disposed on the container. The container is configured to hold the power supply device and to be received in a receiving space defined by the computing device. The container, when received in the receiving space, is operable to be removed from the receiving space without necessity of opening a cover of the computing device. The apparatus, computing device, and methods are advantageous in various aspects such as being favorable to the lifetime of the power supply device, convenient for uses to manage the power supply device, such as monitoring the status and make replacement when necessary, etc.