Antenna for miniature implanted medical device

US 6,804,561 B2
Filed: 09/28/2001
Issued: 10/12/2004
Est. Priority Date: 10/11/2000
Status: Active Grant

First Claim

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1. An improved, implantable microdevice configured for sensing and/or affecting a parameter of a patient'"'"'s body via two or more external electrodes and having a case sized and cylindrically shaped for implantation via injection into the patient'"'"'s body, wherein said implantable microdevice is configured via communication circuitry within the housing for RF communication with one or more devices external to the microdevice, wherein said improvement comprises a loop antenna formed external to the cylindrically shaped microdevice and said loop antenna comprises:

a radiating element, wherein said radiating element is electrically conducting and formed on the case of the microdevice, wherein said radiating element comprises two spaced apart cylindrical sleeves on the case of the microdevice and wherein said sleeves additionally function as the electrodes of the microdevice for sensing and/or affecting a parameter of the patient'"'"'s body;

a tuning element electrically connected to said radiating element, wherein said tuning element and said radiating element combine to form a resonant circuit; and

wherein said loop antenna is electrically connected to communications circuitry housed within the microdevice to create a telemetry system for the microdevice suitable for operation in the range of 402 MHz to 405 MHz.

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Abstract

An improved antenna for use with an implantable microdevice, such as a microstimulator or microsensor, comprises a loop antenna on the case of the microdevice. The antenna receives data transmitted from an external device, and transmits data to an external device. Such a loop antenna may be formed from two cylindrical sections separated by an insulating material on the case of the microdevice, or by separating a metal cylinder into two parallel semi-cylinders separated by an insulating material. A tuning circuit comprising capacitors and/or varactors is used to obtain resonance in the loop antenna, thus creating a sufficiently large effective antenna aperture. In a preferred embodiment, the electrodes of the microdevice are modified to both perform their primary task of tissue stimulation and to perform a secondary task as the radiating elements of a loop antenna.

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38 Claims

1. An improved, implantable microdevice configured for sensing and/or affecting a parameter of a patient'"'"'s body via two or more external electrodes and having a case sized and cylindrically shaped for implantation via injection into the patient'"'"'s body, wherein said implantable microdevice is configured via communication circuitry within the housing for RF communication with one or more devices external to the microdevice, wherein said improvement comprises a loop antenna formed external to the cylindrically shaped microdevice and said loop antenna comprises:
- a radiating element, wherein said radiating element is electrically conducting and formed on the case of the microdevice, wherein said radiating element comprises two spaced apart cylindrical sleeves on the case of the microdevice and wherein said sleeves additionally function as the electrodes of the microdevice for sensing and/or affecting a parameter of the patient'"'"'s body;
  
  a tuning element electrically connected to said radiating element, wherein said tuning element and said radiating element combine to form a resonant circuit; and
  
  wherein said loop antenna is electrically connected to communications circuitry housed within the microdevice to create a telemetry system for the microdevice suitable for operation in the range of 402 MHz to 405 MHz.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The loop antenna of claim 1 wherein said tuning element is electrically connected across said two spaced apart cylindrical sleeves.
  - 3. The loop antenna of claim 1 wherein said radiating element comprises two spaced apart semi-cylindrical sleeves on the case of the microdevice and wherein said sleeves additionally function as one of the electrodes of the microdevice for sensing and/or affecting a parameter of the patient'"'"'s body.
  - 4. The loop antenna of claim 3 wherein said tuning element is electrically connected across said two spaced apart semi-cylindrical sleeves.
  - 5. The loop antenna of claim 1 wherein said telemetry system receives a control signal from an external device.
  - 6. The loop antenna of claim 1 wherein said telemetry system transmits a signal to an external device.
  - 7. The loop antenna of claim 1 wherein said tuning element and said radiating element are electrically connected in a parallel circuit.
  - 8. The loop antenna of claim 1 wherein said tuning element and said radiating element are electrically connected in a serial circuit.
  - 9. The loop antenna of claim 1 wherein said tuning element comprises at least one capacitor.
  - 10. The loop antenna of claim 1 wherein said tuning element comprises at least one varactor.
  - 11. The loop antenna of claim 1 wherein said tuning element comprises at least one capacitor and at least one varactor.
  - 12. The loop antenna of claim 1 wherein the microdevice is a microstimulator and the electrodes are used for stimulating tissue in the patient'"'"'s body.
  - 13. The loop antenna of claim 1 wherein the microdevice is a microsensor and the electrodes are used for sensing a parameter of the patient'"'"'s body.

