Abstract:
A slide bearing supporting frame for supporting and mounting a slide bearing to a rack having locking holes, includes at least one locking part penetrating at least one of the locking holes and for being locked to the at least one of the locking holes of the rack via a fixer, for allowing the slide bearing frame to be fixed on a rack with locking holes of different sizes.
Abstract:
An assembly and a heat-dissipating device having the same assembly are provided, in that tapped holes in fans of the heat-dissipating device are used with at least two columnar first fixing parts for mounting or detaching the heat-dissipating device with the need for extra tools. Accordingly, problems in the prior art may be solved.
Abstract:
SRAM cells and SRAM cell arrays are described. In one embodiment, an SRAM cell includes a first inverter and a second inverter cross-coupled with the first inverter to form a first data storage node and a complimentary second data storage node for latching a value. The SRAM cell further includes a first pass-gate transistor and a switch transistor. A first source/drain of the first pass-gate transistor is coupled to the first data storage node, and a second source/drain of the first pass-gate transistor is coupled to a first bit line. The first source/drain of the switch transistor is coupled to the gate of the first pass-gate transistor.
Abstract:
A fan device includes a fan body having a connecting portion and two corresponding side portions, wherein each side portion is provided with at least a corner edge consisting of an aperture, a fan frame, a frame connecting end connecting with the connecting portion, a side wall for dividing the fan body, and a wrench having a wrench connecting end and an exerting end, wherein the wrench connecting end has two protrusion portions disposed on both side thereof. When installing the fan body in the fan frame, the exerting end is used to exert force to turn the wrench so that is abuts against a side wall thereof, thereby exerting force on the side wall and the exerting end to detach the connecting portion from the wrench connecting end.
Abstract:
A truncated glucanase with an improved thermal stability and a higher specific enzymatic activity than the wild-type enzyme. The truncated glucanase is obtained by removing a number of amino acid residues from the C-terminal of the wild-type 1,3-1,4-β-D-glucanase of Fibrobacter succinogenes. The removal of the C-terminal amino acid residues can be conducted at the genetic level by modifying the gene encoding for the wild type enzyme using, for example, a PCR-based method. Or, it can also be conducted at the protein level by first producing the wild-type enzyme protein and then subjecting the wild-type protein to certain protease action to remove a portion of its C-terminal.
Abstract:
SRAM cells and SRAM cell arrays are described. In one embodiment, an SRAM cell includes a first inverter and a second inverter cross-coupled with the first inverter to form a first data storage node and a complimentary second data storage node for latching a value. The SRAM cell further includes a first pass-gate transistor and a switch transistor. A first source/drain of the first pass-gate transistor is coupled to the first data storage node, and a second source/drain of the first pass-gate transistor is coupled to a first bit line. The first source/drain of the switch transistor is coupled to the gate of the first pass-gate transistor.
Abstract:
An electronic device for at least a driving module is disclosed. The electronic device includes a body having an opening, an accommodating space corresponding to the opening, and a first fixing structure installed adjacent to the accommodating space. The electronic device further includes a connecting box for accommodating the driving module and for allowing the driving module to be replaced through the opening into the accommodating space. The connecting box includes a second fixing structure corresponding to the first fixing structure for fixing the connecting box in the body.
Abstract:
A track fixture is disclosed for engaging a track with a rack of a server. The rack has a first through hole. The track fixture includes a track bearer for engaging with the track, the track bearer including a fixing portion having a second through hole; a fixing slice including a positioning hole corresponding to the second through hole; a positioning component including a positioning portion having a shape matched with a shape of the positioning hole, for passing through the first through hole and the second through hole and being positioned in the positioning hole; and an engaging component for engaging with the positioning component, so as to fix the track bearer to the rack.
Abstract:
The invention provides a bay-filling member for an electronic device employed to fill-in empty, currently unused bays of the electronic device in which such bay have at least first and second securing portions, wherein the bay-filling member has a casing, a third securing portion correspondingly coupled to the first securing portion, a fourth securing portion correspondingly coupled to the second securing portion, and elastic portions for being press-fit into the bay so as to allow the bay-filling member to adapt to the structure of free bays to simplify the structure of the bay-filling member, in order to address the shortcomings of conventional techniques.