Patents Assigned to Alfred E. Mann Foundation
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Patent number: 9221119Abstract: Methods of making an implantable pulse generator are disclosed herein. The implantable pulse generator can include a body defining an internal volume and a plurality of wires extending from out of the internal volume of the body. Some of these wires can be connected, either directly or indirectly to a lead via a welded joint. The welded joint can be created by first resistance welding and then laser welding some of the wires to a connector.Type: GrantFiled: May 5, 2014Date of Patent: December 29, 2015Assignee: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: Siegmar Schmidt
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Patent number: 9205273Abstract: Systems and devices for a high-efficiency magnetic link for implantable devices are disclosed herein. These devices can include a charging coil located in the implantable device and a charging coil located in a charge head of a charger. The charging coils can each include an elongate core and wire windings wrapped around a longitudinal axis of the elongate core. The charging coil of the charge head can be attached to a rotatable mount, which can be used to align the longitudinal axis of the charging coil of the charge head with longitudinal axis of the implantable device such that the axes of the charging coils are parallel.Type: GrantFiled: January 9, 2015Date of Patent: December 8, 2015Assignee: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventors: Brian R. Dearden, Glen A. Griffith
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Publication number: 20150318712Abstract: A feedback controlled coil driver with ASK modulation is disclosed. A class E coil driver drives an LC circuit to generate a magnetic signal via the inductor. A modulation capacitor is coupled to the LC circuit to modulate the coil driver signal. The voltage across the coil driver switch is sampled. The difference between the sampled voltage and a reference voltage is integrated and compared to a ramp voltage to obtain an optimal on time for the coil driver switch such that coil current is maximized.Type: ApplicationFiled: April 28, 2015Publication date: November 5, 2015Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: Edward K. F. Lee
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Patent number: 9166441Abstract: A charger including a class E power driver, a frequency-shift keying (“FSK”) module, and a processor. The processor can receive data relating to the operation of the class E power driver and can control the class E power driver based on the received data relating to the operation of the class E power driver. The processor can additionally control the FSK module to modulate the natural frequency of the class E power transformer to thereby allow the simultaneous recharging of an implantable device and the transmission of data to the implantable device. The processor can additionally compensate for propagation delays by adjusting switching times.Type: GrantFiled: January 9, 2015Date of Patent: October 20, 2015Assignee: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventors: Brian R. Dearden, James H. Wolfe, Manish Khemani
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Patent number: 9155901Abstract: A charger that evaluates the effectiveness of the charging field generated by the charger at an implantable device. The charger includes a charging coil, a communication module, and a processor. The processor can include instructions to determine the effectiveness of the charging field based on one or several signals or communications received from the implantable device. The charger can use the determination of the effectiveness of the charging field to vary the strength of the charging field and/or to prompt the user to move the charger with respect to the implantable device.Type: GrantFiled: January 9, 2015Date of Patent: October 13, 2015Assignee: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventors: Brian R. Dearden, Brian M. Shelton, James H. Wolfe
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Publication number: 20150247797Abstract: Methods and systems for biosensing are disclosed, based on microchannel surface plasmon resonance.Type: ApplicationFiled: September 24, 2013Publication date: September 3, 2015Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: Keith Oberg
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Patent number: 9101753Abstract: The invention is a hollow electrode implantation device for inserting a flexible electrode, such as a Memberg electrode, in living tissue. The inserter has a longitudinal slot that accepts the electrode into the hollow center of the electrode implantation device. The slot is offset at least once forming one or more offset slots, where retainer tabs define the slots and assure retention of the electrode in the implantation device during insertion of the electrode into living tissue.Type: GrantFiled: September 8, 2009Date of Patent: August 11, 2015Assignee: Alfred E. Mann Foundation For Scientific ResearchInventors: Joseph L. Calderon, Ross Davis, Delta Mishler
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Patent number: 9094008Abstract: A high voltage analog switch operable by a binary signal is implemented in a low voltage semiconductor process. The switch has three parallel circuit paths, with each path comprising at least three series connected transistors. Control signals are selectively applied to the control terminals of the transistors to control the switch and selectively turn on or turn off each of the three circuit paths depending on the input voltage range, so that the breakdown voltage of all of the transistors is never exceeded in any mode of operation.Type: GrantFiled: August 26, 2010Date of Patent: July 28, 2015Assignee: Alfred E. Mann Foundation For Scientific ResearchInventor: Edward K. F. Lee
