Electrical machines

US 6,384,564 B1
Filed: 06/21/2000
Issued: 05/07/2002
Est. Priority Date: 06/22/1999
Status: Expired due to Fees

First Claim

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1. An electrical machine comprising a rotor (7) without windings, a stator (2) having a winding (11, 30, 48, 49), and circuit means for controlling the current in the winding (11, 30, 48, 49) during rotation of the rotor, characterised in that the circuit means includes a capacitance bridge (35, 36, 39) defining a variable voltage point to which one end of the winding (11, 30, 48, 49) is directly coupled to form a resonance circuit, and switch means (31, 32) coupled to the winding and switchable in synchronism with rotation of the rotor to produce cyclically varying current pulses which are caused to decay naturally by the build-up of voltage at the variable voltage point of the capacitance bridge (35, 36, 39) during each cycle of excitation.

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Abstract

A two-phase switched reluctance motor comprises a rotor without windings, a stator having windings, and an electronic control circuit for controlling the current in the windings to effect rotation of the rotor. The control circuit includes a capacitance bridge defining a floating point to which one end of each of the windings is coupled to form a resonance circuit. Switching transistors are connected to the windings and are switched in synchronism with rotation of the rotor so as to produce current pulses which are limited by the build-up of voltage at the floating point of the capacitance bridge. This ensures that the current in the windings returns naturally to zero at the end of each excitation pulse, thus providing more efficient power operation and reducing the acoustic noise of the machine.

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16 Claims

1. An electrical machine comprising a rotor (7) without windings, a stator (2) having a winding (11, 30, 48, 49), and circuit means for controlling the current in the winding (11, 30, 48, 49) during rotation of the rotor, characterised in that the circuit means includes a capacitance bridge (35, 36, 39) defining a variable voltage point to which one end of the winding (11, 30, 48, 49) is directly coupled to form a resonance circuit, and switch means (31, 32) coupled to the winding and switchable in synchronism with rotation of the rotor to produce cyclically varying current pulses which are caused to decay naturally by the build-up of voltage at the variable voltage point of the capacitance bridge (35, 36, 39) during each cycle of excitation.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. A machine according to claim 1, wherein the circuit means comprises respective switch means (31, 32) producing current pulses of one polarity and current pulses of the opposite polarity in the winding (11, 30, 48, 49).
  - 3. A machine according to claim 2, wherein the capacitance bridge (35, 36, 39) comprises a respective capacitance (35, 36) in the current path associated with the winding controlled by each switch means (31, 32).
  - 4. A machine according to claim 3, wherein the two capacitances comprise two capacitors (35, 36) coupled in series between respective supply rails and defining the variable voltage point therebetween, the capacitance values of the capacitors (35, 36) being such that the voltage at the variable voltage point varies substantially during each cycle of excitation to limit the current supplied to the winding during each cycle.
  - 5. A machine according to claim 2, wherein the capacitance bridge (35, 36, 39) comprises a respective relatively large capacitance (35, 36) in the current path associated with the winding current controlled by each switch means (31, 32), and a further relatively small capacitance (39) disposed in both such current paths and defining the variable voltage point at its connection to said one end of the winding.
  - 6. A machine according to claim 3, wherein respective diode means (37, 38) is coupled in parallel with each of the two capacitances (35, 36).
  - 7. A machine according to claim 2, wherein each switch means comprises a transistor (31, 32) and an associated freewheeling diode (33,34) connected so that, on turning off one of the transistors, current flows by way of the freewheeling diode associated with the other transistor.
  - 8. A machine according to claim 1, having two or more phases, wherein the winding comprises respective coils (48, 49) corresponding to different phases, and the circuit means comprises respective switch means (31, 32) for supplying current to the coils (48, 49).
  - 9. A machine according to claim 1, wherein the stator includes field magnet means (10, 10′
    - ) for generating a magnetomotive force in a direction extending transversely of the magnetomotive force generated by the winding (11, 30, 48, 49).
  - 10. A machine according to claim 1, wherein the field magnet means (10, 10′
    - ) includes a field winding supplied with unidirectional current by the circuit means.
  - 11. A machine according to claim 10, wherein the field winding (10) is supplied with current by way of a bridge rectifier circuit (40) in series with the first-mentioned winding (11, 30, 48, 49).
  - 12. A machine according to claim 10, wherein the field winding (10) comprises two closely coupled field coils (22, 23) one of which is supplied with current of one polarity and the other of which is supplied with current of the opposite polarity.
  - 13. An electrical fan or pump incorporating an electrical machine according to claim 1.