14. A telemetry system for transmitting signals from an implantable microdevice configured for sensing and/or affecting a parameter of a patient'"'"'s body via two or more external electrodes and having a case sized and cylindrically shaped for implantation via injection into the patient'"'"'s body, wherein said implantable microdevice is configured via circuitry within the housing for RF communication with one or more devices external to the microdevice, said telemetry system comprising:
- a transmit driver including a transmit driver output;
  
  a matching network with a first connection and a second connection, wherein said first connection of said matching network is connected to said transmit driver output;
  
  a tuning element; and
  
  a radiating element formed on the case of the microdevice, wherein said radiating element electrically behaves as a loop antenna, and wherein said tuning element and said radiating element are connected in a parallel circuit, wherein said parallel circuit has a first connection and a second connection, and wherein said second connection of said matching network is connected to said first connection of said parallel circuit, and wherein said second connection of said parallel circuit is connected to ground.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. The telemetry system of claim 14 wherein the microdevice is a microstimulator configurable for stimulating tissue in the patient'"'"'s body.
  - 16. The telemetry system of claim 14 wherein said tuning element comprises at least one capacitor.
  - 17. The telemetry system of claim 14 wherein the operating frequency of said telemetry system is in the range of 402 to 405 MHz.
  - 18. The telemetry system of claim 14 wherein said telemetry system additionally includes the capability of receiving signals, and wherein said telemetry system further comprises:
19. The telemetry system of claim 18 wherein said tuning element comprises at least one varactor.

20. A telemetry system for receiving signals for an implantable microdevice configured for sensing and/or affecting a parameter of a patient'"'"'s body via two or more external electrodes and having a case sized and cylindrically shaped for implantation via injection into the patient'"'"'s body, wherein said implantable microdevice is configured via circuitry within the housing for RF communication with one or more devices external to the microdevice, said telemetry system comprising:
- a receiver with an input;
  
  a receiver amplifier with an input and an output, wherein said output of said receiver amplifier is connected to said input of said receiver;
  
  a matching network with a first connection and a second connection, wherein said first connection of said matching network is connected to said input of said receiver amplifier;
  
  a tuning element;
  
  a radiating element formed on the case of the microdevice, wherein said radiating element electrically behaves as a loop antenna; and
  
  wherein said tuning element and said radiating element are connected in a parallel circuit, wherein said parallel circuit has a first connection and a second connection, and wherein said second connection of said matching network is connected to said first connection of said parallel circuit, and wherein said second connection of said parallel circuit is connected to ground.
- View Dependent Claims (21, 22, 23, 24, 25, 26)
- - 21. The telemetry system of claim 20 wherein the microdevice is a microstimulator configurable for stimulating tissue in the patient'"'"'s body.
  - 22. The telemetry system of claim 20 wherein said tuning element comprises at least one capacitor.
  - 23. The telemetry system of claim 20 wherein said tuning element comprises at least one varactor.
  - 24. The telemetry system of claim 20 wherein said tuning element comprises at least one capacitor and at least one varactor.
  - 25. The telemetry system of claim 20 wherein the operating frequency of said telemetry system is in the range of 402 to 405 MHz.
  - 26. The telemetry system of claim 20 wherein said telemetry system includes the capability of transmitting signals, and wherein said telemetry system further comprises:

