Conduction noise filtering circuit, inverting device, and compressor

What is claimed is: 1. An inverting apparatus for converting AC power into rectification power for driving a motor, the inverting apparatus comprising: a first coil part configured to be connected with alternating current (AC) power; a second coil part configured to be connected with the first coil part; a first inductor configured to be coupled to the first coil part and detect a first common mode current flowing on the first coil part; and a second inductor configured to be coupled to the second coil part and detect a second common mode current flowing on the second coil part; an amplifier configured to amplify a current received from the first inductor and the second inductor; and a capacitor configured to receive the amplified current from the amplifier and supply offset power corresponding to the amplified current to a connection terminal to which the first coil part and the second coil part are connected for offsetting the detected first common mode current and the second common mode current. 2. The inverting apparatus of claim 1 , wherein a first coil of the first coil part and a second coil of the second coil part are wound on a core. 3. The inverting apparatus of claim 1 , wherein the first coil part comprises a plurality of first coils configured to be individually supplied with phases of the AC power. 4. The inverting apparatus of claim 3 , wherein the second coil part comprises a plurality of second coils configured to be respectively connected to the plurality of first coils in series. 5. The inverting apparatus of claim 1 , wherein the amplifier is a current amplifier. 6. The inverting apparatus of claim 1 , wherein the first inductor is configured to detect the common mode current through an induced current derived from a current flowing through the first coil part. 7. A conduction noise filtering circuit comprising: a first coil part configured to be connected with alternating current (AC) power; a second coil part configured to be connected with the first coil part; a first inductor configured to be magnetically coupled to the first coil part and detect a first common mode current flowing on the first coil part; a second inductor configured to be magnetically coupled to the second coil part and detect a second common mode current flowing on the second coil part; an amplifier configured to amplify a current received from the first inductor and the second inductor; and a capacitor configured to receive the amplified current from the amplifier and supply offset power corresponding to the amplified current to a connection terminal to which the first coil part and the second coil part are connected for offsetting the detected first common mode current and the second common mode current. 8. The conduction noise filtering circuit of claim 7 , wherein a first coil of the first coil part and a second coil of the second coil part are wound on a core. 9. The conduction noise filtering circuit of claim 7 , wherein the first coil part comprises a plurality of first coils configured to be individually supplied with phases of the AC power. 10. The conduction noise filtering circuit of claim 9 , wherein the second coil part comprises a plurality of second coils configured to be respectively connected to the plurality of first coils in series. 11. The conduction noise filtering circuit of claim 7 , wherein the amplifier is a current amplifier. 12. The conduction noise filtering circuit of claim 7 , wherein the first inductor is configured to detect the common mode current through an induced current derived from a current flowing through the first coil part.