Feed unit, electronic unit, and feed system

The invention claimed is: 1. A power receiving circuit, comprising: an LC parallel resonant circuit; an LC series resonant circuit that comprises a reactance element configured to electrically connect in series with the LC parallel resonant circuit, wherein the LC parallel resonant circuit and the LC series resonant circuit are configured to perform a first LC resonance operation at a resonance frequency, and the power receiving circuit configured to receive power from a power transmitting circuit in a noncontact manner, wherein the power transmitting circuit performs a second LC resonance operation at the resonance frequency. 2. The power receiving circuit of claim 1 , wherein the reactance element is a capacitive element. 3. The power receiving circuit of claim 1 , wherein the reactance element is an inductive element. 4. The power receiving circuit of claim 1 , wherein one of a coil or a capacitor in the LC parallel resonant circuit and the reactance element define the LC series resonant circuit. 5. A power transmitting circuit, comprising: an LC parallel resonant circuit; an LC series resonant circuit that comprises a reactance element configured to electrically connect in series with the LC parallel resonant circuit, wherein the LC parallel resonant circuit and the LC series resonant circuit are configured to perform a first LC resonance operation at a resonance frequency, and the power transmitting circuit configured to transmit power to a power receiving circuit in a noncontact manner, wherein the power receiving circuit performs a second LC resonance operation at the resonance frequency. 6. The power transmitting circuit of claim 5 , wherein the reactance element is a capacitive element. 7. The power transmitting circuit of claim 5 , wherein the reactance element is an inductive element. 8. The power transmitting circuit of claim 5 , wherein one of a coil or a capacitor in the LC parallel resonant circuit and the reactance element define the LC series resonant circuit. 9. An apparatus, comprising: a power receiving section, wherein the power receiving section includes: (a) an LC parallel resonant circuit; (b) an LC series resonant circuit that comprises a reactance element configured to electrically connect in series with the LC parallel resonant circuit, wherein the LC parallel resonant circuit and the LC series resonant circuit are configured to perform a first LC resonance operation at a resonance frequency, and the power receiving section configured to receive power from a power transmitting section in a noncontact manner, wherein the power transmitting section performs a second LC resonance operation at the resonance frequency. 10. The apparatus of claim 9 , wherein the reactance element is a capacitive element. 11. The apparatus of claim 9 , wherein the reactance element is an inductive element. 12. The apparatus of claim 9 , wherein one of a coil or a capacitor in the LC parallel resonant circuit and the reactance element define the LC series resonant circuit. 13. The apparatus of claim 9 , further comprising: a battery configured to charge based on the power received by the power receiving section. 14. The apparatus of claim 9 , wherein the apparatus is an electronic unit or a vehicle. 15. The apparatus of claim 10 , wherein a ratio between capacitance values of a capacitor in the LC parallel resonant circuit and the reactance element can be varied. 16. A feed system, comprising: a feed unit; one or more target units configured to receive power transmitted from the feed unit, wherein each of the one or more target units includes a power receiving section, wherein the power receiving section includes: (a) an LC parallel resonant circuit; (b) an LC series resonant circuit that comprises a reactance element configured to electrically connect in series with the LC parallel resonant circuit, wherein the LC parallel resonant circuit and the LC series resonant circuit are configured to perform a first LC resonance operation at a resonance frequency, and the power receiving section configured to receive power from the feed unit in a noncontact manner, wherein the feed unit performs a second LC resonance operation at the resonance frequency. 17. The feed system of claim 16 , wherein: the reactance element is a capacitive or an inductive element, and one of a coil or a capacitor in the LC parallel resonant circuit and the reactance element define the LC series resonant circuit. 18. The feed system of claim 16 , wherein: the reactance element is a capacitive element, and a ratio between capacitance values of a capacitor in the LC parallel resonant circuit and the reactance element can be varied. 19. A feed system, comprising: a feed unit; one or more target units configured to receive power transmitted from the feed unit, wherein the feed unit includes a power transmission section, wherein the power transmission section includes: (a) an LC parallel resonant circuit; (b) an LC series resonant circuit that comprises a reactance element configured to electrically connect in series with the LC parallel resonant circuit, wherein the LC parallel resonant circuit and the LC series resonant circuit are configured to perform a first LC resonance operation at a resonance frequency, and the power transmission section configured to transmit power to each of the one or more target units in a noncontact manner, wherein the one or more target units performs a second LC resonance operation at the resonance frequency. 20. The feed system of claim 19 , wherein: the reactance element is a capacitive or an inductive element, and one of a coil or a capacitor in the LC parallel resonant circuit and the reactance element define the LC series resonant circuit.