Rotation angle correction device and motor control system

What is claimed is: 1. A rotation angle correction device for correcting an output rotation angle of a resolver digital converter that converts a signal output from a resolver attached to a motor, comprising: an arrival time measurement unit that measures an arrival time that is a time until the output rotation angle reaches a specified rotation angle from a reference angle in a current cycle; a reference time calculation unit that calculates a reference time that is a time until the output rotation angle reaches the specified rotation angle from the reference angle assuming that the motor rotates in the current cycle at the same angular velocity as an angular velocity in a previous cycle; a time difference calculation unit that calculates a time difference between the arrival time and the reference time; an error angle calculation unit that multiplies the time difference and the angular velocity in the previous cycle to obtain an error angle; and a correction unit that corrects the output rotation angle based on the error angle. 2. The rotation angle correction device according to claim 1 , wherein the correction unit adds the output rotation angle and the error angle to obtain a corrected rotation angle of the output rotation angle, when the output rotation angle is the specified rotation angle. 3. The rotation angle correction device according to claim 2 , wherein the specified rotation angle is i (i=1 to 2 m ) times an angle obtained by dividing 360° by 2 m . 4. The rotation angle correction device according to claim 3 , wherein, when the output rotation angle is not coincident with a plurality of the specified rotation angles, the correction unit obtains the corrected rotation angle for the output rotation angle by obtaining an error angle for the output rotation angle by linear interpolation between error angles for two of the specified rotation angles and then adding the output rotation angle and the error angle for the output rotation angle. 5. The rotation angle correction device according to claim 1 , further comprising a previous-cycle time measurement unit that measures a time of the previous cycle on the basis of a difference between a first timing at which the output rotation angle has reached the reference angle in the previous cycle and a second timing at which the output rotation angle has reached the reference angle. 6. The rotation angle correction device according to claim 5 , further comprising a previous angular velocity output unit that obtains the angular velocity in the previous cycle on the basis of the measured time of the previous cycle. 7. The rotation angle correction device according to claim 6 , wherein the previous angular velocity output unit obtains the angular velocity in the previous cycle corresponding to the measured time of the previous cycle by using a map defining a relation between the time of the previous cycle and the angular velocity in the previous cycle. 8. The rotation angle correction device according to claim 1 , wherein the output rotation angle is represented by n bits, and wherein, when the specified rotation angle is i (i=1 to 2 m ) times the angle obtained by 360° by 2 m , the arrival time measurement unit shifts the output rotation angle by (n−m) bits to right, and determines that the output rotation angle has reached the specified rotation angle when a lowermost bit after shifting is changed. 9. The rotation angle correction device according to claim 8 , wherein the arrival time measurement unit does not measure the arrival time in a no-detection period immediately after the output rotation angle has reached the specified rotation angle. 10. The rotation angle correction device according to claim 9 , wherein a length of the no-detection period is less than a time of the previous cycle. 11. The rotation angle correction device according to claim 1 , further comprising an acceleration-and-deceleration correction amount calculation unit that acquires in a current cycle an angular error that is a product of a difference between a time of the previous cycle and a time of a cycle before previous one and an angular velocity of the cycle before previous one, obtains an angular error per unit angle of the output rotation angle on the basis of the angular error, and calculates an acceleration-and-deceleration correction amount for the output rotation angle on the basis of the output rotation angle and the angular error per unit angle, wherein the correction unit corrects the output rotation angle on the basis of the error angle and the acceleration-and-deceleration correction amount. 12. The rotation angle correction device according to claim 11 , wherein the acceleration-and-deceleration correction amount calculation unit calculates the acceleration-and-deceleration correction amount assuming that the angular error is 0, when the angular error is smaller than a threshold value. 13. The rotation angle correction device according to claim 11 , wherein the acceleration-and-deceleration correction amount calculation unit calculates the acceleration-and-deceleration correction amount in the current cycle by using an angular error used for calculating the acceleration-and-deceleration correction amount in the previous cycle, when the difference between the time of the previous cycle and the time of the cycle before previous one is smaller than a threshold value. 14. The rotation angle correction device according to claim 1 , wherein the output rotation angle is represented by n bits, wherein a unit time calculation unit is provided, which shifts a time of the previous cycle by n bits to right to obtain a unit time required for change of the output rotation angle by one bit in the previous cycle, and wherein the reference time calculation unit multiplies the specified rotation angle and the unit time to obtain the reference time that is the time until the output rotation angle reaches the specified rotation angle from the reference angle when it is assumed that the motor rotates at the same angular velocity as the angular velocity in the previous cycle. 15. A motor control system comprising: a motor; a resolver attached to the motor; a resolver digital converter that converts a signal output from the resolver; and a rotation angle correction device that corrects an output rotation angle of the resolver digital converter, wherein the rotation angle correction device obtains an error angle by multiplying a difference between an arrival time that is a time until the output rotation angle reaches a specified rotation angle from a reference angle in a current cycle and a reference time that is a time until the output rotation angle reaches the specified rotation angle from the reference angle assuming that the motor rotates in the current cycle at the same angular velocity as an angular velocity in a previous cycle, and the angular velocity in the previous cycle, and corrects the output rotation angle based on the error angle. 16. A motor control system, comprising: a resolver digital converter (RDC) that converts an output from a resolver; and a rotation angle correction device that corrects an output from the RDC based on an angular velocity and a time difference, wherein the rotation angle correction device calculates: the angular velocity based on the output from the RDC, first and second arrival times when the output from the RDC indicates a predetermined angle, and the time difference between the first arrival time and the second arrival time. 17. The motor control system according to claim 16 , wherein the first a