Variable inductor
First Claim
1. A variable inductor comprising;
- a core formed of a saturable magnetic material, said core having three legs, including a center leg and two outer legs;
a control winding on the center leg and windings on each of the outer legs connected in parallel and in such a way that the magnetic flux arising from currents through the windings on the outer legs is cancelled in the center leg;
wherein a current through the control winding causes a changed inductance across the windings on the outer legs by changing the saturation level of the outer legs, wherein the inductance of the control winding is substantially constant with a change in current in the control winding;
the magnetic cross-section of the center leg, relative to the magnetic cross-sections of the outer legs, being such that the outer legs and the center leg have substantially equal saturation levels.
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Accused Products
Abstract
A variable inductor with a saturable core having three legs, including a center leg and two outer legs. A control winding is wound on the center leg and two outer windings are connected in parallel and wound on the outer legs. The inductances of the windings on the outer legs vary with the current through the control winding. The current through the control winding varies the saturation level of the outer legs. In one embodiment, the inductance of the control winding is substantially constant with a change in current in the control winding. In another embodiment, the outer legs are saturated and the center leg is not saturated. Portions of the core connecting the three legs are tapered down from the cross-section of the center leg to the cross-sections of the outer legs. The invention further includes methods of varying the inductance of an inductive circuit element in accordance with a control current.
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Citations
14 Claims
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1. A variable inductor comprising;
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a core formed of a saturable magnetic material, said core having three legs, including a center leg and two outer legs;
a control winding on the center leg and windings on each of the outer legs connected in parallel and in such a way that the magnetic flux arising from currents through the windings on the outer legs is cancelled in the center leg;
wherein a current through the control winding causes a changed inductance across the windings on the outer legs by changing the saturation level of the outer legs, wherein the inductance of the control winding is substantially constant with a change in current in the control winding;
the magnetic cross-section of the center leg, relative to the magnetic cross-sections of the outer legs, being such that the outer legs and the center leg have substantially equal saturation levels. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A variable inductor comprising;
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a core formed of a saturable magnetic material, said core having three legs, including a center leg and two outer legs;
a control winding on the center leg and windings on each of the outer legs connected in parallel and in such a way that the magnetic flux arising from currents through the windings on the outer legs is cancelled in the center leg;
wherein a current through the control winding causes a changed inductance across the windings on the outer legs;
the magnetic cross-section of the center leg, relative to the magnetic cross-sections of the outer legs, being such that the outer legs are saturated, and the center leg is not saturated and portions of the core connecting the three legs are tapered down from the cross-section of the center leg to the cross-sections of the outer legs. - View Dependent Claims (9, 10, 11)
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12. A method of varying the inductance of an inductive circuit element in accordance with a control current comprising:
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a) obtaining a three leg core of saturable magnetic material, a magnetic cross-section of a center leg of said core, relative to magnetic cross-sections of two outer legs of said core set so that the outer legs and the center leg will have substantially equal saturation levels during step d) below;
b) winding parallel windings on said outer legs of said core in such a way that the magnetic flux arising from current through said parallel windings is cancelled in said center leg of said core;
c) winding a control winding on the center leg of said core; and
d) varying the control current on the control winding to change the saturation level of the outer legs of said core to vary the inductance of each of said parallel windings;
the inductance of the control winding on the center legof the core remaining substantially constant with changes in the current on the control winding.
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13. A method of varying the inductance of an inductive circuit element in accordance with a control current comprising:
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a) obtaining a three leg core of saturable magnetic material, a magnetic cross-section of a center leg of said core, relative to magnetic cross-sections of two outer legs of said core set so that the outer legs are saturated, the center leg is not saturated and portions of the core connecting the three legs are tapered down from the cross-section of the center leg to the cross-sections of the outer legs;
b) winding parallel windings on the outer legs of said three leg core in such a way that the magnetic flux arising from current through said parallel windings is cancelled in the center leg of the core;
c) winding a control winding on the center leg of said core;
d) varying the control current on the control winding to saturate the outer legs of said core to vary the inductance of each of said parallel windings; and
e) performing the step of varying the control current to saturate the outer legs of said core while not saturating the center leg.
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14. A variable inductor comprising;
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a core formed of a saturable magnetic material, said core having three legs, including a center leg and two outer legs, and having homogeneous saturation of said magnetic material;
a control winding on the center leg and windings on each of the outer legs connected in parallel and in such a way that the magnetic flux arising from currents through the windings on the outer legs is cancelled in the center leg;
wherein a current through the control winding causes a changed inductance across the windings on the outer legs by changing the saturation level of the outer legs, wherein the inductance of the control winding is substantially constant with a change in current in the control winding;
the magnetic cross-section of the center leg, relative to the magnetic cross-sections of the outer legs, being such that the outer legs and the center leg have substantially equal saturation levels.
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Specification