AC/DC current detecting method
First Claim
1. An AC/DC current detecting method utilizing a single annular iron core made of a high permeability material having a symmetrical rectangular-type hysteresis curve of magnetization and a smaller coercive force than a soft magnetic core, a single coil wound on the annular iron core, excited by an excitation circuit produced by a high frequency electric source, an excitation circuit connected between the excitation coil and the high frequency electric source, a detection resistor connected to the excitation circuit, and a conductor passing through a center hole of the annular iron core, the method comprising the steps of:
- subjecting the single annular iron core having the single excitation coil to an excitation in a positive region and in a negative region, driving the magnetization of the annular iron core into saturation evenly in both regions where the magnetic flux density is substantially constant;
moving a range of the magnetization of the hysteresis curve to cause a change in a value of the excitation current corresponding to the coercive force value of the excitation in response to an impression of a magnetic field induced by a detected current flowing in the conductor;
obtaining the change in the value of the high frequency excitation current as one of a voltage change across the detection resistor and a voltage change across the single excitation coil; and
calculating the detected current by a difference between absolute values of the voltage changes obtained in the obtaining step.
0 Assignments
0 Petitions
Accused Products
Abstract
An AC/DC current detection method that can detect small and large changes in current, by employing a high-frequency excitation current applied to a coil wrapped around an annular iron core. The change in this value is determined for operation in the region of the coercive force of the iron core or as the change in an extreme value thereof.
64 Citations
6 Claims
-
1. An AC/DC current detecting method utilizing a single annular iron core made of a high permeability material having a symmetrical rectangular-type hysteresis curve of magnetization and a smaller coercive force than a soft magnetic core, a single coil wound on the annular iron core, excited by an excitation circuit produced by a high frequency electric source, an excitation circuit connected between the excitation coil and the high frequency electric source, a detection resistor connected to the excitation circuit, and a conductor passing through a center hole of the annular iron core, the method comprising the steps of:
-
subjecting the single annular iron core having the single excitation coil to an excitation in a positive region and in a negative region, driving the magnetization of the annular iron core into saturation evenly in both regions where the magnetic flux density is substantially constant; moving a range of the magnetization of the hysteresis curve to cause a change in a value of the excitation current corresponding to the coercive force value of the excitation in response to an impression of a magnetic field induced by a detected current flowing in the conductor; obtaining the change in the value of the high frequency excitation current as one of a voltage change across the detection resistor and a voltage change across the single excitation coil; and calculating the detected current by a difference between absolute values of the voltage changes obtained in the obtaining step. - View Dependent Claims (2, 5)
-
-
3. An AC/DC current detecting method utilizing a single annular iron core made of a high permeability material having a symmetrical rectangular-type hysteresis curve of magnetization and a smaller coercive force than a soft magnetic core, a single coil wound on the annular iron core, excited by an excitation current produced by a high frequency electric source, an excitation circuit connected between the excitation coil and the high frequency electric source, a detection resistor connected to the excitation circuit, and a conductor passing through a center hole of the annular iron core, the method comprising the steps of:
-
subjecting the single annular iron core having the single excitation coil to an excitation in a positive region and in a negative region, driving the magnetization of the annular iron core into saturation evenly in both regions where the magnetic flux density is substantially constant; moving a range of the magnetization of the hysteresis curve to cause a change in an extreme value of the excitation current in response to an impression of a magnetic field induced by a detected current flowing in the conductor; obtaining the change in the value of the high frequency excitation current as one of a voltage change across the detection resistor and a voltage change across the single excitation coil; and calculating the detected current by a difference between absolute values of the voltage changes obtained in the obtaining step. - View Dependent Claims (4, 6)
-
Specification