Patent application number | Description | Published |
20110070083 | Streamlined Wind Turbine Optimized for Laminar Layer - A wind turbine body and a wind turbine are disclosed. The wind turbine body has a curved body and a plurality of blades. The curved body includes a front portion, a rear portion, and a middle portion between the front portion and the rear portion. The curved body is configured such that at least the middle portion rotates about an axis of rotation. A diameter of the curved body gradually increases from the front portion to the middle portion, and gradually decreases from the middle portion to the rear portion. The blades are attached to and around the middle portion about the axis of rotation. The blades are configured to convert an airflow into rotational motion of the middle portion. The wind turbine includes a wind turbine body and a fin at the rear portion. The fin is configured to steer the wind turbine about a steering axis so that the front portion faces the airflow. | 03-24-2011 |
20120290022 | Implantable Medical Device Having an MRI Safe Rechargeable Battery - Disclosed are improved rechargeable battery designs for an implantable medical device. The improved rechargeable battery is designed to reduce eddy currents in the conductive anode and/or cathode plates within the battery housing, thereby reducing excessive heat and vibrations caused when the battery is placed in a high magnetic field, such as within a MRI machine. Discontinuities may be cut in the anode and/or cathode plates to increase their resistance to eddy currents, while not significantly affecting the internal resistance between these plates. | 11-15-2012 |
20130150938 | IMPLANTABLE SYSTEM WITH IMPROVED RF TOLERANCE - One embodiment is an implantable lead including a lead body having a proximal end and a distal end; multiple electrodes disposed along the distal end of the lead body; multiple terminal contacts disposed along the proximal end of the lead body; multiple stimulation conductors extending along the lead body and electrically coupling the electrodes to the terminal contacts; at least one diversionary terminal contact disposed along the proximal end of the lead body; and at least one diversionary conductor extending at least partially along the length of the lead body and coupled to the at least one diversionary terminal contact and not coupled to any of the electrodes. The at least one diversionary conductor is configured and arranged to capacitively couple to the stimulation conductors. | 06-13-2013 |
20130226266 | SYSTEMS AND METHODS FOR MODIFYING IMPEDANCE ALONG ELECTRICAL PATHS OF ELECTRICAL STIMULATION SYSTEMS - An implantable medical device system includes a control module with a connector assembly for electrically coupling to a lead. The control module includes a plurality of feedthrough interconnects extending from the connector assembly to an electronic subassembly disposed in a sealed housing. The plurality of feedthrough interconnects include a first feedthrough interconnect and a second feedthrough interconnect. Impedance circuitry disposed in the control module modulates impedance associated with terminals and conductors of the lead. The impedance circuitry includes a plurality of impedance elements each coupled electrically to a different feedthrough interconnect. Each impedance element has a pre-defined impedance. The plurality of impedance elements include a first impedance element electrically coupled to the first feedthrough interconnect and a second impedance element electrically coupled to the second feedthrough interconnect. The pre-defined impedance of the first impedance element is different than the pre-defined impedance of the second impedance element. | 08-29-2013 |
20130245723 | NEUROSTIMULATION SYSTEM FOR PREVENTING MAGNETICALLY INDUCED CURRENTS IN ELECTRONIC CIRCUITRY - A neurostimulation device capable of being placed between an active stimulation state and an inactive stimulation state and method of using same. The neurostimulation device comprises a plurality of electrical terminals configured for being respectively coupled to a plurality of stimulation electrodes, a first solid-state switching device coupled to a first one of the electrical terminals, a variable power source coupled to the first switching device, and a controller configured for, when the neurostimulation device is in the inactive stimulation state, prompting the variable power source to selectively output a relatively low voltage to place the first switching device into a first open state and a relatively high voltage to place the first switching device into a second open state. | 09-19-2013 |
20130274820 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS WITH IMPROVED RF COMPATIBILITY - An implantable control module for an electrical stimulation system includes an electronic subassembly disposed in a casing. A sealed feedthrough housing is disposed along a portion of the casing. An electrically-conductive portion of the feedthrough housing is electrically coupled to an electrically-conductive portion of the casing. Feedthrough pins extend through the feedthrough housing and couple to the electronic subassembly via conductive pathways disposed in the casing. At least a portion of the conductive pathways extend along a non-conductive substrate. An RF-diverting assembly is disposed in the casing. The RF-diverting assembly includes a feedthrough ground electrically coupled to the electrically-conductive portion of the feedthrough housing. The RF-diverting assembly also includes a plurality of capacitive elements each coupling a different one of the plurality of conductive pathways to the feedthrough ground. | 10-17-2013 |
20130325085 | NEUROSTIMULATION SYSTEM WITH DEFAULT MRI-MODE - A neurostimulation device capable of being placed between a stimulation state and an EMI protection state. The neurostimulation device comprises a plurality of electrical terminals configured for being respectively coupled to a plurality of stimulation electrodes, stimulation output circuitry configured for being selectively activated during the stimulation state to output a plurality of stimulation pulses to the plurality of electrical terminals, electromagnetic protection circuitry configured for being selectively activated during the EMI protection state to prevent at least a portion of the electrical current induced on at least one of the electrical terminals by an electromagnetic field entering the stimulation output circuitry, and a controller configured for automatically defaulting the neurostimulation device to the EMI protection state. | 12-05-2013 |
20150040391 | SYSTEMS AND METHODS FOR MAKING AND USING ELECTRICAL STIMULATION SYSTEMS WITH IMPROVED RF COMPATIBILITY - A method of forming a control module for an electrical stimulation system, the control module including an electronic subassembly disposed in an inner space of a casing and a feedthrough housing disposed along a portion of the casing, includes: forming an RF-diverting assembly having capacitive elements electrically-coupled to a feedthrough ground; electrically-coupling the capacitive elements to conductive pathways extending along a non-conductive substrate; electrically-coupling the conductive pathways to feedthrough pins extending through the feedthrough housing from a location external to the casing to a location within the inner space of the casing; electrically-coupling the conductive pathways to the electronic subassembly such that the conductive pathways electrically-couple the feedthrough pins to the electronic subassembly; electrically-coupling the feedthrough ground to an electrically-conductive portion of the feedthrough housing; and electrically-coupling the electrically-conductive portion of the feedthrough housing to an electrically-conductive portion of an outer surface of the casing. | 02-12-2015 |