Detecting device, power supply system, and detecting device control method

What is claimed is: 1. A detecting device comprising: a measurement coil made up of a first partial coil to which current in a particular direction is induced by a magnetic field to be supplied to a power reception coil configured to receive power, a second partial coil to which the current in the particular direction is induced by the magnetic field, and a third partial coil, which is disposed between the first and second partial coils, to which current in the opposite direction of the particular direction is induced by the magnetic field; a measurement unit configured to measure the voltage of the measurement coil as measurement coil voltage; and a foreign object detecting unit configured to detect a foreign object within the magnetic field based on the measurement coil voltage, wherein the area of each coil surface of the first partial coil, the second partial coil, and the third partial coil differs, wherein two coils of the first partial coil, the second partial coil, and the third partial coil are disposed in a position sandwiching the middle of the outermost edge and the innermost edge of the power reception coil. 2. The detecting device according to claim 1 , wherein the measurement unit further measures the voltage and current of the power reception coil, and wherein the foreign object detecting unit acquires impedance of the power reception coil from the measurement coil voltage and the voltage and current of the power reception coil, and detects the foreign object based on such impedance. 3. The detecting device according to claim 1 , wherein the measurement unit further measures the voltage of the power reception coil as power reception coil voltage, and wherein the foreign object detecting unit acquires a voltage ratio between the measurement coil voltage and the power reception coil voltage, and detects the foreign object based on this voltage ratio. 4. The detecting device according to claim 3 , wherein the power reception coil receives first and second power which differs in electric energy in this order, and wherein the foreign object detecting unit detects the foreign object based on difference between the voltage ratio acquired in the case of the first power having been received, and the voltage ratio acquired in the case of the second power having been received. 5. The detecting device according to claim 1 , wherein the first partial coil, the second partial coil, and the third partial coil are serially connected. 6. The detecting device according to claim 1 , wherein at least one of the first partial coil, the second partial coil, and the third partial coil is disposed outside the outermost edge of the power reception coil. 7. The detecting device according to claim 1 , wherein at least one of the first partial coil, the second partial coil, and the third partial coil is disposed inside the innermost edge of the power reception coil. 8. The detecting device according to claim 1 , wherein the first partial coil, the second partial coil, and the third partial coil are disposed generally on the same flat surface. 9. The detecting device according to claim 1 , wherein the first partial coil, the second partial coil, and the third partial coil are disposed in a position where the centers of the coil surfaces thereof generally agree. 10. The detecting device according to claim 1 , further comprising: a power supply device configured to supply the power; and a transmission unit configured to transmit a control signal for requesting reduction of electric energy of the power in the case of the foreign object having been detected to the power supply device. 11. A detecting device comprising: a measurement coil made up of a first partial coil to which current in a particular direction is induced by a magnetic field that a power supply coil configured to supply power supplies to a power reception coil, a second partial coil to which the current in the particular direction is induced by the magnetic field, and a third partial coil, which is disposed between the first and second partial coils, to which current in the opposite direction of the particular direction is induced by the magnetic field; a measurement unit configured to measure the voltage of the measurement coil as measurement coil voltage; and a foreign object detecting unit configured to detect a foreign object within the magnetic field based on the measurement coil voltage, wherein the area of each coil surface of the first partial coil, the second partial coil, and the third partial coil differs, wherein two coils of the first partial coil, the second partial coil, and the third partial coil are disposed in a position sandwiching the middle of the outermost edge and the innermost edge of the power reception coil. 12. A power supply system comprising: a power supply coil configured to supply power via a magnetic field; a power reception coil configured to receive the power; a measurement coil made up of a first partial coil to which current in a particular direction is induced by the magnetic field, a second partial coil to which the current in the particular direction is induced by the magnetic field, and a third partial coil, which is disposed between the first and second partial coils, to which current in the opposite direction of the particular direction is induced by the magnetic field; a measurement unit configured to measure the voltage of the measurement coil as measurement coil voltage; and a foreign object detecting unit configured to detect a foreign object within the magnetic field based on the measurement coil voltage, wherein the area of each coil surface of the first partial coil, the second partial coil, and the third partial coil differs, wherein two coils of the first partial coil, the second partial coil, and the third partial coil are disposed in a position sandwiching the middle of the outermost edge and the innermost edge of the power reception coil. 13. A detecting device control method comprising: measuring, at a measurement unit, voltage of a measurement coil made up of a first partial coil to which current in a particular direction is induced by a magnetic field to be supplied to a power reception coil configured to receive power, a second partial coil to which the current in the particular direction is induced by the magnetic field, and a third partial coil, which is disposed between the first and second partial coils, to which current in the opposite direction of the particular direction is induced by the magnetic field, as measurement coil voltage; and detecting, at a foreign object detecting unit, a foreign object within the magnetic field based on the measurement coil voltage, wherein the area of each coil surface of the first partial coil, the second partial coil, and the third partial coil differs, wherein two coils of the first partial coil, the second partial coil, and the third partial coil are disposed in a position sandwiching the middle of the outermost edge and the innermost edge of the power reception coil.