Energy saving system for larger three phase induction motors

US 4,723,104 A
Filed: 10/02/1985
Issued: 02/02/1988
Est. Priority Date: 10/02/1985
Status: Expired due to Fees

First Claim

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1. An energy-saving system for feeding an electric induction motor acting as a load, said motor having a rated voltage, and being operable from a 3-phase voltage power line, and in conjunction with feeding conductors for said motor, said motor including an iron core defining a hysteresis curve, said hysteresis curve having a linear portion, and a knee adjoining said linear portion, comprising in combinationpower-delivery means operating in a magnetically linear region and being fed from said 3-phase voltage power line for applying variable feeding voltages to said induction motor in a range which includes the range above said rated voltage,sensing means coupled to said induction motor for generating a signal indicative of the derivative of active power consumed by said induction motor with respect to the voltage of at least one phase provided to said induction motor,means for limiting said feeding voltages so that the magnitude of the applied voltages produces a flux density up to just below the knee of said hysteresis curve and up to near the end of said linear portion of said hysteresis curve, andcontrol means coupled to said sensing means and to said power-delivery means for regulating at least one of said feeding voltages so that the derivative of said active power with respect to the voltage of said at least one phase is always substantially zero, said control means including variable transformer operable voltage raising and voltage lowering means fed from one phase of said 3-phase power line, said means for limiting said feeding voltages to the end of the linear portion of said hysteresis curve being operable so as to disable said voltage raising means from operating beyond a safe limit, whereby for a given mechanical power output the power consumption of said induction motor is optimized, while concurrently losses in said feeding conductors are being minimized, and the exciting current of sid motor is held within a safe level, so that said motor is operable at said flux density up to just below the knee and up to near the end of said linear portion of said hysteresis curve,wherein said sensing means comprisesampling means for sampling said active power consumed by said motor and by said feeding lines, and for sampling the feeding voltage of at least one phase at a sampling frequency sufficiently high to detect any changes in average power and mean voltage,active power-to-time derivative measuring means, and feeding voltage-to-time derivative measuring means, said derivative measuring means being coupled to said induction motor, andlogic circuitry including divider means connected to said derivative measuring means for obtaining a signal proportional to the derivative of said active power with respect to said feeding voltage of said at least one phase,wherein said feeding voltage-to-time derivative measuring means includes at least one voltage transducer connected to said induction motor, and a first analog-to-digital converter coupled to said voltage transducer for digitizing the output of said first analog-to-digital converter, first delay means post-coupled to said voltage transducer and having a delay equal to the inverse of said sampling frequency, a second analog-to-digital converter postcoupled to said first delay means for digitizing the output of said first delay means at said sampling frequency, and a first subtractor receiving on one input thereof the output of said first analog-to-digital converter, and receiving on the other input thereof the output of said second analog-to-digital converter.

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Abstract

An energy-saving system for feeding an electric induction motor serving as a load, and which is operated from a 3-phase voltage power line, and in conjunction with feeding conductors for the motor includes a power-delivery sub-system operating in a magnetically linear region and coupled to the 3-phase voltage power line for providing variable feeding voltages to the induction motor, a sensing device coupled to the induction motor for generating a signal indicative of the derivatives of active power consumed by the induction motor with respect to the voltage of at least one phase provided to the induction motor, and a control apparatus coupled to the sensing device and to the power-delivery sub-system for regulating at least one of the feeding voltages, so that the derivative of the active power with respect to the voltage of that at least one phase is always substantially zero; thus for a given mechanical power output the power consumption of the induction motor is optimized, while concurrently losses in the feeding conductors are being minimized.

