Pole grouping for stepping motor
First Claim
Patent Images
1. A multiple pole stepping motor having a predetermined step angle and comprising:
- an annular stator having a number 4n1 of stator poles, numbered consecutively 1, 2, 3, . . . , 4n1 where n1 is a positive integer, positioned around an inner circumference of the stator, where the stator poles are substantially identical and each stator pole has a plurality of pole teeth of approximately uniform pitch angle Δ
θ
p pole number i is separated from pole number i+1 by a first angle α
for i=1, 2, . . . , 4n1 -1 and pole number 4n1 is separated from pole number 1 by a second angle α
'"'"' with |α
-α
'"'"'|=mΔ
θ
p for some positive integer m;
a first current-carrying stator winding that winds around the stator poles numbered 1, 5, 9 . . . , 4n1 -3 in a first direction and winds around the stator poles numbered 3, 7, 11 . . . , 4n1 -1 in a second direction so that these two groups of poles have magnetic fluxes of opposite polarity when the first winding is activated;
a second current-carrying stator winding that winds around the stator poles numbered 2, 6, 10, . . . , 4n1 -2 in the first direction and winds around the stator poles numbered 4, 8, 12, . . . , 4n1 in the second direction so that these two groups of poles have magnetic fluxes of opposite polarity when the second winding is activated;
an activatable current source connected to the first winding;
an activatable current source connected to the second winding; and
activation means for periodically activating the first and second current sources to produce magnetic fluxes in each stator winding that is associated with the current source that is activated;
a rotor that has a plurality of uniformly spaced rotor teeth and is laterally surrounded by the stator, the rotor comprising magnet means polarized in an axial direction between a first end and a second end of the magnet means for producing a magnetic flux, and a first pole cap and a second pole cap that are attached to the first end and a second end, respectively, of the magnetic means, where the first pole cap and the second pole cap are angularly offset from one another by one half the pitch angle and each pole cap has a plurality of uniformly spaced rotor teeth attached at an outer circumference of that pole cap and the pitch angle of the rotor teeth is approximately equal to the pitch angle of the stator teeth within a stator pole.
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Accused Products
Abstract
Hybrid stepping motor apparatus that produces a step angle of 1/Kp times the pitch angle Δθp of the stator on rotor teeth, where Kp is the number of phases for the motor, using a plurality of stator poles whose center-to-center angular spacings are not uniform, and depend on the number of stator poles used. In one embodiment with M poles, the first M-1 center-to-center pole angular spacings are equal to a first angle A, and the Mth center-to-center pole angular spacing is an angle B with |A-B|=mΔθp, where m is a positive integer.
73 Citations
17 Claims
-
1. A multiple pole stepping motor having a predetermined step angle and comprising:
-
an annular stator having a number 4n1 of stator poles, numbered consecutively 1, 2, 3, . . . , 4n1 where n1 is a positive integer, positioned around an inner circumference of the stator, where the stator poles are substantially identical and each stator pole has a plurality of pole teeth of approximately uniform pitch angle Δ
θ
p pole number i is separated from pole number i+1 by a first angle α
for i=1, 2, . . . , 4n1 -1 and pole number 4n1 is separated from pole number 1 by a second angle α
'"'"' with |α
-α
'"'"'|=mΔ
θ
p for some positive integer m;a first current-carrying stator winding that winds around the stator poles numbered 1, 5, 9 . . . , 4n1 -3 in a first direction and winds around the stator poles numbered 3, 7, 11 . . . , 4n1 -1 in a second direction so that these two groups of poles have magnetic fluxes of opposite polarity when the first winding is activated; a second current-carrying stator winding that winds around the stator poles numbered 2, 6, 10, . . . , 4n1 -2 in the first direction and winds around the stator poles numbered 4, 8, 12, . . . , 4n1 in the second direction so that these two groups of poles have magnetic fluxes of opposite polarity when the second winding is activated; an activatable current source connected to the first winding; an activatable current source connected to the second winding; and activation means for periodically activating the first and second current sources to produce magnetic fluxes in each stator winding that is associated with the current source that is activated; a rotor that has a plurality of uniformly spaced rotor teeth and is laterally surrounded by the stator, the rotor comprising magnet means polarized in an axial direction between a first end and a second end of the magnet means for producing a magnetic flux, and a first pole cap and a second pole cap that are attached to the first end and a second end, respectively, of the magnetic means, where the first pole cap and the second pole cap are angularly offset from one another by one half the pitch angle and each pole cap has a plurality of uniformly spaced rotor teeth attached at an outer circumference of that pole cap and the pitch angle of the rotor teeth is approximately equal to the pitch angle of the stator teeth within a stator pole. - View Dependent Claims (2, 3, 4, 5, 12, 13)
