Elastic wave filter with magnetically coupled LC parallel resonance circuits

What is claimed is: 1. A filter device comprising: an input terminal; an output terminal; a line connecting the input terminal and the output terminal; a first LC parallel resonance circuit connected between the line and a ground potential and including a first inductance; a second LC parallel resonance circuit connected between the line and the ground potential and including a second inductance; and at least one elastic wave resonator connected between an end portion of the first LC parallel resonance circuit at a line side and an end portion of the second LC parallel resonance circuit at the line side; wherein the first and second LC parallel resonance circuits are electrically coupled by a capacitive property of the at least one elastic wave resonator; attenuation-frequency characteristics of an LC filter defined by the first and second LC parallel resonance circuits and the capacitive property of the at least one elastic wave resonator, and attenuation-frequency characteristics defined by an anti-resonance point of the at least one elastic wave resonator are combined; and the first inductance included in the first LC parallel resonance circuit and the second inductance included in the second LC parallel resonance circuit are magnetically coupled. 2. The filter device according to claim 1 , wherein the at least one elastic wave resonator connected between the first LC parallel resonance circuit and the second LC parallel resonance circuit includes a plurality of elastic wave resonators and the plurality of elastic wave resonators configure a ladder filter circuit. 3. The filter device according to claim 1 , wherein the first and second LC parallel resonance circuits are respectively defined by the first and second inductances and second and third elastic wave resonators connected in parallel with the first and second inductances; and capacitive properties of the second and third elastic wave resonators configure capacitors of the first and second LC parallel resonance circuits, respectively. 4. The filter device according to claim 1 , wherein a circuit portion in which the first inductance in the first LC parallel resonance circuit and the second inductance in the second LC parallel resonance circuit are magnetically coupled is configured by a circuit with a delta-shaped configuration including the first inductance, the second inductance, and a third inductance connecting one end of the first inductance and one end of the second inductance. 5. The filter device according to claim 1 , wherein a circuit portion in which the first inductance in the first LC parallel resonance circuit and the second inductance in the second LC parallel resonance circuit are magnetically coupled is configured by a three-element Y circuit including a common inductance defining the first inductance and the second inductance, a third inductance connected to a connection point between an end portion of the common inductance at a side opposite to a ground potential and the input terminal, and a fourth inductance connected between the connection point and the output terminal. 6. The filter device according to claim 1 , wherein each of the first inductance and the second inductance in the first and second LC parallel resonance circuits is divided in series into a plurality of inductances. 7. The filter device according to claim 1 , wherein each of the first and second capacitors in the first LC parallel resonance circuit and the second LC parallel resonance circuit is defined by a plurality of elastic wave resonators connected in series. 8. The filter device according to claim 1 , wherein another inductance is connected between a ground potential and an end portion of at least one LC parallel resonance circuit of the first and second LC parallel resonance circuits at the ground potential side. 9. The filter device according to claim 1 , wherein the at least one elastic wave resonator is a surface acoustic wave resonator. 10. The filter device according to claim 1 , wherein the at least one elastic wave resonator is a resonator configured to use bulk acoustic waves. 11. The filter device according to claim 10 , wherein each of the first inductance and the second inductance in the first and second LC parallel resonance circuits is divided in series into a plurality of inductances. 12. The filter device according to claim 10 , wherein each of the first and second capacitors in the first LC parallel resonance circuit and the second LC parallel resonance circuit is defined by a plurality of elastic wave resonators connected in series. 13. A filter device comprising: an input terminal; an output terminal; a line connected to the input terminal and the output terminal; a first LC parallel resonance circuit connected between the line and a ground potential, including a first inductance, and having a first parallel resonant frequency; a second LC parallel resonance circuit connected between the line and the ground potential, including a second inductance, and having a second parallel resonant frequency; and a filter circuit including at least one elastic wave resonator connected to an end portion of the first LC parallel resonance circuit at a line side and an end portion of the second LC parallel resonance circuit at the line side; wherein first resonance characteristics of the first LC parallel resonance circuit, second resonance characteristics of the second LC parallel resonance circuit, and a capacitive property of the at least one elastic wave resonator cause the first and second resonance characteristics to be electrically coupled so as to define pass band characteristics of an LC filter; a pass band of the LC filter is located in a frequency region that is lower than an anti-resonant frequency of the at least one elastic wave resonator or higher than a resonant frequency of the at least one elastic wave resonator, and the first parallel resonant frequency and the second parallel resonant frequency are arranged in the pass band of the LC filter; and an attenuation pole of the filter circuit including the at least one elastic wave resonator is located in an attenuation region at an outside of the pass band of the LC filter. 14. The filter device according to claim 13 , wherein the first inductance included in the first LC parallel resonance circuit and the second inductance included in the second LC parallel resonance circuit are magnetically coupled. 15. The filter device according to claim 14 , wherein a circuit portion in which the first inductance in the first LC parallel resonance circuit and the second inductance in the second LC parallel resonance circuit are magnetically coupled is configured by a circuit with a delta-shaped configuration including the first inductance, the second inductance, and a third inductance connecting one end of the first inductance and one end of the second inductance. 16. The filter device according to claim 14 , wherein a circuit portion in which the first inductance in the first LC parallel resonance circuit and the second inductance in the second LC parallel resonance circuit are magnetically coupled is configured by a three-element Y circuit including a common inductance defining the first inductance and the second inductance, a third inductance connected to a connection point between an end portion of the common inductance at a side opposite to a ground potential and the input terminal, and a fourth inductance connected between the connection point and the output terminal. 17. The filter device according to claim 13 , wherein the at least one elastic wa