Timing channel circuitry for creating pulses in an implantable stimulator device
First Claim
1. An implantable stimulator device, comprising:
- a plurality of electrodes configured to provide stimulation to a patient'"'"'s tissue;
a memory configured to store pulse parameters for a periodic pulse, wherein each pulse comprises a plurality of sequential pulse phases, wherein at least one pulse phase with a first duration comprises a plurality of sequential sub-phases, wherein the at least one pulse phase has an amplitude that is not constant,wherein data stored in the memory for each sub-phase of the at least one pulse phase comprises at least;
an amplitude of the sub-phase, wherein the amplitudes of the sub-phases are not all equal,a second duration of the sub-phase less than the first duration, anda positive or negative polarity of the amplitude that each one of the plurality of electrodes is to receive, anda percentage of the amplitude that each one of the plurality of electrodes is to receive;
stimulation circuitry electrically coupled to the plurality of electrodes comprising first Digital-to-Analog Converter (DAC) circuitry configured to provide a positive current and second DAC circuitry configured to provide a negative current; and
control circuitry configured to sequentially receive the second duration for each sequential sub-phase from the memory, wherein the control circuitry is configured to sequentially provide the data for each sequential sub-phase to the stimulation circuitry in accordance with the second durations to allow the stimulation circuitry to form the non-constant amplitude pulse phase,wherein the first DAC circuitry is configured to provide the positive current to electrodes having a positive polarity and with an amplitude in accordance with their percentages, and wherein the second DAC circuitry is configured to provide the negative current to electrodes having a negative polarity and with an amplitude in accordance with their percentages,wherein if the positive current is to be provided to more than one electrode having a positive polarity, the stored percentage of the amplitude for each such more than one electrode is less than 100 percent, andwherein if the negative current is to be provided to more than one electrode having a negative polarity, the stored percentage of the amplitude for each such more than one electrode is less than 100 percent.
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Abstract
Timing channel circuitry for controlling stimulation circuitry in an implantable stimulator is disclosed. The timing channel circuitry comprises a addressable memory. Data for the various phases of a desired pulse are stored in the memory using different numbers of words, including a command indicative of the number of words in the phase, a next address for the next phase stored in the memory, and a pulse width or duration of the current phase, control data for the stimulation circuitry, pulse amplitude, and electrode data. The command data is used to address through the words in the current phase via the address bus, which words are sent to a control register for the stimulation circuitry. After the duration of the pulse width for the current phase has passed, the stored next address is used to access the data for the next phase stored in the memory.
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Citations
15 Claims
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1. An implantable stimulator device, comprising:
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a plurality of electrodes configured to provide stimulation to a patient'"'"'s tissue; a memory configured to store pulse parameters for a periodic pulse, wherein each pulse comprises a plurality of sequential pulse phases, wherein at least one pulse phase with a first duration comprises a plurality of sequential sub-phases, wherein the at least one pulse phase has an amplitude that is not constant, wherein data stored in the memory for each sub-phase of the at least one pulse phase comprises at least; an amplitude of the sub-phase, wherein the amplitudes of the sub-phases are not all equal, a second duration of the sub-phase less than the first duration, and a positive or negative polarity of the amplitude that each one of the plurality of electrodes is to receive, and a percentage of the amplitude that each one of the plurality of electrodes is to receive; stimulation circuitry electrically coupled to the plurality of electrodes comprising first Digital-to-Analog Converter (DAC) circuitry configured to provide a positive current and second DAC circuitry configured to provide a negative current; and control circuitry configured to sequentially receive the second duration for each sequential sub-phase from the memory, wherein the control circuitry is configured to sequentially provide the data for each sequential sub-phase to the stimulation circuitry in accordance with the second durations to allow the stimulation circuitry to form the non-constant amplitude pulse phase, wherein the first DAC circuitry is configured to provide the positive current to electrodes having a positive polarity and with an amplitude in accordance with their percentages, and wherein the second DAC circuitry is configured to provide the negative current to electrodes having a negative polarity and with an amplitude in accordance with their percentages, wherein if the positive current is to be provided to more than one electrode having a positive polarity, the stored percentage of the amplitude for each such more than one electrode is less than 100 percent, and wherein if the negative current is to be provided to more than one electrode having a negative polarity, the stored percentage of the amplitude for each such more than one electrode is less than 100 percent. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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Specification