Magnet evaluating device and method

The invention claimed is: 1. A magnet evaluating device, comprising: an excitation coil configured to generate a magnetic field; a detection coil configured to detect an eddy current occurring in an evaluation magnet and a master magnet; a holder having the evaluation magnet and the master magnet set therein, the evaluation magnet being formed by connecting a plurality of evaluation magnetic sections with insulating material therebetween, and the master magnet being formed by connecting a plurality of master magnetic sections with insulating material therebetween; a transfer unit configured to transfer the evaluation magnet and the master magnet set in the holder through the magnetic field; and an evaluation unit configured to compare a first measurement and a second measurement, the first measurement measuring a first voltage or a first current generated in the detection coil when the evaluation magnet passes through the magnetic field, and the second measurement measuring a second voltage or a second current generated in the detection coil when the master magnet passes through the magnetic field. 2. The magnet evaluating device according to claim 1 , wherein the plurality of evaluation magnetic sections comprises at least three evaluation magnetic sections and the plurality of master magnetic sections comprises at least three master magnetic sections, the evaluation unit is configured to compare the first measurement of the first voltage or the first current generated in the detection coil when an end evaluation magnetic section on an end of the plurality of evaluation magnetic sections of the evaluation magnet passes through the magnetic field, with the second measurement of the second voltage or the second current generated in the detection coil when an end master magnetic section on an end of the plurality of master magnetic sections of the master magnet passes through the magnetic field, and comparing the first measurement of the first voltage or the first current generated in the detection coil when an intermediate evaluation magnetic section having evaluation magnetic sections on both adjacent sides, from among the plurality of evaluation magnetic sections of the evaluation magnet, passes through the magnetic field, with the second measurement of the second voltage or the second current generated in the detection coil when an intermediate master magnetic section having master magnetic sections on both adjacent sides, from among the plurality of master magnetic sections of the master magnet, passes through the magnetic field. 3. The magnet evaluating device according to claim 2 , wherein the evaluation unit, is configured to set a first threshold value, based on the second measurement of the second voltage or the second current generated in the detection coil when, from among the plurality of master magnetic sections of the master magnet, the end master magnetic section at a front end in a direction of transfer by the transfer unit passes through the magnetic field, a second threshold value, based on the second measurement of the second voltage or the second current generated in the detection coil when, from among the plurality of master magnetic sections of the master magnet, the intermediate master magnetic section having magnetic sections on both the adjacent sides passes through the magnetic field, and a third threshold value, based on the second measurement of the second voltage or the second current that is generated in the detection coil when, from among the plurality of master magnetic sections of the master magnet, the end master magnetic section at a rear end in the direction of transfer by the transfer unit passes through the magnetic field, and compares the first measurement of the first voltage or the first current generated in the detection coil when, from among the plurality of evaluation magnetic sections of the evaluation magnet, the end evaluation magnetic section at the front end in the direction of transfer by the transfer unit passes through the magnetic field with the first threshold value, compares the first measurement of the first voltage or the first current generated in the detection coil when, from among the plurality of evaluation magnetic sections of the evaluation magnet, the intermediate evaluation magnetic section having evaluation magnetic sections on both the adjacent sides passes through the magnetic field with the second threshold value, and compares the first measurement of the first voltage or the first current generated in the detection coil when, from among the plurality of evaluation magnetic sections of the evaluation magnet, the end evaluation magnetic section at the rear end in the direction of transfer by the transfer unit passes through the magnetic field with the third threshold value. 4. The magnet evaluating device according to claim 3 , wherein the transfer unit is configured to transfer the evaluation magnet and the master magnet such that a first center of the evaluation magnet and a second center of the master magnet are aligned in a width direction of the evaluation magnet and the master magnet. 5. The magnet evaluating device according to claim 2 , wherein the transfer unit is configured to transfer the evaluation magnet and the master magnet such that a first center of the evaluation magnet and a second center of the master magnet are aligned in a width direction of the evaluation magnet and the master magnet. 6. The magnet evaluating device according to claim 1 , wherein the transfer unit is configured to transfer the evaluation magnet and the master magnet such that a first center of the evaluation magnet and a second center of the master magnet are aligned in a width direction of the evaluation magnet and the master magnet. 7. A magnet evaluation method that uses a magnet evaluating device, comprising: generating, with an excitation coil, a magnetic field; detecting, with a detection coil, an eddy current occurring in an evaluation magnet and a master magnet; setting the evaluation magnet and the master magnet in a holder, the evaluation magnet being formed by connecting a plurality of evaluation magnetic sections with insulating material therebetween, and the master magnet being formed by connecting a plurality of master magnetic sections with insulating material therebetween; transferring, with a transfer unit, the evaluation magnet and the master magnet set in the holder through the magnetic field; and evaluating the evaluation magnet by comparing a first voltage or a first current generated in the detection coil when the evaluation magnet passes through the magnetic field, with a second voltage or a second current generated in the detection coil when the master magnet passes through the magnetic field. 8. The magnet evaluating method according to claim 7 , further comprising comparing a first measurement with a second measurement, the first measurement being the first voltage or the first current generated in the detection coil when an end evaluation magnetic section on an end of the plurality of evaluation magnetic sections of the evaluation magnet, passes through the magnetic field, and the second measurement being the second voltage or the second current generated in the detection coil when an end master magnetic section on an end of the plurality of master magnetic sections of the master magnet, passes through a magnetic field, and comparing the first measurement of the first voltage or the first current generated in the detection coil when an intermediate evaluation magnetic section having evaluation magnetic sections on both adjacent sides, from among the plurality of evaluation magnetic sections of the evaluation magnet, passes through the magnetic field, with