초록 ▼

A stimulator includes an implantable pulse generator comprising circuit elements, a first power source, such as an ultracapacitor, that provides operating power for the circuit elements of the pulse generator. The pulse generator can also have a memory associated therewith, such as a volatile memory

A stimulator includes an implantable pulse generator comprising circuit elements, a first power source, such as an ultracapacitor, that provides operating power for the circuit elements of the pulse generator. The pulse generator can also have a memory associated therewith, such as a volatile memory for storing programming data. A second power source that has higher voltage retention than the first power source can also be included. The second power source can be dedicated to the volatile memory and can provide operating power for the volatile memory.

대표청구항 ▼

1. A stimulator comprising: an implantable pulse generator comprising circuit elements for producing stimulation pulses, wherein the circuit elements comprise digital-to-analog converters for producing the stimulation pulses in accordance with digital signals defining at least the amplitude of the s

1. A stimulator comprising: an implantable pulse generator comprising circuit elements for producing stimulation pulses, wherein the circuit elements comprise digital-to-analog converters for producing the stimulation pulses in accordance with digital signals defining at least the amplitude of the stimulation pulses;a first power source comprising an ultracapacitor that provides operating power for the circuit elements; anda volatile memory associated with the pulse generator for storing programming data; anda second power source that has higher voltage retention than the ultracapacitor, wherein the second power source is dedicated to the volatile memory and provides operating power for the volatile memory. 2. The stimulator of claim 1, wherein the ultracapacitor has a capacitive rating of greater than 0.1 farad, and the second power source has higher voltage retention than the ultracapacitor. 3. The stimulator of claim 1 further comprising charging circuitry that includes an inductor coil and a rectifier circuit, wherein said charging circuitry receives power from an external source through the coil, rectifies the received power with the rectifier circuit, and directs said rectified power to the ultracapacitor for the purpose of recharging the ultracapacitor. 4. The stimulator of claim 1, wherein the first power source is recharged with RF waves received from an external recharge transmitter unit. 5. The stimulator of claim 1, wherein the second power source is recharged with RF waves received from an external recharge transmitter unit. 6. The stimulator of claim 1, wherein the volatile memory comprises SRAM or DRAM. 7. The stimulator of claim 1, further comprising a recharge coil in electrical communication with the ultracapacitor, wherein the recharge coil is enclosed within a magnetically transparent material. 8. The stimulator of claim 7, further comprising one or more protection diodes in electrical communication with the recharge coil and the first power source, wherein the protection diodes prevent output voltage from exceeding a threshold value. 9. The stimulator of claim 8, wherein the threshold value is about 5V. 10. The stimulator of claim 1, further comprising a housing made of a magnetically transparent material. 11. The stimulator of claim 1, wherein the second power source comprises a battery. 12. The stimulator of claim 1, further comprising a nonvolatile memory, and wherein the ultracapacitor provides operating power for the nonvolatile memory. 13. A system for stimulating tissue comprising: an implantable stimulator comprising: pulse generator circuitry for producing stimulation pulses, wherein the pulse generator circuitry comprises at least one digital-to-analog converter for producing the stimulation pulses in accordance with digital signals defining at least the amplitude of the stimulation pulses;a first power source comprising an ultracapacitor that provides operating power for said pulse generator circuitry;a volatile memory for storing programming data and providing said programming data to the pulse generator circuitry; anda second power source that has higher voltage retention than the first power source, wherein the second power source is dedicated to the volatile memory and provides operating power for the volatile memory; anda remote programmer unit that transmits programming information to the implantable stimulator, wherein the programming information is stored in the volatile memory. 14. The system of claim 13, wherein a recharge transmitter transmits a first set of RF signals to the stimulator, wherein the first set of RF signals recharges the ultracapacitor. 15. The system of claim 14, wherein a recharge transmitter transmits a second set of RF signals to the stimulator, wherein the second set of RF signals recharges the second power source. 16. The system of claim 13, further comprising a recharge coil electrically coupled to the ultracapacitor, wherein the recharge coil is enclosed within a magnetically transparent material. 17. The system of claim 16, further comprising one or more protection diodes in electrical communication with the recharge coil and the first power source, wherein the protection diodes prevent output voltage from exceeding a threshold value. 18. The system of claim 17, wherein the threshold value is about 5V. 19. The system of claim 13, wherein the implantable stimulator is housed in a magnetically transparent material. 20. The system of claim 13, wherein the implantable stimulator further comprises a nonvolatile memory, and wherein the ultracapacitor provides operating power for the nonvolatile memory. 21. The system of claim 13, the volatile memory comprises SRAM or DRAM. 22. The system of claim 13, wherein the second power source comprises a battery. 23. The system of claim 13, wherein the ultracapacitor has a capacitive rating of greater than 0.1 farad, and the second power source has higher voltage retention than the ultracapacitor. 24. The system of claim 13, further comprising charging circuitry that includes an inductor coil and a rectifier circuit, wherein said charging circuitry receives power from an external source through the coil, rectifies the received power with the rectifier circuit, and directs said rectified power to the ultracapacitor for the purpose of recharging the ultracapacitor. 25. The system of claim 13, further comprising a remote recharge transmitter that transmits one or more sets of RF signals to the stimulator. 26. The system of claim 13, wherein the pulse generator circuitry produces stimulation pulses for stimulating a patient's tissue. 27. An implantable stimulator, comprising: pulse generation circuitry for producing stimulation pulses, wherein the pulse generation circuitry comprises at least one digital-to-analog converter for producing the stimulation pulses in accordance with digital signals defining at least the amplitude of the stimulation pulses;a volatile memory for storing data and for providing the data to the pulse generation circuitry;a capacitor for providing operating power to the pulse generation circuitry; anda battery for providing power only to the volatile memory. 28. The stimulator of claim 27, wherein the battery has higher voltage retention than the capacitor. 29. The stimulator of claim 27, wherein the capacitor has a capacitance of greater than 0.1 Farads. 30. The stimulator of claim 27, wherein the battery is recharged with RF waves received from an external recharge transmitter unit. 31. The stimulator of claim 27, wherein the capacitor is recharged with RF waves received from an external recharge transmitter unit. 32. The stimulator of claim 27, wherein the data is received as RF waves from an external programmer. 33. The stimulator of claim 27, wherein the pulse generation circuitry produces stimulation pulses for stimulating a patient's tissue.