External power source, system and method for predicting heat loss of implantable medical device during inductive recharging by external primary coil

US 8,509,912 B2
Filed: 04/30/2008
Issued: 08/13/2013
Est. Priority Date: 04/30/2008
Status: Active Grant

First Claim

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1. An external power source for an implantable medical device having a secondary coil operatively coupled to a rechargeable power source, said implantable medical device being implanted in a patient having tissue, comprising:

a primary coil inductively coupling energy to said secondary coil when energized and placed in proximity of said secondary coil;

electronic circuitry driving said primary coil; and

control circuitry, operatively coupled to said primary coil, configured to determine energy absorbed in said tissue based on a total applied power by said external power source, power lost in said electronic circuitry, power lost in said primary coil and power applied to said rechargeable power source and control said total applied power based upon said energy absorbed in said tissue.

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Abstract

External power source, system for controlling and method for predicting heat loss of implantable medical device during inductive recharging by an external primary coil. A primary coil inductively couples energy to a secondary coil when energized and placed in proximity of the secondary coil. Control circuitry, operatively coupled to said primary coil, determines the energy absorbed in said tissue based on a total applied power by said external power source, power lost in said electronic circuitry, power lost in said electronic circuitry, power lost in said primary coil and power applied to said rechargeable power source and controlling said total applied power based upon said energy absorbed in said tissue.

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1. An external power source for an implantable medical device having a secondary coil operatively coupled to a rechargeable power source, said implantable medical device being implanted in a patient having tissue, comprising:
- a primary coil inductively coupling energy to said secondary coil when energized and placed in proximity of said secondary coil;
  
  electronic circuitry driving said primary coil; and
  
  control circuitry, operatively coupled to said primary coil, configured to determine energy absorbed in said tissue based on a total applied power by said external power source, power lost in said electronic circuitry, power lost in said primary coil and power applied to said rechargeable power source and control said total applied power based upon said energy absorbed in said tissue.

2. An external power source for inductively charging of an implantable medical device in a patient, said implantable medical device having a rechargeable power source having a voltage and a secondary coil operatively coupled to said rechargeable power source, comprising:
- a primary coil;
  
  electronic circuitry driving said primary coil; and
  
  control circuitry, operatively coupled to said electronic circuitry, configured to control energy absorbed in said patient during inductive charging of said rechargeable power source by;
  
  determining a total applied power by said external power source by measuring current applied by said external power source during said charging and an applied voltage of said external power source;
  
  determining power lost in said electronic circuitry;
  
  determining power lost in said primary coil by determining current in said primary coil during said recharging in view of a resistance of said primary coil;
  
  determining power applied to said rechargeable power source by measuring said voltage of said rechargeable power and current applied to said rechargeable power source during said inductive charging;
  
  calculating said energy absorbed in said body by subtracting said power lost in said electronic circuitry, said power lost in said primary coil and said power applied to said rechargeable power source from said total applied power; and
  
  adjusting said total applied power by said external power source as a function of said energy absorbed in said patient.
- View Dependent Claims (3, 4, 5, 6)
- - 3. The external power source as in claim 2:
    - wherein said power lost in said primary coil is calculated by multiplying a square of said current in said primary coil during said charging by said resistance of said primary coil;
      
      wherein said external power source supplies power, having a current and a voltage, to said electronic circuitry, wherein said total applied power is calculated by multiplying said current supplied by said external power source during said charging by said voltage supplied by said external power source; and
      
      wherein said power applied to said rechargeable power source is calculated by multiplying said current applied to said rechargeable power source during said charging by said voltage of said rechargeable power source.
  - 4. The external power source as in claim 3 wherein said voltage supplied by said external power source comprises an RMS voltage, wherein said RMS voltage supplied by said external power source and said current supplied by said external power source have a phase difference and wherein said total applied power is calculated by multiplying said current supplied by said external power source during said charging by said RMS voltage supplied by said external power source and further multiplying by a power factor representative of said phase difference.
  - 5. The external power source as in claim 3 wherein said power lost in said electronic circuitry is determined empirically.
  - 6. The external power source as in claim 5 wherein said power lost in said electronic circuitry is approximately fifteen percent (15%) of said total applied power.

