1
Michael Todd Hemming, Bradley C Peck, Brian A Blow, Scott M Morrison, Robert John Schuelke: Microprocessor capture detection circuit and method. Medtronic, Thomas F Woods, Harold R Patton, February 16, 1999: US05871512 (122 worldwide citation)

Software programmable device means such as a microprocessor are employed to discriminate between evoked response signals and post-pace polarization signals sensed by an implantable medical device. The polarity of the positive or negative change in voltage in respect of time (or dv/dt) of the wavefor ...


2
Michael Todd Hemming, Bradley C Peck, Brian A Blow, Scott M Morrison, Robert John Schuelke: Microprocessor capture detection circuit and method. Medtronic, Thomas F Woods, Harold R Patton, February 23, 1999: US05873898 (121 worldwide citation)

The programmable device means such as a microprocessor are employed to discriminate between evoked response signals and post-pace polarization signals sensed by an implantable medical device. The polarity of the positive or negative change in voltage in respect of time (or dv/dt) of the waveform inc ...


3
Michael Todd Hemming, Bradley C Peck, Brian A Blow, Scott M Morrison, Robert John Schuelke: Microprocessor capture detection circuit and method. Medtronic, Thomas F Woods, Harold R Patton, December 19, 2000: US06163724 (109 worldwide citation)

A software programmable device means such as a microprocessor discriminates between evoked response signals and post-pace polarization signals sensed by an implantable medical device. The polarity of the positive or negative change in voltage in respect of time (or dv/dt) of the waveform incident on ...


4
Bradley C Peck, Brian A Blow, Scott M Morrison, Michael Todd Hemming, Robert John Schuelke: Peak tracking capture detection circuit and method. Medtronic, Thomas F Woods, Harold R Patton, January 19, 1999: US05861013 (92 worldwide citation)

The present invention permits discrimination between evoked response signals and post-pace polarization signals sensed by an implantable medical device by noting the polarity of the positive or negative change in voltage in respect of time (or dv/dt) of the waveform incident on the lead electrodes d ...


5
Michael Todd Hemming, Bradley C Peck, Brian A Blow, Scott M Morrison, Robert John Schuelke: Microprocessor capture detection circuit and method. Medtronic, Girma Wolde Michael, Harold R Patton, October 17, 2000: US06134473 (61 worldwide citation)

A software programmable microprocessor discriminates between evoked response signals and post-pace polarization signals sensed by an implantable medical device. The polarity of the positive or negative change in voltage in respect of time (or dv/dt) of the waveform incident on the lead electrodes is ...


6
Michael Todd Hemming, Bradley C Peck, Brian A Blow, Scott M Morrison, Robert John Schuelke: Capture detection circuit for pulses and physiologic signals. Medtronic, Thomas F Woods, Harold R Patton, November 7, 2000: US06144881 (44 worldwide citation)

A method and apparatus for discriminating between evoked response signals and post-pace polarization signals sensed by a sense amplifier of an implantable medical device. The polarity of the positive or negative change in voltage in respect of time (or dv/dt) of the waveform incident on the lead ele ...


7
Michael Todd Hemming, Bradley C Peck, Brian A Blow, Scott M Morrison: Microprocessor capture detection circuit and method. Medtronic, Thomas F Woods, Harold R Patton, September 21, 1999: US05954756 (20 worldwide citation)

The present invention employs software programmable device means such as a microprocessor to discriminate between evoked response signals and post-pace polarization signals sensed by an implantable medical device. The polarity of the positive or negative change in voltage in respect of time (or dv/d ...