Patent application number | Description | Published |
20080244284 | Methods and apparatus providing advanced classification for power over Ethernet - A system conducts a plurality of cycles on the powered device. Each cycle has a detection phase and a classification phase. A classification voltage is applied to the conductors during each cycle. The system measures a current in the conductors while the classification voltage is applied. The system determines a final class responsive to a plurality of measured currents. The final class utilized to determine an amount of inline power to deliver to the powered device. | 10-02-2008 |
20100117808 | POWERED COMMUNICATIONS INTERFACE PROVIDING LOW-SPEED COMMUNICATIONS BETWEEN POWER-SOURCING EQUIPMENT AND POWERED DEVICE IN NON-POWERED OPERATING MODE - A powered communications interface in a power-over-Ethernet (POE) system has a non-powered operating mode in which it withholds operating power from a powered device and applies relatively low signaling voltages and currents to the conductors of the Ethernet cable which include (a) first signaling voltages and currents of a detection/classification operation, and (b) second signaling voltages and currents of a low-speed communications operation by which the power-sourcing equipment and the powered device exchange operational information. The low-speed communications from the power-sourcing equipment to the powered device are conveyed by values and sequencing of the second signaling voltages, and low-speed communications from the powered device to the power-sourcing equipment are conveyed by values and sequencing of the second signaling currents conducted by the powered device in response to the second signaling voltages from the power-sourcing equipment. Frame-based communications protocols or lookup-table-based communications may be used. | 05-13-2010 |
20100232298 | MULTI-STATION PHYSICAL LAYER COMMUNICATION OVER TP CABLE - Wired data telecommunications networks can make advantageous use of a communications capability between and among more than two network devices. Such capabilities may be utilized in providing redundancy of data and/or inline power capabilities from a pair of network devices to a third network device receiving the redundant capability. Impedance modulated communications are provided in a wired data telecommunications network among at least a first, second and third network device coupled together via a Y device. The Y device couples the three network devices (higher order Y devices could couple more than three devices) allowing monitoring of communications and inline power provision so that one of the network devices may act in response to monitored conditions by communicating via impedance modulated communications with one or both of the other network devices. | 09-16-2010 |
20110004779 | REDUNDANT POWER AND DATA IN A WIRED DATA TELECOMMUNICATIONS NETWORK - Redundancy of data and/or inline power in a wired data telecommunications network from a pair of network devices via a selection device is provided by communicating redundant signals with each of the pair of network devices and coupling ports of the first network device and corresponding ports of the second network device to paired inputs of the selection device. The selection device operates: 1) under the control of the pair of network devices, one acting as master and one as slave, the master selecting (for each port or for all ports) one of the two paired inputs and causing the selection device to communicate data and/or inline power via a third port of the selection device to a third network device receiving data connectivity and/or inline power from the selection device; or 2) to route two redundant signals to a third network device which then selects one for use. | 01-06-2011 |
20110041001 | AUTOMATIC SYSTEM FOR POWER AND DATA REDUNDANCY IN A WIRED DATA TELECOMMUNICATIONS NETORK - Redundancy of data and/or Inline Power in a wired data telecommunications network from a pair of power sourcing equipment (PSE) devices via an automatic selection device is provided by providing redundant signaling to/from each of the pair of PSE devices, and coupling a port of one PSE device and a redundant port of the second PSE device to respective first and second interfaces of a port of the selection device. The selection device initially selects one of the two PSE devices and communicates data and/or Inline Power to a third interface of the selection device. A powered device (PD) coupled to that third interface communicates data and/or Inline Power with the selected one of the first and second PSE device through the selection device. Upon detection of a condition, such as a failure condition, the selection device may select the other of the two interfaces. | 02-17-2011 |
