One embodiment provides a system and method for reshaping the power budget of a cabinet to facilitate an improved deployment density of servers. A battery cabinet comprises: a plurality of sealed batteries; a power outlet; and a power management module coupled to the sealed batteries and the power outlet. The power management module comprises: a power monitoring module configured to monitor a first amount of power consumed by one or more computing devices via a main power supply; a detection module configured to detect that the first amount of power consumption exceeds a predetermined power consumption threshold; and a power provision module configured to provide, via the sealed batteries, power to the power outlet until the first amount of power consumption no longer exceeds the predetermined power consumption threshold.

A fan assembly is disclosed. The fan assembly can include a first support frame. The fan assembly can comprise a shaft assembly having a first end coupled with the first support frame and a second end disposed away from the first end. A second support frame can be coupled with the first support frame and disposed at or over the second end of the shaft assembly. An impeller can have fan blades coupled with a hub, the hub being disposed over the shaft assembly for rotation between the first and second support frames about a longitudinal axis. Transverse loading on the shaft assembly can be controlled by the first and second support frames.

The present invention discloses a power supply system and a power supply method. The power supply system includes: a load region, a load disposed in the load region, at least two preceding-stage power supply regions disposed around the load region, preceding-stage power modules disposed in the at least two preceding-stage power supply regions, at least two post-stage power supply regions disposed around the load region, and post-stage power modules disposed in the at least two post-stage power supply regions. The at least two preceding-stage power supply regions and the at least two post-stage power supply regions are arranged in a staggered manner. The preceding-stage power module and the post-stage power module are cascaded to supply power to the load.

A power supply fixing structure being suitable for connecting an elongated type power supply to a connection structure of a casing is provided. The power supply fixing structure includes a connecting component and an interconnect structure formed at an outer casing of the elongated type power supply. The connecting component includes a first connecting part for connecting to a connection structure and a second connecting part for connecting to the interconnect structure.

The invention relates to a device (10) for linking at least two electronic apparatuses (60), the device (10) comprising a first power supply connector (12), a first DC link connector (16), a second power supply connector (14), a second DC link connector (18), and an electronic apparatus connector (20), wherein the electronic apparatus connector (20) comprises power supply lines (24) and DC lines (22), wherein the first power supply connector (12) is electrically connected to the second power supply connector (14) and the power supply lines (24), wherein the first DC link connector (16) is electrically connected to the second DC link connector (18) and the DC lines (22), wherein the first power supply connector (12) is pluggable to a second power supply connector (14) of a further device (10) for linking at least two electronic apparatuses (60), wherein the first DC link connector (16) is pluggable to a second DC link connector (18) of a further device (10) for linking at least two electronic apparatuses (60). The invention provides an improved device (10) for linking at least two electronic apparatuses (60), wherein the device (10) is more flexible and has a simplified handling.

A wearable accessory, comprising: a device mounting part configured to be coupled with a device; and a body-coupled part formed to extend from the device mounting part along a lengthwise direction, wherein the body-coupled part includes: a flexible cell equipped with an electrode assembly, a casing that accommodates therein the electrode assembly, and a cell terminal connected to the electrode assembly and protruding from an opposite side of a side adjacent to the device mounting part; a connection circuit extending by being connected to a main circuit module formed on the device or the device mounting part; and a protection circuit module configured to connect the cell terminal and the connection circuit to each other and block an electrical connection between the cell terminal and the connection circuit when damage of the protection circuit module occurs by external force.

A power distribution board for a modular chassis system, wherein the modular chassis system is configured to install a plurality of electrical devices, and the power distribution board comprises: a plurality of detecting pins, a microcontroller and a plurality of protecting circuits. The plurality of detecting pins electrically connects to the plurality of electrical devices respectively, and each detecting pins is configured to detect a modular type of a respective one of the electrical devices. The microcontroller electrically connects to the plurality of the detecting pins and selectively chooses one of a plurality of configurations according to the detected modular type. Each of the protecting circuits electrically connects to the microcontroller and corresponds to one of the electrical devices, each of the protecting circuits set a rated power value according to the chosen one of the configurations.

An information handling system includes a solid state battery having a first major surface and a second major surface opposite the first major surface; a first pressure plate; a first elastomer layer between the first pressure plate and the first major surface of the solid state battery; a second pressure plate; and a second elastomer layer between the second pressure plate and the second major surface of the solid state battery, the first and second pressure plates configured to provide a compressive force to the solid state battery.

A modular edge power system is provided. The modular edge power system includes a housing having a rack adapted to mount compute devices and a direct current power bus within the housing. Multiple power distribution units are adapted to be removably coupled to the direct current power bus at a position within the housing and outside of the rack. Each power distribution unit is configured to distribute electrical power received from the direct current power bus to one or more compute devices mounted in the rack. Each power distribution unit may convert the electrical power from a first power level to a second power level.

A case module that is capable of installing a first electronic module and a second electronic module, includes a cage and a restraining component. The first electronic module can move relative to the cage to a first installation position along a first direction. The second electronic module can move relative to the cage to a second installation position along a second direction perpendicular to the first direction. When the first electronic module moves relative to the cage toward the first installation position along the first direction, the restraining component is driven to move relative to the cage toward a restraining position along the first direction. The second electronic module can be stopped by the restraining component when the restraining component is located at the restraining position.