27. A telemetry system for transmitting signals from an implantable microdevice configured for sensing and/or affecting a parameter of a patient'"'"'s body via two or more external electrodes and having a case sized and cylindrically shaped for implantation via injection into the patient'"'"'s body, wherein said implantable microdevice is configured via circuitry within the housing for RF communication with one or more devices external to the microdevice, said telemetry system comprising:
- a transmit driver with an output;
  
  a tuning element with a first connection and a second connection, wherein said first connection of said tuning element is connected to said output of said transmit driver;
  
  a radiating element with a first connection and a second connection, wherein said radiating element is formed on the case of the microdevice, and wherein said radiating element electrically behaves as a loop antenna, wherein said first connection of said radiating element is connected to said second connection of said tuning element, and wherein said second connection of said radiating element is connected to ground;
  
  a matching network with an input and an output;
  
  a receiver amplifier with an input and an output, wherein said output of said matching network is connected to said input of said receiver amplifier;
  
  a receiver with an input, wherein said output of said receiver amplifier in connected to said input of said receiver;
  
  a transmit/receive switch including a first switched connection, a second switched connection, and a fixed connection;
  
  wherein said transmit/receive switch is switchably connected between said transmit driver and said tuning element, wherein said output of said transmit driver is connected to said first switched connection, and wherein said fixed connection is connected to said first connection of said tuning element; and
  
  wherein said input of said matching network is connected to said second switched connection of said transmit/receive switch.
- View Dependent Claims (28, 29, 30, 31)
- - 28. The telemetry system of claim 27 wherein said tuning element comprises at least one varactor.
  - 29. The telemetry system of claim 27 wherein the microdevice is a microstimulator configurable for stimulating tissue in the patient'"'"'s body.
  - 30. The telemetry system of claim 27 wherein said tuning element comprises at least one capacitor.
  - 31. The telemetry system of claim 27 wherein the operating frequency of said telemetry system is in the range of 402 to 405 MHz.

32. A telemetry system for receiving signals for an implantable microdevice configured for sensing and/or affecting a parameter of a patient'"'"'s body via two or more external electrodes and having a case sized and cylindrically shaped for implantation via injection into the patient'"'"'s body, wherein said implantable microdevice is configured via circuitry within the housing for RF communication with one or more devices external to the microdevice, said telemetry system comprising:
- a matching network with an input and an output;
  
  a receiver amplifier with an input and an output, wherein said receiver amplifier input is connected to said output of said matching network;
  
  a receiver with an input, wherein said output of said receiver amplifier is connected to said input of said receiver;
  
  a tuning element with a first connection and a second connection, wherein said first connection of said tuning element is connected to said input of said matching network;
  
  a radiating element with a first connection and a second connection, wherein said radiating element is formed on the case of the microdevice, and wherein said radiating element electrically behaves as a loop antenna; and
  
  wherein said first connection of said radiating element is connected to said second connection of said tuning element, and wherein said second connection of said radiating element is connected to ground.
- View Dependent Claims (33, 34, 35, 36, 37, 38)
- - 33. The telemetry system of claim 32 wherein the microdevice is a microstimulator configurable for stimulating tissue in the patient'"'"'s body.
  - 34. The telemetry system of claim 32 wherein said tuning element comprises at least one capacitor.
  - 35. The telemetry system of claim 32 wherein said tuning element comprises at least one varactor.
  - 36. The telemetry system of claim 32 wherein said tuning element comprises at least one capacitor and at least one varactor.
  - 37. The telemetry system of claim 32 wherein the operating frequency of said telemetry system is in the range of 402 to 405 MHz.
  - 38. The telemetry system of claim 32 wherein said telemetry system includes the capability of transmitting signals, and wherein said telemetry system further comprises:

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Current Assignee
Alfred E. Mann Foundation For Scientific Research
Original Assignee
Alfred E. Mann Foundation For Scientific Research
Inventors
Stover, Howard H.
Primary Examiner(s)
Schaetzle, Kennedy
Assistant Examiner(s)
DROESCH, KRISTEN L

Application Number

US09/967,737
Publication Number

US 20020042637A1
Time in Patent Office

1,110 Days
Field of Search

607/30, 607/32, 607/36, 607/55-57, 607/59-60, 128/903, 600/302
US Class Current

607/60
CPC Class Codes

A61N 1/05   for implantation or inserti...

A61N 1/08   Arrangements or circuits fo...

A61N 1/37205   Microstimulators, e.g. impl...

A61N 1/37229   Shape or location of the im...

Antenna for miniature implanted medical device

First Claim

1 Assignment

0 Petitions

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Abstract

157 Citations

38 Claims

Specification

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Antenna for miniature implanted medical device

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

157 Citations

38 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others