Multiphase brushless AC electric machine
First Claim
Patent Images
1. A multiphase brushless AC electrical machine comprising:
- a stator frame having a surface provided with parallel slots and projections disposed alternately, each of said slots having an opening onto said surface, each of said openings being substantially as wide as the widest width of the corresponding slot, the stator frame having winding conductors mounted within the slots; and
a rotor frame having a surface provided with permanent magnet means having respective surface sections facing said slots and projections, each of said surface sections facing a number of said slots which corresponds to a number of phases upon which said machine operates, all of said surface sections of said magnet means producing a magnetic flux density having a component average amplitude Br (θ
) perpendicular to the corresponding surface of the stator, which is substantially defined by the following equation;
space="preserve" listing-type="equation">B.sub.r (θ
)=M.sub.r (θ
)·
L.sub.a (θ
)/L.sub.v (θ
)where La (θ
) is defined by the following equation;
##EQU12## where θ
is a position angle in radians with respect to a reference position on said rotor frame;
Br (θ
) is said component average amplitude at said position angle θ
;
La (θ
) is a gap distance between said projections and said surface of said rotor frame at said position angle θ
;
Mr (θ
) is a component of residual induction of said magnet means at said position angle θ
, Mr (θ
) being perpendicular to the corresponding surface of the stator, Mr (θ
) being alternative with a period corresponding to 4π
/K;
K is an even number representative of all of said surface sections; and
C is an arbitrary constant, whereby, in operation, said rotor frame is magnetically coupled to said stator frame while reducing losses due to harmonic distortion of magnetic flux density within said stator frame, having a torque versus current curve that is linear for a larger current band and reducing cogging torque between said stator frame and said rotor frame.
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Abstract
The multiphase brushless AC electric machine comprises a stator frame having a surface provided with parallel slots and projections disposed alternately, each of the openings being substantially as wide as the widest width of the corresponding slot; and a rotor frame having a surface provided with permanent magnet means having respective surface sections facing the slots and projections. All of the surface sections of the magnet means produce a magnetic flux density having a component average amplitude Br (θ) perpendicular to the corresponding surface of the stator, which is substantially defined by the following equation:
B.sub.r (θ)=M.sub.r (θ)·L.sub.a (θ)/L.sub.v
(θ)
where La (θ) is defined by the following equation: ##EQU1## where θ is a position angle in radians with respect to a reference position on the rotor frame; Br (θ) is the component average amplitude at the position angle θ; Lv (θ) is a gap distance between the projections and the surface of the rotor frame at the position angle θ; Mr (θ) is a component of residual induction of the magnet means at the position angle θ, Mr (θ) being perpendicular to the corresponding surface of the stator, Mr (θ) being alternative with a period corresponding to 4π/K; K is an even number representative of all of the surface sections; and C is an arbitrary constant. The present invention is also concerned with a method of operating the multiphase brushless AC electric machine.
70 Citations
20 Claims
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1. A multiphase brushless AC electrical machine comprising:
-
a stator frame having a surface provided with parallel slots and projections disposed alternately, each of said slots having an opening onto said surface, each of said openings being substantially as wide as the widest width of the corresponding slot, the stator frame having winding conductors mounted within the slots; and a rotor frame having a surface provided with permanent magnet means having respective surface sections facing said slots and projections, each of said surface sections facing a number of said slots which corresponds to a number of phases upon which said machine operates, all of said surface sections of said magnet means producing a magnetic flux density having a component average amplitude Br (θ
) perpendicular to the corresponding surface of the stator, which is substantially defined by the following equation;
space="preserve" listing-type="equation">B.sub.r (θ
)=M.sub.r (θ
)·
L.sub.a (θ
)/L.sub.v (θ
)where La (θ
) is defined by the following equation;
##EQU12## where θ
is a position angle in radians with respect to a reference position on said rotor frame;
Br (θ
) is said component average amplitude at said position angle θ
;
La (θ
) is a gap distance between said projections and said surface of said rotor frame at said position angle θ
;
Mr (θ
) is a component of residual induction of said magnet means at said position angle θ
, Mr (θ
) being perpendicular to the corresponding surface of the stator, Mr (θ
) being alternative with a period corresponding to 4π
/K;
K is an even number representative of all of said surface sections; and
C is an arbitrary constant, whereby, in operation, said rotor frame is magnetically coupled to said stator frame while reducing losses due to harmonic distortion of magnetic flux density within said stator frame, having a torque versus current curve that is linear for a larger current band and reducing cogging torque between said stator frame and said rotor frame.
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2. A multiphase brushless AC electric machine according to claim 1, wherein:
-
the stator frame has a cylindrical shape, the surface provided with parallel slots and projections being an outer surface of the stator frame; the rotor frame has a cylindrical shape, the surface provided with permanent magnet means being an inner surface of the rotor frame; the average amplitude Br (θ
) is a radial component;each of the slots has a rectangular cross section; and the permanent magnet means comprise a series of permanent magnets made of a homogeneous material, each of the magnets having a thickness with respect to the position angle θ
determined substantially by La (θ
).
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3. A multiphase brushless AC electric machine according to claim 2, wherein:
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each of the projections is square ended; and each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof.
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4. A multiphase brushless AC electric machine according to claim 2, wherein:
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each of the projections is round ended; and each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof.
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5. A multiphase brushless AC electric machine according to claim 2, wherein:
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the stator frame has an inner surface having recesses substantially aligned with the respective projections; each of the projections is round ended; and each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof, the rotor frame having an outer surface having recesses substantially aligned with central portions of the respective magnets.
