Patent application number | Description | Published |
20110029790 | System and Method for Policing Bad Powered Devices in Power Over Ethernet - A system and method for policing bad powered devices in power over Ethernet. Degradation of components within powered devices can lead to noise and ripple that exceed specified thresholds. This noise and ripple can adversely impact the operation of the power sourcing equipment. A noise detector implemented in the power sourcing equipment can detect the presence of such noise and ripple and modify the application of power to the particular port. | 02-03-2011 |
20110283118 | Adaptive power sourcing equipment and related method for power over ethernet applications - There is presented a circuit and a related method for adaptively supplying Power over Ethernet (PoE) by a power sourcing equipment. The circuit comprises first and second power channels coupled to first and second network interfaces of the power sourcing equipment. A shunt device is operated to identify a maximum power characteristic of a powered device. The first power channel provides a first current to the powered device through the first network interface if the maximum power characteristic does not exceed a power threshold. The circuit provides another current to the powered device through the first network interface if the maximum power characteristic is greater than the power threshold. Various embodiments of the present invention may provide a second current to another powered device through the second network interface if the maximum power characteristic of the first and second powered devices does not exceed the power threshold. | 11-17-2011 |
20130076146 | Systems and Methods for Detecting Powered or Powering Device Configuration Via Ethernet Connection - Provided is a method for detecting a PoE (power over Ethernet) device comprising applying a positive polarity of a first current source to one of a first and second data pairs of an Ethernet connection to a powered device (PD) and a negative polarity of the first current source to the other of the first and second data pairs, applying a positive polarity of a second current source to a first spare pair of the Ethernet connection and a negative polarity of the first current source to a second spare pair of the Ethernet connection, simultaneously measuring a first voltage across the first current source and a second voltage across the second current source, discontinuing application of the first current source and measuring a third voltage across the second current source, and determining a configuration of the PD using the measured first, second and third voltages. | 03-28-2013 |
20130093444 | Remote Sensing of PD-Side Voltage in 4-Pair PoE Applications for Estimating Cable Resistance - Provided is a system and associated method for detecting a resistance of a cable. An example method may comprise applying power to a first end of a first and a second conductive pair of the cable, measuring a first voltage across the first end of the first and second conductive pairs of the cable, applying a current source across the first end of a third and a fourth conductive pair of the cable, measuring a second voltage across the current source, and determining a resistance of the cable using the measured first and second voltages. This method may be carried out in a physical arrangement where a second end of the first, second, third and fourth conductive pairs of the cable are connected to a first, a second, a third and a fourth input terminal of a powered device, respectively. | 04-18-2013 |
20130145181 | System and Method for Long Range Power Over Ethernet Using Integrated Boost Repeaters - A system and method for long range power over Ethernet (PoE) using integrated boost repeaters. The integrated boost repeater includes a boost converter module that boosts a voltage level received by a powered device on a first port of the integrated boost repeater to a second voltage level that is applied by a power source equipment to a second port of the integrated boost repeater. In one embodiment, the boost converter module boosts the voltage to a level that is greater than a voltage level output by an originating power source equipment. | 06-06-2013 |
20130301745 | POWER OVER ETHERNET FOR BI-DIRECTIONAL ETHERNET OVER SINGLE PAIR - A magnetics based hybrid circuit, comprising a receiver side transformer and a transmitter side transformer is described. Power is supplied via respective inductive elements coupled to respective first end of the receiver side transformer and the transmitter side transformer. A DC blocking element is further provided in series between the second end of the receiver side primary winding and the second end of the transmitter side primary winding. | 11-14-2013 |
20160072301 | SYSTEM AND METHOD FOR WIRELESS POWER TRANSFER USING A TWO HALF-BRIDGE TO ONE FULL-BRIDGE SWITCHOVER - A system and method of wireless power transfer using a two half-bridge to one full-bridge switchover includes a wireless power transfer system. The wireless power transfer system includes a controller, first and second transmitters coupled to the controller, the first and second transmitters being coupled to one another by an electrical connection, and a switch coupled between the electrical connection and a voltage rail. When the switch is closed, the controller operates the first and second transmitters in a two half-bridge mode. When the switch is open, the controller operates the first and second transmitters in a one full-bridge mode. | 03-10-2016 |
20160094042 | SUPPRESSION OF AUDIBLE HARMONICS IN WIRELESS POWER RECEIVERS - A wireless power enabled apparatus includes a wireless power receiver. The wireless power receiver includes a receive coil, a rectifier, a regulator, and a damping circuit. The receive coil is configured to generate an AC power signal responsive to a wireless power signal. The rectifier is configured to receive the AC power signal and generate a DC rectified power signal relative to a rectified ground signal. The regulator is operably coupled with the rectifier to receive the DC rectified power signal and generate an output voltage. The damping circuit is operably coupled between the DC rectified power signal and the rectified ground signal and in parallel with the regulator. The damping circuit is configured to suppress audible harmonics generated by the wireless power receiver at some loads by providing a damping impedance for the DC rectified power signal. | 03-31-2016 |