Dual-range compliance voltage supply for a multi-channel stimulator

US 7,519,428 B1
Filed: 06/11/2003
Issued: 04/14/2009
Est. Priority Date: 06/14/2002
Status: Expired due to Fees

First Claim

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1. A stimulation circuit for a channel within a multi-channel stimulator, the circuit comprising:

an electrical ground;

a first electrode contact;

a second electrode contact;

a first current generating circuit configured to generate a first stimulation current in a push-pull arrangement;

a second current generating circuit configured to generate a second stimulation current in a push-pull arrangement;

a first bypass switch configured to selectively be in one of a first and a second position, wherein, in said first position, said first bypass switch is configured to electrically connect said first electrode contact to said ground, and wherein, in a second position, said first bypass switch is configured to electrically connect said first electrode contact to said first current generating circuit; and

a second bypass switch configured to selectively be in one of a first and a second position, wherein, in said first position, said second bypass switch is configured to electrically connect said second electrode contact to said ground, and wherein, in a second position, said second bypass switch is configured to electrically connect said second electrode contact to said second current generating circuit;

wherein said first bypass switch is configured to be selectively placed in said first position and said second bypass switch is configured to be selectively placed in said second position to cause said channel to operate in a low compliance voltage mode in which a voltage between said first and second electrode contacts is within a first voltage range; and

wherein said first and second bypass switches are configured to both be selectively placed in said second positions to cause said channel to operate in a high compliance voltage mode in which a voltage between said first and second electrode contacts is within a second voltage range, said second voltage range greater than said first voltage range and wherein the stimulation circuit is capable of operating in both modes.

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Abstract

In accordance with an aspect of the present invention, there is provided a multi-channel stimulator having a common supply voltage, the stimulator having an electrical circuit with a dual-range compliance voltage supply such that each channel of the multi-channel stimulator is configured to be selectable among two compliance voltages. Channels which can operate at half or less than half compliance voltage can operate in the lower voltage range and thereby achieve energy savings. The stimulator can be switched between a high and low compliance voltage in a bipolar or a monopolar electrode configuration.

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16 Claims

1. A stimulation circuit for a channel within a multi-channel stimulator, the circuit comprising:
- an electrical ground;
  
  a first electrode contact;
  
  a second electrode contact;
  
  a first current generating circuit configured to generate a first stimulation current in a push-pull arrangement;
  
  a second current generating circuit configured to generate a second stimulation current in a push-pull arrangement;
  
  a first bypass switch configured to selectively be in one of a first and a second position, wherein, in said first position, said first bypass switch is configured to electrically connect said first electrode contact to said ground, and wherein, in a second position, said first bypass switch is configured to electrically connect said first electrode contact to said first current generating circuit; and
  
  a second bypass switch configured to selectively be in one of a first and a second position, wherein, in said first position, said second bypass switch is configured to electrically connect said second electrode contact to said ground, and wherein, in a second position, said second bypass switch is configured to electrically connect said second electrode contact to said second current generating circuit;
  
  wherein said first bypass switch is configured to be selectively placed in said first position and said second bypass switch is configured to be selectively placed in said second position to cause said channel to operate in a low compliance voltage mode in which a voltage between said first and second electrode contacts is within a first voltage range; and
  
  wherein said first and second bypass switches are configured to both be selectively placed in said second positions to cause said channel to operate in a high compliance voltage mode in which a voltage between said first and second electrode contacts is within a second voltage range, said second voltage range greater than said first voltage range and wherein the stimulation circuit is capable of operating in both modes.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The stimulation circuit of claim 1, further comprising a multi-channel stimulator having an external case configured to serve as one of said electrode contacts.
  - 3. The stimulation circuit of claim 1, wherein said first and second current generating circuits are configured to produce bipolar stimulation.
  - 4. The simulation circuit of claim 1, further comprising a software program configured to dynamically control the first and second bypass switches.
  - 5. The stimulation circuit of claim 1, wherein said second voltage range is twice as large as said first voltage range.

