Spinal Cord Stimulator System
First Claim
1. A spinal cord stimulation device comprising:
- an implantable pulse generator comprising;
a casing having a header with a lead contact assembly housed in the header;
a circuit board housed in the casing, the circuit board comprising a plurality of output capacitors, an application specific integrated circuit and a microcontroller, the microcontroller operably connected with the output capacitors and the application specific integrated circuit;
a feedthrough positioned between the casing and the header having pins that connect to the circuit board on a first side and that connect to an RF antenna and a lead contact assembly on a second side;
at least one positive digital to analog convertor on the circuit board;
at least one negative digital to analog convertor on the circuit board wherein the positive digital to analog convertor and negative digital to analog convertor are configured not to be active concurrently;
a secondary charging coil housed in the casing; and
a voltage doubler full wave rectifier coupled to the secondary charging coil and configured to convert an induced AC voltage into a usable DC voltage; and
a rechargeable implantable grade lithium ion battery housed in the casing configured to be inductively charged by a Constant Current, Constant Voltage type of regulation of the usable DC voltage;
a plurality of implantable stimulation electrodes, each operably connected to at least one of a plurality of implantable leads which are configured to be electrically connected to the implantable pulse generator via the header;
an external charger having a primary charging coil configured to provide the induced AC voltage to the secondary charging coil; and
a wireless communication device configured to provide communication with the implantable pulse generator via the RF antenna.
3 Assignments
0 Petitions
Accused Products
Abstract
Spinal cord stimulation (SCS) system having a recharging system with self alignment, a system for mapping current fields using a completely wireless system, multiple independent electrode stimulation outsource, and IPG control through software on Smartphone/mobile device and tablet hardware during trial and permanent implants. SCS system can include multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) providing concurrent, but unique stimulation fields. SCS system can include a replenishable power source, rechargeable using transcutaneous power transmissions between antenna coil pairs. An external charger unit, having its own rechargeable battery, can charge the IPG replenishable power source. A real-time clock can provide an auto-run schedule for daily stimulation. A bi-directional telemetry link informs the patient or clinician the status of the system, including the state of charge of the IPG battery. Other processing circuitry in current IPG allows electrode impedance measurements to be made.
10 Citations
14 Claims
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1. A spinal cord stimulation device comprising:
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an implantable pulse generator comprising; a casing having a header with a lead contact assembly housed in the header; a circuit board housed in the casing, the circuit board comprising a plurality of output capacitors, an application specific integrated circuit and a microcontroller, the microcontroller operably connected with the output capacitors and the application specific integrated circuit; a feedthrough positioned between the casing and the header having pins that connect to the circuit board on a first side and that connect to an RF antenna and a lead contact assembly on a second side; at least one positive digital to analog convertor on the circuit board; at least one negative digital to analog convertor on the circuit board wherein the positive digital to analog convertor and negative digital to analog convertor are configured not to be active concurrently; a secondary charging coil housed in the casing; and a voltage doubler full wave rectifier coupled to the secondary charging coil and configured to convert an induced AC voltage into a usable DC voltage; and a rechargeable implantable grade lithium ion battery housed in the casing configured to be inductively charged by a Constant Current, Constant Voltage type of regulation of the usable DC voltage; a plurality of implantable stimulation electrodes, each operably connected to at least one of a plurality of implantable leads which are configured to be electrically connected to the implantable pulse generator via the header; an external charger having a primary charging coil configured to provide the induced AC voltage to the secondary charging coil; and a wireless communication device configured to provide communication with the implantable pulse generator via the RF antenna. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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Specification