Multi-phase electric motor with third harmonic current injection

US 6,710,495 B2
Filed: 10/01/2001
Issued: 03/23/2004
Est. Priority Date: 10/01/2001
Status: Expired due to Fees

First Claim

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1. A motor drive system comprising:

(a) an electrical motor having a stator with a core, two three-phase stator windings wound on the core, the two three-phase windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the three-phase windings, and a rotor within the stator; and

(b) a first power supply connected to the terminals of a first of the stator three-phase windings and a second power supply connected to the terminals of a second of the stator three-phase windings, the power supplies formed to supply current to the two three-phase windings with the same fundamental frequency and with an additional zero sequence component at the third harmonic of the fundamental frequency, with one of the power supplies providing current to a one of the three-phase windings that is shifted in time by 30°

of the fundamental frequency current with respect to the current provided by the other power supply.

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Abstract

Significantly increased torque is provided from a motor having a stator with a core and at least two three-phase windings wound on the core. The two windings are separated spatially by 30 electrical degrees. Power is provided to the two windings by two power supplies which each provide power at the same fundamental frequency and with a component at the third harmonic of the fundamental, with the power provided from one power supply shifted in time by 30° of the fundamental frequency with respect to the power provided by the other power supply. The additional third harmonic component reduces the effective peak flux density, allowing an increase in the fundamental component of flux to allow an increase in effective torque, with the third harmonic component also providing additional torque.

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34 Claims

1. A motor drive system comprising:
- (a) an electrical motor having a stator with a core, two three-phase stator windings wound on the core, the two three-phase windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the three-phase windings, and a rotor within the stator; and
  
  (b) a first power supply connected to the terminals of a first of the stator three-phase windings and a second power supply connected to the terminals of a second of the stator three-phase windings, the power supplies formed to supply current to the two three-phase windings with the same fundamental frequency and with an additional zero sequence component at the third harmonic of the fundamental frequency, with one of the power supplies providing current to a one of the three-phase windings that is shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided by the other power supply.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The motor drive system of claim 1 wherein the power supplies are inverters that receive DC power on DC bus lines.
  - 3. The motor drive system of claim 2 including a rectifier connected to rectify AC power to DC voltage supplied to the DC bus lines, a pair of smoothing capacitors connected together at a node and connected across the DC bus lines, wherein the neutral terminals of the three-phase windings are connected to the node between the capacitors.
  - 4. The motor drive system of claim 2 wherein the inverters are current controlled pulse-width modulated inverters that deliver balanced power to the two three-phase windings.
  - 5. The motor drive system of claim 4 including a controller connected to control the inverters, the controller including an ABC-XYZ/dq0 transformation that includes the third harmonics.

6. A method of controlling an electrical motor having a stator with a core, two three-phase windings wound on the core, the two three-phase windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the three-phase windings, and a rotor within the stator, comprising the steps of:
- (a) applying current at a fundamental frequency and zero sequence current at a third harmonic of the fundamental frequency to the terminals of a first of the two three-phase windings; and
  
  (b) applying current at the same fundamental frequency and zero sequence current at the same third harmonic frequency to the terminals of a second of the two three-phase windings but shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided to the first of the three-phase windings.
- View Dependent Claims (7)
- - 7. The method of claim 6 wherein the steps of applying current are carried out to provide current controlled balanced power to the two three-phase windings.

8. A linear motor drive system comprising:
- (a) a linear induction motor having a stator with at least one core, two three-phase windings wound on the core, the two three-phase windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the windings, and an induction machine linear rotor; and
  
  (b) a first power supply connected to the terminals of a first of the stator three-phase windings and a second power supply connected to the terminals of a second of the stator three-phase windings, the power supplies formed to provide current to the two three-phase windings with the same fundamental frequency and with an additional zero sequence component at the third harmonic of the fundamental frequency with one of the power supplies providing current to one of the three-phase windings that is shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided by the other power supply.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The motor drive system of claim 8 wherein the stator core has a plurality of slots, wherein the two three-phase windings are wound together in the slots with one of the three-phase windings spatially displaced from the other three-phase winding by one slot.
  - 10. The motor drive system of claim 8 wherein the power supplies are inverters that receive DC power on DC bus lines.
  - 11. The motor drive system of claim 10 including a rectifier connected to rectify AC power to DC voltage supplied to the DC bus lines, a pair of smoothing capacitors connected together at a node and connected across the DC bus lines, wherein the neutral terminals of the three-phase windings are connected to the node between the capacitors.
  - 12. The motor drive system of claim 10 wherein the inverters are current controlled pulse-width modulated inverters that deliver balanced power to the two three-phase windings.
  - 13. The motor drive system of claim 12 including a controller connected to control the inverters, the controller including an ABC-XYZ/dq0 transformation that includes the third harmonics.

