- Vector Space: In an IPMSM, the stator currents and voltages can be represented in a vector space (commonly referred to as the d-q axis), which rotates with the rotor magnetic field. The q-axis (quadrature axis) current iq is directly related to the electromagnetic torque production in the motor.
- Maximum Torque Response: By identifying the angle corresponding to the maximum iq, the method is effectively targeting the position where the injected high-frequency signal has the strongest interaction with the rotor's magnetic field. This position is likely to be where the high-frequency impedance is the lowest, which is useful for estimating the rotor position accurately.
- Initial Position Estimation: At standstill or low speeds, the precise rotor position is not observable through back-EMF. The angle corresponding to the maximum iq provides a good initial estimate of the rotor position, which is essential for starting the motor smoothly without position sensors.
- Estimation Improvement: Selecting the angle corresponding to the maximum iq helps improve the estimation of the rotor position when the motor is not moving. This estimate can then be used as a starting point for sensorless control algorithms as the motor speeds up and other methods (like back-EMF observation) become more effective.
Without having the full context or the complete document, this is a general explanation based on the principles of motor control and sensorless operation of IPMSMs.
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