Switching circuit apparatus and electric power converter capable of reducing common mode noise in asymmetric circuit

The invention claimed is: 1. A switching circuit apparatus comprising: a first port terminal and a second port terminal; a first inductor; a switching circuit unit including at least one switching element; and a conductor part, wherein the switching circuit unit comprises at least a first terminal and a second terminal, the first terminal being connected to the first port terminal via the first inductor, the second terminal being connected to the second port terminal via a wiring line, wherein the switching circuit apparatus includes: a first capacitance provided between the first port terminal and the first terminal; a second capacitance provided between the first terminal and the conductor part; and a first inductance provided between the second port terminal and the second terminal, and wherein the switching circuit apparatus further comprises: a first capacitor connected between the first port terminal and the second port terminal; and a second inductor connected between the second terminal and the conductor part. 2. The switching circuit apparatus as claimed in claim 1 , wherein the second inductor has such an inductance that a ratio of the inductance of the second inductor to the first inductance is equal to a ratio of the first capacitance to the second capacitance. 3. The switching circuit apparatus as claimed in claim 1 , wherein the first capacitance is a parasitic capacitance of a winding of the first inductor. 4. The switching circuit apparatus as claimed in claim 1 , wherein the first capacitance includes a capacitance of a capacitor connected in parallel to the first inductor. 5. The switching circuit apparatus as claimed in claim 1 , wherein the second capacitance is a parasitic capacitance appearing between a conductive portion of the switching element and the conductor part. 6. The switching circuit apparatus as claimed in claim 1 , wherein the second capacitance includes a capacitance of a capacitor connected between the first terminal and the conductor part. 7. The switching circuit apparatus as claimed in claim 1 , wherein the first inductance is a parasitic inductance of a wiring line between the second port terminal and the second terminal. 8. The switching circuit apparatus as claimed in claim 1 , wherein the first inductance includes an inductance of an inductor connected between the second port terminal and the second terminal. 9. The switching circuit apparatus as claimed in claim 1 , wherein the second inductor is a meander line formed on a printed wiring board. 10. The switching circuit apparatus as claimed in claim 1 , further comprising a third port terminal and a fourth port terminal, wherein the switching circuit unit further comprises a third terminal, the third terminal being connected to the third port terminal, the second terminal being further connected to the fourth port terminal, wherein the switching circuit apparatus further comprises a second capacitor connected between the second terminal and the third terminal, and wherein the switching circuit unit includes: a first switching element connected between the first terminal and the second terminal; and a second switching element connected between the first terminal and the third terminal. 11. The switching circuit apparatus as claimed in claim 10 , further comprising a third capacitor connected between the second terminal and the conductor part, in series with the second inductor. 12. The switching circuit apparatus as claimed in claim 11 , wherein a resonance frequency of a circuit part including the second inductor and the third capacitor is equal to a resonance frequency of a circuit part including the first inductor, the latter resonance frequency being determined by an inductance of the first inductor and the first capacitance. 13. The switching circuit apparatus as claimed in claim 11 , wherein the second inductor is connected to the second terminal via the third capacitor, wherein the switching circuit apparatus further comprises a fourth capacitor, and wherein a connection point of the second inductor and the third capacitor is connected to the third terminal via the fourth capacitor. 14. The switching circuit apparatus as claimed in claim 13 , wherein a resonance frequency of a circuit part including the second inductor, the third capacitor, and the fourth capacitor is equal to a resonance frequency of a circuit part including the first inductor, the latter resonance frequency being determined by an inductance of the first inductor and the first capacitance. 15. The switching circuit apparatus as claimed in claim 10 , wherein the second inductor includes: a third inductor connected between the second terminal and the conductor part; and a fourth inductor connected between the third terminal and the conductor part, wherein the switching circuit apparatus further comprises: a third capacitor connected between the second terminal and the conductor part, in series with the third inductor; and a fourth capacitor connected between the third terminal and the conductor part, in series with the fourth inductor, and wherein an inductance of the second inductor is equal to a combined inductance of the third inductor and the fourth inductors connected in parallel to each other. 16. The switching circuit apparatus as claimed in claim 15 , wherein a resonance frequency of a circuit part including the third inductor, the fourth inductor, the third capacitor, and the fourth capacitor is equal to a resonance frequency of a circuit part including the first inductor, the latter resonance frequency being determined by an inductance of the first inductor and the first capacitance. 17. The switching circuit apparatus as claimed in claim 15 , wherein the third inductor and the fourth inductor are electromagnetically coupled to each other such that their magnetic fluxes are constructively added to each other when currents flows from the second terminal and the third terminals to the conductor part via the third inductor and the fourth inductor, respectively. 18. The switching circuit apparatus as claimed in claim 1 , wherein a wiring line between the second port terminal and the second terminal includes: a first wiring part included in a wiring line between the second terminal and the second capacitor; and a second wiring part branching from a branch point on a wiring line between the second terminal and the second capacitor, and extending to the second port terminal, the branch point being closer to one end of the second capacitor than to the second terminal. 19. A power converter apparatus comprising a switching circuit apparatus, the switching circuit apparatus comprising: a first port terminal and a second port terminal; a first inductor; a switching circuit unit including at least one switching element; and a conductor part, wherein the switching circuit unit comprises at least a first terminal and a second terminal, the first terminal being connected to the first port terminal via the first inductor, the second terminal being connected to the second port terminal via a wiring line, wherein the switching circuit apparatus includes: a first capacitance provided between the first port terminal and the first terminal; a second capacitance provided between the first terminal and the conductor part; and a first inductance provided between the second port terminal and the second terminal, and wherein the switching circuit apparatus further comprises: a first capacitor