Filter component

What is claimed is: 1 . A filter component comprising: first and second differential input terminals; first and second differential output terminals; a first filter circuit that is disposed on a first line between the first differential input terminal and the first differential output terminal; a second filter circuit that is disposed on a second line between the second differential input terminal and the second differential output terminal; and a shunt circuit that connects the first line and the second line with each other; wherein the shunt circuit includes: a first LC series resonance circuit that is connected at a first end to the first line; and a second LC series resonance circuit that is connected at a first end to a second end of the first LC series resonance circuit and connected at a second end to the second line; wherein a node between the first and second LC series resonance circuits is grounded. 2 . The filter component according to claim 1 , wherein the node is located at a midpoint of the shunt circuit; and inductance of a first inductor included in the first LC series resonance circuit and inductance of a second inductor included in the second LC series resonance circuit are identical to each other. 3 . The filter component according to claim 1 , further comprising: a multilayer substrate including a plurality of insulating layers stacked on each other, the first and second filter circuits and the shunt circuit being disposed in the multilayer substrate; wherein the first and second filter circuits are disposed on a first side of the multilayer substrate, and the shunt circuit is disposed on a second side of the multilayer substrate. 4 . The filter component according to claim 3 , wherein the first filter circuit includes a first LC parallel resonance circuit; and the second filter circuit includes a second LC parallel resonance circuit. 5 . The filter component according to claim 4 , wherein the first filter circuit includes the first LC parallel resonance circuit and a third LC parallel resonance circuit connected in series with the first LC parallel resonance circuit; and the second filter circuit includes the second LC parallel resonance circuit and a fourth LC parallel resonance circuit connected in series with the second LC parallel resonance circuit. 6 . The filter component according to claim 5 , wherein the shunt circuit is disposed at each of three locations including: between a previous stage of the first LC parallel resonance circuit and a previous stage of the second LC parallel resonance circuit; between a node between the first and third LC parallel resonance circuits and a node between the second and fourth LC parallel resonance circuits; and between a subsequent stage of the third LC parallel resonance circuit and a subsequent stage of the fourth LC parallel resonance circuit. 7 . The filter component according to claim 6 , wherein the first and second inductors of the shunt circuit at one of the three locations are disposed on a first of the plurality of insulating layers that is different from a second of the plurality of insulating layers on which the first and second inductors of the other shunt circuits are disposed, and a flat-shaped ground electrode is disposed on a third of the plurality of insulating layers disposed between the first insulating layer and the second insulating layer. 8 . The filter component according to claim 1 , wherein the node is grounded via a third inductor. 9 . The filter component according to claim 8 , wherein parasitic resistance of the first and second inductors is greater than parasitic resistance of the third inductor. 10 . The filter component according to claim 4 , wherein each of the first and second LC parallel resonance circuits includes an inductor and a capacitor connected in parallel with each other. 11 . The filter component according to claim 1 , wherein each of the first and second filter circuits includes a low pass filter. 12 . The filter component according to claim 3 , wherein inductor electrodes of the shunt circuit are provided on a first insulating layer of the plurality of insulating layers and capacitor electrodes of the shunt circuit are provided on second and third insulating layers of the plurality of insulating layers immediately above and below the first insulating layer. 13 . The filter component according to claim 3 , wherein inductor electrodes of the shunt circuit are provided on a first insulating layer of the plurality of insulating layers and capacitor electrodes of the shunt circuit are provided on second and third insulating layers of the plurality of insulating layers above and below the first insulating layer with a fourth insulating layer of the plurality of insulating layers disposed therebetween. 14 . The filter component according to claim 1 , further comprising: at least three of the shunt circuit; and a multilayer substrate including a plurality of insulating layers stacked on each other, the first and second filter circuits and the at least three shunt circuits being disposed in the multilayer substrate; wherein the first and second filter circuits are disposed on a first side of the multilayer substrate, and a plurality of ground electrodes and the at least three shunt circuits are disposed on a second side of the multilayer substrate. 15 . The filter component according to claim 1 , wherein the shunt circuit which connects the first line and the second line with each other is disposed only between a node between LC parallel resonance circuits of the first line and a node between LC parallel resonance circuits of the second line. 16 . The filter component according to claim 1 , wherein the first filter circuit includes a band elimination filter including a single LC parallel resonance circuit, and the second filter circuit includes a band elimination filter including a single LC parallel resonance circuit. 17 . The filter component according to claim 16 , wherein the first filter circuit includes a first LC parallel resonance circuit; the second filter circuit includes a second LC parallel resonance circuit; and the shunt circuit is disposed between a previous stage of the first LC parallel resonance circuit and a previous stage of the second LC parallel resonance circuit.