| Patent application number | Description | Published |
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| 20080245901 | VIBRATION DAMPER - Fuel injector assemblies with frictionally damped fuel supply members, including fuel feed strips. More particularly, the invention provides friction dampers and/or assemblies that frictionally damp movement of fuel supply members in at least one direction as a function of frequency. Accordingly, low frequency vibration can be undamped, while vibration above a prescribed frequency can be damped. Some of the embodiments provide a friction damper that is easily serviceable, and can be installed after final assembly of a fuel injector. Aspects of the invention are applicable to other components of fuel injectors and gas turbine engines in addition to fuel supply members. | 10-09-2008 |
| 20090293483 | VIBRATION DAMPER - Fuel injector assemblies with frictionally damped fuel supply members, including fuel feed strips. More particularly, the invention provides friction dampers and/or assemblies that frictionally damp movement of fuel supply members in at least one direction. Some of the embodiments provide a friction damper that is easily serviceable, and can be installed after final assembly of a fuel injector. Aspects of the invention are applicable to other components of fuel injectors and gas turbine engines in addition to fuel supply members. | 12-03-2009 |
| 20100107653 | NOZZLE TIP ASSEMBLY WITH SECONDARY RETENTION DEVICE - A nozzle tip assembly and method characterized by the use of a retention device including at least one tab that cooperates with a ledge for coupling a nozzle shroud to a nozzle adaptor. The retention device can be used as a secondary retention feature to prevent nozzle separation and/or to enable the fuel injector to be repaired without having to replace the entire assembly. The latter advantage is of particular benefit when there is damage during assembly or when the nozzle tip assembly is being overhauled. | 05-06-2010 |
| Patent application number | Description | Published |
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| 20080240113 | SYSTEM AND METHOD OF MODIFYING DATA PACKET TAGS - A system and method of managing data packets for transmission in a virtual network are disclosed. In some implementations, a network switch may generally comprise a packet modifier that modifies a VLAN tag state of a packet to be egressed as a function of an egress interface and a VLAN-ID assignment. The modified VLAN tag state may include one or more VLAN tags that are in a different order, or that have a different content, in comparison to the VLAN tags of the packet at the time of ingress. | 10-02-2008 |
| 20090080459 | Long-reach ethernet for 1000BASE-T and 10GBASE-T - A physical-layer device (PHY) having corresponding methods comprises: a data rate module to select a data rate divisor N, where N is at least one of a positive integer, or a real number greater than, or equal to, 1; and a PHY core comprising a PHY transmit module to transmit first signals a data rate of M/N Gbps, and a PHY receive module to receive second signals at the data rate of MIN Gbps; wherein the first and second signals conform to at least one of 1000BASE-T, wherein M=1, and 10GBASE-T, wherein M=10. | 03-26-2009 |
| 20110116507 | ITERATIVE PARSING AND CLASSIFICATION - Some of the embodiments of the present disclosure provide a method comprising performing, by an iterative parser and classifier engine, a first parsing and classification cycle on a data packet, based at least in part on header information of the data packet; generating a first parsing and classification result based at least in part on performing the first parsing and classification cycle; and performing a second parsing and classification cycle on the data packet, based at least in part on header information of the data packet and the first parsing and classification result. Other embodiments are also described and claimed. | 05-19-2011 |
| 20110134925 | Switching Apparatus and Method Based on Virtual Interfaces - A network device comprises a plurality of physical ports, and a packet processing pipeline coupled to the plurality of physical ports. The packet processing pipeline is configured to assign a virtual port from a plurality of virtual ports to a packet received via one of the physical ports, wherein a quantity of the plurality of virtual ports is larger than a quantity of the plurality of physical ports, and wherein, for each of at least some of the physical ports, multiple virtual ports correspond to one physical port. The packet processing pipeline is also configured to assign a virtual domain from a plurality of virtual domains to the packet based on the assigned virtual port, and process the packet based on one or more of i) the assigned virtual port, ii) the assigned virtual domain, and iii) a header field of the packet, including determining zero, one, or more physical ports to which the packet is to be forwarded. | 06-09-2011 |
