An electrical induction motor may include nine terminals configured to receive nine current inputs from nine output phases of a nine phase inverter. The motor may include nine windings connected to the nine terminals, and a plurality of contactors, wherein each of the plurality of contactors may be
An electrical induction motor may include nine terminals configured to receive nine current inputs from nine output phases of a nine phase inverter. The motor may include nine windings connected to the nine terminals, and a plurality of contactors, wherein each of the plurality of contactors may be selectively opened or closed in a circuit including the nine windings to selectively connect the windings together in one of a mesh configuration or a star configuration. Each of the windings may be selectively connected between two of the nine current inputs, with a phase angle difference between the two current inputs of 40 degrees. Each of the contactors may be selectively opened or closed to establish a span value for the mesh configuration of two, with two being the number of inverter output phases between a terminal of one of the nine windings and a terminal of another of the nine windings connected to the one of the nine windings. The motor may selectively receive a first one of the harmonics of a drive waveform generated by the nine phase inverter and a second, different one of the harmonics of the drive waveform generated by the nine phase inverter.
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1. An electrical induction motor, comprising: nine separate terminals configured to receive nine separate current inputs from nine output phases of a nine phase inverter;nine windings connected to the nine separate terminals;a plurality of contactors, each of the plurality of contactors being config
1. An electrical induction motor, comprising: nine separate terminals configured to receive nine separate current inputs from nine output phases of a nine phase inverter;nine windings connected to the nine separate terminals;a plurality of contactors, each of the plurality of contactors being configured to be selectively opened or closed in a circuit including the nine windings to selectively connect the nine windings together in one of a mesh configuration or a star configuration;each of the nine windings being configured to be selectively connected between two of the nine separate current inputs, with a phase angle difference between the two separate current inputs of 40 degrees;each of the plurality of contactors being further configured to be selectively opened or closed to establish a span value for the mesh configuration of two, with two being the number of inverter output phases between a terminal of one of the nine windings and a terminal of another of the nine windings connected to the one of the nine windings; andthe motor being further configured to selectively receive a first one of the harmonics of a drive waveform generated by the nine phase inverter and a second, different one of the harmonics of the drive waveform generated by the nine phase inverter. 2. The electrical induction motor of claim 1, wherein each of the nine windings comprises at least a resistance and an inductance. 3. The electrical induction motor of claim 1, further configured to receive one or more signals indicative of a request to operate the motor to start an engine, and configured to process the one or more signals in order to selectively open or close each of the plurality of contactors to establish one of the mesh configuration with a span value of two or the star configuration. 4. The electrical induction motor of claim 1, further configured to receive one or more signals indicative of a request to operate the motor to start an engine, and configured to process the one of more signals in order to selectively receive the fifth harmonic of the drive waveform generated by the nine phase inverter. 5. The electrical induction motor of claim 4, wherein the fifth harmonic of the drive waveform selectively received from the nine phase inverter results in the generation of ten magnetic poles. 6. The electrical induction motor of claim 5, wherein an amount of current flowing through each of the nine windings is greater than an amount of current received at each of the nine separate terminals from the nine phase inverter, and a voltage across each of the nine windings is less than a voltage provided to the motor by the nine phase inverter. 7. The electrical induction motor of claim 1, further configured to receive one or more signals indicative of a request to operate the motor as an alternator to generate electricity, and configured to process the one or more signals in order to selectively open or close each of the plurality of contactors to establish one of the mesh configuration with a span value of two or the star configuration. 8. The electrical induction motor of claim 1, further configured to receive one or more signals indicative of a request to operate the motor as an alternator to generate electricity, and configured to process the one of more signals in order to selectively receive the first, fundamental harmonic of the drive waveform generated by the nine phase inverter. 9. The electrical induction motor of claim 8, wherein the first, fundamental harmonic of the drive waveform received from the nine phase inverter results in the generation of two magnetic poles. 10. The electrical induction motor of claim 9, wherein an amount of current flowing through each of the nine windings is less than an amount of current received at each of the nine separate terminals from the nine phase inverter, and a voltage across each of the nine windings is greater than a voltage provided to the motor by the nine phase inverter. 