Variable-frequency resonance circuit and variable-frequency filter

What is claimed is: 1. A variable-frequency resonance circuit comprising: a transmission line; a first inductor connected at one end to the transmission line; a first LC series circuit connected to another end of the first inductor and including a second inductor and a variable capacitor; and a second LC series circuit connected to the another end of the first inductor and including a third inductor and a fixed capacitor; wherein the first and second LC series circuits are connected in parallel between the another end of the first inductor and a ground; the first and second inductors are mutual-inductively and positively coupled with each other; and the third inductor of the second LC series circuit is directly connected to the another end of the first inductor. 2. A variable-frequency filter comprising: a plurality of variable-frequency resonance circuits according to claim 1 ; wherein the transmission line connects the plurality of variable-frequency resonance circuits to one another; and an inter-resonator coupling element is connected to the transmission line. 3. The variable-frequency filter according to claim 2 , wherein: the plurality of variable-frequency resonance circuits are defined by a multilayer body including a plurality of dielectric layers stacked on each other; components of each of the plurality of variable-frequency resonance circuits other than the variable capacitor of the first LC series circuit are provided in the multilayer body; each of the first and second inductors are defined by a spiral conductor pattern having a central axis parallel or substantially parallel with a stacking direction of the plurality of dielectric layers of the multilayer body, and an opening at a central portion of the spiral conductor pattern defining the first inductor in each of the plurality of variable-frequency resonance circuits is at least partially superimposed on an opening at a central portion of the spiral conductor pattern defining the corresponding second inductor in each of the plurality of variable-frequency resonance circuits; and a conductor pattern defining the fixed capacitor in each of the plurality of variable-frequency resonance circuits and a conductor pattern defining the inter-resonator coupling element are disposed such that dielectric layers included in between the first and second inductors of each of the plurality of variable-frequency resonance circuits are sandwiched between the conductor pattern defining the fixed capacitor in each of the plurality of variable-frequency resonance circuits and the conductor pattern defining the inter-resonator coupling element. 4. The variable-frequency filter according to claim 3 , wherein the conductor patterns defining the fixed capacitor in each of the plurality of variable-frequency resonance circuits and the conductor pattern defining the inter-resonator coupling element provided on dielectric layers positioned closest to a dielectric layer of the first inductors and a dielectric layer of the second inductor are disposed such that the conductor patterns defining the fixed capacitor in each of the plurality of variable-frequency resonance circuits and the conductor pattern defining the inter-resonator coupling element are neither superimposed on the opening at the central portion of the spiral conductor pattern defining the first inductor in each of the plurality of variable-frequency resonance circuits nor the opening at the central portion of the spiral conductor pattern defining the second inductor in each of the plurality of variable-frequency resonance circuits. 5. The variable-frequency filter according to claim 4 , wherein the conductor patterns defining the fixed capacitor in each of the plurality of variable-frequency resonance circuits and the conductor pattern defining the inter-resonator coupling element are disposed such that dielectric layers of the first, second, and fourth inductors are sandwiched between the conductor patterns defining the fixed capacitor in each of the plurality of variable-frequency resonance circuits and the conductor pattern defining the inter-resonator coupling element. 6. The variable-frequency filter according to claim 2 , wherein the inter-resonator coupling element is a capacitor. 7. The variable-frequency resonance circuit according to claim 1 , wherein: the variable-frequency resonance circuit is defined by a multilayer body including a plurality of dielectric layers stacked on each other; components of the variable-frequency resonance circuit other than the variable capacitor of the first LC series circuit are included in the multilayer body; and each of the first and second inductors are defined by a spiral conductor pattern having a central axis parallel or substantially parallel to a stacking direction of the plurality of dielectric layers of the multilayer body; and an opening at a central portion of the spiral conductor pattern defining the first inductor is at least partially superimposed on an opening at a central portion of the spiral conductor pattern defining the second inductor. 8. The variable-frequency resonance circuit according to claim 7 , wherein the third inductor is defined by a via-conductor extending in parallel or substantially parallel to the stacking direction. 9. The variable-frequency resonance circuit according to claim 1 , wherein a winding direction of the first inductor and a winding direction of the second inductor are identical or substantially identical to each other. 10. The variable-frequency resonance circuit according to claim 1 , wherein the second LC series circuit includes a fourth inductor connected in series with the third inductor and the fixed capacitor. 11. A variable-frequency filter comprising: a plurality of variable-frequency resonance circuits according to claim 10 ; wherein the transmission line connects the plurality of variable-frequency resonance circuits to one another; an inter-resonator coupling element is connected to the transmission line; and at least one of the fourth inductors disposed in the plurality of variable-frequency resonance circuits is commonly shared between the plurality of variable-frequency resonance circuits. 12. The variable-frequency filter according to claim 11 , wherein: the plurality of variable-frequency resonance circuits are defined by a multilayer body including a plurality of dielectric layers stacked on each other; components of each of the plurality of variable-frequency resonance circuits other than the variable capacitor of the first LC series circuit are provided in the multilayer body; each of the first and second inductors are defined by a spiral conductor pattern having a central axis parallel or substantially parallel to a stacking direction of the plurality of dielectric layers of the multilayer body, and an opening at a central portion of the spiral conductor pattern defining the first inductor in each of the plurality of variable-frequency resonance circuits is at least partially superimposed on an opening at a central portion of the spiral conductor pattern defining the corresponding second inductor in each of the plurality of variable-frequency resonance circuits; and an extending direction of conductor patterns defining the respective fourth inductors separately used for the corresponding plurality of variable-frequency resonance circuits is perpendicular or substantially perpendicular to an extending direction of a conductor pattern defining the at least one of the fourth inductors commonly used for the plurality of variable-frequency resonance circuits. 13. The variable-frequency filter according to claim 12 , wher