7. A system for controlling energy absorbed in a patient during inductive charging, comprising;
- an implantable medical device, comprising;
  
  therapeutic componentry delivering a therapeutic output to said patient;
  
  a rechargeable power source operatively coupled to said therapeutic componentry; and
  
  a secondary coil operatively coupled to said rechargeable power source; and
  
  an external power source, comprising;
  
  a primary coil;
  
  electronic circuitry driving said primary coil; and
  
  control circuitry, operatively coupled to said electronic circuitry, configured to control energy absorbed in said patient during inductive charging of said rechargeable power source by;
  
  determining a total applied power by said external power source by measuring current applied by said external power source during said charging and an applied voltage of said external power source;
  
  determining power lost in said electronic circuitry;
  
  determining power lost in said primary coil by determining current in said primary coil during said recharging in view of a resistance of said primary coil;
  
  determining power applied to said rechargeable power source by measuring said voltage of said rechargeable power source and current applied to said rechargeable power source during said inductive charging;
  
  calculating said energy absorbed in said body by subtracting said power lost in said electronic circuitry, said power lost in said primary coil and said power applied to said rechargeable power source from said total applied power; and
  
  adjusting said total applied power by said external power source as a function of said energy absorbed in said patient.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The system as in claim 7:
    - wherein said power lost in primary coil is calculated by multiplying a square of said current in said primary coil during said charging by said resistance of said primary coil;
      
      wherein said external power source supplies power, having a current and a voltage, to said electronic circuitry, wherein said total applied power is calculated by multiplying said current supplied by said external power source during said charging by said voltage supplied by said external power source; and
      
      wherein said power applied to said rechargeable power source is calculated by multiplying said current applied to said rechargeable power source during said charging by said voltage of said rechargeable power source.
  - 9. The system as in claim 8 wherein said voltage supplied by said external power source comprises an RMS voltage, wherein said RMS voltage supplied by said external power source and said current supplied by said external power source have a phase difference and wherein said total applied power is calculated by multiplying said current supplied by said external power source during said charging by said RMS voltage supplied by said external power source and further multiplying by a power factor representative of said phase difference.
  - 10. The system as in claim 7 wherein said power lost in said electronic circuitry is determined empirically.
  - 11. The system as in claim 7 wherein said power lost in said electronic circuitry is approximately fifteen percent (15%) of said total applied power.

12. A device implemented method of determining energy absorbed in a body during inductive charging of an implantable medical device having a rechargeable power source having a voltage and a secondary coil operatively coupled to said rechargeable power source by an external power source having electronic circuitry driving a primary coil, comprising the steps of:
- determining a total applied power by said external power source by measuring current applied by said external power source during said charging and an applied voltage of said external power source;
  
  determining power lost in said electronic circuitry;
  
  determining power lost in said primary coil by determining current in said primary coil during said recharging in view of a resistance of said primary coil;
  
  determining power applied to said rechargeable power source by measuring said voltage of said rechargeable power source and current applied to said rechargeable power source during said inductive charging; and
  
  calculating, via circuitry, said energy absorbed in said body by subtracting said power lost in said electronic circuitry, said power lost in said primary coil and said power applied to said rechargeable power source from said total applied power.
- View Dependent Claims (13, 14, 15, 16)
- - 13. The method as in claim 12:
    - wherein said determining power lost in said primary coil step comprises calculating said power lost in primary coil by multiplying a square of said current in said primary coil during said charging by said resistance of said primary coil;
      
      wherein said external power source supplies power, having a current and a voltage, to said electronic circuitry, wherein said total applied power is calculated by multiplying said current supplied by said external power source during said charging by said voltage supplied by said external power source; and
      