14. A method of controlling a linear induction motor having a stator with at least one core, two three-phase windings wound on the core, the two windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the three-phase windings, and an induction machine linear rotor, comprising the steps of:
- (a) applying current at a fundamental frequency and a zero sequence current at a third harmonic of the fundamental frequency to the terminals of a first of the two three-phase windings; and
  
  (b) applying current at the same fundamental frequency and zero sequence current at the same third harmonic frequency to the terminals of a second of the two three-phase windings but shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided to the first of the three phase windings.
- View Dependent Claims (15)
- - 15. The method of claim 14 wherein the steps of applying current are carried out to provide current controlled balanced power to the two three-phase windings.

16. A motor drive system comprising:
- (a) an induction motor having a stator with a core, two three-phase stator windings wound on the core, the two three-phase windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the three-phase windings, and an induction machine rotor within the stator; and
  
  (b) a first power supply connected to the terminals of a first of the stator three-phase windings and a second power supply connected to the terminals of a second of the stator three-phase windings, the power supplies formed to supply current to the two three-phase windings with the same fundamental frequency and with an additional zero sequence component at the third harmonic of the fundamental frequency, with one of the power supplies providing current to a one of the three-phase windings that is shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided by the other power supply.
- View Dependent Claims (17, 18, 19, 20, 21, 22)
- - 17. The motor drive system of claim 16 wherein the rotor is a squirrel cage rotor.
  - 18. The motor drive of claim 16 wherein the core has a plurality of slots, wherein the two three-phase windings are wound together in the slots with one of the three-phase windings spatially displaced from the other three-phase winding by one slot.
  - 19. The motor drive system of claim 16 wherein the power supplies are inverters that receive DC power on DC bus lines.
  - 20. The motor drive system of claim 19 including a rectifier connected to rectify AC power to DC voltage supplied to the DC bus lines, a pair of smoothing capacitors connected together at a node and connected across the DC bus lines, wherein the neutral terminals of the three-phase windings are connected to the node between the capacitors.
  - 21. The motor drive system of claim 19 wherein the inverters are current controlled pulse-width modulated inverters that deliver balanced power to the two three-phase windings.
  - 22. The motor drive system of claim 21 including a controller connected to control the inverters, the controller including an ABC-XYZ/dq0 transformation that includes the third harmonics.

23. A method of controlling an electrical motor having a stator with a core, two three-phase windings wound on the core, the two three-phase windings separated spatially by 30 electrical degrees, each of the two three-phase windings having three terminals and a neutral terminal by which power may be applied to the three-phase windings, and an induction machine rotor within the stator, comprising the steps of:
- (a) applying current at a fundamental frequency and zero sequence current at a third harmonic of the fundamental frequency to the terminals of a first of the two three-phase windings; and
  
  (b) applying current at the same fundamental frequency and zero sequence current at the same third harmonic frequency to the terminals of a second of the two three-phase windings but shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided to the first of the three-phase windings.
- View Dependent Claims (24)
- - 24. The method of claim 23 wherein the steps of applying current are carried out to provide current controlled balanced power to the two three-phase windings.