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6. A multiphase brushless AC electric machine according to claim 2, wherein:
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the rotor frame has a cylindrical outer surface; each of the projections is round ended; and the inner surface of the rotor frame is provided with inwardly curved housings for receiving respectively the permanent magnets.
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7. A multiphase brushless AC electric machine according to claim 2, wherein:
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the rotor frame has a cylindrical outer surface; each of the projections is round ended; each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof, the inner surface of the rotor frame being provided with inwardly curved housings for receiving respectively the permanent magnets.
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8. A multiphase brushless AC electric machine according to claim 2, wherein:
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the stator frame having an inner corrugated surface defining recesses substantially aligned with the respective projections; each of the slots is terminated by a round ended bottom; each of the projections is round ended; and
each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof.
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9. A multiphase brushless AC electric machine according to claim 2, wherein:
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the stator frame has an inner surface, the stator frame being provided with transverse cavities substantially aligned with the respective projections, each of the cavities being located at mid distance between a lower end of the corresponding projection and the inner surface of the stator frame, each of the cavities having a substantially triangular shape with a summit thereof facing the corresponding projection; each of the slots is terminated, by a round ended bottom; each of the projections is round ended; and each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof.
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10. A multiphase brushless AC electric machine according to claim 2, wherein:
-
each of the projections is square ended; and each of the magnets has truncated ends, magnetic materials corresponding to removed extremities of each of the magnets being added to the corresponding truncated end in such a manner to increase the thickness thereof, the rotor frame having an outer surface having recesses substantially aligned with central portions of the respective magnets.
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11. A multiphase brushless AC electric machine according to claim 2, wherein:
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the stator frame is made of a series of adjacent metal sheets having peripheral portions forming the projections; and said peripheral portions of the metal sheets having tapered thicknesses toward periphery thereof.
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12. A multiphase brushless AC electric machine according to claim 2, wherein each of the projections is square ended.
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13. A multiphase brushless AC electrical machine according to claim 1, wherein the winding conductors have a rectangular cross section.
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14. A method of operating a multiphase brushless AC electric machine, comprising the steps of:
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magnetically coupling a stator frame provided with windings with a rotor frame, the stator frame having a surface provided with parallel slots and projections disposed alternately, each of said slots having an opening onto said surface, each of said openings being substantially as wide as the widest width of the corresponding slot, the windings being mounted within the slots, the rotor frame having a surface provided with permanent magnet means having respective surface sections facing said slots and projections, each of said surface sections facing a number of said slots which corresponds to a number of phases upon which said machine operates, all of said surface sections of said magnet means producing a magnetic flux density having a component average amplitude Br (θ
) perpendicular to the corresponding surface of the stator, which is substantially defined by the following equation;
space="preserve" listing-type="equation">B.sub.r (θ
)=M.sub.r (θ
)·
L.sub.a (θ
)/L.sub.v (θ
)where La (θ
) is defined by the following equation;
##EQU13## where θ
is a position angle in radians with respect to a reference position on said rotor frame;
Br (a) is said component average amplitude at said position angle θ
;
Lv (θ
) is a gap distance between said projections and said surface of said rotor frame at said position angle θ
;
Mr (θ
) is a component of residual induction of said magnet means at said position angle θ
, Mr (θ
) being perpendicular to the corresponding surface of the stator, Mr (θ
) being alternative with a period corresponding to 4π
/K;
K is an even number representative of all of said surface sections; and
C is an arbitrary constant; andenergizing the windings of the stator, whereby, in operation, said rotor frame is magnetically coupled to said stator frame while reducing losses due to harmonic distortion of magnetic flux density within said stator frame, having a torque versus current curve that is linear for a larger current band and reducing cogging torque between said stator frame and said rotor frame.
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15. A motor, comprising:
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a rotor having N convexly-shaped magnets adjacently positioned onto an inner circumferential surface of the rotor, N being an integer greater than one; a stator having K projections facing said magnets, K being an integer greater than one and greater than N, wherein L of the K projections are in alignment with one of the N magnets, L being an integer greater than one.
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16. The motor according to claim 15, wherein the projections have a rectangular shape.
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17. The motor according to claim 15, wherein L is equal to 3.
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18. The motor according to claim 15, wherein the stator frame has openings defining slots, said slots and the projections being disposed alternately, said openings being substantially as wide as the widest width of the corresponding slot, the stator frame having winding conductors mounted within the slots.
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19. The motor according to claim 15, wherein the wiring conductors have a rectangular cross section.
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20. The motor according to claim 15, wherein the number of projections L corresponds to a number of phases upon which said motor operates.
Specification
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Current AssigneeHydro-Quebec (Province of Québec)
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Original AssigneeHydro-Quebec (Province of Québec)
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InventorsFrancoeur, Bruno, Couture, Pierre
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Primary Examiner(s)Dougherty, Thomas M.
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Assistant Examiner(s)Link, Jonathan
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Application NumberUS08/353,241Time in Patent Office1,264 DaysField of Search310/156, 310/159, 310/217, 310/180, 310/261, 310/265, 310/267, 310/254, 310/259, 310/216US Class Current310/156.46CPC Class CodesH02K 1/165 Shape, form or location of ...H02K 1/27915 Magnets shaped to vary the ...H02K 21/12 with stationary armatures ...H02K 29/03 with a magnetic circuit spe...