14. An electrical machine comprising a rotor (7) without windings, a stator (2) having a winding (11, 30, 48, 49), and circuit means for controlling the current in the winding (11, 30, 48, 49) during rotation of the rotor, characterised in that the circuit means includes a capacitance bridge (35, 36, 39) defining a variable voltage point to which one end of the winding (11, 30, 48, 49) is coupled to form a resonance circuit, and switch means (31, 32) coupled to the winding and switchable in synchronism with rotation of the rotor to produce cyclically varying current pulses which are caused to decay naturally by the build-up of voltage at the variable voltage point of the capacitance bridge (35, 36, 39) during each cycle of excitation, wherein the circuit means comprises respective switch means (31, 32) producing current pulses of one polarity and current pulses of the opposite polarity in the winding (11, 30, 48, 49), and wherein the capacitance bridge (35, 36, 39) comprises a respective relatively large capacitance (35, 36) in the current path associated with the winding current controlled by each switch means (31, 32), and a further relatively small capacitance (39) disposed in both such current paths and defining the variable voltage point at its connection to said one end of the winding.

15. An electrical machine comprising a rotor (7) without windings, a stator (2) having a winding (11, 30, 48, 49), and circuit means for controlling the current in the winding (11, 30, 48, 49) during rotation of the rotor, characterised in that the circuit means includes a capacitance bridge (35, 36, 39) defining a variable voltage point to which one end of the winding (11, 30, 48, 49) is coupled to form a resonance circuit, and switch means (31, 32) coupled to the winding and switchable in synchronism with rotation of the rotor to produce cyclically varying current pulses which are caused to decay naturally by the build-up of voltage at the variable voltage point of the capacitance bridge (35, 36, 39) during each cycle of excitation, wherein the circuit means comprises respective switch means (31, 32) producing current pulses of one polarity and current pulses of the opposite polarity in the winding (11, 30, 48, 49), wherein the capacitance bridge (35, 36, 39) comprises a respective capacitance (35, 36) in the current path associated with the winding controlled by each switch means (31, 32), and wherein respective diode means (37, 38) is coupled in parallel with each of the two capacitances (35, 36).

16. An electrical machine comprising a rotor (7) without windings, a stator (2) having a winding (11, 30, 48, 49), and circuit means for controlling the current in the winding (11, 30, 48, 49) during rotation of the rotor, characterised in that the circuit means includes a capacitance bridge (35, 36, 39) defining a variable voltage point to which one end of the winding (11, 30, 48, 49) is coupled to form a resonance circuit, and switch means (31, 32) coupled to the winding and switchable in synchronism with rotation of the rotor to produce cyclically varying current pulses which are caused to decay naturally by the build-up of voltage at the variable voltage point of the capacitance bridge (35, 36, 39) during each cycle of excitation, wherein the field magnet means (10, 10′
- ) includes a field winding supplied with unidirectional current by the circuit means, and wherein the field winding (10) is supplied with current by way of a bridge rectifier circuit (40) in series with the first-mentioned winding (11, 30, 48, 49).

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Current Assignee
University of Warwick
Original Assignee
University of Warwick
Inventors
Pollock, Charles
Primary Examiner(s)
Nappi, Robert E.
Assistant Examiner(s)
Duda, Rina I.

Application Number

US09/598,104
Time in Patent Office

685 Days
Field of Search

318/138, 318/254, 318/700, 318/701
US Class Current

318/701
CPC Class Codes

H02K 19/06 Motors having windings on t...

H02P 25/092 Converters specially adapte...

Electrical machines

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Electrical machines

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Abstract

Citations

16 Claims

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