Motor control device

The invention claimed is: 1. A motor control device for driving a brushless motor based on a d-axis command current which is a current command value in a direction of a d-axis of rotating coordinates of vector control, and a q-axis command current which is a current command value in a direction of a q-axis of the rotating coordinates, the motor control device comprising: a current acquisition unit that acquires a current flowing through the brushless motor by supplying power from a power supply; a voltage acquisition unit that acquires a power supply voltage applied to the brushless motor from the power supply; and a command current determination unit that determines the d-axis command current and the q-axis command current, wherein the command current determination unit determines the d-axis command current and the q-axis command current based on a power limit circle which is a current characteristic on the d-axis and the q-axis based on an inner product of a voltage vector including a voltage component in the direction of the d-axis and a voltage component in the direction of the q-axis and a current vector including a current component in the direction of the d-axis and a current component in the direction of the q-axis obtained from a current flowing through the brushless motor, and a voltage limit circle which is a current characteristic on the d-axis and the q-axis based on the power supply voltage and an angular velocity of the brushless motor. 2. The motor control device according to claim 1 , wherein when the voltage limit circle and the power limit circle intersect each other, the command current determination unit determines the d-axis command current and the q-axis command current based on an intersection of the voltage limit circle and the power limit circle. 3. The motor control device according to claim 1 or 2 , wherein the command current determination unit includes a limit torque derivation unit that derives a limit torque which is a limit value of a torque for the brushless motor, based on the voltage limit circle and the power limit circle, a command torque derivation unit that derives a command torque within a range not exceeding the limit torque, and a command current derivation unit that derives the d-axis command current and the q-axis command current based on the command torque. 4. The motor control device according to claim 3 , further comprising a rotation velocity acquisition unit that acquires a rotation velocity of a rotor of the brushless motor, wherein the command torque derivation unit derives a correction torque by feedback control based on a command value of the rotation velocity of the rotor and the rotation velocity of the rotor, and sets one of a sum of a load torque of the brushless motor and the correction torque and the limit torque having a smaller value as the command torque. 5. The motor control device according to claim 3 , further comprising a rotation velocity acquisition unit that acquires a rotation velocity of a rotor of the brushless motor, wherein the command current determination unit includes a map storage unit that stores a map indicating a relationship between the rotation velocity of the rotor, the command torque, the power supply voltage, the d-axis command current, and the q-axis command current, and the command current derivation unit uses the map to derive the d-axis command current and the q-axis command current based on the command torque, the rotation velocity of the rotor, and the power supply voltage. 6. The motor control device according to claim 2 , wherein the command current determination unit includes a limit torque derivation unit that derives a limit torque which is a limit value of a torque for the brushless motor, based on the voltage limit circle and the power limit circle, a command torque derivation unit that derives a command torque within a range not exceeding the limit torque, and a command current derivation unit that derives the d-axis command current and the q-axis command current based on the command torque. 7. The motor control device according to claim 6 , further comprising a rotation velocity acquisition unit that acquires a rotation velocity of a rotor of the brushless motor, wherein the command torque derivation unit derives a correction torque by feedback control based on a command value of the rotation velocity of the rotor and the rotation velocity of the rotor, and sets one of a sum of a load torque of the brushless motor and the correction torque and the limit torque having a smaller value as the command torque. 8. The motor control device according to claim 4 , further comprising a rotation velocity acquisition unit that acquires a rotation velocity of a rotor of the brushless motor, wherein the command current determination unit includes a map storage unit that stores a map indicating a relationship between the rotation velocity of the rotor, the command torque, the power supply voltage, the d-axis command current, and the q-axis command current, and the command current derivation unit uses the map to derive the d-axis command current and the q-axis command current based on the command torque, the rotation velocity of the rotor, and the power supply voltage. 9. The motor control device according to claim 6 , further comprising a rotation velocity acquisition unit that acquires a rotation velocity of a rotor of the brushless motor, wherein the command current determination unit includes a map storage unit that stores a map indicating a relationship between the rotation velocity of the rotor, the command torque, the power supply voltage, the d-axis command current, and the q-axis command current, and the command current derivation unit uses the map to derive the d-axis command current and the q-axis command current based on the command torque, the rotation velocity of the rotor, and the power supply voltage. 10. The motor control device according to claim 7 , further comprising a rotation velocity acquisition unit that acquires a rotation velocity of a rotor of the brushless motor, wherein the command current determination unit includes a map storage unit that stores a map indicating a relationship between the rotation velocity of the rotor, the command torque, the power supply voltage, the d-axis command current, and the q-axis command current, and the command current derivation unit uses the map to derive the d-axis command current and the q-axis command current based on the command torque, the rotation velocity of the rotor, and the power supply voltage.