Method for detecting initial position of magnetic pole of rotor of built-in permanent magnetic synchronous motor
A permanent magnet synchronous motor, initial position detection technology, applied in the control of generators, electronic commutators, motor generators, etc., can solve the problems of misjudgment of polarity, poor practicability, complex signal processing, etc., and achieve satisfactory identification Accuracy, simple processing method, reliable effect of judging the rotor magnetic pole polarity method
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specific Embodiment approach 1
[0018] Specific implementation mode one: the following combination Figure 1 to Figure 5 Describe this implementation mode, this implementation mode comprises the following steps:
[0019] Step 1: Using open-loop control, inject amplitude U into the stator winding of the built-in permanent magnet synchronous motor under test i , the angular frequency is ω i The three-phase symmetrical high-frequency rotating voltage vector signal, and obtain the initial judgment value of the rotor magnetic pole position θ e (first), the specific method is:
[0020] Step a. Initialize the given position angle of the rotor
[0021] Step b. Transform the three-phase symmetrical high-frequency rotating voltage vector signal from a polar coordinate system to a rectangular coordinate system to obtain a voltage reference value u in a two-phase stationary coordinate system α1 * and u β1 * ,in u β 1 * = ...
specific Embodiment approach 2
[0070] Embodiment 2. The difference between this embodiment and Embodiment 1 is that the angular frequency ω of the three-phase symmetrical high-frequency rotating voltage vector signal i is 500Hz~2kHz, the amplitude U of the high-frequency voltage vector signal i It is 5%-30% of the rated voltage of the built-in permanent magnet synchronous motor to be tested, and the other is the same as the first embodiment.
[0071] The frequency of the injected high-frequency rotating voltage signal is much higher than the rated operating frequency of the interior permanent magnet synchronous motor.
specific Embodiment approach 3
[0072] Specific Embodiment 3. The difference between this embodiment and Embodiment 1 is that the amplitude of the pulse voltage vector injected in the two directions described in step 2 is 20% to 70% of the rated voltage value of the built-in permanent magnet synchronous motor , the pulse width of the pulse voltage vector injected in the two directions is 700 μs-900 μs, and the other is the same as the first embodiment.
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