Sensorless drive control and method for doubly-fed reluctance motor

US 5,359,272 A
Filed: 02/05/1993
Issued: 10/25/1994
Est. Priority Date: 02/05/1993
Status: Expired due to Fees

First Claim

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1. A drive control for a doubly-fed reluctance motor having at least one primary winding and at least one secondary winding for each motor phase comprising:

means connected to the primary winding for developing a primary winding current signal and a primary winding voltage signal, said means including phase means to which said signals are supplied for said phase means to produce a phase signal representing the phase relationship between the primary winding'"'"'s current and voltage;

processing means for determining the magnitude and phase of a secondary winding current for the motor when it is operating at a predetermined speed as represented by a speed input signal supplied to the processing means, said processing means including scheduling means to which said speed input signal is supplied, said scheduling means including a look-up table which provides a desired secondary phase relationship for the motor at the predetermined speed as represented by said speed input signal, and said scheduling means providing as an output respective secondary current and secondary phase signals, and said processing means further including summing means for respectively summing said primary phase signal and said secondary phase signal and said secondary current signal and the summed primary and secondary current signals, and phase synchronizing means responsive to said speed input signal and said primary current signal; and

, switching means responsive to outputs from said summing means and said phase synchronizing means of said processing means for establishing and maintaining a desired phase relationship between said primary and secondary winding currents, said switching means opening and closing a secondary winding circuit through which said secondary current flows through said secondary winding in response to said processing means outputs.

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Abstract

A doubly-fed reluctance motor (10) has a primary winding set (20) and a secondary winding set (22). A drive control (32) for the motor includes a connection (36) to the primary winding so primary winding current and voltage signals (i_p, V_p) can be developed. A further signal representing the phase relationship (Φ_p) between the primary winding current and voltage is developed using these signals. A processor module (42) is responsive to these signals to determine the magnitude and phase of a secondary winding current (I_s) of the motor for a predetermined motor operating speed (w_r). The desired current value is as a function of the primary winding current and the phase relationship between the primary winding current and voltage. A switching module (60) operates to regulate the secondary winding currents and opening and closing of switching elements of the module is controlled by an output from the control module. Operation of the switching module by the control module serves to establish and maintain a desired phase relationship between the primary and secondary winding currents by controlling the feed of current and voltage to the secondary winding set.

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17 Claims

1. A drive control for a doubly-fed reluctance motor having at least one primary winding and at least one secondary winding for each motor phase comprising:
- means connected to the primary winding for developing a primary winding current signal and a primary winding voltage signal, said means including phase means to which said signals are supplied for said phase means to produce a phase signal representing the phase relationship between the primary winding'"'"'s current and voltage;
  
  processing means for determining the magnitude and phase of a secondary winding current for the motor when it is operating at a predetermined speed as represented by a speed input signal supplied to the processing means, said processing means including scheduling means to which said speed input signal is supplied, said scheduling means including a look-up table which provides a desired secondary phase relationship for the motor at the predetermined speed as represented by said speed input signal, and said scheduling means providing as an output respective secondary current and secondary phase signals, and said processing means further including summing means for respectively summing said primary phase signal and said secondary phase signal and said secondary current signal and the summed primary and secondary current signals, and phase synchronizing means responsive to said speed input signal and said primary current signal; and
  
  , switching means responsive to outputs from said summing means and said phase synchronizing means of said processing means for establishing and maintaining a desired phase relationship between said primary and secondary winding currents, said switching means opening and closing a secondary winding circuit through which said secondary current flows through said secondary winding in response to said processing means outputs.
- View Dependent Claims (2, 3)
- - 2. The drive control of claim 1 wherein the motor is a three phase motor and the drive control establishes and maintains the desired phase relationship between the primary and secondary winding currents for each motor phase.
  - 3. The drive control of claim 1 wherein said connected means includes a terminal to which the primary winding is connected and from which primary winding current and voltage signals are supplied to said control means.

4. The drive control of claim 4 further including step-down transformer means interposed between the terminal and the phase means for stepping-down the amplitude of the primary winding voltage signal.
- View Dependent Claims (5, 6, 7, 8)
- - 5. The drive control of claim 4 wherein said processing means includes first and second scheduling means to which said speed input signal is supplied, said first scheduling means providing a nominal current signal representing the magnitude of the secondary winding current for the predetermined speed, and said second scheduling means providing a nominal phase signal representing a desired phase relationship between the primary winding current and voltage.
  - 6. The drive control of claim 5 wherein said processing means includes a first summing means to which said phase signal from said phase means is supplied and to which said nominal phase signal from said second scheduling means is also supplied, said summing means providing a phase adjustment output signal representing a degree of phase adjustment between the primary winding current and voltage to obtain the desired phase relationship for the predetermined motor speed.
  - 7. The drive control of claim 6 wherein said processing means further includes a second summing means to which is supplied the phase adjustment output signal of said first summing means and the nominal current signal from said first scheduling means, said second summing means providing as an output a correction signal representing the amount of change required to obtain the desired secondary winding current magnitude.
  - 8. The drive control of claim 7 wherein said processing means further includes pulse width modulation means to which the correction signal is supplied, the pulse width modulation means providing an output to the switching means for the switching means to open and close the secondary winding circuit, and said phase synchronizing means supplies a phase control output to the pulse width modulation means for the pulse width modulation means to control the switching means for secondary winding current phase as well as magnitude.