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Patent number: 9083312Abstract: An electronic filter circuit includes an electromechanical resonator that is mounted directly to the surface of a silicon integrated circuit, rather than being a surface mounted or leaded filter can on a circuit board. This filter circuit allows the integrated circuit electronic package to be significantly smaller than a conventional electromechanical resonator package. The electromechanical resonator may be protected during processing and during use with a protective cover that is made of a material such as titanium. The protective cover is attached to the integrated circuit chip.Type: GrantFiled: November 26, 2012Date of Patent: July 14, 2015Assignee: Alfred E. Mann Foundation For Scientific ResearchInventors: Charles L. Byers, Joseph H. Schulman, Gary D. Schnittgrund
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Patent number: 9044614Abstract: A successive approximation ADC made of a low voltage configurable differential amplifier and low voltage logic circuits which can convert a high voltage analog input to a digital equivalent. The differential amplifier can be configured as either an op amp or a comparator depending upon the mode of operation. An input capacitor C1 is switchably coupled to an electrode selected for voltage sampling. A switched capacitor array C2 is coupled across the differential amplifier input and output. A SAR coupled to the switched capacitor array provides a digital output corresponding to the sampled analog voltage. During a sampling interval and a charge transfer interval, the differential amplifier is configured as an op amp. During the transfer interval, the voltage on the input capacitor multiplied by the ratio C1/C2 is transferred to the switched capacitor array. During an analog to digital conversion interval, the ADC converts the analog voltage to an equivalent digital output.Type: GrantFiled: March 17, 2014Date of Patent: June 2, 2015Assignee: Alfred E. Mann Foundation for Scientific ResearchInventor: Edward K. F. Lee
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Patent number: 9042144Abstract: A high voltage full wave rectifier and doubler circuit having complementary serially connected low voltage MOSFET stacks to provide high voltage capability. The state of the MOSFETs in the MOSFET stacks is controlled by means of resistors coupled between the circuit's outputs and a time varying input signal. The resistance values of the resistors are selected to maintain operation of the stacked MOSFETs below their breakdown voltages.Type: GrantFiled: June 13, 2013Date of Patent: May 26, 2015Assignee: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: Edward K. F. Lee
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Publication number: 20150130435Abstract: A timing controlled converter and method for converting a time varying input signal to a regulated DC output voltage for application to a load circuit. A feedback loop is employed as a control means for switchably coupling the time varying input signal to the load circuit for controlled periods of time in a manner so as to provide an average load voltage equal to a reference voltage. The duration of the controlled periods of time is a function of: the difference between the time varying input signal and the output voltage; and the integral of the difference between the output voltage and the reference voltage.Type: ApplicationFiled: January 19, 2015Publication date: May 14, 2015Applicant: ALFRED E MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: EDWARD K. F. LEE
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Patent number: 8991680Abstract: The electrode array is a device for making electrical contacts with cellular tissue or organs. The electrode array includes an assembly of electrically conductive electrodes arising from a substrate where the electrodes are hermetically bonded to the substrate. A method of manufacture of an electrode array and associated circuitry is disclosed where the braze preform tab disappears during the braze bonding process and is completely drawn into the substrate feedthrough holes such that the braze perform tab is completely involved in the braze joint and is no longer connecting the adjacent electrodes.Type: GrantFiled: August 16, 2011Date of Patent: March 31, 2015Assignee: Alfred E. Mann Foundation for Scientific ResearchInventors: Joseph H. Schulman, Guangqiang Jiang, Charles L. Byers
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Patent number: 8937825Abstract: A timing controlled converter for converting a time varying input signal to a regulated DC output voltage for application to a load circuit. A feedback loop is employed as a control means for switchably coupling the time varying input signal to the load circuit for controlled periods of time in a manner so as to provide an average load voltage equal to a reference voltage. The duration of the controlled periods of time is a function of: the difference between the time varying input signal and the output voltage; and the integral of the difference between the output voltage and the reference voltage.Type: GrantFiled: December 8, 2010Date of Patent: January 20, 2015Assignee: Alfred E. Mann Foundation for Scientific ResearchInventor: Edward K. F. Lee
