Abstract: A system can include a location data module configured to receive location data, the location data including patient location information associated with a plurality patients and care team member location information associated with one or more care team members, and a route module operatively connected to the location data module and configured to determine a visitation route for each of the one or more care team members to visit the plurality of patients based on the location data.

Abstract: A virtual care system can include a location module configured to receive location information associated with a device from the device, and a graphical user interface (GUI) module configured to generate a medical provider user interface accessible via the device. The medical provider user interface can be contextually generated based on the location information and includes interface characteristics associated with the location information.

Abstract: A wireless controller for operably controlling at least two devices. The wireless controller includes a cover portion, a base portion, a transmission mechanism and a component activation mechanism. The base portion is operably attached to the cover portion. The transmission mechanism and the component activation mechanism are each mounted to at least one of the cover portion and the base portion. The component activation mechanism causes the transmission mechanism to transmit a communication signal to the at least one of the at least two devices. When the cover portion and the base portion are in a closed configuration, the component activation mechanism is substantially covered.

Abstract: A vacuum variable capacitor includes a pre-vacuum enclosure for reducing a pressure differential across the bellows. The vacuum force load on the drive system can thereby be reduced, allowing faster movement of the movable electrode, faster capacitance adjustment of the vacuum variable capacitor and longer lifetimes of the device.

Abstract: A vacuum variable capacitor includes a pre-vacuum enclosure for reducing a pressure differential across the bellows, wherein a drive is disposed outside the enclosures of the vacuum variable capacitor. The vacuum force load on the drive system can thereby be reduced, allowing faster movement of the movable electrode, faster capacitance adjustment of the vacuum variable capacitor and longer lifetimes of the device.

Abstract: A transportation system comprising a vehicle having a first electrically operated component, a second electrically operated component and a wireless controller system. The wireless controller system is used for selectively controlling the operation of the first electrically operated component and the second electrically operated component.

Abstract: A vacuum variable capacitor includes a pre-vacuum enclosure for reducing a pressure differential across the bellows. The vacuum force load on the drive system can thereby be reduced, allowing faster movement of the movable electrode, faster capacitance adjustment of the vacuum variable capacitor and longer lifetimes of the device.

Abstract: A vacuum variable vapacitor includes a pre-vacuum enclosure for reducing a pressure differential across the bellows, wherein a drive is disposed outside the enclosures of the vacuum variable capacitor. The vacuum force load on the drive system can thereby be reduced, allowing faster movement of the movable electrode, faster capacitance adjustment of the vacuum variable capacitor and longer lifetimes of the device.

Abstract: A transportation system comprising a vehicle having a first electrically operated component, a second electrically operated component and a wireless controller system. The wireless controller system is used for selectively controlling the operation of the first electrically operated component and the second electrically operated component.

Abstract: A plasma processing system may include a radio frequency (RF) generator configured to supply a pulsing process signal to a target in a plasma processing chamber via a RF matching network. A phase and magnitude detector circuit is coupled to the RF generator and configured to sense the pulsing process signal and output a magnitude error signal and a phase error signal. A pulse tracking circuit is electrically coupled to the phase and magnitude detector circuit and configured to receive the magnitude error signal and the phase error signal and output a tracked magnitude signal and a tracked phase signal. A match controller is electrically coupled to the pulse tracking circuit and the RF matching network and configured to receive the tracked magnitude signal and the tracked phase signal and vary an impedance of the RF matching network in response to the tracked magnitude and phase signals.

Abstract: A transportation system comprising a vehicle having a first electrically operated component, a second electrically operated component and a wireless controller system. The wireless controller system is used for selectively controlling the operation of the first electrically operated component and the second electrically operated component.

Abstract: A plasma processing system may include a radio frequency (RF) generator configured to supply a pulsing process signal to a target in a plasma processing chamber via a RF matching network. A phase and magnitude detector circuit is coupled to the RF generator and configured to sense the pulsing process signal and output a magnitude error signal and a phase error signal. A pulse tracking circuit is electrically coupled to the phase and magnitude detector circuit and configured to receive the magnitude error signal and the phase error signal and output a tracked magnitude signal and a tracked phase signal. A match controller is electrically coupled to the pulse tracking circuit and the RF matching network and configured to receive the tracked magnitude signal and the tracked phase signal and vary an impedance of the RF matching network in response to the tracked magnitude and phase signals.

