Pulse-by-pulse compliance voltage generation for an implantable stimulator
First Claim
1. Circuitry configured to adjust a compliance voltage in an implantable stimulator device, comprising:
- a source circuit coupled to a compliance voltage, wherein the source circuit is configured to provide a first current pulse to at least a first electrode;
a sink circuit coupled to a reference voltage, wherein the sink circuit is configured to sink the first current pulse from at least a second electrode;
a first amplifier configured to measure a first analog voltage across the source circuit;
a second amplifier configured to measure a second analog voltage across the sink circuit;
a first reference voltage generator configured to produce an optimal first analog voltage;
a second reference voltage generator configured to produce an optimal second analog voltage;
a first comparator configured to compare the measured first analog voltage to the optimal first analog voltage and to produce a first digital signal indicating whether the measured first analog voltage is high or low relative to the optimal first analog voltage;
a second comparator configured to compare the measured second analog voltage to the optimal second analog voltage and to produce a second digital signal indicating whether the measured second analog voltage is high or low relative to the optimal second analog voltage;
logic circuitry configured to assess the first and second digital signals, and configured to issue a control signal; and
regulator circuitry configured to adjust the compliance voltage in accordance with the control signal.
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Accused Products
Abstract
Circuitry for generating a compliance voltage (V+) for the current sources and/or sinks in an implantable stimulator device in disclosed. The circuitry assesses whether V+ is optimal for a given pulse, and if not, adjusts V+ for the next pulse. The circuitry uses amplifiers to measure the voltage drop across active PDACs (current sources) and NDAC (current sinks) at an appropriate time during the pulse. The measured voltages are assessed to determine whether they are high or low relative to optimal values. If low, a V+ regulator is controlled to increase V+ for the next pulse; if not, the V+ regulator is controlled to decrease V+ for the next pulse. Through this approach, gradual changes that may be occurring in the implant environment can be accounted for, with V+ adjusted on a pulse-by-pulse basis to keep the voltage drops at or near optimal levels for efficient DAC operation.
45 Citations
26 Claims
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1. Circuitry configured to adjust a compliance voltage in an implantable stimulator device, comprising:
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a source circuit coupled to a compliance voltage, wherein the source circuit is configured to provide a first current pulse to at least a first electrode; a sink circuit coupled to a reference voltage, wherein the sink circuit is configured to sink the first current pulse from at least a second electrode; a first amplifier configured to measure a first analog voltage across the source circuit; a second amplifier configured to measure a second analog voltage across the sink circuit; a first reference voltage generator configured to produce an optimal first analog voltage; a second reference voltage generator configured to produce an optimal second analog voltage; a first comparator configured to compare the measured first analog voltage to the optimal first analog voltage and to produce a first digital signal indicating whether the measured first analog voltage is high or low relative to the optimal first analog voltage; a second comparator configured to compare the measured second analog voltage to the optimal second analog voltage and to produce a second digital signal indicating whether the measured second analog voltage is high or low relative to the optimal second analog voltage; logic circuitry configured to assess the first and second digital signals, and configured to issue a control signal; and regulator circuitry configured to adjust the compliance voltage in accordance with the control signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 23, 24)
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12. Circuitry configured to adjust a compliance voltage in an implantable stimulator device, comprising:
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a source circuit coupled to a compliance voltage, wherein the source circuit is configured to provide a first current pulse to at least a first electrode; a sink circuit coupled to a reference voltage, wherein the sink circuit is configured to sink the first current pulse from at least a second electrode; a first amplifier configured to measure a first voltage across the source circuit; a second amplifier configured to measure a second voltage across the sink circuit; a first reference voltage generator configured to produce an optimal first voltage; a second reference voltage generator configured to produce an optimal second voltage; a first comparator configured to compare the measured first voltage to the optimal first voltage and to produce a first digital signal indicating whether the measured first voltage is high or low relative to the optimal first voltage; a second comparator configured to compare the measured second voltage to the optimal second voltage and to produce a second digital signal indicating whether the measured second voltage is high or low relative to the optimal second voltage; logic circuitry configured to simultaneously assess the first and second digital signals, and configured to issue a control signal in accordance with the assessment; and regulator circuitry configured to adjust the compliance voltage in accordance with the control signal. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 25, 26)
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Specification