-
-
6. A multiple pole stepping motor having a predetermined step angle Δ
- θ
s and comprising;an annular stator having a number M of stator poles, numbered consecutively 1, 2, 3, . . . , M where M is a positive integer, positioned around an inner circumference of the stator, where the stator poles are substantially identical and each stator pole has a plurality of pole teeth of approximately uniform pitch angle Δ
θ
p, pole number i is separated from pole number i+1 by a first angle α
for i=1, 2, . . . , M-1, and pole number M is separated from pole number 1 by a second angle α
'"'"' with |α
-α
'"'"'|=mΔ
θ
p for some positive integer m, where the stator has Kp phases, M=Kp.K and Kp and K are positive integers;a plurality of N≧
2 current-carrying stator windings numbered j=1, 2, . . . , N, each of which winds around a selected number of stator poles so that a magnetic flux is induced in each such selected stator pole when the stator winding is activated, where each stator pole has at least one stator winding wound therearound;a plurality of N≧
2 activatable current sources, numbered j=1, 2, . . . , N, with current source number j being connected to stator winding number j;activation means for periodically activating each of the current sources so that, when this activation pattern is implemented, any group of K consecutive stator poles numbered k=1, 2, . . . , K is energized consecutively within this group so that any rotor teeth adjacent to the pole teeth of stator pole number k in this group are attracted to the pole teeth of that stator pole; and a rotor that has a plurality of uniformly spaced teeth and is laterally surrounded by the stator, the rotor comprising magnet means polarized in an axial direction between a first end and a second end of the magnet means for carrying a magnetic flux, and a first pole cap and a second pole cap that are attached to the first end and second end, respectively, of the magnet means, where the first pole cap and the second pole cap each have a plurality of substantially uniformly spaced rotor teeth attached at an outer circumference of that pole cap, and the pitch angle of the rotor teeth is approximately equal to the pitch angle of the stator teeth within a stator pole, where the number of rotor teeth is an integer H approximately equal to 360°
/Δ
θ
p, where the step angle Δ
θ
s for the motor is equal to Δ
θ
p /Kp, where the angles α and
α
'"'"' satisfy the relations
space="preserve" listing-type="equation">α
=(360°
/M)±
Δ
θ
=(N.K.sub.p ±
1)Δ
θ
.sub.s,
space="preserve" listing-type="equation">α
'"'"'=36°
- (M-1)α
=α
±
Q.K.sub.p.Δ
θ
.sub.sand where Δ
θ
is a small, positive offset angle and N and Q are positive integers. - View Dependent Claims (7, 8, 14, 15)
- θ
-
9. A method for providing a multiple pole stepping motor having a predetermined step angle Δ
- θ
s, the method comprising the steps of;providing an annular stator having a number M of stator poles, numbered consecutively 1, 2, 3, . . . , M where M is a positive integer, positioned around an inner circumference of the stator, where the stator poles are substantially identical and each stator pole has a plurality of pole teeth of approximately uniform pitch angle, pole number i is separated from pole number i+1 by a first angle α
for i=1, 2, 3, . . . , M-1, and pole number M is separated from pole number 1 by a second angle α
'"'"', with |α
-α
'"'"'|=m Δ
θ
p, where Δ
θ
p is the pitch angle and m is a positive integer, where the stator has Kp phases, M=Kp ·
K and Kp and K are positive integers;providing a plurality of N≧
2 current-carrying stator windings numbered j=1, 2, . . . , N, each of which winds around a selected number of stator poles so that a magnetic flux is induced in each such selected stator pole when the stator winding is activated, where each stator pole has at least one stator winding wound therearound;providing a plurality of N≧
2 activatable current sources, numbered j=1, 2, . . . , N, with current source number j being connected to stator winding number j;providing activation means for periodically activating each of the current sources so that, when this activation pattern is implemented, a group of K consecutive stator poles numbered k=1, 2, . . . , K is energized consecutively within this group so that any rotor teeth adjacent to the pole teeth of stator pole number k in this group are attracted to the pole teeth of that stator pole; providing a rotor having a plurality of approximately uniformly spaced rotor teeth and being laterally surrounded by the stator, the rotor comprising magnet means polarized in an axial direction between a first end and a second end of the magnet means for carrying a magnetic flux, and a first pole cap and a second pole cap that are attached to the first end and second end, respectively, of the magnet means, where the first pole cap and the second pole cap each have a plurality of uniformly spaced rotor teeth attached at an outer circumference of that pole cap and the pitch angle of the rotor teeth is approximately equal to the pitch angle of the stator teeth within a stator pole; and choosing the number of rotor teeth to be an integer H that is substantially equal to 360°
