- Determine the electrical power based on speed reference and torque command. Adjust for flux weakening if applicable.
- Calculate the maximum allowable DC current (I_{DC_{max}}) using the maximum power limit (P_{max}) and the DC link voltage (V_{DC}).
- Before setting I_d and I_q references, ensure the estimated I_{DC} won't exceed I_{DC_{max}}. If it does, scale down I_d and I_q references to keep I_{DC} within limits.
- Use a scaling factor based on the ratio of I_{DC_{max}} to the estimated I_{DC} from your current references. Adjust I_d and I_q accordingly to maintain the power within desired limits.
DC CURRENT LIMITATION IN FOC OF PMSM
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I am trying to simulate vector control of pmsm .The id iq PI takes care of the phase currents.I need to limit power also without using a PI because I already have speed PI and another PI used for FLUX weakeaning (voltage regulation based).So if have to implement it in hardware there would be 5 PI if i use a PI for DC current which is undesirable as my MCU is not that powerful.Is there any other logic to implement DC current limiting without using a PI in FOC of PMSM
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Pratyush
el 17 de Jun. de 2024
Hi Pratheesh,
To limit power in a PMSM vector control system without adding another PI controller, you can directly limit the DC current based on power calculations. Here's what you can try:
This would avoid the need for an additional PI controller by directly managing the power demand through current limiting, making it suitable for systems with limited computational resources.
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