Variable voltage compliance for current output generator
First Claim
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1. An apparatus for delivering electrical neural stimulation therapy to a patient, the apparatus comprising:
- a power supply;
circuitry connected to the power supply and adapted to detect tissue/electrode interface impedances;
at least one stimulating electrode, wherein the circuitry includes a charged capacitor adapted to be electrically connected to the at least one stimulating electrode; and
a current output pulse generator connected to the at least one stimulating electrode, the generator comprising a programmed amplitude of stimulation current, wherein the generator is configured to deliver electrical neural stimulation therapy at the programmed amplitude, the generator further comprising;
an adjustable compliance voltage source connected to the power supply, the voltage source configured to provide an adjustable voltage level and different potentials for the different tissue/electrode interface impedances, the voltage source comprising;
a supply capacitor;
two variable current sources connected in parallel with the supply capacitor; and
switches configured to control the delivery of electrical neural stimulation therapy, wherein the switches are connected to the current sources and supply capacitor, wherein the pulse generator is configured to receive the detected impedances, maintain the programmed amplitude of stimulation current for the different tissue/electrode interface impedances and adjust the compliance voltage source by adjusting the voltage level based on the programmed amplitude of the stimulation current and the detected impedances; and
wherein the charged capacitor is adapted to be electrically connected to the at least one stimulating electrode for a pre-determined amount of time, and wherein the tissue/electrode interface impedances are determined by measuring a voltage difference across the charged capacitor before and after connecting it to the at least one electrode.
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Abstract
A system for providing stimulation current in implantable medical devices is provided. One aspect of this disclosure relates to an apparatus including a power supply terminal adapted to be connected to a power supply. The apparatus embodiment also includes circuitry connected to the power supply terminal and adapted to detect a parameter dependent on tissue/electrode impedance. The apparatus embodiment further includes a current output pulse generator adapted to deliver electrical therapy. The current generator includes an adjustable compliance voltage source connected to the power supply terminal. The compliance voltage source has a programmable amplitude and is adapted to provide different potentials for different tissue/electrode interface impedances. According to various embodiments, the apparatus embodiment also includes at least one stimulating electrode, and the current generator is adapted to deliver electrical therapy using the electrode. Other aspects and embodiments are provided herein.
14 Citations
18 Claims
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1. An apparatus for delivering electrical neural stimulation therapy to a patient, the apparatus comprising:
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a power supply; circuitry connected to the power supply and adapted to detect tissue/electrode interface impedances; at least one stimulating electrode, wherein the circuitry includes a charged capacitor adapted to be electrically connected to the at least one stimulating electrode; and a current output pulse generator connected to the at least one stimulating electrode, the generator comprising a programmed amplitude of stimulation current, wherein the generator is configured to deliver electrical neural stimulation therapy at the programmed amplitude, the generator further comprising; an adjustable compliance voltage source connected to the power supply, the voltage source configured to provide an adjustable voltage level and different potentials for the different tissue/electrode interface impedances, the voltage source comprising; a supply capacitor; two variable current sources connected in parallel with the supply capacitor; and switches configured to control the delivery of electrical neural stimulation therapy, wherein the switches are connected to the current sources and supply capacitor, wherein the pulse generator is configured to receive the detected impedances, maintain the programmed amplitude of stimulation current for the different tissue/electrode interface impedances and adjust the compliance voltage source by adjusting the voltage level based on the programmed amplitude of the stimulation current and the detected impedances; and wherein the charged capacitor is adapted to be electrically connected to the at least one stimulating electrode for a pre-determined amount of time, and wherein the tissue/electrode interface impedances are determined by measuring a voltage difference across the charged capacitor before and after connecting it to the at least one electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An apparatus for delivering electrical neural stimulation therapy to a patient, the apparatus comprising:
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a power supply; circuitry connected to the power supply and adapted to detect tissue/electrode interface impedances; at least one stimulating electrode, wherein the circuitry includes a charged capacitor adapted to be electrically connected to the at least one stimulating electrode; and a current output pulse generator connected to the at least one stimulating electrode, the generator comprising a programmed amplitude of stimulation current, wherein the generator is configured to deliver electrical neural stimulation therapy at the programmed amplitude, the generator further comprising; an adjustable compliance voltage source connected to the power supply, the voltage source configured to provide an adjustable voltage level and different potentials for the different tissue/electrode interface impedances, the voltage source comprising; a supply capacitor; two variable current sources connected in parallel with the supply capacitor; and switches configured to control the delivery of electrical neural stimulation therapy, wherein the switches are connected to the current sources and supply capacitor, wherein the pulse generator is configured to receive the detected impedances, maintain the programmed amplitude of stimulation current for the different tissue/electrode interface impedances and adjust the compliance voltage source by adjusting the voltage level based on the programmed amplitude of the stimulation current and the detected impedances; and wherein the charged capacitor is adapted to be connected to the stimulating electrodes until a voltage difference across the charged capacitor achieves a predetermined value, and wherein the tissue/electrode interface impedances are determined by measuring an amount of time to reach the predetermined value. - View Dependent Claims (15, 16, 17, 18)
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Specification
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Current AssigneeCardiac Pacemakers Incorporated (Boston Scientific Corporation)
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Original AssigneeCardiac Pacemakers Incorporated (Boston Scientific Corporation)
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InventorsHaefner, Paul A.
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Primary Examiner(s)Patel, Niketa
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Assistant Examiner(s)EL-KAISSI, HIBA CARINE
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Application NumberUS13/220,215Publication NumberTime in Patent Office575 DaysField of Search607 2- 8, 607/25, 607/115, 607/116, 607/62US Class Current607/28CPC Class CodesA61N 1/0556 Cuff electrodesA61N 1/056 Transvascular endocardial e...A61N 1/36053 adapted for vagal stimulati...A61N 1/36114 Cardiac control, e.g. by va...A61N 1/3615 IntensityA61N 1/36521 the parameter being derived...A61N 1/3706 Pacemaker parameters stimul...
