1
Daniel J Klosterman, Kelly H McClure, Goran N Marnfeldt, Jordi Parramon, Matthew I Haller, Rudolph V Park: Telemetry system for use with microstimulator. Advanced Bionics Corporation, Bryant R Gold, Laura Haburay Bishop, Wong Cabello, February 13, 2007: US07177698 (131 worldwide citation)

An implantable microstimulator configured to be implanted beneath a patient's skin for tissue stimulation employs a bi-directional RF telemetry link for allowing data-containing signals to be sent to and from the implantable microstimulator from at least two external devices. Further, a separate ele ...


2
Daniel J Klosterman, Kelly H McClure, Goran N Marnfeldt, Jordi Parramon, Matthew I Haller, Rudolph V Park: Telemetry system for use with microstimulator. Boston Scientific Neuromodulation Corporation, Wong Cabello Lutsch Rutherford & Brucculeri, March 8, 2011: US07904167 (47 worldwide citation)

An implantable microstimulator configured to be implanted beneath a patient's skin for tissue stimulation employs a bi-directional RF telemetry link for allowing data-containing signals to be sent to and from the implantable microstimulator from at least two external devices. Further, a separate ele ...


3
Daniel J Klosterman, Kelly H McClure, Goran N Marnfeldt, Jordi Parramon, Matthew I Haller, Rudolph V Park: Telemetry system for use with microstimulator. Boston Scientific Neuromodulation Corporation, Wong Cabello Lutsch Rutherford & Brucculeri, February 18, 2014: US08655451 (37 worldwide citation)

An implantable microstimulator configured to be implanted beneath a patient's skin for tissue stimulation employs a bi-directional RF telemetry link for allowing data-containing signals to be sent to and from the implantable microstimulator from at least two external devices. Further, a separate ele ...


4
Rudolph V Park, Jordi Parramon, Daniel Klosterman, Goran N Marnfeldt: Systems and methods for communicating with an implantable stimulator. Boston Scientific Neuromodulation Corporation, Wong Cabello Lutsch Rutherford & Brucculeri, October 26, 2010: US07822480 (32 worldwide citation)

An exemplary system for communicating with an implantable stimulator includes a coil configured to transmit a signal modulated with on-off keying (OOK) modulation to transmit control data. The system further includes a first telemetry receiver in the implantable stimulator configured to receive the ...


5
Daniel J Klosterman, Matthew I Haller, Jordi Parramon, Kelly H McClure, Goran N Marnfeldt, Rudolph V Park: Telemetry system for use with microstimulator. Boston Scientific Neuromodulation Corporation, Lewis & Reese PLLC, January 26, 2016: US09242106 (13 worldwide citation)

An implantable microstimulator configured to be implanted beneath a patient's skin for tissue stimulation employs a bi-directional RF telemetry link for allowing data-containing signals to be sent to and from the implantable microstimulator from at least two external devices. Further, a separate ele ...


6
Rudolph V Park, Jordi Parramon, Daniel Klosterman, Goran N Marnfeldt: Systems and methods for communicating with an implantable stimulator. Boston Scientific Neuromodulation Corporation, Wong Cabello Lutsch Rutherford & Brucculeri, March 11, 2014: US08670835 (9 worldwide citation)

An exemplary system for communicating with an implantable stimulator includes a coil configured to transmit a signal modulated with either on-off keying (OOK) modulation or Frequency Shift Keying (FSK) modulation. The system further includes a first telemetry receiver in the implantable stimulator c ...


7
Rudolph V Park, Jordi Parramon, Daniel Klosterman, Goran N Marnfeldt: Systems and methods for communicating with an implantable stimulator. Boston Scientific Neuromodulation Corporation, Lewis & Reese PLLC, July 14, 2015: US09079041 (5 worldwide citation)

An exemplary system for communicating with an implantable stimulator includes a coil configured to transmit a signal modulated with either on-off keying (OOK) modulation or Frequency Shift Keying (FSK) modulation. The system further includes a first telemetry receiver in the implantable stimulator c ...


8
Daniel J Klosterman, Kelly H McClure, Goran N Marnfeldt, Jordi Parramon, Matthew I Haller, Rudolph V Park: Bi-directional telemetry system for use with microstimulator. Advanced Bionics Corporation, January 27, 2005: US20050021108-A1

An implantable microstimulator configured to be implanted beneath a patient's skin for tissue stimulation employs a bidirectional RF telemetry link for allowing data-containing signals to be sent to and from the implantable microstimulator from at least two external devices. Further, a separate elec ...


9
Rudolph V Park, Dennis K Wickenden: Magnetostrictive MEMS based magnetometer. The Johns Hopkins Universityapplied Physics Labora, Office Of Patent Counsel, January 4, 2007: US20070001671-A1

A magnetostrictive microelectromechanical system (MEMS) element based magnetometer includes a MEMS element with any type of magnetostrictive material. The MEMS element can be made with or coated by the magnetostrictive material. The magnetometer can include a frequency measuring device, such as an o ...


10
Daniel J Klosterman, Kelly H McClure, Goran N Marnfeldt, Jordi Parramon, Matthew I Haller, Rudolph V Park: Telemetry System for Use With Microstimulator. Advanced Bionics Corporation, Wong Cabello Lutsch Rutherford & Brucculeri, June 14, 2007: US20070135867-A1

An implantable microstimulator configured to be implanted beneath a patient's skin for tissue stimulation employs a bi-directional RF telemetry link for allowing data-containing signals to be sent to and from the implantable microstimulator from at least two external devices. Further, a separate ele ...



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