System and method for automatic tuning of a magnetic field generator

US 7,515,012 B2
Filed: 02/22/2006
Issued: 04/07/2009
Est. Priority Date: 06/20/2002
Status: Active Grant

First Claim

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1. A tuning system for a magnetic field generator comprising:

a tuned circuit comprising a magnetic field generating inductor, a fixed capacitor and an adjustable capacitor, the inductance value of the inductor and the capacitance value of the capacitors establishing the resonant frequency of the tuned circuit;

a tuned circuit drive circuit having an output coupled to and adapted to drive the tuned circuit and deliver power thereto;

a reference frequency oscillator circuit providing a reference frequency signal, said oscillator circuit coupled to the tuned circuit drive circuit so as to cause said drive circuit to drive the tuned circuit at the reference frequency; and

a sense circuit coupled to the reference frequency oscillator circuit and adapted to sense a first parameter related to the reference frequency signal, the sense circuit in electrical communication with the inductor and adapted to sense a second parameter related to the inductor and provide an error signal as a function of the first and second parameters, wherein the power delivered by the tuned circuit drive circuit to the tuned circuit is a function of the resonant frequency of the tuned circuit, and wherein the sense circuit monitors the error signal and causes the adjustable capacitor to be adjusted to a capacitance value that optimizes the error signal to thereby optimize the power delivered by the tuned circuit drive circuit, wherein the reference frequency signal is a voltage signal and the first parameter is the phase angle of such voltage signal and wherein the second parameter is the phase angle of the voltage across the inductor, wherein the sense circuit provides the error signal being the difference of the phase angle between the first and second parameters, each of the phase angles being measured relative to a pre-selected reference.

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Abstract

An automatic tuning system for a magnetic field generating tuned circuit includes a processor configured to maintain the resonant frequency of a tuned circuit equal to a reference frequency. The tuned circuit is driven by a power amplifier whose output provides an amplified signal at the reference frequency. The tuned circuit includes a magnetic field generating inductor and a bank of individually switchable capacitors controlled by the processor capable of adding and removing the respective capacitances to and from the tuned circuit. The inductor includes a Faraday shield to shield the tuned circuit from the influence of electric fields. In an embodiment of the invention, the variable capacitor is in the form of a diode variable capacitor (varicap) in parallel circuit relationship with the tuned circuit capacitor and the inductor. In an alternate embodiment the inductor and a fixed capacitor are in series circuit relationship with the varicap in parallel circuit relationship with the fixed capacitor and the tuning sequence relies on a phase locked loop using the phase of a reference frequency signal and the phase of the inductor voltage as control parameters.

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15 Claims

1. A tuning system for a magnetic field generator comprising:
- a tuned circuit comprising a magnetic field generating inductor, a fixed capacitor and an adjustable capacitor, the inductance value of the inductor and the capacitance value of the capacitors establishing the resonant frequency of the tuned circuit;
  
  a tuned circuit drive circuit having an output coupled to and adapted to drive the tuned circuit and deliver power thereto;
  
  a reference frequency oscillator circuit providing a reference frequency signal, said oscillator circuit coupled to the tuned circuit drive circuit so as to cause said drive circuit to drive the tuned circuit at the reference frequency; and
  
