A circuit includes a processor that analyzes a pulse width modulated (PWM) signal feedback from a brushless DC motor to determine a transition between a mutual inductance zero crossing condition and a Back Electro Motive Force (BEMF) zero crossing condition of the brushless DC motor. A mutual induct
A circuit includes a processor that analyzes a pulse width modulated (PWM) signal feedback from a brushless DC motor to determine a transition between a mutual inductance zero crossing condition and a Back Electro Motive Force (BEMF) zero crossing condition of the brushless DC motor. A mutual inductance controller is executed by the processor to commutate the brushless DC motor at startup of the motor when the mutual inductance zero crossing condition is detected by the processor. A BEMF controller is executed by the processor to commutate the brushless DC motor after startup of the motor when the BEMF zero crossing condition is detected by the processor.
대표청구항▼
1. A motor system, comprising: a motor; andan integrated circuit including: a processor configured to receive a feedback signal associated with the motor, and configured to detect a transition from a mutual inductance zero crossing (MIZO) condition to a back electromotive force zero crossing (BEMFZO
1. A motor system, comprising: a motor; andan integrated circuit including: a processor configured to receive a feedback signal associated with the motor, and configured to detect a transition from a mutual inductance zero crossing (MIZO) condition to a back electromotive force zero crossing (BEMFZO) condition based on the feedback signal;a mutual inductance controller coupled to the processor, the mutual inductance controller configured to commutate the motor before the transition is detected by the processor; anda BEMF controller coupled to the processor, the BEMF controller configured to commutate the motor upon and after the transition is detected by the processor;the feedback signal indicates a voltage pattern across a phase winding and a center tap connection of the motor; andthe processor is configured to determine the transition when the voltage pattern includes a number of successive pulses with a constant polarity before a zero crossing event, and when the number exceeds a predetermined threshold. 2. The motor system of claim 1, in which the integrated circuit includes a switch coupled to the processor, the switch configured to select the BEMF controller and unselect the mutual inductance controller upon and after the transition is detected by the processor. 3. The motor system of claim 1, including: a monitor circuit coupled to the motor, the monitor circuit configured to generate the feedback signal indicating a relative predominance between MIZO events and BEMFZO events. 4. The motor system of claim 1, in which: the feedback signal indicates a relative predominance between MIZO events and BEMFZO events; andthe processor is configured to determine the motor is in the MIZO condition when the MIZO events predominate the BEMFZO events. 5. The motor system of claim 1, in which: the feedback signal indicates a relative predominance between MIZO events and BEMFZO events; andthe processor is configured to determine the motor is in the BEMFZO condition when the BEMFZO events predominate the MIZO events. 6. The motor system of claim 1, in which: the feedback signal indicates a relative predominance between MIZO events and BEMFZO events; andthe processor is configured to detect the transition when the BEMFZO events begin to predominate the MIZO events. 7. The motor system of claim 1, including: a monitor circuit coupled to the motor, the monitor circuit configured to generate the feedback signal indicating a voltage pattern across a phase winding and a center tap connection of the motor. 8. The motor system of claim 1, in which: the feedback signal indicating a voltage pattern across a phase winding and a center tap connection of the motor; andthe processor is configured to determine the motor is in the MIZO condition when the voltage pattern includes a pair of successive pulses having opposite polarities immediately before a zero crossing event. 9. The motor system of claim 1, in which: the feedback signal indicating a voltage pattern across a phase winding and a center tap connection of the motor; andthe processor is configured to determine the motor is in the BEMFZO condition when the voltage pattern includes successive pulses with a constant polarity before, after, and during a zero crossing event. 10. An integrated circuit, comprising: a processor configured to receive a feedback signal associated with a motor, and configured to detect a transition from a mutual inductance zero crossing (MIZO) condition to a back electromotive force zero crossing (BEMFZO) condition based on the feedback signal;a mutual inductance controller coupled to the processor, the mutual inductance controller configured to commutate the motor before the transition is detected by the processor; anda BEMF controller coupled to the processor, the BEMF controller configured to commutate the motor upon and after the transition is detected by the processor; andthe feedback signal indicates a voltage pattern across a phase winding and a center tap connection of the motor during an on-motor pulse and an off-motor pulse and the processor is configured to determine the transition when the voltage pattern includes a number of successive pulses with a constant polarity before a zero crossing event, and when the number exceeds a predetermined threshold. 11. The integrated circuit of claim 10, including: a switch coupled to the processor, the switch configured to select the BEMF controller and unselect the mutual inductance controller upon and after the transition is detected by the processor. 12. The integrated circuit of claim 10, in which the feedback signal indicates a relative predominance between MIZO events and BEMFZO events. 13. The integrated circuit of claim 12, in which the processor is configured to determine the motor is in the MIZO condition when the MIZO events predominate the BEMFZO events. 14. The integrated circuit of claim 12, in which the processor is configured to determine the motor is in the BEMFZO condition when the BEMFZO events predominate the MIZO events. 15. The integrated circuit of claim 12, in which the processor is configured to detect the transition when the BEMFZO events begin to predominate the MIZO events. 16. The integrated circuit of claim 10, in which the processor is configured to determine the motor is in the MIZO condition when the voltage pattern includes a pair of successive pulses having opposite polarities immediately before a zero crossing event. 17. The integrated circuit of claim 10, in which the processor is configured to determine the motor is in the BEMFZO condition when the voltage pattern includes successive pulses with a constant polarity before, after, and during a zero crossing event.
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