11. A method for configuring a nine phase electrical induction motor including nine windings and a plurality of contactors arranged in a circuit including the nine windings, the method comprising: selectively opening or closing each of the plurality of contactors to selectively connect the nine windings together in one of a mesh configuration or a star configuration;selectively connecting each of the nine windings between two of nine separate current inputs from nine output phases of a nine phase inverter, with a phase angle difference between the two separate current inputs of 40 degrees;selectively opening or closing each of the plurality of contactors to result in a span value for the mesh configuration of two, with two being the number of inverter output phases between a terminal of one of the nine windings and a terminal of another of the nine windings connected to the one of the nine windings; andselectively receiving a first one of the harmonics of a drive waveform generated by the nine phase inverter and a second, different one of the harmonics of the drive waveform generated by the nine phase inverter. 12. The method of claim 11, further including: receiving one or more signals indicative of a request to operate the motor to start an engine; andprocessing the one or more signals in order to selectively open or close each of the plurality of contactors to establish one of the mesh configuration with a span value of two or the star configuration. 13. The method of claim 11, further including: receiving one or more signals indicative of a request to operate the motor to start an engine; andprocessing the one of more signals in order to selectively receive the fifth harmonic of the drive waveform generated by the nine phase inverter. 14. The method of claim 13, wherein the fifth harmonic of the drive waveform results in the generation of ten magnetic poles. 15. The method of claim 11, further including: receiving one or more signals indicative of a request to operate the motor as an alternator to generate electricity; andprocessing the one or more signals in order to selectively open or close each of the plurality of contactors to establish one of the mesh configuration with a span value of two or the star configuration. 16. The method of claim 11, further including: receiving one or more signals indicative of a request to operate the motor as an alternator to generate electricity; andprocessing the one of more signals in order to selectively receive the first, fundamental harmonic of the drive waveform generated by the nine phase inverter. 17. The method of claim 16, wherein the first, fundamental harmonic of the drive waveform results in the generation of 2 magnetic poles. 18. An electrical system for a machine, the electrical system comprising: a nine phase inverter; anda nine phase induction motor configured to receive nine separate current inputs at nine separate terminals from nine output phases of the nine phase inverter, the nine phase induction motor further including: nine windings connected to the nine separate terminals; anda plurality of contactors, each of the plurality of contactors being configured to be selectively opened or closed in a circuit including the nine windings to selectively connect the nine windings together in one of a mesh configuration or a star configuration;each of the nine windings being configured to be selectively connected between two of the nine separate current inputs, with a phase angle difference between the two separate current inputs of 40 degrees;each of the plurality of contactors being further configured to be selectively opened or closed to establish a span value for the mesh configuration of two, with two being the number of inverter output phases between a terminal of one of the nine windings and a terminal of another of the nine windings connected to the one of the nine windings; andthe motor being further configured to selectively receive a first one of the harmonics of a drive waveform generated by the nine phase inverter and a second, different one of the harmonics of the drive waveform generated by the nine phase inverter. 19. The electrical system of claim 18, wherein the nine phase induction motor is further configured to: receive one or more signals indicative of a request to operate the motor to start an engine;process the one or more signals in order to selectively open or close each of the plurality of contactors to establish one of the mesh configuration with a span value of two or the star configuration; andprocess the one of more signals in order to selectively receive the fifth harmonic of the drive waveform generated by the nine phase inverter. 20. The electrical system of claim 18, wherein the nine phase induction motor is further configured to: receive one or more signals indicative of a request to operate the motor as an alternator to generate electricity;process the one or more signals in order to selectively open or close each of the plurality of contactors to establish one of the mesh configuration with a span value of two or the star configuration; andprocess the one of more signals in order to selectively receive the first, fundamental harmonic of the drive waveform generated by the nine phase inverter.
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이 특허에 인용된 특허 (9)
Edelson, Jonathan Sidney; Geller, Rochel, Electronically controlled engine generator set.
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