/Δ
θ
p, choosing the step angle Δ
θ
s to be substantially equal to Δ
θ
p /Kp or an integer, multiple of this value, and choosing the angles α and
α
'"'"' to satisfy the relations
space="preserve" listing-type="equation">α
=(360°
/M)±
Δ
θ
=(N.K.sub.p ±
1) Δ
θ
.sub.s
space="preserve" listing-type="equation">α
'"'"'=36°
- (M-1) α
=α
+Q.K.sub.p.Δ
θ
.sub.s,where Δ
θ
is a small, positive offset angle and N and Q are positive integers. - View Dependent Claims (16, 17)
- θ
-
10. A method for providing a multiple pole stepping motor having a predetermined step angle Δ
- θ
s, the method comprising the steps of;providing an annular stator having a number M of stator poles, numbered consecutively 1, 2, 3, . . . , M where M is a positive integer, positioned around an inner circumference of the stator, where the stator poles are substantially identical and each stator pole has a plurality of pole teeth of substantially uniform pitch angle, pole number i is separated from pole number i+1 by a first angle α
for i=1, 2, 3, . . . , M-1, and pole number M is separated from pole number 1 by a second angle α
'"'"' with |α
-α
'"'"'|=m Δ
θ
p, where Δ
θ
p is the pitch angle and m is a positive integer, where the stator has Kp phases and M=Kp.K and Kp and K are positive integers;providing a rotor having a plurality of uniformly spaced rotor teeth and being laterally surrounded by the stator, the rotor comprising magnet means polarized in an axial direction between a first end and a second end of the magnet means for carrying a magnetic flux, and a first pole cap and a second pole cap that are attached to the first end and second end, respectively, of the magnet means, where the first pole cap and the second pole cap each have a plurality of uniformly spaced rotor teeth attached at an outer circumference of that pole cap and the pitch angle of the rotor teeth is approximately equal to the pitch angle of the stator teeth within a stator pole; choosing the number of rotor teeth to be an integer H that is approximately equal to 360°
/Δ
θ
p, choosing the step angle Δ
θ
s to be approximately equal to Δ
θ
p /Kp or an integer multiple of this value, and choosing the angles α and
α
'"'"' to satisfy the relations
space="preserve" listing-type="equation">α
=(360°
/M)∓
Δ
θ
=(N.K.sub.p ±
1) Δ
θ
.sub.s,
space="preserve" listing-type="equation">α
'"'"'=36°
- (M-1) α
=α
±
Q.K.sub.p.Δ
θ
.sub.s,where Δ
θ
is a small, positive offset angle and N and Q are positive integers; andproviding a plurality of N≧
2 activatable current carrying means, one such means being associated with each stator for periodically inducing in each stator a magnetic field so that a group of consecutive rotor teeth adjacent to the pole teeth in a stator pole is attracted to that stator pole when a current carrying means associated with that stator pole is activated.
- θ
-
11. A method for providing a multiple pole stepping motor having a predetermined step angle Δ
- θ
s, the method comprising the steps of;providing an annular stator having a number 4n1 of stator poles, numbered consecutively 1, 2, 3, . . . , 4n1 where n1 is a positive integer, positioned around an inner circumference of the stator, where the stator poles are substantially identical and each stator pole has a plurality of pole teeth of substantially uniform pitch angle, pole number i is separated from pole number i+1 by a first angle α
for i=1, 2, 3, . . . , 4n1, and pole number 4n1 is separated from pole number 1 by a second angle α
'"'"' with |α
-α
'"'"'|=m Δ
θ
p, where Δ
θ
p is the pitch angle and m is a positive integer;providing a rotor having a plurality of uniformly spaced rotor teeth and being laterally surrounded by the stator, the rotor comprising magnet means polarized in an axial direction between a first end and a second end of the magnet means for carrying a magnetic flux, and a first pole cap and a second pole cap that are attached to the first end and second end, repectively, of the magnet means, where the first pole cap and the second pole cap each have a plurality of uniformly spaced rotor teeth attached at an outer circumference of that pole cap and the pitch angle of the rotor teeth is approximately equal to the pitch angle of the stator teeth within a stator pole; and providing a plurality of N≧
2 activatable current carrying means, one such means being associated with each stator, for periodically inducing in each stator a magnetic field so that a group of consecutive rotor teeth adjacent to the pole teeth in a stator pole is attracted to that stator pole when a current carrying means associate with that stator pole is activated.
- θ
Specification