Patent application number | Description | Published |
20110095664 | COMPUTER ENCLOSURE WITH FRAME FOR DISK DRIVE - A computer enclosure includes a chassis and a frame. The chassis includes a chassis bottom wall and two chassis sidewalls located on the chassis bottom wall. A positioning post is located on each chassis sidewall. Each chassis sidewall defines a positioning hole. The frame includes a mounting bracket and a retaining bracket integrated with the mounting bracket. The mounting bracket defines a through opening, and includes two mounting bracket sidewalls. Each mounting bracket sidewall defines a slot and a fastening hole. Fasteners are engaged in the positioning holes and the fastening holes, to secure the frame to the chassis. The retaining bracket defines a holding space, configured for receiving a disk drive. The holding space communicates the through opening. When the positioning posts of the chassis are engaged in the slots of the mounting bracket, the positioning holes are aligned with the fastening holes of the mounting bracket. | 04-28-2011 |
20110101180 | BRACKET ASSEMBLY - A bracket assembly includes a bracket, a handle, a positioning member, and the securing clip. The handle is attached to the bracket on a first side. The handle defines an opening. The positioning member includes a base and a post. The base abuts the second side of the bracket opposite to the first side of the bracket. The post extends through the bracket and the opening of the handle. The securing clip is attached to the post and secures the handle to the bracket. The handle is capable of pivoting about the post. | 05-05-2011 |
20110110028 | COMPUTER SYSTEM WITH FRAME FOR DISK DRIVE - A computer system includes a chassis and a frame. The chassis includes a chassis bottom wall, a first chassis sidewall connected to the chassis bottom wall, and a second chassis sidewall connected to the chassis bottom wall. The frame includes a mounting bracket and a retaining bracket. The mounting bracket is secured to at least one of the chassis bottom wall and the first and second chassis sidewalls. The mounting bracket defines a through opening configured for to have a disk drive inserted through the opening. The retaining bracket defines a holding space configured for receiving the disk drive. The through opening is in communication with the holding space. The mounting bracket includes a mounting bracket top wall. The retaining bracket includes a retaining bracket top wall. The retaining bracket top wall extends from the mounting bracket top wall. | 05-12-2011 |
20120018606 | MOUNTING DEVICE FOR DATA STORAGE DEVICES - A mounting device for data storage devices includes a mounting bracket, a first tray mounted to the mounting bracket, a second tray mounted to the mounting bracket, a first cable, and a cable retainer. The first cable is located on the first tray. The first cable extends through the first tray and toward the second tray. The cable retainer is mounted to the first tray adjacent the second tray for retaining the first cable. | 01-26-2012 |
20120063105 | ELECTRONIC DEVICE WITH CABLE - An electronic device includes a chassis, a bracket received in the chassis and a cable. A storage device is received in the bracket, and a wire is connected to the storage device. A motherboard is attached to the chassis, and at least two inserting slots are located on the motherboard. A first circuit board is electronically connected to the wire. The cable is electronically connected to the first circuit board and includes a connecting component and at least two connectors. The connecting component is electronically connected to the first circuit board, and the at least two connectors are electronically connected to the at least two inserting slots. | 03-15-2012 |
20120326579 | COMPUTER ENCLOSURE WITH PULL TAB - A computer enclosure includes a chassis, a mounting bracket, and a pull tab. The mounting bracket is mounted to the chassis. The mounting bracket includes a resilient clip. A fastener is located on the resilient clip. The pull tab is located between the chassis and the mounting bracket. The pull tab is engaged with the mounting bracket. A channel is defined in the pull tab and extends along a first direction. The fastener extends through the channel, and the pull tab is removable along the first direction with the fastener guided by the channel. | 12-27-2012 |
20130160366 | AIRFLOW WINDOW - An airflow window includes an outer frame, an inner frame located in the outer frame, a plurality of shutters, and a magnet. The plurality of shutters is pivotably mounted on the inner frame. Each shutter includes metal. The magnet includes at least one magnet strip. The at least one magnet strip attracts the plurality of shutters at an open state. In the open state, the plurality of shutters is slanted relative to the outer frame. | 06-27-2013 |
