Method of detecting magnetic field generated from current and estimating current amount

What is claimed is: 1. A current measurement method comprising steps of: providing, at part of a conductor to which a measurement target current flows in a first direction, a nonconductive area which the measurement target current does not flow that generates a component in the first direction in a magnetic field raised by the measurement target current by the nonconductive area changing a flowing direction of the measurement target current from the first direction to another direction; arranging a magnetic detection element near the nonconductive area such that a direction in which the magnetic detection element detects the magnetic field is in the first direction; causing the magnetic detection element to detect a magnetic field generated by the measurement target current whose flowing direction is changed by the nonconductive area, the magnetic field being a magnetic field component of a bypass current flowing outside the nonconductive area, which is directed in the first direction of the measurement target current; and estimating an amount of the measurement target current from an output of the magnetic detection element. 2. The current measurement method according to claim 1 , further comprising: arranging another magnetic detection element to be symmetric with respect to the magnetic detection element about an axis perpendicular to an axis in the first direction and passing through a center of the nonconductive area; and causing the another magnetic detection element to detect a magnetic field component of the bypass current in the first direction, wherein the magnetic detection element and the another magnetic detection element detect magnetic field components that have different polarities. 3. The current measurement method according to claim 1 , further comprising: arranging another magnetic detection element to be symmetric with respect to the magnetic detection element about an axis parallel to an axis in the first direction and passing through a center of the nonconductive area; and causing the another magnetic detection element to detect a magnetic field component of the bypass current in the first direction, wherein the magnetic detection element and the another magnetic detection element detect magnetic field components that have different polarities. 4. The current measurement method according to claim 1 , further comprising: arranging another magnetic detection element, to be symmetric with respect to the magnetic detection element about an axis perpendicular to the first direction and passing through a center of the nonconductive area; causing the another magnetic detection element to detect a magnetic field component of the bypass current in the first direction, wherein the magnetic detection element and the another magnetic detection element detect magnetic field components that have different polarities; arranging a third magnetic detection element and a fourth magnetic detection element to be symmetric about an axis parallel to the first direction and passing through the center of the nonconductive area; and causing the third magnetic detection element and the fourth magnetic detection element to detect magnetic field components of the bypass current in the first direction, wherein the third magnetic detection element and the fourth magnetic detection element detect magnetic field components that have different polarities. 5. The current measurement method according to claim 2 , further comprising: arranging a detection portion of the magnetic detection element within a range spaced apart from a center of the nonconductive area by 0.5 to 2.5 mm along an X-axis and a Y-axis, wherein the center of the nonconductive area is an origin, the first direction of the measurement target current is the Y-axis, and a direction perpendicular to the Y-axis is the X-axis. 6. The current measurement method according to claim 1 , further comprising: providing, as a direction change area, an outlet having a width smaller than a width of a main portion of the conductor on a front side of the conductor to which the measurement target current flows in the first direction, and an inlet having a width smaller than a width of the conductor on a rear side of the conductor. 7. The current measurement method according to claim 6 , further comprising: offsetting the magnetic detection element from a center of the conductor in the first direction and in a direction perpendicular to the first direction. 8. The current measurement method according to claim 7 , further comprising: arranging, on the conductor, at least two magnetic detection elements on both sides of a line that connects the outlet and the inlet. 9. The current measurement method according to claim 7 , further comprising: arranging, on the conductor, at least two magnetic detection elements on both sides of a line perpendicular to the first direction. 10. The current measurement method according to claim 7 , further comprising: arranging, on the conductor, at least two magnetic detection elements, with at least one of the two magnetic detection elements on each side a line perpendicular to the first direction and arranging, on the conductor, another at least two magnetic detection elements, with at least one of the other two magnetic detection elements on each side of a line parallel to the first direction. 11. The current measurement method according to claim 1 , wherein the step of arranging at least one magnetic detection element on the conductor includes a step of arranging one of a magnetic impedance element and an orthogonal fluxgate element as the magnetic detection element. 12. A current measurement device, comprising: a conductor to which a measurement target current flows in a first direction; a nonconductive area provided at part of said conductor which the measurement target current does not flow, wherein the nonconductive area is configured to generate a component in the first direction in a magnetic field raised by the measurement target current by changing a flowing direction of the measurement target current from the first direction to another direction; a magnetic detection element arranged on said conductor; and an estimation circuit that estimates an amount of the measurement target current from an output of said magnetic detection element that has detected a magnetic field generated by the measurement target current whose flowing direction is changed by said nonconductive area, wherein said magnetic detection element is arranged near the nonconductive area such that a direction in which said magnetic detection element detects the magnetic field is in the first direction, and wherein said magnetic detection element is configured to detect a magnetic field component of a bypass current flowing outside the nonconductive area, which is directed in the first direction of the measurement target current. 13. The current measurement device according to claim 12 , further comprising: another magnetic detection element arranged to be symmetric with respect to said magnetic detection element about an axis perpendicular to an axis in the first direction and passing through a center of the nonconductive area, wherein said another magnetic detection element is configured to detect a magnetic field component of the bypass current in the first direction, and wherein said magnetic detection element and said another magnetic detection element are configured to detect magnetic field components that have different polarities. 14. The current measurement device according to claim 12 , further comprising: another magnetic detection element