  a sense circuit coupled to the reference frequency oscillator circuit and adapted to sense a first parameter related to the reference frequency signal, the sense circuit in electrical communication with the inductor and adapted to sense a second parameter related to the inductor and provide an error signal as a function of the first and second parameters, wherein the power delivered by the tuned circuit drive circuit to the tuned circuit is a function of the resonant frequency of the tuned circuit, and wherein the sense circuit monitors the error signal and causes the adjustable capacitor to be adjusted to a capacitance value that optimizes the error signal to thereby optimize the power delivered by the tuned circuit drive circuit, wherein the reference frequency signal is a voltage signal and the first parameter is the phase angle of such voltage signal and wherein the second parameter is the phase angle of the voltage across the inductor, wherein the sense circuit provides the error signal being the difference of the phase angle between the first and second parameters, each of the phase angles being measured relative to a pre-selected reference.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The tuning system of claim 1 wherein the sense circuit causes the adjustable capacitor to be adjusted so as to obtain a minimum value of the error signal, such minimum value being defined as the optimal value thereof.
  - 3. The tuning system of claim 2 wherein the adjustable capacitor is a diode variable capacitor (varicap) arranged in parallel circuit relationship with the fixed capacitor, the capacitance value of said varicap being a function of the voltage across the varicap, the tuning system further comprising a varicap drive circuit coupled to said sense circuit and adapted to vary the voltage across the varicap, and thereby the capacitance thereof, as a function of the error signal, whereby the capacitance of the tuned circuit is thereby adjusted to cause the resonant frequency of the tuned circuit to equal the reference frequency.
  - 4. The tuning system of claim 3 wherein the adjustable capacitor comprises a plurality of varicaps in parallel circuit arrangement.
  - 5. The tuning system of claim 2 wherein the inductor is in series circuit relationship with the fixed capacitor and wherein the adjustable capacitor is a diode variable capacitor (varicap) arranged in parallel circuit relationship with the fixed capacitor, the capacitance value of said varicap being a function of the voltage across the varicap, the tuning system further comprising a varicap drive circuit coupled to said sense circuit and adapted to vary the voltage across the varicap, and thereby the capacitance thereof, as a function of the error signal, whereby the capacitance of the tuned circuit is thereby adjusted to cause the resonant frequency of the tuned circuit to equal the reference frequency.
  - 6. The tuning system of claim 5 wherein the varicap drive circuit provides a direct current (DC) voltage across the varicap, said drive circuit further comprising an isolation capacitor disposed between the varicap and fixed capacitor to isolate the fixed capacitor from said DC voltage.
  - 7. The tuning system of claim 6 wherein the inductor comprises a plurality of turns of a single conductor embedded within a nontoxic material, the adjustable capacitor, the fixed capacitor, the isolation capacitor and the varicap drive circuit being mounted on the inductor.
  - 8. The tuning system of claim 7 further comprising at least two power sources adapted to provide power to the tuned circuit, wherein the drive circuit further comprises a modulation circuit adapted to transfer encoded information to the tuned circuit by alternately coupling the tuned circuit to selected ones of said at least two power sources.
  - 9. The tuning system of claim 8 wherein the power sources have different magnitudes, and wherein the encoded information is defined by a train of information frames, each information frame having a predetermined number of data bits, each data bit having one of said different magnitudes and a corresponding duration, the data bits arranged within the information frame in a prescribed manner.

10. An automatic tuning system for a magnetic field generator comprising:
- tuned circuit means comprising inductor means and capacitor means, the values of the inductor means and capacitor means establishing the resonant frequency of the tuned circuit means,tuned circuit drive means for delivering power to the tuned circuit means at a reference frequency; and
  
  means for adjusting the resonant frequency of the tuned circuit means for maximizing the power transferred from the power means to the tuned circuit means, whereby the power delivered by the power means is a function of the resonant frequency of the tuned circuit, wherein the adjusting means adjusts the value of the capacitor means for adjusting the resonant frequency of the tuned circuit means to equal the reference frequency;
  
