Current sensor

What is claimed is: 1. A current sensor comprising: a first opposing part; a second opposing part; a first case made of a resin, the first case including the first opposing part; a second case made of a resin, the second case including the second opposing part; a substrate mounted in at least one of the first case and the second case; and a plurality of unit groups mounted in the first case and the second case, each unit group measuring an induced magnetic field; wherein: the first opposing part and the second opposing part are positioned so as to be opposite to each other in a first direction; the plurality of unit groups are arranged in a second direction intersecting the first direction; each of the plurality of unit groups includes one or more measurement units arranged in the second direction; each of the one or more measurement units includes: a first magnetic shield integral with the first opposing part, a second magnetic shield integral with the second opposing part, a current path integral with the first opposing part between the first magnetic shield and the second magnetic shield, and a magneto-electric conversion element configured to measure an induced magnetic field generated by a current flowing in the current path, the magneto-electric conversion element is mounted, on the substrate, between the current path and the second magnetic shield in the first direction; the current path and the first magnetic shield that are included in a measurement unit of the one or more measurement units shared between the current path and the first magnetic shield are positioned so as to be separated by a first distance in the first direction; in all unit groups, all first distances are substantially the same; the current path and the magneto-electric conversion element that are included in the measurement unit shared between the current path and the magneto-electric conversion are positioned so as to be separated by a second distance in the first direction; in all measurement units included in a unit group of the plurality of unit groups shared among the all measurement units, all second distances are substantially the same; the second distance differs for each unit group; a thickness of the first opposing part in the first direction is substantially constant; a thickness of the second opposing part in the first direction is substantially constant; the magneto-electric conversion element and the second magnetic shield that are included in the measurement unit shared between the magneto-electric conversion element and the second magnetic shield are positioned so as to be separated by a third distance in the first direction; in all measurement units, the third distance is shorter than the second distance; and in all measurement units, all third distances are substantially the same; all second magnetic shields are positioned on substantially same planes; all magneto-electric conversion elements are mounted on the substrate substantially like a single plane; the first opposing part includes a plurality of first sub-opposing parts that are integral together, each of the plurality of first sub-opposing parts is a substantially flat plate; the plurality of first sub-opposing parts are at positions shifted mutually in the first direction; each of the plurality of first sub-opposing parts corresponds to one different unit group; and the current paths and the first magnetic shields that are included in each of the plurality of unit groups are positioned in the first sub-opposing part corresponding to the current paths and the first magnetic shields. 2. The current sensor according to claim 1 , wherein: one of the plurality of unit groups is a large-current unit group; another one of the plurality of unit groups is a small-current unit group configured to measure an induced magnetic field caused by a smaller current than in the large-current unit group; the large-current unit group and the small-current unit group are adjacent to each other; all first magnetic shields include a plate-like part expanding along a plane including the second direction; all plate-like parts included in the large-current unit group expand along substantially a same plane; all plate-like parts included in the small-current unit group expand along substantially a same plane; the current path and the second magnetic shield that are included in the measurement unit shared between the current path and the second magnetic shield are positioned so as to be separated by a fourth distance in the first direction; the fourth distance in the large-current unit group is larger than the fourth distance in the small-current unit group; the first magnetic shield and the second magnetic shield that are included in the measurement unit shared between the first magnetic shield and the second magnetic shield are positioned so as to be separated by a fifth distance in the first direction; the fifth distance in the large-current unit group is longer than the fifth distance in the small-current unit group; the plate-like part included in the large-current unit group has a first edge close to the small-current unit group in the second direction, and also has a second edge distant from the small-current unit group in the second direction; and of all first magnetic shields included in the large-current unit group, one or more first magnetic shields including the first magnetic shield closest to the small-current unit group have a first large-current protrusion extending from the first edge toward the second opposing part. 3. The current sensor according to claim 2 , wherein a tip of the first large-current protrusion on a same side as the second opposing part in the first direction and one surface of the plate-like part of the first magnetic shield in the small-current unit group, the one surface being on the same side as the second opposing part, are positioned on substantially a same plane orthogonal to the first direction. 4. The current sensor according to claim 3 , wherein shapes of all first magnetic shields included in the large-current unit group are substantially the same. 5. The current sensor according to claim 4 , wherein each of one or more first magnetic shields including the first large-current protrusion has a second large-current protrusion extending from the second edge toward the second opposing part. 6. The current sensor according to claim 1 , wherein: one of the plurality of unit groups is a large-current unit group; another one of the plurality of unit groups is a small-current unit group; the large-current unit group and small-current unit group are adjacent to each other; all first magnetic shields include a plate-like part expanding along a plane including the second direction; all plate-like parts included in the large-current unit group expand along substantially a same plane; all plate-like parts included in the small-current unit group expand along substantially a same plane; the current path and the second magnetic shield that are included in the measurement unit shared between the current path and the second magnetic shield are positioned so as to be separated by a fourth distance in the first direction; the fourth distance in the large-current unit group is larger than the fourth distance in the small-current unit group; the first magnetic shield and the second magnetic shield that are included in the measurement unit shared between the first magnetic shield and the second magnetic shield are positioned so as to be separated by a fifth distance in the first direction; the fifth distance in the large-current unit group is longer than the fifth distance in the small-current unit group; the plate-like part included in the small-current unit group has a first e