11. In a three-phase, doubly-fed reluctance motor (DERM) having at least one primary winding and at least one secondary winding for each motor phase, a drive control for establishing and maintaining a desired phase relationship between the primary winding current and secondary winding current of each phase comprising:
- terminal means connected to the primary winding of one of the primary phase windings for developing a primary winding current signal;
  
  means connected between the primary windings for the other two phases to develop a primary winding voltage signal;
  
  means to which the primary winding current and voltage signals are supplied for developing a phase signal representing the phase relationship between the primary winding current and primary winding voltage;
  
  processing means for determining a magnitude and phase of a secondary winding current of the motor for a predetermined motor operating speed, said processing means including first and second scheduling means to which a motor speed signal representing a desired motor speed is supplied, said first scheduling means supplying an indication of the magnitude of the secondary winding current when the motor is operated at the desired speed and the second scheduling means supplying an indication representing the phase relationship between the primary winding current and primary winding voltage at the desired speed, the scheduling means each providing an input to respective first and second summing means, said second summing means also having as an input the phase signal, the second summing means providing a second input to the first summing means, and the second summing means providing a control input to a pulse width modulation means representing the magnitude of the secondary winding current at the desired motor speed; and
  
  ,switching means for opening and closing a secondary winding circuit, said switching means being responsive to an output from said pulse width modulation means for opening and closing said circuit to establish and maintain the desired phase relationship.
- View Dependent Claims (9, 10, 12, 13, 14)
- - 9. The drive control of claim 11 wherein the pulse width modulation means includes a feedback path for the output it provides to the switching means.
  - 10. The drive control of claim 9 wherein the control means controls the secondary winding circuit so the phase relationship between the primary and secondary winding currents is established and maintained at approximately 180 electrical degrees for the desired motor operating speed.
  - 12. The drive control of claim 11 wherein the control means further includes phase synchronizing means to which said motor speed signal is also supplied, and to which said primary winding current signal is supplied, said phase synchronizing means supplying a phase control output to the pulse width modulation means for the pulse width modulation means to control the switching means for secondary winding current phase as well as magnitude.
  - 13. The drive control of claim 12 wherein the pulse width modulation means includes a feedback path for the output it provides to the switching means.
  - 14. The drive control of claim 11 wherein the processing means controls the secondary winding circuit so the phase relationship between the primary and secondary winding currents of each phase is established and maintained at approximately 180 electrical degrees for the desired motor operating speed.

15. A method of controlling a doubly-fed reluctance motor to establish and maintain a desired phase relationship between a primary winding current and secondary winding current of the motor at a desired motor operating speed comprising the steps of:
- developing a primary winding current signal, a primary winding voltage signal, and a phase signal representing the phase relationship between the primary winding current and primary winding voltage;
  
  being provided a speed signal representing the desired motor operating speed;
  
  obtaining being provided an indication of the magnitude of the secondary winding current from a first scheduling means to which is supplied the speed signal;
  
  obtaining an indication representing of the phase relationship between the primary winding current and primary winding voltage at the desired speed from a second scheduling means to which the speed signal is also supplied;
  
  summing the phase relationship indication and phase signal at a first summing means, and summing the result from the first summing means with the indication of secondary winding current magnitude at a second summing means to obtain a control signal representing the magnitude of the secondary winding current at the desired motor speed; and
  
  ,supplying the control signal to a switching means to open and close a secondary winding circuit to establish and maintain the desired phase relationship.
- View Dependent Claims (16, 17)
- - 16. The method of claim 15 wherein the control signal is supplied to a pulse width modulation means which controls the switching means, and the method further includes obtaining phase synchronizing information based upon the speed signal and primary winding current signal and supplying the phase synchronizing information to the pulse width modulation means for the pulse width modulation means to control the switching means for secondary winding current phase as well as magnitude;
    - and,establishing a feedback path to the pulse width modulation means for an output it supplies to the switching means.
  - 17. The method of claim 16 further including the step of establishing and maintaining the phase relationship between the primary and secondary winding currents at approximately 180 electrical degrees for the desired motor operating speed.

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Current Assignee
Emerson Electric Company
Original Assignee
Emerson Electric Company
Inventors
Liao, Yuefeng
Primary Examiner(s)
Shoop, Jr., William M.
Assistant Examiner(s)
Masih, Karen

Application Number

US08/014,254
Time in Patent Office

627 Days
Field of Search

318/701, 318/748, 318/787, 318/277, 318/732
US Class Current

318/732
CPC Class Codes

H02P 1/163   for starting an individual ...

H02P 25/089   Sensorless control direct t...

H02P 6/005   Arrangements for controllin...

Sensorless drive control and method for doubly-fed reluctance motor

First Claim

1 Assignment

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Abstract

23 Citations

17 Claims

Specification

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Sensorless drive control and method for doubly-fed reluctance motor

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

23 Citations

17 Claims

Specification

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Use Cases

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Others