25. A motor drive system comprising:
- (a) an induction motor having a stator with a core, three three-phase stator windings wound on the core, a second and third of the three-phase windings separated spatially by 20 and 40 electrical degrees, respectively, from a first of the three-phase windings, each of the three three-phase windings having three terminals by which power may be applied to the three-phase windings, and an induction machine rotor within the stator; and
  
  (b) a first power supply connected to the terminals of a first of the stator three-phase windings, a second power supply connected to the terminals of a second of the stator three-phase windings, and a third power supply connected to the terminals of a third of the stator three-phase windings, the power supplies formed to supply current to the three three-phase windings with the same fundamental frequency and with an additional component at the third harmonic of the fundamental frequency, the second power supply providing current that is shifted in time by 20°
  
  of the fundamental frequency current and the third power supply providing current that is shifted in time by 40°
  
  of the fundamental frequency current with respect to the current provided by the first power supply.
- View Dependent Claims (26, 27, 28, 29)
- - 26. The motor drive system of claim 25 wherein the rotor is a squirrel cage rotor.
  - 27. The motor drive system of claim 25 wherein the power supplies are inverters that receive DC power on DC bus lines.
  - 28. The motor drive system of claim 27 wherein the inverters are current controlled pulse-width modulated inverters that deliver balanced power to the three three-phase windings.
  - 29. The motor drive system of claim 28 including a controller connected to control the inverters, the controllers including an ABC-XYZ/dq0 transformation that includes the third harmonics.

30. A method of controlling an induction motor having a stator with a core, three three-phase windings would on the core, a second and third of the three-phase windings separated spatially by 20 and 40 electrical degrees, respectively, from a first of the three-phase windings, each of the three-phase windings having three terminals by which power may be applied to the three-phase windings, and an induction machine rotor within the stator, comprising the steps of:
- (a) applying current at a fundamental frequency and current at a third harmonic of the fundamental frequency to the terminals of a first of the two three-phase windings;
  
  (b) applying current at the same fundamental frequency and current at the same third harmonic frequency to the terminals of a second of the two three-phase windings but shifted in time by 20°
  
  of the fundamental frequency current with respect to the current provided to the first of the three-phase windings; and
  
  (c) applying current at a fundamental frequency and current at the same third harmonic frequency to a third of the three-phase windings but shifted in time by 40°
  
  of the fundamental frequency.
- View Dependent Claims (31)
- - 31. The method of claim 30 wherein the steps of applying current are carried out to provide current controlled balanced power to the three three-phase windings.

32. A power supply system for an induction motor having two three-phase stator windings with three terminals and a neutral terminal by which power may be applied to the three-phase windings comprising:
- a first power supply connectable to the terminals of a first of the three-phase windings and a second power supply connectable to the terminals of a second of the three-phase windings, the power supplies formed to supply current with the same fundamental frequency and with an additional zero sequence component at the third harmonic of the fundamental frequency, with one of the power supplies providing current that is shifted in time by 30°
  
  of the fundamental frequency current with respect to the current provided by the other power supply, wherein the power supplies are inverters that receive DC power on DC bus lines, and a rectifier connected to rectify AC power to DC voltage supplied to the DC bus lines, a pair of smoothing capacitors connected together at a node and connected across the DC bus lines, wherein the neutral terminals of the three-phase windings are connectable to the node between the capacitors.
- View Dependent Claims (33, 34)
- - 33. The power supply system of claim 32 wherein the inverters are current controlled pulse-width modulated inverters that deliver balanced power to the two three-phase windings.
  - 34. The power supply system of claim 33 including a controller connected to control the inverters, the controller including an ABC-XYZ/dq0 transformation that includes the third harmonics.

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Current Assignee
Wisconsin Alumni Research Foundation (University of Wisconsin System)
Original Assignee
Wisconsin Alumni Research Foundation (University of Wisconsin System)
Inventors
Lipo, Thomas A., Lyra, Renato O.C.
Primary Examiner(s)
Tamai, Karl
Assistant Examiner(s)
Jones, Judson H.

Application Number

US09/969,527
Publication Number

US 20030085627A1
Time in Patent Office

904 Days
Field of Search

318/254, 318/496, 318/503, 318/727, 318/801, 318/807-809, 310/179, 310/180, 310/184, 310/185, 310/188
US Class Current

310/184
CPC Class Codes

H02K 3/28   Layout of windings or of co...

H02P 21/06   Rotor flux based control in...

H02P 25/22   Multiple windings; Windings...

Multi-phase electric motor with third harmonic current injection

First Claim

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Abstract

100 Citations

34 Claims

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Multi-phase electric motor with third harmonic current injection

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

100 Citations

34 Claims

Specification

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Solutions

Use Cases

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