| 摘要 |
A magnetic element control device of the present invention includes an excitation signal generation unit that generates an alternating signal, an excitation signal adjustment unit that generates an alternating voltage signal from the alternating signal, and generates an excitation signal which is applied to an exciting coil on the basis of the alternating voltage signal, a detection signal comparison unit that detects a detection signal of a positive voltage or a negative voltage which is generated by an induced electromotive force when a current direction of the excitation signal switches, and a feedback signal adjustment unit that generates a feedback signal for applying a magnetic field, cancelling a stationary magnetic field which is applied to a magnetic element from voltage information, to a feedback coil. |
| 主权项 |
1. A magnetic element control device that controls a flux-gate type magnetic element comprising an exciting coil, a detection coil, and a feedback coil when an intensity of a stationary magnetic field which is applied to the magnetic element is detected using a time-resolution magnetic balance system, the device comprising:
an excitation signal generation unit that generates an alternating signal; an excitation signal adjustment unit that generates an alternating voltage signal from the alternating signal, and generates an excitation signal which is applied to the exciting coil on the basis of the alternating voltage signal; a detection signal comparison unit that detects a detection signal of a positive voltage or a negative voltage which is generated by an induced electromotive force when a current direction of the excitation signal switches; a feedback signal generation unit that converts a time width between detection signals of the positive voltage and the negative voltage into voltage information; a feedback signal adjustment unit that generates a feedback signal that applies a magnetic field, cancelling out the stationary magnetic field which is applied to the magnetic element from the voltage information, to the feedback coil; a data signal conversion unit that outputs the feedback signal as a data signal indicating a magnetic field intensity; and an adjustment signal generation unit that outputs a direct current adjustment signal, adjusted in advance, which is superimposed with respect to at least one of the excitation signal or the feedback signal, wherein the excitation signal adjustment unit or the feedback signal adjustment unit generates the excitation signal or the feedback signal on the basis of the direct current adjustment signal to apply the generated signal to the exciting coil or the feedback coil, and generates the detection signal detected by the detection signal comparison unit so as to be deviated with respect to a non-linear region of the excitation signal, wherein the adjustment signal generation unit comprises a first resistor of which one end is connected to an input terminal capable of inputting an adjustment voltage, the excitation signal adjustment unit or the feedback signal adjustment unit comprises a second resistor of which one end is connected to the excitation signal generation unit and the feedback signal generation unit, and a difference amplifier in which the first resistor and the second resistor are connected to an inverting input terminal, and a non-inverting input terminal is connected to a reference voltage which is set in advance, the exciting coil or the feedback coil is connected between an output terminal and the inverting input terminal of the difference amplifier, and the difference amplifier is configured to cause a current to flow to the exciting coil or the feedback coil so that a voltage level of the inverting input terminal and a voltage level of the non-inverting input terminal are equal to each other. |