  wherein the delivered power is maximized when the resonant frequency of the tuned circuit means equals the reference frequency, andmonitoring means for monitoring the phase angle of the reference frequency and the phase angle of the voltage appearing across the inductor means and providing an error signal being the difference of the phase angle of the reference frequency and the phase angle of the voltage appearing across the inductor means wherein the adjusting means adjusts the resonant frequency of the tuned circuit means for obtaining an optimal value of the error signal, each of the phase angles being measured relative to a pre-selected reference, wherein the optimal value of the error signal is a minimal value thereof.
- View Dependent Claims (11, 12, 13)
- - 11. The system of claim 10 wherein the capacitor means is in parallel circuit relationship with the inductor means, wherein the capacitor means comprises a fixed capacitor and varicap means, said varicap means arranged in parallel circuit relationship with the fixed capacitor, the capacitance value of said varicap means being a function of the voltage across the varicap means, the tuning system further comprising a varicap drive circuit means coupled to said monitoring means and adapted to vary the voltage across the varicap means and thereby the capacitance thereof as a function of the error signal, whereby the capacitance of the tuned circuit means is adjusted so as to maintain the resonant frequency of the tuned circuit means at the reference frequency to thereby maintain the error signal at the optimal value.
  - 12. The system of claim 10 wherein the capacitor means is in series circuit relationship with the inductor means, wherein the capacitor means comprises a fixed capacitor and varicap means, said varicap means arranged in parallel circuit relationship with the fixed capacitor, the capacitance value of said varicap means being a function of the voltage across the varicap means, the tuning system further comprising a varicap drive circuit means coupled to said monitoring means and adapted to vary the voltage across the varicap means and thereby the capacitance thereof as a function of the error signal, whereby the capacitance of the tuned circuit means is thereby adjusted to maintain the resonant frequency of the tuned circuit means at the reference frequency to thereby maintain the error signal at the optimal value.
  - 13. The system of claim 12 wherein the varicap means includes an isolation capacitor to isolate the capacitor means from the varicap drive circuit.

14. In a tuning system for a magnetic field generator comprising, a tuned circuit comprising at least a magnetic field generating inductor having an inductance value and a diode variable capacitor (varicap) having a capacitance value being a function of a direct current (DC) voltage applied across the varicap, the tuned circuit resonant frequency being a function of the inductance value and capacitance value, a reference frequency signal generator, a phase comparator circuit adapted to provide an error signal as a function of the difference between the phase of the voltage across the inductor and the phase of the reference frequency, a varicap drive circuit adapted to provide a DC voltage across the varicap as a function of the error signal, a method of tuning the tuned circuit to have a resonant frequency equal to the reference frequency comprising the steps of:
- (1) measuring the error signal provided by the phase comparator circuit;
  
  (2) adjusting the voltage across the varicap as a function of the error signal; and
  
  (3) maintaining the voltage across the varicap at the value that provides the minimum value of the error signal.

15. An automatic tuning system for a magnetic field generator comprising:
- tuned circuit means comprising inductor means and capacitor means, the values of the inductor means and capacitor means establishing the resonant frequency of the tuned circuit means,tuned circuit drive means for delivering power to the tuned circuit means at a reference frequency;
  
  sense means for sensing a first phase angle relating to a signal associated with the inductor means and for sensing a second phase angle relating to a signal associated with the reference frequency, said sense means providing an error signal being the difference between the first and second phase angles; and
  
  microcontroller means for adaptively adjusting, as a function of the error signal, the resonant frequency of the tuned circuit means for maintaining maximum power transfer from the tuned circuit drive means to the tuned circuit means, whereby the power delivered by the tuned circuit drive means is a function of the resonant frequency of the tuned circuit, wherein the delivered power is maximized when the resonant frequency of the tuned circuit means equals the reference frequency.

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Current Assignee
Alfred E. Mann Foundation For Scientific Research
Original Assignee
Alfred E. Mann Foundation For Scientific Research
Inventors
Hancock, Donald J., Lewis, Dale A., Schulman, Joseph H., Vogel, Martin J., Vogel, legal representative
Primary Examiner(s)
Summons; Barbara

Application Number

US11/360,307
Publication Number

US 20060192628A1
Time in Patent Office

1,140 Days
Field of Search

333/17.1,174,180 607/2,60,61,65,155 336/10,87,150
US Class Current

333/17.1
CPC Class Codes

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

A61N 1/3787   from an external energy source

H03J 2200/10   Tuning of a resonator by me...

H03J 5/02   with variable tuning elemen...

H03L 5/02   of power

System and method for automatic tuning of a magnetic field generator

First Claim

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Abstract

77 Citations

15 Claims

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System and method for automatic tuning of a magnetic field generator

First Claim

0 Assignments

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0 Petitions

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Accused Products

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Abstract

77 Citations

15 Claims

Specification

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Solutions

Use Cases

Quick Links