Electronic control unit for electric power steering

What is claimed is: 1. An electronic control apparatus configured to control electric power steering and provided integrally with an electric motor, the electronic control apparatus which is electrically connected to an ignition switch and which assists a rotation operation of a steering column by rotation of the electric motor, the electronic control apparatus comprising: a magnetic body attached to a rotation shaft of the electric motor and provided with a pole face including a plurality of magnetic poles arranged at equal or substantially equal intervals in a circumferential direction of the rotation shaft; a first magnetism detecting element located at a position opposite to the pole face and configured to operate using power supplied via the ignition switch to output a first set of rotation angle signals of the electric motor; a second magnetism detecting element located at the position opposite to the pole face and configured to operate continuously using continuously supplied power supplied directly from a power source to output a second set of rotation angle signals of the electric motor; and a controller configured or programmed to generate rotation angle information about the electric motor based on the first set of rotation angle signals when the ignition switch is operated and based on the second set of rotation angle signals outputted while the ignition switch is stopped, the controller also being configured or programmed to calculate a position of a steering wheel from the generated rotation angle information. 2. The electronic control apparatus according to claim 1 , wherein the first magnetism detecting element is an MR sensor, and the second magnetism detecting element is an MR sensor or a Hall element. 3. The electronic control apparatus according to claim 2 , wherein the MR sensor includes a bridge circuit including at least one pair of magnetoresistive elements angular positions of which differ by a predetermined angular interval around the center of the rotation shaft; and the predetermined angular interval is an interval corresponding to a half of the angular arrangement interval among the plurality of magnetic poles around the center of the rotation shaft. 4. The electronic control apparatus according to claim 1 , wherein the controller is configured or programmed to include: a control circuit section configured to calculate position information about the steering wheel; and a monitoring circuit section configured to acquire the second set of rotation angle signals from the second magnetism detecting element, to generate a second rotation angle information from the second set of rotation angle signals, and to transmit the second rotation angle information or the second set of rotation angle signals to the control circuit section, when receiving a control instruction from the control circuit section. 5. The electronic control apparatus according to claim 4 , wherein the monitoring circuit section is configured to monitor the generated second rotation angle information at predetermined time intervals set inside the monitoring circuit section. 6. The electronic control apparatus according to claim 4 , wherein the monitoring circuit section is configured to monitor the generated second rotation angle information at predetermined time intervals specified by the control circuit section. 7. The electronic control apparatus according to claim 4 , wherein the control circuit section is configured to store the second rotation angle information about the electric motor and the position information about the steering wheel immediately after the ignition switch is stopped; and when the ignition switch operates a next time, the control circuit section is configured to calculate position information about the steering wheel at a present time point from the second rotation angle information acquired from the monitoring circuit section and the stored position information about the steering wheel. 8. The electronic control apparatus according to claim 4 , wherein, when the ignition switch operates, the control circuit section is configured to acquire the second rotation angle information from the monitoring circuit section, compare a result of an arithmetic operation of a rotation angle of the electric motor managed by the control circuit section itself, and use the acquired second rotation angle information to diagnose certainty of the rotation angle of the electric motor. 9. The electronic control apparatus according to claim 4 , wherein, when the ignition switch operates, the control circuit section is configured to acquire the second set of rotation angle signals from the second magnetism detecting element via the monitoring circuit section, compare the result of an arithmetic operation of a rotation angle of the electric motor managed by the control circuit section itself, and use the second rotation angle information obtained by an arithmetic operation on the basis of the acquired second set of rotation angle signals to diagnose certainty of the rotation angle of the electric motor. 10. The electronic control apparatus according to claim 4 , wherein, when the ignition switch operates, the control circuit section is configured to acquire the second set of rotation angle signals from the second magnetism detecting element via the monitoring circuit section, compare the result of calculation of a rotation angle of the electric motor managed by the control circuit section itself, and use the second rotation angle information obtained by performing an arithmetic operation on the basis of the acquired second set of rotation angle signals to diagnose certainty of output of the first magnetism detecting element or the second magnetism detecting element. 11. The electronic control apparatus according to claim 4 , further comprising: a battery which defines the power source; a first power source circuit section electrically connected to the battery via the ignition switch to supply power to the first magnetism detecting element and the control circuit section; and a second power source circuit section electrically connected to the battery to directly supply power to the second magnetism detecting element and the monitoring circuit section. 12. The electronic control apparatus according to claim 11 , wherein the monitoring circuit section is configured to supply power directly to the second magnetism detecting element. 13. The electronic control apparatus according to claim 4 , further comprising a common power source circuit section including: a battery which defines the power source; a first power source output terminal connected to the battery via the ignition switch to distribute power outputted from the battery to the first magnetism detecting element and the control circuit section via the ignition switch; and a second power source output terminal electrically connected to the battery to distribute power outputted from the battery directly to the second magnetism detecting element and the monitoring circuit section. 14. The electronic control apparatus according to claim 13 , further comprising a composite integrated circuit section including at least two of the first power source circuit section, the second power source circuit section, and the common power source circuit section, the at least two of the first power source circuit section, the second power source circuit section, and the common power source circuit section being housed in one package. 15. The electronic control apparatus according to claim 14 , wherein the monitoring circuit section is configured to supply power directly to the secon