Patent application number | Description | Published |
20090238203 | NETWORK INTERFACE AND DETECTION MODULE TO ENABLE NETWORK COMMUNICATION WITHIN INFORMATION HANDLING SYSTEMS - A network interface and detection module to enable network communication within information handling systems is disclosed. According to an aspect, a network interface module is disclosed. The network interface module can include a housing including a first cavity configured to receive a first network plug having a first dimension. The housing also includes a second cavity within the first cavity, and configured to receive a second network plug having a second dimension that is less than the first dimension. The network interface module can also include a network detection circuit coupled to a first terminal within the housing. The network detection circuit can enable a first network type from a plurality of network types in response to an operating state of the first network terminal. | 09-24-2009 |
20110209046 | OPTIMIZING WEB CONTENT DISPLAY ON AN ELECTRONIC MOBILE READER - The invention provides displaying a web page on a mobile device by decomposing a web page into a plurality of page units; applying a filter to at least one page unit to produce a subset of page units; assembling the subset of page units into an assembled page; and displaying an assembled page. Apparatus, methods and systems therefore are described. | 08-25-2011 |
20110296230 | MAINTAINING A COMMUNICATION PATH FROM A HOST TO A STORAGE SUBSYSTEM IN A NETWORK - Provided are a method, system, computer storage device, and storage area network for maintaining a communication path from a host to a storage subsystem in a network. A storage subsystem controls data transfer and access to a storage devices in a network, wherein the storage subsystem is coupled to a switch and the switch is coupled to a host in the network. A topological storage is coupled to the host, the switch and the storage subsystem, for storing a topological coupling relationship between the host and the switch and a topological coupling relationship between the switch and the storage subsystem. In response to determining a failed path between the storage subsystem and the switch coupled to the storage subsystem, the storage subsystem determines a first port on the storage subsystem in the failed path. The storage subsystem determines from the topology storage the topological coupling relationship between the host and the switch and the topological coupling relationship between the switch and the storage subsystem. The storage subsystem redirects, based on the topological coupling relationships, a message sent to the first port of the storage subsystem to an operational second port in the storage subsystem coupled to the switch. | 12-01-2011 |
20120183002 | Network Interface and Detection Module to Enable Network Communication within Information Handling Systems - A network interface module can include a housing including a first cavity configured to receive a first network plug having a first dimension. The housing also includes a second cavity within the first cavity, and configured to receive a second network plug having a second dimension that is less than the first dimension. The network interface module can also include a network detection circuit coupled to a first terminal within the housing. | 07-19-2012 |
20120233491 | MAINTAINING A COMMUNICATION PATH FROM A HOST TO A STORAGE SUBSYSTEM IN A NETWORK - Provided are a method, system, computer storage device, and storage area network for maintaining a communication path from a host to a storage subsystem in a network. A storage subsystem controls data transfer and access to a storage devices in a network including a switch and a host. A topological storage stores topological coupling relationship between the host and the switch and a topological coupling relationship between the switch and the storage subsystem. In response to determining a failed path, the storage subsystem determines a first port on the storage subsystem in the failed path. The storage subsystem determines from the topology storage the topological coupling relationships between the host and the switch and the switch and the storage subsystem. The storage subsystem redirects, based on the topological coupling relationships, a message sent to the first port of the storage subsystem to an operational second port in the storage subsystem. | 09-13-2012 |
20130259095 | MODBUS REPEATER WITH SELF-ADAPTIVE BAUD RATE AND SELF-ADAPTIVE BAUD RATE SYTEM AND METHOD - Disclosed are a self-adaptive baud rate system and method. The method includes: a) receiving first data and second data; b) judging whether or not a falling edge of a start bit in a synchronization code of the first data and second data is detected; c) if the falling edge is not detected, then return to step b); and if the falling edge is detected, then a first counting is started from a rising edge after the start bit based on a reference clock, and stopped at the next falling edge, and a first count value is obtained; and a second counting is started from the falling edge where the first counting was stopped, and stopped at the next rising edge, and a second count value is obtained; and d) acquiring a baud rate according to the relationships among the first count value and the second count value and a first threshold. By way of using a CPLD to detect the baud rate and encoding format of a Modbus data frame remotely according to the present application, there is no need to manually set the baud rate and encoding format locally. The function of remote auto-detection of the baud rate and encoding format can be achieved by the present application, and the materials and assembly costs of the rotary encoder are omitted. | 10-03-2013 |
20140108666 | MAINTAINING A COMMUNICATION PATH FROM A HOST TO A STORAGE SUBSYSTEM IN A NETWORK - Provided are a method, system, computer storage device, and storage area network for maintaining a communication path from a host to a storage subsystem in a network. A storage subsystem controls data transfer and access to a storage devices in a network, wherein the storage subsystem is coupled to a switch and the switch is coupled to a host in the network. A topological storage is coupled to the host, the switch and the storage subsystem, for storing a topological coupling relationship between the host and the switch and a topological coupling relationship between the switch and the storage subsystem. In response to determining a failed path between the storage subsystem and the switch coupled to the storage subsystem, the storage subsystem determines a first port on the storage subsystem in the failed path. The storage subsystem determines from the topology storage the topological coupling relationship between the host and the switch and the topological coupling relationship between the switch and the storage subsystem. The storage subsystem redirects, based on the topological coupling relationships, a message sent to the first port of the storage subsystem to an operational second port in the storage subsystem coupled to the switch. | 04-17-2014 |
20140223585 | TRANSCEIVER LOCKING ASSEMBLY - A transceiver locking assembly includes at least one processor device, a network device, in a network environment, in communication with the least one processor device, a transceiver in communication with the network device; a transceiver port, coupled to the network device, defining a first slot opening in at least one of a variety of positions of the transceiver port and configured for selectively receiving the transceiver, and a dynamically controlled locking mechanism coupled to the transceiver port. The dynamically controlled locking mechanism is selectively positioned into the first slot opening to lock the transceiver into the network device or selectively removed away from the first slot opening to unlock the transceiver from the network device. | 08-07-2014 |
20140223587 | TRANSCEIVER LOCKING ASSEMBLY - A transceiver locking assembly includes at least one processor device, a network device, in a network environment, in communication with the least one processor device, a transceiver in communication with the network device; a transceiver port, coupled to the network device, defining a first slot opening in at least one of a variety of positions of the transceiver port and configured for selectively receiving the transceiver, and a dynamically controlled locking mechanism coupled to the transceiver port. The dynamically controlled locking mechanism is selectively positioned into the first slot opening to lock the transceiver into the network device or selectively removed away from the first slot opening to unlock the transceiver from the network device. | 08-07-2014 |