6. A method of providing stimulation with a multi-channel stimulator, the method comprising:
- providing a first current generating circuit in a push-pull arrangement coupled to a first electrode contact via a first bypass switch;
  
  providing a second current generating circuit in a push-pull arrangement coupled to a second electrode contact via a second bypass switch; and
  
  selectively generating a stimulation current in one of a low compliance voltage mode in which a voltage between said first and second electrode contacts is within a first voltage range and a high compliance voltage mode in which a voltage between said first and second electrode contacts is within a second voltage range with at least one of said first and second current generating circuits, said second voltage range greater than said first voltage range;
  
  wherein, to generate said stimulation current in said low compliance voltage mode, said first bypass switch is switched to electrically couple said first electrode contact to an electrical ground and said second bypass switch is switched to electrically couple said second electrode contact to said second current generating circuit; and
  
  wherein, to generate said stimulation current in said high compliance voltage mode, said first bypass switch is switched to electrically couple said first electrode contact to said first current generating circuit and said second bypass switch is switched to electrically couple said second electrode contact to said second current generating circuit and wherein the multi-channel stimulator is capable of operating in both modes.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The method of claim 6, wherein the step of generating said stimulation current is based upon a stimulation threshold of a neural tissue targeted by one or more of said electrode contacts.
  - 8. The method of claim 6, wherein said stimulation current comprises at least one or more of a monopolar stimulation and a bipolar stimulation.
  - 9. The method of stimulation of claim 6, further comprising dynamically controlling one or more of the bypass switches with a software program.
  - 10. The method of claim 6, wherein said second voltage range is twice as large as said first voltage range.

11. A system for stimulating one or more locations within a patient, said system comprising:
- a stimulator having multiple channels each configured to deliver a stimulation current to one or more locations within said patient, wherein each of said channels comprises;
  
  a first electrode contact;
  
  a second electrode contact;
  
  a first current generator in a push-pull arrangement corresponding to said first electrode contact;
  
  a second current generator in a push-pull arrangement corresponding to said second electrode contact; and
  
  a first programmable bypass switch corresponding to said first electrode contact and a second programmable bypass switch corresponding to said second electrode contact, said programmable bypass switches being configured to cause a corresponding channel to selectively operate within one of a first voltage range and a second voltage range, said second voltage range greater than said first voltage range;
  
  wherein said corresponding channel is configured to operate within said first voltage range when said first bypass switch is positioned to electrically couple said first electrode contact to an electrical ground and when said second bypass switch is positioned to electrically couple said second electrode contact to said second current generator; and
  
  wherein said corresponding channel is configured to operate within said second voltage range when said first bypass switch is positioned to electrically couple said first electrode contact to said first current generator and when said second bypass switch is positioned to electrically couple said second electrode contact to said second current generator and wherein the system is capable of operating in both ranges.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The system of claim 11, wherein said first and second bypass switches are configured to be dynamically controlled by a programmable software program.
  - 13. The system of claim 11, wherein the first and second electrode contacts define a bipolar electrode configuration.
  - 14. The system of claim 11, wherein the first and second electrode contacts define a monopolar electrode configuration, the first electrode contact being configured to serve as an active electrode and the second electrode contact being configured to serve as an indifferent electrode.
  - 15. The system of claim 11, further comprising a direct current blocking capacitor connected in series with and between the first bypass switch and the first electrode contact.
  - 16. The system of claim 11, wherein said second voltage range is twice as large as said first voltage range.

Specification

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Current Assignee
Advanced Bionics AG (Sonova Holding AG)
Original Assignee
Advanced Bionics LLC (Sonova Holding AG)
Inventors
Palmer, Logan P
Primary Examiner(s)
EVANISKO, GEORGE ROBERT

Application Number

US10/459,040
Time in Patent Office

2,134 Days
Field of Search

607/74, 607/72, 607/148, 607 55- 57, 607/25, 607/2, 607/66, 607/67, 607/68
US Class Current

607/57
CPC Class Codes

A61N 1/36038 Cochlear stimulation

A61N 1/36125 Details of circuitry or ele...

Dual-range compliance voltage supply for a multi-channel stimulator

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

59 Citations

16 Claims

Specification

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Dual-range compliance voltage supply for a multi-channel stimulator

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

59 Citations

16 Claims

Specification

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Solutions

Use Cases

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