Patent application number | Description | Published |
20090108956 | CIRCUIT TOPOLOGY FOR MULTIPLE LOADS - A circuit topology for multiple loads includes a driving terminal, a first node coupled to the driving terminal and a second node via a first branch transmission line, a first receiving terminal which is a test point configured to detect errors of the circuit topology coupled to the first node via a second branch transmission line, a second and a third receiving terminal respectively coupled to the second node via a third branch transmission line and a fourth branch transmission line, wherein the difference between the length of the second branch transmitting line and that of the third branch transmitting line, and the difference between the length of the third branch transmitting line and that of the fourth branch transmitting line are greater than the product of a transmission speed and a rise time of the signal, and a first resistor is connected in the third branch transmission line. | 04-30-2009 |
20090146759 | CIRCUIT TOPOLOGY FOR MULTIPLE LOADS - A circuit topology for multiple loads includes a driving terminal, a first node coupled to the driving terminal via a main transmission line, a second node coupled to the first node via a first branch transmission line, a first receiving terminal coupled to the first node via a second branch transmission line, a third node coupled to the second node via a third branch transmission line, and a second receiving terminal coupled to the second node via a fourth branch transmission line. The second branch transmission line is longer than the first transmission line, and a first resistor is connected in the second branch transmission line. The third branch transmission line is longer than the fourth branch transmission line, and a second resistor is connected in the third branch transmission line. | 06-11-2009 |
Patent application number | Description | Published |
20090248923 | NETWORK DEVICE AND ADAPTOR CARD TYPE DETECTION METHOD THEREOF - A network device ( | 10-01-2009 |
20100302121 | MICROSTRIP ANTENNA - A microstrip antenna located on a substrate with a first surface and a second surface opposite to the first surface includes a feeding portion, a grounding portion, and a radiating portion. The feeding portion is located on the first surface of the substrate to feed electromagnetic signals. The grounding portion is located on the second surface of the substrate. The radiating portion is located on the first surface and includes a first radiating part, a second radiating part, a third radiating part, and a fourth radiating part. Each of the first radiating part, the second radiating part, and the third radiating part is on a rectangle-shaped strip line. The first radiating part is connected to the feeding portion. The fourth radiating part is perpendicularly connected to a second end of the third radiating part. | 12-02-2010 |
20100315304 | SLOT ANTENNA AND SLOT ANTENNA ARRAY - A slot antenna disposed on a substrate including a first surface and an opposite second surface includes a feeding portion, a first radiation portion, a second radiation portion, and a third radiation portion. The feeding portion is disposed on the first surface, and operable to feed electromagnetic signals. The first radiation portion electronically connected to the feeding portion is circular-shaped and disposed on the first surface. The second radiating portion is disposed on the second surface and defines a slot. The second radiation portion couples the first radiation portion to radiate the electromagnetic signals. The third radiation portion is ring-shaped and disposed on the second surface. The third radiation portion couples the first radiation portion to radiate the electromagnetic signals. The first radiation portion, the second radiation portion, and the third radiation portion respectively radiate electromagnetic signals with different frequencies. The second radiation portion is grounded. | 12-16-2010 |
20100321264 | SLOT ANTENNA - A slot antenna located on a substrate with a first surface and a second surface opposite to the first surface includes a feeding portion, a grounding portion and a radiating portion. The feeding portion is located on the first surface of the substrate to feed electromagnetic signals. The grounding portion is rectangular and located on the second surface of the substrate, and defines a circular clearance in a substantial center portion thereof. The radiating portion is located on the second surface of the substrate and comprises at least one elongated microstrip with one end connected to the grounding portion and the other end extending towards the centre of the circular clearance, wherein the feeding portion interacts with the radiating portion to transmit the electromagnetic signals. | 12-23-2010 |