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13 Claims

1. An energy-saving system for feeding an electric induction motor acting as a load, said motor having a rated voltage, and being operable from a 3-phase voltage power line, and in conjunction with feeding conductors for said motor, said motor including an iron core defining a hysteresis curve, said hysteresis curve having a linear portion, and a knee adjoining said linear portion, comprising in combinationpower-delivery means operating in a magnetically linear region and being fed from said 3-phase voltage power line for applying variable feeding voltages to said induction motor in a range which includes the range above said rated voltage,sensing means coupled to said induction motor for generating a signal indicative of the derivative of active power consumed by said induction motor with respect to the voltage of at least one phase provided to said induction motor,means for limiting said feeding voltages so that the magnitude of the applied voltages produces a flux density up to just below the knee of said hysteresis curve and up to near the end of said linear portion of said hysteresis curve, andcontrol means coupled to said sensing means and to said power-delivery means for regulating at least one of said feeding voltages so that the derivative of said active power with respect to the voltage of said at least one phase is always substantially zero, said control means including variable transformer operable voltage raising and voltage lowering means fed from one phase of said 3-phase power line, said means for limiting said feeding voltages to the end of the linear portion of said hysteresis curve being operable so as to disable said voltage raising means from operating beyond a safe limit, whereby for a given mechanical power output the power consumption of said induction motor is optimized, while concurrently losses in said feeding conductors are being minimized, and the exciting current of sid motor is held within a safe level, so that said motor is operable at said flux density up to just below the knee and up to near the end of said linear portion of said hysteresis curve,wherein said sensing means comprisesampling means for sampling said active power consumed by said motor and by said feeding lines, and for sampling the feeding voltage of at least one phase at a sampling frequency sufficiently high to detect any changes in average power and mean voltage,active power-to-time derivative measuring means, and feeding voltage-to-time derivative measuring means, said derivative measuring means being coupled to said induction motor, andlogic circuitry including divider means connected to said derivative measuring means for obtaining a signal proportional to the derivative of said active power with respect to said feeding voltage of said at least one phase,wherein said feeding voltage-to-time derivative measuring means includes at least one voltage transducer connected to said induction motor, and a first analog-to-digital converter coupled to said voltage transducer for digitizing the output of said first analog-to-digital converter, first delay means post-coupled to said voltage transducer and having a delay equal to the inverse of said sampling frequency, a second analog-to-digital converter postcoupled to said first delay means for digitizing the output of said first delay means at said sampling frequency, and a first subtractor receiving on one input thereof the output of said first analog-to-digital converter, and receiving on the other input thereof the output of said second analog-to-digital converter.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 13)
- - 2. The energy-saving system as claimed in claim 1, wherein said 3-phase power line delivers sinusoidal voltages, said feeding conductors are housed in conduits or bus ducts, and said power-delivery means include magnetic components defining a hysteresis curve including a knee, said curve above said knee defining a non-linear magnetic region, said magnetic components operating below said hysteresis knee in said magnetically linear region, whereby said sinusoidal voltage from said power line is not deformed, and losses in said motor, said feeding conductors, conduits or bus ducts are kept to a minimum.
  - 3. The energy-saving system as claimed in claim 2, wherein due to said magnetic components operating below said knee of said hysteresis curve harmonics of said sinusoidal voltages are substantially absent, whereby current passing through the disc of a power-measuring watthour meter coupled to said induction motor is precluded from generating any added torque, thereby preventing any billing by a utility beyond normal billing due to sinusoidal currents caused by said sinusoidal voltages.
  - 4. The energy-saving system as claimed in claim 1, wherein said 3-phase voltage power line has voltages of respective individual phases which differ in magnitude from each other by respective varying amounts, and further comprising equalizing means for substantially equalizing the magnitudes of all of the phase voltages at the input of said induction motor.
  - 5. The energy-saving system as claimed in claim 4, wherein said equalizing means for substantially equalizing the magnitudes of all of the phase voltages include two-winding transformer means having their primaries connected in delta, and their secondaries connected in zigzag and feeding said induction motor, said secondaries being isolated from said primaries, so that any unequal phase voltages transmitted from said power line and applied to the primaries of said transformer means substantially do not result in any unequal phase voltages on the secondaries of said transformer means feeding said induction motor.
