Patent application number | Description | Published |
20140093250 | IMAGING SYSTEM FOR PASSIVE ALIGNMENT OF ENGINES - Methods and systems for facilitating alignment of optical systems and optoelectronic systems are disclosed here. The methods and systems include passively detecting images, determining relative positions of components and aligning components. An imaging component can detect images and determine relative positions and repositioning instructions. | 04-03-2014 |
20140099124 | HIGH-DENSITY FIBER COUPLING AND EMISSION/DETECTION SYSTEM - An optical system including an array of photonic devices that convert light signals to electrical signals or electrical signals to light signals are coupled together and optically coupled to an array of optic fibers of an information channel. A lens couples optical beams generated to at least one array of photonic devices and the array of optic fibers for an optical communication there-between. The array of photonic devices and the array of optic fibers are respectively arranged in a honeycomb configuration. | 04-10-2014 |
20140099125 | COLLIMATED BEAM CHANNEL WITH FOUR LENS OPTICAL SURFACES - An optical system and method disclosed include a first lens component and a second lens component within the receive path or the transmit path. The first lens component includes at least two aspheric surfaces that oppose one another and generate a collimated beam channel. The second lens component generates a converging beam and magnifies the converging beam with a magnification factor that is different from a magnification factor in the other path, either the receive path or the transmit path. The receive path and the transmit path include symmetrical lengths and asymmetrical magnification factors. | 04-10-2014 |
20140115886 | METHOD AND SYSTEM FOR MARKING SUBSTRATE AND PLACING COMPONENTS FOR HIGH ACCURACY - A method and system for pre-marking a substrate to provide a visual reference enabling repetitive and accurate component placement on one or more substrates. The method for marking includes determining a first location on a substrate for placing a component relative to a cut outline of the substrate. The method includes placing a fiducial at a second location on the substrate to provide a known dimensional reference to the first location, such that the fiducial and the first location are configured to be in a field-of-view of a component placement machine. | 05-01-2014 |
Patent application number | Description | Published |
20090257456 | COORDINATED TIMING NETWORK HAVING SERVERS OF DIFFERENT CAPABILITIES - Communication and processing within a timing network that supports servers having different capabilities are facilitated. Individual servers of the network are dynamically updated without disrupting the operational characteristics of the timing network. New capabilities are not utilized between two servers until it is known that both servers are capable of supporting the new features. One server communicates to another server at an acceptable level of the another server. | 10-15-2009 |
20090259881 | FAILSAFE RECOVERY FACILITY IN A COORDINATED TIMING NETWORK - A failsafe recovery capability for a Coordinated Timing Network. The recovery capability facilitates recovery when communication is lost between two servers of the coordinated timing network. The capability includes checking another system's status in order to determine what action is to be taken. The status includes the stratum level of the servers and a version number indicating the code level of the servers. | 10-15-2009 |
20100100761 | MAINTAINING A PRIMARY TIME SERVER AS THE CURRENT TIME SERVER IN RESPONSE TO FAILURE OF TIME CODE RECEIVERS OF THE PRIMARY TIME SERVER - A primary time server of a Coordinated Timing Network remains as current time server, even if time code information of the primary time server is unavailable. The primary time server receives the necessary or desired timing information from a secondary time server and uses that information to maintain time synchronization within the Coordinated Timing Network. | 04-22-2010 |
20100100762 | BACKUP POWER SOURCE USED IN INDICATING THAT SERVER MAY LEAVE NETWORK - A server of a network of servers determines that its power source is failing. In response, the server communicates to one or more other servers of this network that it is leaving the network. This communication is powered by another power source. | 04-22-2010 |
20100185889 | CHANNEL SUBSYSTEM SERVER TIME PROTOCOL COMMANDS - A protocol for communicating with the timing facility used in a data processing network to provide synchronization is provided via the execution of a machine instruction that accepts a plurality of commands. The interaction is provided through the use of message request blocks and their associated message response blocks. In this way timing parameters may be determined, modified and communicated. This makes it much easier for multiple servers or nodes in a data processing network to exist as a coordinated timing network and to thus more cooperatively operate on the larger yet identical data files. | 07-22-2010 |
20100223317 | SERVER TIME PROTOCOL MESSAGES AND METHODS - Server time protocol (STP) messages and methods of exchange thereof are provided for facilitating synchronization of processing units of a timing network. The STP messages include exchange time parameters (XTP) commands and responses, and STP control (STC) commands and responses. XTP message exchange processing includes: generating an XTP message command at a first processing unit including a command transmit timestamp field set by the first processing unit and a command receive timestamp field which is unset by the first processing unit; transmitting the XTP message command to a second processing unit; setting the command receive timestamp field in the XTP command with the time the XTP command is received at the second processing unit; and generating an XTP message response at the second processing unit, the message response including the command transmit timestamp set by the first processing unit and the command receive timestamp set by the second processing unit. | 09-02-2010 |
20130254478 | CHANNEL SUBSYSTEM SERVER TIME PROTOCOL COMMANDS - A protocol for communicating with the timing facility used in a data processing network to provide synchronization is provided via the execution of a machine instruction that accepts a plurality of commands. The interaction is provided through the use of message request blocks and their associated message response blocks. In this way timing parameters may be determined, modified and communicated. This makes it much easier for multiple servers or nodes in a data processing network to exist as a coordinated timing network and to thus more cooperatively operate on the larger yet identical data files. | 09-26-2013 |
20140325014 | CHANNEL SUBSYSTEM SERVER TIME PROTOCOL COMMANDS - A protocol for communicating with the timing facility used in a data processing network to provide synchronization is provided via the execution of a machine instruction that accepts a plurality of commands. The interaction is provided through the use of message request blocks and their associated message response blocks. In this way timing parameters may be determined, modified and communicated. This makes it much easier for multiple servers or nodes in a data processing network to exist as a coordinated timing network and to thus more cooperatively operate on the larger yet identical data files. | 10-30-2014 |