20110047407 | POWER AND DATA REDUNDANCY IN A SINGLE WIRING CLOSET - Redundancy of data and/or Inline Power in a wired data telecommunications network from a first network device and a second network device configured as power sourcing equipment (PSE) devices and coupled together and to a third network device (such as a PD) via a Y device is provided by providing redundant signaling to/from each of the pair of network devices, and coupling a port of each of the network devices to the Y device and from there to a third port where a third network device such as a PD may be coupled. Because the Y device is essentially passive, communications paths between the PSE devices and the PD are provided for negotiating master/slave status and other status and related information among the respective network devices. Dynamic impedance matching is provided to handle situations where not all devices are plugged in and as a communications technique among the devices. | 02-24-2011 |
20110104942 | MULTIPLE-POSITION MODULAR CONNECTOR EMPLOYING SHIELDED OR FILTERED SIGNAL CONDUCTORS FOR REDUCING ELECTRICAL NOISE - A multiple-position modular connector (jack, plug or both) includes a rigid insulating body and a set of spaced-apart coaxial conductors carried by the body. Each coaxial conductor has a mating end at a mating portion of the body providing electrical connection between the inner signal conductor and a corresponding conductor of a mating modular connector. A conductive structure extends between the outer shield conductors of the coaxial conductors and a reference contact at an outer surface of the body to provide a high-frequency ground for the outer shield conductors. In another aspect, a modular connector includes a printed circuit board carried by an insulative body and employing some combination of well-matched conductive paths and filtering circuitry such as common-mode coils or “chokes”. Electrical traces of the printed circuit board may include ground/reference traces interspersed among signal traces to provide shielding and uniform electrical characteristics to the signal traces. Filtering circuitry when present is disposed on the PC board along the signal traces and acts to reduce the level of common-mode signal components reaching the mating contacts from the cable. | 05-05-2011 |
20110179302 | METHODS AND APPARATUS PROVIDING ADVANCED CLASSIFICATION FOR POWER OVER ETHERNET - A system conducts a plurality of cycles on the powered device. Each cycle has a detection phase and a classification phase. A classification voltage is applied to the conductors during each cycle. The system measures a current in the conductors while the classification voltage is applied. The system determines a final class responsive to a plurality of measured currents. The final class utilized to determine an amount of inline power to deliver to the powered device. | 07-21-2011 |
20120131357 | POWERED DEVICE CLASSIFICATION IN A WIRED DATA TELECOMMUNICATIONS NETWORK - In a wired data telecommunication network power sourcing equipment (PSE) coupled to a powered device (PD) carries out an inline power discovery process to verify that the PD is adapted to receive inline power, then a plurality of classification cycles are carried out to convey a series of inline power classes back to the PSE. The series of inline power classes may all be the same, in which case the PD is legacy equipment and is adapted to receive the power level corresponding to that class. If they are not all the same, information is thus conveyed to the PSE which may, for example, correspond to a specific power level to be applied or to other information. | 05-24-2012 |
20130057056 | POWERED DEVICE CLASSIFICATION IN A WIRED DATA TELECOMMUNICATIONS NETWORK - In a wired data telecommunication network power sourcing equipment (PSE) coupled to a powered device (PD) carries out an inline power discovery process to verify that the PD is adapted to receive inline power, then a plurality of classification cycles are carried out to convey a series of inline power classes back to the PSE. The series of inline power classes may all be the same, in which case the PD is legacy equipment and is adapted to receive the power level corresponding to that class. If they are not all the same, information is thus conveyed to the PSE which may, for example, correspond to a specific power level to be applied or to other information. | 03-07-2013 |
20140108847 | POWERED DEVICE CLASSIFICATION IN A WIRED DATA TELECOMMUNICATIONS NETWORK - In a wired data telecommunication network power sourcing equipment (PSE) coupled to a powered device (PD) carries out an inline power discovery process to verify that the PD is adapted to receive inline power, then a plurality of classification cycles are carried out to convey a series of inline power classes back to the PSE. The series of inline power classes may all be the same, in which case the PD is legacy equipment and is adapted to receive the power level corresponding to that class. If they are not all the same, information is thus conveyed to the PSE which may, for example, correspond to a specific power level to be applied or to other information. | 04-17-2014 |