https://community.nxp.com/t5/Motor-Control/Position-From-3-Hall-sensors-in-FOC-Motor-Control/m-p/2176939#M27 <P><SPAN>Dear All,</SPAN><BR /><BR /><BR /><SPAN>I am currently working on a 10 kW motor drive for controlling a PMSM in an automotive traction application, utilizing a Field-Oriented Control (FOC) algorithm. I am facing a challenge with position extraction from the motor’s Hall sensors.</SPAN><BR /><BR /><BR /><SPAN>The motor is equipped</SPAN></P><P>&nbsp;</P><P>&nbsp;</P><P>   </P><P><SPAN>with three Hall sensors spaced 120 electrical degrees apart. However, due to sensor misalignment or misplacement, I am experiencing position jumps at N*60 electrical degrees. This issue appears to stem from the position extraction algorithm. Specifically, the Hall sensors' XOR logic determines position in 60-degree segments of the electrical cycle. To obtain a continuous angle, I interpolate between these segments using speed summation.</SPAN><BR /><BR /><BR /><SPAN>I have tested various smoothing methods, including PLL and others, which work well up to around 3000 RPM. Beyond this speed, I observe current spikes leading to torque ripple and an audible buzzing noise from the motor.</SPAN><BR /><BR /><BR /><SPAN>I will attach plots of the extracted position and Hall sensor signals for reference.</SPAN><BR /><BR /><BR /><SPAN>If anyone has encountered similar issues or has experience with position extraction from Hall sensors in such conditions, I would greatly appreciate your insights or recommendations.</SPAN><BR /><BR /><BR /><SPAN>Thank you in advance.</SPAN></P> Sat, 27 Sep 2025 12:11:05 GMT engeek 2025-09-27T12:11:05Z https://community.nxp.com/t5/Motor-Control/Position-From-3-Hall-sensors-in-FOC-Motor-Control/m-p/2176939#M27 <P><SPAN>Dear All,</SPAN><BR /><BR /><BR /><SPAN>I am currently working on a 10 kW motor drive for controlling a PMSM in an automotive traction application, utilizing a Field-Oriented Control (FOC) algorithm. I am facing a challenge with position extraction from the motor’s Hall sensors.</SPAN><BR /><BR /><BR /><SPAN>The motor is equipped</SPAN></P><P>&nbsp;</P><P>&nbsp;</P><P>   </P><P><SPAN>with three Hall sensors spaced 120 electrical degrees apart. However, due to sensor misalignment or misplacement, I am experiencing position jumps at N*60 electrical degrees. This issue appears to stem from the position extraction algorithm. Specifically, the Hall sensors' XOR logic determines position in 60-degree segments of the electrical cycle. To obtain a continuous angle, I interpolate between these segments using speed summation.</SPAN><BR /><BR /><BR /><SPAN>I have tested various smoothing methods, including PLL and others, which work well up to around 3000 RPM. Beyond this speed, I observe current spikes leading to torque ripple and an audible buzzing noise from the motor.</SPAN><BR /><BR /><BR /><SPAN>I will attach plots of the extracted position and Hall sensor signals for reference.</SPAN><BR /><BR /><BR /><SPAN>If anyone has encountered similar issues or has experience with position extraction from Hall sensors in such conditions, I would greatly appreciate your insights or recommendations.</SPAN><BR /><BR /><BR /><SPAN>Thank you in advance.</SPAN></P> Sat, 27 Sep 2025 12:11:05 GMT https://community.nxp.com/t5/Motor-Control/Position-From-3-Hall-sensors-in-FOC-Motor-Control/m-p/2176939#M27 engeek 2025-09-27T12:11:05Z https://community.nxp.com/t5/Motor-Control/Position-From-3-Hall-sensors-in-FOC-Motor-Control/m-p/2176972#M28 <P>Hi</P> <P>Please help to share the motor control system main processor/microcontroller part number.</P> <P>Or referred NXP motor control reference design name/link. Thanks.</P> <P>Best regards,</P> <P>Mike</P> Sun, 28 Sep 2025 00:49:49 GMT https://community.nxp.com/t5/Motor-Control/Position-From-3-Hall-sensors-in-FOC-Motor-Control/m-p/2176972#M28 Hui_Ma 2025-09-28T00:49:49Z