Energy efficient controlled magnetic field generator circuit
First Claim
1. A magnetic waveform generator circuit, the circuit comprising:
- a first switch coupled to a first rectifier element at a first node;
a first dipole switch coupled to the first switch at a second node;
a first capacitor and a third capacitor coupled to the first dipole switch and to a fourth node, the first dipole switch coupled to the first capacitor in a first state and to the first capacitor and the third capacitor in series in a second state;
a second switch coupled to a second rectifier element at the first node;
a second dipole switch coupled to the second switch at a third node;
a second capacitor and a fourth capacitor coupled to the second dipole switch and to the first capacitor at the fourth node, the second dipole switch coupled to the second capacitor in a first state and to the second capacitor and the fourth capacitor in series in a second state;
an inductor coupled between the first and the fourth nodes;
wherein;
the first switch and the first rectifier element are configured to enable the inductor to generate, during a first time period and a second time period, a magnetic field having a waveform resembling a positive half-cycle of a triangular waveform,the second switch and the second rectifier element are configured to enable the inductor to generate, during a third time period and a fourth time period, a magnetic field having a waveform resembling a negative half-cycle of the triangular waveform,the first dipole switch is operable, in the second state, to couple the second node through the third capacitor to the first capacitor, andthe second dipole switch is operable, in the second state, to couple the third node through the fourth capacitor to the second capacitor to generate a high amplitude triangular magnetic field waveform.
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Abstract
A magnetic waveform generator circuit includes a first switch coupled to a first rectifier element at a first node, a first capacitor coupled, at a second node to the first switch, and to a fourth node, a second capacitor coupled, at a third node to the first rectifier element, and to the fourth node, and an inductor coupled between the first and the fourth nodes. The first switch is operable to be in an ON state during a first time period and in an off state during a second time period. The first switch and the first rectifier element are configured to enable the inductor to generate, during the first and the second time periods, a magnetic field having a waveform resembling a positive half-cycle of a triangular waveform.
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Citations
15 Claims
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1. A magnetic waveform generator circuit, the circuit comprising:
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a first switch coupled to a first rectifier element at a first node; a first dipole switch coupled to the first switch at a second node; a first capacitor and a third capacitor coupled to the first dipole switch and to a fourth node, the first dipole switch coupled to the first capacitor in a first state and to the first capacitor and the third capacitor in series in a second state; a second switch coupled to a second rectifier element at the first node; a second dipole switch coupled to the second switch at a third node; a second capacitor and a fourth capacitor coupled to the second dipole switch and to the first capacitor at the fourth node, the second dipole switch coupled to the second capacitor in a first state and to the second capacitor and the fourth capacitor in series in a second state; an inductor coupled between the first and the fourth nodes; wherein; the first switch and the first rectifier element are configured to enable the inductor to generate, during a first time period and a second time period, a magnetic field having a waveform resembling a positive half-cycle of a triangular waveform, the second switch and the second rectifier element are configured to enable the inductor to generate, during a third time period and a fourth time period, a magnetic field having a waveform resembling a negative half-cycle of the triangular waveform, the first dipole switch is operable, in the second state, to couple the second node through the third capacitor to the first capacitor, and the second dipole switch is operable, in the second state, to couple the third node through the fourth capacitor to the second capacitor to generate a high amplitude triangular magnetic field waveform. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for providing a magnetic waveform generator, the method comprising:
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coupling, at a first node, a first switch to a first rectifier element; coupling a first dipole switch to the first switch at a second node; coupling a first capacitor and a third capacitor to the first dipole switch and to a fourth node, the first dipole switch coupled to the first capacitor in a first state and to the first capacitor and the third capacitor in series in a second state; coupling second switch to a second rectifier element at the first node; coupling second dipole switch to the second switch at a third node; coupling a second capacitor and a fourth capacitor to the second dipole switch and to the first capacitor at the fourth node, the second dipole switch coupled to the second capacitor in a first state and to the second capacitor and the fourth capacitor in series in a second state; coupling an inductor between the first and the fourth nodes, wherein; the first switch and the first rectifier element are configured to enable the inductor to generate, during a first time period and a second time period, a magnetic field having a waveform resembling a positive half-cycle of a triangular waveform, the second switch and the second rectifier element configured to enable the inductor to generate, during a third time period and a fourth time period, a magnetic field having a waveform resembling a negative half-cycle of the triangular waveform, the first dipole switch configured to be operable, in the second state, to couple the second node through the third capacitor to the first capacitor, and the second dipole switch configured to be operable, in the second state, to couple the third node through the fourth capacitor to the second capacitor to allow generation of a high amplitude triangular magnetic field waveform. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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Specification