  - 6. The energy-saving system as claimed in claim 5, wherien said variable voltage producing means includes a three-phase variable transformer.
  - 7. The energy-saving system as claimed in claim 4, wherein said equalizing means for substantially equalizing the magntidues of all of the phase voltages include two-winding transformer means having their primaries connected in wye, and their secondaries connected in zigzag and feeding said induction motor, so that any unequal phase voltages transmitted from said power line and applied to the primaries of said transformer means substantially do not result in any unequal phase voltages on the secondaries of said transformer means feeding said induction motor.
  - 8. The energy-saving system as claimed in claim 7, wherien said variable voltage producing means includes a three-phase variable transformer.
  - 9. The energy-saving system as claimed in claim 1, wherein said power-delivery means and said induction motor is in a given path, said given path emanating from power generating means, and further comprising a power-factor correction system for reactive power control and concomitant power factor correction connected to said power line, said power correction system includingreactive power compensation means in shunt with said power line, independent of said given path, free of current flowing in said given path to said magnetic power-delivery means and to said induction motor and in shunt with said magnetic power-delivery means, and includingfixed capacitance means, andvoltage applying means delivering a voltage of continuously variable magnitude in a stepless manner to said fixed capacitance means in response to any change in reactive power consumed by said induction motor so as to correct the magnitude of the power factor in said power line feeding said induction motor to a predetermined correction value, whereby power factor correction is optimized, yet does not produce any power line disturbant transients.
  - 10. The energy-saving system as claimed in claim 1, wherein said power-delivery means includes a series transformer having isolated primary and secondary windings, said secondary winding being connected in series with a given line voltage from said power line so as to provide a feed voltage for said induction motor, and a variable transformer fed form said power line and feeding said primary winding of said series transformer with a first variable voltage, so as to, in turn, induce a second variable voltage in said secondary winding, and further comprisinga turn-on control system fed form said power line for ensuring that the voltage delivered to said electric induction motor at the moment of power turn-on is a lowest available voltage, said turn-on system includingvoltage detection means, including regulation means responsive to the presence of line voltage on said power line, for disconnecting said variable voltage transformer from said power line upon absence of power, said variable voltage transformer thereby becoming a damping load across said series transformer primary winding, whereby said series transformer secondary winding acts as a primary winding, and said primary winding acts as a secondary winding, while said variable voltage transformer is disconnected from said power line, and concurrently said voltage detection means disabling itself, and disabling said regulation means,enabling means responsive to restoration of power for setting said variable voltage transformer to its loweest voltage, andmeans operative subsequently to settling of said variable voltage transformer to said lowest voltage for reconnecting said varible voltage transformer to said power line, and for subsequent restoration of said primary winding and of said secondary winding of said series transformer to their normal respective functions, and thereby re-enabling of said regulation means, whereupon normal operation of said efficiency-enhancing system is resumed.
  - 12. The energy-saving system as claimed in claim 1, wherein said active power-to-time derivative measuring means includes at least one watt transducer coupled to said induction motor, and a third analog-to-digital converter coupled to said watt transducer for digitizing the output of said watt transducer, second delay means postcoupled to said watt transducer and having a delay equal to the inverse of said sampling frequency, and a fourth analog-to-digital converter postcoupled to said second delay means for digitizing the output of said second delay means of said sampling frequency, and a second subtractor receiving on one input thereof the output of said second analog-to-digital converter, and receiving on the other input thereof the output of said fourth analog-to-digital converter.
  - 13. The energy-saving system as claimed in claim 1, further including a digital-to-analog converter postcoupled to said divider means, and wherein said signal proportional to the derivative of said active power with respect to said at least one feeding voltage includes positively-going and negatively-going signals, and a reversible servomotor, and wherein said control means includes first signal passing means passing only said positively-going signals, and second signal passing means passing only said negatively-going signals, said signal passing means being connected to an output of said digital-to-analog converter, said reversible servomotor being actuatable by said signal passing means, and wherein said power delivery means includes variable voltage producing means actuated by said servomotor.

