Abstract: An energy harvesting device (CTH) installed in an electrical distribution system (EDS) for powering ancillary electrical devices (AD) used in the distribution system. The device includes a first voltage regulator circuit (CC) configured to produce a voltage matched to a power curve of a current transformer (CT) to which the device is electrically coupled. The device also includes a second and separate voltage regulator circuit (SVR) which continuously operates to maximize the amount of electrical energy recovered from the current transformer.

Abstract: An energy harvesting device (CTH) installed in an electrical distribution system (EDS) for powering ancillary electrical devices (AD) used in the distribution system. The device includes a first voltage regulator circuit (CC) configured to produce a voltage matched to a power curve of a current transformer (CT) to which the device is electrically coupled. The device also includes a second and separate voltage regulator circuit (SVR) which continuously operates to maximize the amount of electrical energy recovered from the current transformer.

Abstract: Improved power line management is provided by the systems and methods disclosed herein that accurately measures voltage in a power distribution system. In various embodiments, the system may include one or more sensor units, each coupled to the power lines using a capacitive or resistive voltage divider to yield a voltage at a sensor unit that is within a measurable range. In one aspect, this voltage may also be used to power the sensor unit and/or other devices coupled to it.

Abstract: Improved power line management is provided by the systems and methods disclosed herein that accurately measures voltage in a power distribution system. In various embodiments, the system may include one or more sensor units, each coupled to the power lines using a capacitive or resistive voltage divider to yield a voltage at a sensor unit that is within a measurable range. In one aspect, this voltage may also be used to power the sensor unit and/or other devices coupled to it.

Abstract: An energy harvesting device (CTH) installed in an electrical distribution system (EDS) for powering ancillary electrical devices (AD) used in the distribution system. The device includes a first voltage regulator circuit (CC) configured to produce a voltage matched to a power curve of a current transformer (CT) to which the device is electrically coupled. The device also includes a second and separate voltage regulator circuit (SVR) which continuously operates to maximize the amount of electrical energy recovered from the current transformer.

Abstract: An energy harvesting device (CTH) installed in an electrical distribution system (EDS) for powering ancillary electrical devices (AD) used in the distribution system. The device includes a first voltage regulator circuit (CC) configured to produce a voltage matched to a power curve of a current transformer (CT) to which the device is electrically coupled. The device also includes a second and separate voltage regulator circuit (SVR) which continuously operates to maximize the amount of electrical energy recovered from the current transformer.

Abstract: A system and method for analyzing bio-fluid constituents and properties in a bio-fluid sample, wherein the system comprises a bio-fluid collection apparatus, a bio-fluid testing/analysis apparatus, and a reporting apparatus.

Abstract: An energy harvesting device (CTH) installed in an electrical distribution system (EDS) for powering ancillary electrical devices (AD) used in the distribution system. The device includes a first voltage regulator circuit (CC) configured to produce a voltage matched to a power curve of a current transformer (CT) to which the device is electrically coupled. The device also includes a second and separate voltage regulator circuit (SVR) which continuously operates to maximize the amount of electrical energy recovered from the current transformer.

Abstract: Improved power line management is provided by the systems and methods disclosed herein that accurately measures voltage in a power distribution system. In various embodiments, the system may include one or more sensor units, each coupled to the power lines using a capacitive or resistive voltage divider to yield a voltage at a sensor unit that is within a measurable range. In one aspect, this voltage may also be used to power the sensor unit and/or other devices coupled to it.

Abstract: A system and method for analyzing bio-fluid constituents and properties in a bio-fluid sample, wherein the system comprises a bio-fluid collection apparatus, a bio-fluid testing/analysis apparatus, and a reporting apparatus.

Abstract: A network device mounting bracket and system for mounting multiple network devices. A network device mounting bracket includes a device interface for receiving a network device and a connection interface for connecting to other network device mounting brackets. Alternatively, the network device mounting bracket includes multiple device interfaces. The brackets can have various wire management capabilities.

Abstract: There is demand in the marketplace for smaller optical network devices, such as Optical Network Terminals (ONTs). As a result of decreasing the ONT's size, the size of the backup power source, such as the batteries that power the ONT during periods of back-up power usage, may also have to be reduced. To extend energy usage of the backup power source, methods and corresponding apparatus for providing backup power for a network device are provided. An example method includes entering a first state of backup power in an event of a loss of primary power to an ONT, monitoring a state of a backup power activation signal enabled to be activated in the event of the loss of primary power to the ONT, and causing the ONT to enter a second state of backup power in response to the backup power activation signal being in an active state.

Abstract: Common techniques for restoring service to an optical network after a service interruption, while quick, do not to assist a service provider or a vendor in determining a true root-cause of the interruption. Oftentimes, the true root-cause remains undetermined, resulting in costly and unnecessary fixes. In contrast, an example embodiment of the invention facilitates troubleshooting and determining the true root-cause of the service interruption by: i) collecting and storing state information about a PON element prior to analyzing a fault attributed to the PON element, and ii) diagnosing a cause of the fault from the state information.

Abstract: A power adapter, in a presently preferred embodiment, includes a power converter and multiple data ports, and is configured for ease of coupling the power converter into pre-existing premises power connectors. Thus, premises power can be supplied from the power converter and a first data port, via data cabling, to a network terminating device for an external network. Multi-protocol adapters, such as an HPNA (Home Phoneline Network Alliance protocol compliant)/Ethernet adapter, may also be included to provide extension of a protocol (such as Ethernet) over pre-existing premises wiring. A back-up battery is optionally provided, as well as appropriate switches and indicators. Specialized male-female connectors may also be used.

Abstract: A power adapter, in a presently preferred embodiment, includes a power converter and multiple data ports, and is configured for ease of coupling the power converter into pre-existing premises power connectors. Thus, premises power can be supplied from the power converter and a first data port, via data cabling, to a network terminating device for an external network. Multi-protocol adapters, such as an HPNA (Home Phoneline Network Alliance protocol compliant)/Ethernet adapter, may also be included to provide extension of a protocol (such as Ethernet) over pre-existing premises wiring. A back-up battery is optionally provided, as well as appropriate switches and indicators. Specialized male-female connectors may also be used.

Abstract: A method and apparatus for selecting a supported signal path for a transceiver in a communication system is provided. An exemplary embodiment of the apparatus includes a relay for selecting a first test signal path from a first signal path and a second signal path. A signal detector coupled to the relay may be used to determine whether a specified signal type is present on the first test signal path. A relay controller causes the relay to select a second test signal path from the first signal path and the second signal path in response to the signal detector determining that the specified signal type is not present on the first test signal path.