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Publication number: 20140350651Abstract: Methods of making an implantable pulse generator are disclosed herein. The implantable pulse generator can include a body defining an internal volume and a plurality of wires extending from out of the internal volume of the body. Some of these wires can be connected, either directly or indirectly to a lead via a welded joint. The welded joint can be created by first resistance welding and then laser welding some of the wires to a connector.Type: ApplicationFiled: May 5, 2014Publication date: November 27, 2014Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: Siegmar Schmidt
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Publication number: 20140330348Abstract: Systems, methods, and devices for wireless recharging of an implanted device. In response to receiving identification information from an implanted device, a charger can set an electrical field to a first field strength and receive first field strength information from the implanted device. The charger can then set the electrical field to a second field strength and receive second field strength information from the implanted device. This information relating to the first and second field strengths can be used to determine whether to recharge the implanted device.Type: ApplicationFiled: May 5, 2014Publication date: November 6, 2014Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventors: Brian M. Shelton, Brian R. Dearden, James H. Wolfe
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Publication number: 20140330354Abstract: A multi-branch stimulation electrode is disclosed herein. The multi-branch stimulation electrode can include a plurality of branches that extend from a hub. The branches can each include one or several stimulation contacts that can deliver an electrical current to tissue contacting the stimulation contacts. The stimulation contacts can be electrically connected with the lead. The lead can extend from the hub and can be connected with the pulse generator. The branches can include features to facilitate implantation including, for example, one or several removable stiffening elements.Type: ApplicationFiled: May 5, 2014Publication date: November 6, 2014Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventors: Brian M. Shelton, Morten Hansen
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Patent number: 8862235Abstract: A brain implant device includes a housing containing communication and control electronics coupled to a conduit configured for monitoring signals from a brain's motor cortex and providing stimulation signals to the brain's sensory cortex. The brain implant device is capable of wireless communication with an external communication and control signal source by means of an antenna provided in the housing. The conduit is flexible and may contain upwards of 128 electrical conductors providing electrical connections between the device electronics and related sites on the motor and/or sensory cortex by means of a plurality of electrically conductive protuberances extending from the conduit and adapted for contact with such sites.Type: GrantFiled: November 9, 2007Date of Patent: October 14, 2014Assignee: Alfred E. Mann Foundation for Scientific ResearchInventors: Howard H. Stover, John C. Gord, Charles L. Byers, Joseph H. Schulman, Guangqiang Jiang, Ross Davis
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Publication number: 20140277269Abstract: A successive approximation ADC made of a low voltage configurable differential amplifier and low voltage logic circuits which can convert a high voltage analog input to a digital equivalent. The differential amplifier can be configured as either an op amp or a comparator depending upon the mode of operation. An input capacitor C1 is switchably coupled to an electrode selected for voltage sampling. A switched capacitor array C2 is coupled across the differential amplifier input and output. A SAR coupled to the switched capacitor array provides a digital output corresponding to the sampled analog voltage. During a sampling interval and a charge transfer interval, the differential amplifier is configured as an op amp. During the transfer interval, the voltage on the input capacitor multiplied by the ratio C1/C2 is transferred to the switched capacitor array. During an analog to digital conversion interval, the ADC converts the analog voltage to an equivalent digital output.Type: ApplicationFiled: March 17, 2014Publication date: September 18, 2014Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: EDWARD K. F. LEE
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Publication number: 20140277073Abstract: Surgical dilators with tips having curved tapers and with a minimal distance between the distal and proximal ends of the dilator tips provide for precision placement of miniature medical devices at a target area in a body with reduced insertion force. A contour of a longitudinal cross section of the dilator tip comprises a first convex portion extending from the distal end to a first interface; a concave portion extending from the first interface to a second interface; and a second convex portion extending from the second interface to a third interface at the proximal end. The first convex portion and the second convex portion are convex relative to an interior of the tip and the concave portion is concave relative to the interior of the tip.Type: ApplicationFiled: February 6, 2014Publication date: September 18, 2014Applicant: ALFRED E. MANN FOUNDATION FOR SCIENTIFIC RESEARCHInventor: Joseph L. Calderon