11. An energy-saving system for feeding an electric induction motor acting as a load, said motor having a rated voltage, and being operable from a 3-phase voltage power line, and in conjunction with feeding conductors for said motor, said motor including an iron core defining a hysteresis curve, said hysteresis curve having a linear portion, and a knee adjoining said linear portion, comprising in combinationpower-delivery means operating in a magnetically linear region and being fed from said 3-phase voltage power line for applying variable feeding voltages to said induction motor in a range which includes the range above said rated voltage,sensing means coupled to said induction motor for generating a signal indicative of the derivative of active power consumed by said induction motor with respect to the voltage of at least one phase provided to said induction motor,means for limiting said feeding voltages so that the magnitude of the applied voltaged produces a flux density up to just below the knee of said hysteresis curve and up to near the end of said linear portion of said hysteresis curve, andcontrol means coupled to said sensing means and to said power-delivery means for regulating at least one of said feeding voltages so that the derivative of said active power with respect to the voltage of said at least one phase is always substantially zero, said control means including variable transformer operable voltage raising and voltage lowering means fed from one phse of said 3-phase power line, said means for limiting said feeding voltages to the end of the linear portion of said hysteresis curve being operable so as to disable said voltage raising means from operating beyond a safe limit, whereby for a given mechanical power output the power consumption of said induction motor is optimized, while concurrently losses in said feeding conductors are being minimized, and the exciting current of said motor is held within a safe level, so that said motor is operable at said flux density up to just below the knee and up to near the end of said linear portion of said hysteresis curve,wherein said sensing means comprisesampling means for sampling said active power consumed by said motor and by said feeding lines, and for sampling the feeding voltage of at least one phase at a sampling frequency sufficiently high to detect any changes in average power and mean voltage,active power-to-time derivative measuring means, and feeding voltage-to-time derivative measuring means, said derivative measuring means being coupled to said induction motor, andlogic circuitry including divider means connected to said derivative measuring means for obtaining a signal proportional to the derivative of said active power with respect to said feeding voltage of said at least one phase,a digital-to-analog converter postcoupled to said divider means, and wherein said signal proportional to the derivative of said active power with respect to said at least one feeding voltage includes positively-going and negatively-going signals, and a reversible servomotor, and wherein said control means includes first signal passing means passing only said positively-going signals, and second signal passign means passing only said negatively-going signals, said signal passing means being connected to an output of said digital-to-analog converter, said reversible servomotor being actuatable by said signal passing means, and wherein said power delivery means includes variable voltage producing means actuated by said servomotor,wherein said variable voltage producing means include said varible transformer fed from said one phase of said 3-phase power line, and wherein said control means includes master control means regulating the voltage of said one phase, and providing a reference signal, and two slave controlmeans including second and third variable transformers, respectively, controlled by said master controlmeans, and regulating the voltages of each of the remaining phases of said 3-phase power supply line in dependence of said reference signal of said master control means.

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Current Assignee
Frederick Rohatyn
Original Assignee
Frederick Rohatyn
Inventors
Rohatyn, Frederick
Primary Examiner(s)
Smith, Jr., David

Application Number

US06/784,162
Time in Patent Office

853 Days
Field of Search

318/229, 318/800, 318/432, 318/799, 318/798, 318/813-815, 318/806, 323/256, 323/206-208
US Class Current

318/813
CPC Class Codes

H02P 29/50 Reduction of harmonics

Y10S 174/16 in a motive power system, e...

Energy saving system for larger three phase induction motors

First Claim

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Abstract

83 Citations

13 Claims

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Energy saving system for larger three phase induction motors

First Claim

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Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

83 Citations

13 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links