Polar-type low pass filter and demultiplexer equipped therewith

What is claimed is: 1. A polar low pass filter comprising: a laminated body in which a plurality of base layers are laminated; an input terminal, an output terminal, and a ground terminal located on or in a surface of the laminated body; and at least one ground conductor located within the laminated body; wherein a series arm connecting the input terminal and the output terminal includes a parallel resonant circuit including a capacitor and an inductor; a parallel arm connecting the series arm and the ground terminal includes at least a capacitor; at least the capacitor included in the parallel resonant circuit includes a plurality of pattern conductors located within the laminated body; the at least one ground conductor and at least one of the plurality of pattern conductors face each other in a lamination direction of the plurality of base layers; and the polar low pass filter is defined within a first virtual frame of the laminated body and a high pass filter is defined within a second virtual frame of the laminated body adjacent to the first virtual frame. 2. The polar low pass filter according to claim 1 , wherein the at least one ground conductor extends in a direction perpendicular or approximately perpendicular to the lamination direction and is connected to the ground terminal. 3. The polar low pass filter according to claim 1 , further comprising an inductor located between one end portion of the parallel resonant circuit nearest to the output terminal on an equivalent circuit and the output terminal. 4. The polar low pass filter according to claim 1 , wherein the ground terminal is provided on or in a main surface of the laminated body, perpendicular or approximately perpendicular to the lamination direction; and in the lamination direction, the at least one ground conductor is located nearer to the ground terminal than the plurality of pattern conductors configuring the capacitor included in the parallel resonant circuit. 5. The polar low pass filter according to claim 1 , wherein the inductor included in the parallel resonant circuit is a wound chip inductor, and mounted on or in a main surface of the laminated body, perpendicular or approximately perpendicular to the lamination direction. 6. The polar low pass filter according to claim 1 , wherein the input terminal, the output terminal, and the ground terminal are located on a bottom surface of the laminated body. 7. The polar low pass filter according to claim 6 , wherein a plurality of chip inductors is mounted on a top surface of the laminated body. 8. The polar low pass filter according to claim 1 , wherein wiring electrodes are located on a top surface of one of the base layers to electrically connect at least one of the capacitor and the inductor of the series arm and the capacitor of the parallel arm to other conductive elements located on or in the laminated body. 9. The polar low pass filter according to claim 1 , wherein the laminated body including a plurality of via conductors arranged to electrically connect at least one of the capacitor and the inductor of the series arm and the capacitor of the parallel arm to other conductive elements located on or in the laminated body. 10. A demultiplexer comprising: a laminated body in which a plurality of base layers are laminated; an input terminal, an output terminal, and a ground terminal located on or in a surface of the laminated body; at least one ground conductor located within the laminated body; a high pass filter provided in the laminated body and including a capacitor and an inductor; and a polar low pass filter provided in the laminated body; wherein in the polar low pass filter, a series arm connecting the input terminal and the output terminal includes a parallel resonant circuit including a capacitor and an inductor, and a parallel arm connecting the series arm and the ground terminal includes at least a capacitor; at least the capacitor included in the parallel resonant circuit includes a plurality of pattern conductors located within the laminated body; the at least one ground conductor and at least one of the plurality of pattern conductors face each other in a lamination direction of the plurality of base layers; and the at least one ground conductor includes: a first ground conductor included in the low pass filter; and a second ground conductor included in the high pass filter and isolated from the first ground conductor. 11. The demultiplexer according to claim 10 , wherein the inductors included in the parallel resonant circuit and the high pass filter are wound chip inductors; and the wound chip inductors are mounted on or in a main surface of the laminated body, perpendicular or approximately perpendicular to the lamination direction. 12. The demultiplexer according to claim 10 , wherein the input terminal, the output terminal, and the ground terminal are located on a bottom surface of the laminated body. 13. The demultiplexer according to claim 12 , wherein a plurality of chip inductors is mounted on a top surface of the laminated body. 14. The demultiplexer according to claim 10 , wherein wiring electrodes are located on a top surface of one of the base layers to electrically connect at least one of the capacitor and the inductor of the series arm and the capacitor of the parallel arm to other conductive elements located on or in the laminated body. 15. The demultiplexer according to claim 10 , wherein the laminated body including a plurality of via conductors arranged to electrically connect at least one of the capacitor and the inductor of the series arm and the capacitor of the parallel arm to other conductive elements located on or in the laminated body. 16. A demultiplexer comprising: a laminated body in which a plurality of base layers are laminated; an input terminal, an output terminal, and a ground terminal located on or in a surface of the laminated body; at least one ground conductor located within the laminated body; a high pass filter provided in the laminated body and including a capacitor and an inductor; and a polar low pass filter provided in the laminated body; wherein in the polar low pass filter, a series arm connecting the input terminal and the output terminal includes a parallel resonant circuit including a capacitor and an inductor, and a parallel arm connecting the series arm and the ground terminal includes at least a capacitor; at least the capacitor included in the parallel resonant circuit includes a plurality of pattern conductors located within the laminated body; the at least one ground conductor and at least one of the plurality of pattern conductors face each other in a lamination direction of the plurality of base layers; and the polar low pass filter is defined within a first virtual frame of the laminated body and the high pass filter is defined within a second virtual frame of the laminated body adjacent to the first virtual frame.