Multi-electrode implantable stimulator device with a single current path decoupling capacitor
First Claim
1. A stimulator device for providing a simulation current to the tissue of a patient, comprising:
- a body for the device;
a plurality of electrodes coupled to the body, comprising;
an anode, wherein the anode is coupled to an anode current path within the body, anda plurality of cathodes, wherein each cathode is coupleable to a single associated cathode current path within the body;
selection circuitry for coupling one of the cathodes to its associated cathode current path, thereby selecting that cathode as an active cathode and that cathode current path as an active cathode current path; and
a single decoupling capacitor within the body, wherein the anode current path comprises the decoupling capacitor, and wherein none of the cathode current paths comprise a decoupling capacitor,wherein the stimulation current flows from the anode current path to the active cathode current path.
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Accused Products
Abstract
Disclosed herein are circuits and methods for a multi-electrode implantable stimulator device incorporating one decoupling capacitor in the current path established via at least one cathode electrode and at least one anode electrode. In one embodiment, the decoupling capacitor may be hard-wired to a dedicated anode on the device. The cathodes are selectively activatable via stimulation switches. In another embodiment, any of the electrodes on the devices can be selectively activatable as an anode or cathode. In this embodiment, the decoupling capacitor is placed into the current path via selectable anode and cathode stimulation switches. Regardless of the implementation, the techniques allow for the benefits of capacitive decoupling without the need to associate decoupling capacitors with every electrode on the multi-electrode device, which saves space in the body of the device. Although of particular benefit when applied to microstimulators, the disclosed technique can be used with space-saving benefits in any stimulator device.
44 Citations
34 Claims
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1. A stimulator device for providing a simulation current to the tissue of a patient, comprising:
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a body for the device; a plurality of electrodes coupled to the body, comprising; an anode, wherein the anode is coupled to an anode current path within the body, and a plurality of cathodes, wherein each cathode is coupleable to a single associated cathode current path within the body; selection circuitry for coupling one of the cathodes to its associated cathode current path, thereby selecting that cathode as an active cathode and that cathode current path as an active cathode current path; and a single decoupling capacitor within the body, wherein the anode current path comprises the decoupling capacitor, and wherein none of the cathode current paths comprise a decoupling capacitor, wherein the stimulation current flows from the anode current path to the active cathode current path. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A stimulator device for providing a simulation current to the tissue of a patient, comprising:
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a body for the device; a plurality of electrodes coupled to the body, comprising; a cathode, wherein the cathode is coupled to a cathode current path within the body, and a plurality of anodes, wherein each anode is coupleable to a single associated anode current path within the body; selection circuitry for coupling one of the anodes to its associated anode current path, thereby selecting that anode as an active anode and that anode current path as an active anode current path; and a single decoupling capacitor within the body, wherein the cathode current path comprises the decoupling capacitor, and wherein none of the anode current paths comprise a decoupling capacitor, wherein the stimulation current flows from the active anode current path to the cathode current path. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
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27. A stimulator device for providing a simulation current to the tissue of a patient, comprising:
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a body for the device; a plurality of electrodes coupled to the body, wherein each electrode is coupleable to a single associated anode current path within the body and a single associated cathode current path within the body; selection circuitry for coupling a first of the electrodes to its associated anode current path and for coupling a second of the electrodes to its associated cathode current path, thereby selecting the first electrode as an active anode and its associated anode current path as an active anode current path, and thereby selecting the second electrode as an active cathode and its associated cathode current path as an active anode current path; and a single decoupling capacitor within the body, wherein either the active anode current path or the active cathode current path comprises the decoupling capacitor, and wherein neither the other of the active anode current path or the active cathode current path, nor any other of the anode or cathode current paths, comprise a decoupling capacitor, wherein the stimulation current flows from the active anode current path to the active cathode current path. - View Dependent Claims (28, 29, 30, 31, 32, 33, 34)
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Specification