Abstract: A transportation system comprising a vehicle having a first electrically operated component, a second electrically operated component and a wireless controller system. The wireless controller system is used for selectively controlling the operation of the first electrically operated component and the second electrically operated component.

Abstract: A wireless controller for operably controlling at least two devices. The wireless controller includes a cover portion, a base portion, a transmission mechanism and a component activation mechanism. The base portion is operably attached to the cover portion. The transmission mechanism and the component activation mechanism are each mounted to at least one of the cover portion and the base portion. The component activation mechanism causes the transmission mechanism to transmit a communication signal to the at least one of the at least two devices. When the cover portion and the base portion are in a closed configuration, the component activation mechanism is substantially covered.

Abstract: Fault detection and interruption in connection with photovoltaic technologies are disclosed. An exemplary apparatus for interrupting a photovoltaic energy conversion system that employs a bipolar photovoltaic array includes a fault detector and interrupter configured to be coupled to the first and the second rails of the photovoltaic array, the fault detector and interrupter configured to detect a condition that requires interruption of the photovoltaic energy conversion system and open a PV tie to uncouple two PV arrays of the bipolar photovoltaic array, thereby decoupling the two PV arrays; and a controller configured to, after the PV tie is opened, open a plurality of main DC contactors thereby decoupling the bipolar photovoltaic array from a remainder portion of the energy conversion system.

Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a first and second inputs adapted to couple to a first and second rails of a photovoltaic array; an inverter configured to convert DC power from the photovoltaic array to AC power; and an interface portion coupled to the first and second inputs and the inverter, the interface portion configured to isolate at least one of the first and second inputs from the inverter and to modulate an application of a voltage from the photovoltaic array to the inverter so as to increase a load on the photovoltaic array and to reduce the voltage applied from the photovoltaic array to the inverter.

Abstract: A ground fault detector and interrupter for a photovoltaic (PV) energy conversion system, method and apparatus are disclosed. In an exemplary embodiment, the system includes first and second inputs adapted to couple to a first and second rails of a PV array. An inverter is configured to convert DC power generated from the PV array to AC power. A ground fault detector and interrupter, which is coupled to the first and second rails and to the inverter, is configured to detect ground fault conditions in the PV array and to decouple the PV array from the remaining portion of the PV energy conversion system upon such detection. A known signal is coupled to the input of the ground fault detector and interrupter, and then sensed at the output of the ground fault detector and interrupter to determine whether components of the ground fault detector and interrupter are operating properly.

Abstract: A ground fault detector and interrupter for a photovoltaic (PV) energy conversion system, method and apparatus are disclosed. In an exemplary embodiment, the system includes first and second inputs adapted to couple to a first and second rails of a PV array. An inverter is configured to convert DC power generated from the PV array to AC power. A ground fault detector and interrupter, which is coupled to the first and second rails and to the inverter, is configured to detect ground fault conditions in the PV array and to decouple the PV array from the remaining portion of the PV energy conversion system upon such detection. A known signal is coupled to the input of the ground fault detector and interrupter, and then sensed at the output of the ground fault detector and interrupter to determine whether components of the ground fault detector and interrupter are operating properly.

Abstract: A photovoltaic system, method and apparatus are disclosed. In an exemplary embodiment, the system includes a first and second inputs adapted to couple to a first and second rails of a photovoltaic array; an inverter configured to convert DC power from the photovoltaic array to AC power; and an interface portion coupled to the first and second inputs and the inverter, the interface portion configured to isolate at least one of the first and second inputs from the inverter and to modulate an application of a voltage from the photovoltaic array to the inverter so as to increase a load on the photovoltaic array and to reduce the voltage applied from the photovoltaic array to the inverter.

Abstract: A processing system having a processing chamber that includes a substrate holder and an electrode. The processing system can include a pressure control system, gas supply system, and monitoring system. A multi-frequency RF source is coupled to the electrode using a reduced-element matching network having a single variable element. The multi-frequency RF source is set to a first frequency to ignite a plasma and to a second frequency to maintain the plasma.