20110221637 | MONOPOLE ANTENNA - A monopole antenna is disposed on a substrate. The substrate includes a first surface and a second surface opposite to the first surface. The monopole antenna includes a feeding portion, a radiating portion, a grounding portion and a coupling portion. The feeding portion is disposed on the first surface to feed electromagnetic signals. The radiating portion is disposed on the first surface and with one end connected to the feeding portion. The grounding portion is positioned on the second surface substantially corresponding to the one end of the radiating portion. The coupling portion is positioned on the second surface and corresponding to the other end of the radiating portion. The radiating portion is coupled with the coupling portion to radiate electromagnetic signals. | 09-15-2011 |
20110298681 | SLOT ANTENNA - A slot antenna located on a substrate with a first surface and a second surface opposite to the first surface includes a feeding portion and a radiating portion. The feeding portion is located on the first surface of the substrate to feed electromagnetic signals. The radiating portion is located on the second surface of the substrate and defines a sector-shaped slot, a first rectangle-shaped slot, a second rectangle-shaped slot, and a third rectangle-shaped slot, wherein the sector-shaped slot is defined by a first semidiameter, a second semidiameter, and an arc connected one by one. | 12-08-2011 |
20120105291 | SOLID ANTENNA WITH UPPER-LOWER STRUCTURE - A solid antenna configured above a substrate includes a short portion, a feeding portion and a radiating portion including four radiators connected one-by-one. A first radiator includes a first upper section on a first plane, a first lower section on a second plane, and a first connection section connecting the first upper section to the first lower section. The second radiator includes a second upper section on the first plane, and a second connection portion connecting the second upper section to the first lower section. The third radiator includes a third upper section and a fourth upper section on the first plane, a second lower section on the second plane, a third connection section connecting the third upper section to the second lower section, and a fourth connection section connecting the second lower section to the fourth upper section. The fourth radiator extends towards the substrate. | 05-03-2012 |
20120223868 | SLOT ANTENNA - A slot antenna is formed on a base. The base includes a first surface and an opposite second surface. The slot antenna includes a feeding portion formed on the first surface, a ground portion and a radiating portion formed on the second surface. The radiating portion includes a first radiating body being surrounded by a first slot, a second radiating body being surrounded by a second slot, a first switch and a second switch. The first switch is set between the first radiating body and the ground portion. The second switch is set between the second radiating body and the ground portion. | 09-06-2012 |
20120287009 | SOLID ANTENNA - A solid antenna disposed on a substrate includes a first grounding portion disposed on the substrate, a feeding portion perpendicular to the substrate, a radiating portion, and a coupling portion disposed on the substrate and separated from the radiating portion. The radiating portion includes a first radiating part, a second radiating part, a connection part, a third radiating part perpendicularly connected to the feeding portion, and a fourth radiating part connected in series. The second radiating part, the connection part, and the third radiating part are disposed on a plane parallel with the substrate. Both the first radiating part and the fourth radiating part extend from the plane to the substrate. The coupling portion is disposed on the substrate and is separated from the radiating portion. | 11-15-2012 |
20140049445 | DUAL FREQUENCY ANTENNA MODULE - A dual frequency antenna module is disposed on a substrate. The substrate includes a first surface and a second surface. The dual frequency antenna module includes a first antenna, a second antenna, a first connecting portion, and a second connecting portion. The antennas are in symmetry about a central line of the antenna module and disposed on the first surface. Each antenna includes a radiation portion and a feeding portion. The connecting portions are disposed on the first surface and connected to each other in symmetry. A width of each microstrip transmission line of the connecting portions is less than a width of each microstrip transmission line of the antennas. A wavelength of electromagnetic waves transmissible through the microstrip transmission lines of the connecting portions is equal to one half of a wavelength of electromagnetic waves transmissible through the microstrip transmission lines of the first and second antennas | 02-20-2014 |