      wherein said determining said power applied to said rechargeable power source comprises calculating said power applied to said rechargeable power source by multiplying said current applied to said rechargeable power source during said charging by said voltage of said rechargeable power source.
  - 14. The method as in claim 13 wherein said voltage supplied by said external power source comprises an RMS voltage, wherein said RMS voltage supplied by said external power source and said current supplied by said external power source have a phase difference and wherein said determining said total applied power comprises calculating said total applied power by multiplying said current supplied by said external power source during said charging by said RMS voltage supplied by said external power source and further multiplying by a power factor representative of said phase difference.
  - 15. The method as in claim 12 wherein said power lost in said electronic circuitry is determined empirically.
  - 16. The method as in claim 12 wherein said power lost in said electronic circuitry is approximately fifteen percent (15%) of said total applied power.

17. A method for adjusting an amount of energy dissipated in a patient during inductive charging of an implantable medical device having a rechargeable power source having a voltage and a secondary coil operatively coupled to said rechargeable power source by an external power source having electronic circuitry driving a primary coil, comprising the steps of:
- determining a total applied power by said external power source by measuring current applied by said external power source during said charging and an applied voltage of said external power source;
  
  determining power lost in said electronic circuitry;
  
  determining power lost in said primary coil by determining current in said primary coil during said recharging in view of a resistance of said primary coil;
  
  determining power applied to said rechargeable power source by measuring said voltage of said rechargeable power and current applied to said rechargeable power source during said inductive charging;
  
  calculating said energy absorbed in said patient by subtracting said power lost in said electronic circuitry, said power lost in said primary coil and said power applied to said rechargeable power source from said total applied power; and
  
  adjusting said total applied power by said external power source as a function of said energy absorbed in said patient.
- View Dependent Claims (18, 19, 20, 21)
- - 18. The method as in claim 17:
    - wherein said power lost in said primary coil is calculated by multiplying a square of said current in said primary coil during said charging by said resistance of said primary coil;
      
      wherein said external power source supplies power, having a current and a voltage, to said electronic circuitry, wherein said total applied power is calculated by multiplying said current supplied by said external power source during said charging by said voltage supplied by said external power source; and
      
      wherein said power applied to said rechargeable power source is calculated by multiplying said current applied to said rechargeable power source during said charging by said voltage of said rechargeable power source.
  - 19. The method as in claim 18 wherein said voltage supplied by said external power source comprises an RMS voltage, wherein said RMS voltage supplied by said external power source and said current supplied by said external power source have a phase difference and wherein said determining said total applied power comprises calculating said total applied power by multiplying said current supplied by said external power source during said charging by said RMS voltage supplied by said external power source and further multiplying by a power factor representative of said phase difference.
  - 20. The method as in claim 17 wherein said power lost in said electronic circuitry is determined empirically.
  - 21. The method as in claim 17 wherein said power lost in said electronic circuitry is approximately fifteen percent (15%) of said total applied power.

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Current Assignee
Medtronic Incorporated (Medtronic Plc)
Original Assignee
Medtronic Incorporated (Medtronic Plc)
Inventors
Morgan, Boysie R., Olson, David P., Schmeling, Andrew L.
Primary Examiner(s)
Layno, Carl H
Assistant Examiner(s)
Ghand, Jennifer

Application Number

US12/112,394
Publication Number

US 20090276014A1
Time in Patent Office

1,931 Days
Field of Search

607/33, 607/60, 607/61
US Class Current

607/61
CPC Class Codes

A61N 1/3787 from an external energy source

External power source, system and method for predicting heat loss of implantable medical device during inductive recharging by external primary coil

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

34 Citations

21 Claims

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External power source, system and method for predicting heat loss of implantable medical device during inductive recharging by external primary coil

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

34 Citations

21 Claims

Specification

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Solutions

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