Non-reciprocal circuit element and method for manufacturing the same

The invention claimed is: 1. A non-reciprocal circuit element comprising: a magnetic plate having one main surface and an other main surface on a side opposite to the one main surface, the magnetic plate including a plurality of input/output terminals; a permanent magnet connected to the one main surface of the magnetic plate; a circuit board connected to the other main surface of the magnetic plate, with a solder bump lying between the circuit board and the other main surface, the circuit board including a plurality of signal conductors; and an underfill material arranged between the magnetic plate and the circuit board, the magnetic plate having a through hole formed therein, the through hole extending from the one main surface to the other main surface, the through hole having an empty space in which at least a part of a conductive film arranged in the through hole is exposed, said empty space opening at a portion of the one main surface which is not covered by the permanent magnet. 2. The non-reciprocal circuit element according to claim 1 , further comprising a solder resist on the other main surface of the magnetic plate, wherein a plurality of the solder resists are stacked at an area adjacent to the through hole. 3. The non-reciprocal circuit element according to claim 1 , wherein an inner wall surface of the through hole extending from the one main surface to the other main surface of the magnetic plate inclines relative to the other main surface of the magnetic plate, and as seen in plan view, the through hole is smaller in dimension at the other main surface than at the one main surface. 4. The non-reciprocal circuit element according to claim 1 , wherein a fluororesin coat is formed on an inner wall surface of the through hole. 5. A method for manufacturing a non-reciprocal circuit element, the method comprising: forming a magnetic plate having one main surface and an other main surface on a side opposite to the one main surface, the magnetic plate including a plurality of input/output terminals; forming a through hole extending from the one main surface to the other main surface of the magnetic plate; connecting a permanent magnet to the one main surface of the magnetic plate; connecting a circuit board including a plurality of signal conductors to the other main surface of the magnetic plate, with a solder bump lying between the circuit board and the other main surface; and supplying an underfill material between the magnetic plate and the circuit board, in the supplying of the underfill material, the underfill material is supplied in such a way that the through hole formed in the magnetic plate has an empty space in which at least a part of a conductive film arranged in the through hole is exposed, said empty space opening at a portion of the one main surface which is not covered by the permanent magnet. 6. The method for manufacturing a non-reciprocal circuit element according to claim 5 , wherein, in the supplying of the underfill material, the underfill material is supplied in a state where there is a temperature gradient between a surface of the magnetic plate and a surface of the circuit board. 7. The method for manufacturing a non-reciprocal circuit element according to claim 5 , further comprising forming a solder resist on the other main surface of the magnetic plate, wherein in the forming of the solder resist, a plurality of the solder resists are stacked at an area adjacent to the through hole. 8. The method for manufacturing a non-reciprocal circuit element according to claim 5 , wherein, in the forming of the through hole, the through hole is formed in such a way that: an inner wall surface of the through hole extending from the one main surface to the other main surface of the magnetic plate inclines relative to the other main surface of the magnetic plate; and as seen in plan view, the through hole is smaller in dimension at the other main surface than at the one main surface. 9. The method for manufacturing a non-reciprocal circuit element according to claim 5 , further comprising providing a water repellent finish to an inner wall surface of the through hole.