Methods for magnetizing and demagnetizing magnetic poles in an electrical machine

What is claimed is: 1. A method for installing an electrical machine, the electrical machine including a stator assembly and a rotor assembly with a plurality of magnetic poles composed of a permanent magnetic material that is in a non-magnetized condition, the method comprising: after the electrical machine is installed, individually magnetizing a plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles, wherein individually magnetizing the plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles comprises: magnetizing the magnetic domains in a first number of the plurality of magnetic poles with a first polarization vector; and magnetizing the magnetic domains in a second number of the plurality of magnetic poles with a second polarization vector that differs from the first polarization vector. 2. A method for installing an electrical machine, the electrical machine including a stator assembly and a rotor assembly with a plurality of magnetic poles composed of a permanent magnetic material that is in a non-magnetized condition, the method comprising: after the electrical machine is installed, individually magnetizing a plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles, wherein individually magnetizing the plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles comprises: serially aligning each of the plurality of magnetic poles relative to a magnetizing fixture; when a respective one of the plurality of magnetic poles is aligned with the magnetizing fixture, positioning the magnetizing fixture at a plurality of positions relative to the respective one of the plurality of magnetic poles; and at each of the plurality of positions, causing the magnetizing fixture to generate an external magnetic field effective to produce one of the plurality of magnetic domains. 3. The method of claim 2 wherein positioning the magnetizing fixture at the plurality of positions relative to the respective one of the plurality of magnetic poles comprises: moving the magnetizing fixture in a single direction along a linear trajectory connecting the plurality of positions. 4. The method of claim 2 wherein causing the magnetizing fixture to generate the external magnetic field effective to produce one of the plurality of magnetic domains comprises: passing a current pulse through a coil of the magnetic fixture to produce the external magnetic field. 5. The method of claim 2 wherein positioning the magnetizing fixture at the plurality of positions relative to the respective one of the plurality of magnetic poles comprises: moving the magnetizing fixture in a plurality of directions along multi-axis trajectory connecting the plurality of positions. 6. The method of claim 2 wherein serially aligning each of the plurality of magnetic poles with the magnetizing fixture comprises: rotating the rotor assembly about a longitudinal axis to serially align each of the plurality of magnetic poles with the magnetizing fixture. 7. The method of claim 2 wherein positioning the magnetizing fixture at the plurality of positions relative to the respective one of the plurality of magnetic poles comprises: moving the magnetizing fixture in a direction toward the respective one of the plurality of the magnetic poles or in a direction away from the respective one of the plurality of magnetic poles. 8. The method of claim 7 wherein the direction toward the respective one of the plurality of magnetic poles reduces a separation between the magnetizing fixture and the respective one of the plurality of magnetic poles, and the direction away from the respective one of the plurality of magnetic poles increases the separation between the magnetizing fixture and the respective one of the plurality of magnetic poles. 9. A method for installing an electrical machine, the electrical machine including a stator assembly and a rotor assembly with a plurality of magnetic poles composed of a permanent magnetic material that is in a non-magnetized condition, the method comprising: after the electrical machine is installed, individually magnetizing a plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles, wherein individually magnetizing the plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles comprises: serially aligning each of the plurality of magnetic poles relative to a plurality of magnetizing fixtures; and when each respective magnetic pole is aligned with the plurality of magnetizing fixtures, causing the magnetizing fixtures to generate respective external magnetic fields effective to produce at least two of the plurality of magnetic domains. 10. The method of claim 9 wherein the at least two magnetic domains are generated with the plurality of magnetizing fixtures located at a first position relative to each respective magnetic pole, and individually magnetizing the plurality of magnetic domains in the permanent magnetic material of each of the plurality of magnetic poles further comprises: moving the plurality of magnetizing fixtures to a second position relative to relative to each respective magnetic pole; and causing the plurality of magnetizing fixtures to generate respective external magnetic fields effective to produce at least two more of the plurality of magnetic domains. 11. The method of claim 10 wherein the rotor assembly includes a longitudinal axis, the rotor assembly is configured to rotate about the longitudinal axis, and the plurality of magnetizing fixtures are moved along a linear trajectory in a direction aligned with the longitudinal axis from the first position to the second position. 12. The method of claim 10 wherein the rotor assembly includes a longitudinal axis, the rotor assembly is configured to rotate about the longitudinal axis, and the magnetizing fixtures are moved along a multi-axis trajectory in a first direction parallel to the longitudinal axis and in a second direction transverse to the first direction.