Virtual hall-effect signal generating for a brushless sensorless electrical rotary machine
First Claim
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1. A method of enhancing a brushless DC motor having a plurality of Hall-effect sensors and a frequency-to-voltage conversion circuit comprising the steps of:
- (a) deactivating or removing the Hall-effect sensors and the frequency-to-voltage conversion circuit; and
(b) connecting a commutation error detector circuit and the DC motor to a voltage controlled oscillator and operatively connecting a solid-state circuit to the voltage controlled oscillator to provide output signals substantially the same as the Hall-effect sensors to thereby functionally replace the Hall-effect sensors.
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Abstract
Electronic solid state circuitry is provided which takes the place of Hall-effect sensors in brushless DC motors, providing output signals substantially the same as those of Hall-effect sensors. The Hall-effect sensors in existing motors may be deactivated or removed and functionally replaced by the solid state circuit. The circuit may include a number of D flip flops and a NAND gate connected to a voltage controlled oscillator by a switch which is part of a start up circuit. A direction reverse circuit, a sampling logic circuit (to determine which phase is non-energized at a particular point in time), and a commutation error detector circuit are also preferably provided. New motors utilizing the circuitry have increased reliability and precise velocity regulation.
34 Citations
19 Claims
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1. A method of enhancing a brushless DC motor having a plurality of Hall-effect sensors and a frequency-to-voltage conversion circuit comprising the steps of:
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(a) deactivating or removing the Hall-effect sensors and the frequency-to-voltage conversion circuit; and (b) connecting a commutation error detector circuit and the DC motor to a voltage controlled oscillator and operatively connecting a solid-state circuit to the voltage controlled oscillator to provide output signals substantially the same as the Hall-effect sensors to thereby functionally replace the Hall-effect sensors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A brushless sensorless electrical rotary machine comprising:
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a rotor and a stator and including a plurality of windings driven by a multiphase inverter for selectively energizing said windings in sequence; a voltage controlled oscillator for controlling the frequency of the multiphase inverter, and having an output and an input; a solid state virtual Hall signal generator circuit operatively connected to the voltage controlled oscillator output to provide output signals substantially the same as those of Hall-effect sensors; and wherein said virtual Hall signal generator comprises a programmable logic chip connected to an ML 4410 or ML 4411 chip. - View Dependent Claims (11, 12, 13)
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14. A brushless sensorless electrical rotary machine comprising:
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a rotor and a stator and including a plurality of windings driven by a multiphase inverter for selectively energizing said windings in sequence; a voltage controlled oscillator for controlling the frequency of the multiphase inverter, and having an output and an input; a solid state virtual Hall signal generator circuit operatively connected to the voltage controlled oscillator output to provide output signals substantially the same as those of Hall-effect sensors; and a sampling logic circuit connected to the outputs of the virtual Hall signal generator circuit to construct sampling logic from the outputs of the solid state virtual Hall signal generator circuit so that which phase is a non-energized phase may be determined. - View Dependent Claims (15)
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16. A brushless sensorless electrical rotary machine comprising:
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a rotor and a stator and including a plurality of windings driven by a multiphase inverter for selectively energizing said windings in sequence; a voltage controlled oscillator for controlling the frequency of the multiphase inverter, and having an output and an input; a solid state virtual Hall signal generator circuit operatively connected to the voltage controlled oscillator output to provide output signals substantially the same as those of Hall-effect sensors; and
comprising a plurality of D flip flops, each having a CP input; and
a NAND gate; anda start-up circuit connected to the machine, including a switch for connecting said voltage controlled oscillator output signal to said CP inputs of said D flip flops. - View Dependent Claims (17)
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18. A brushless sensorless electrical rotary machine comprising:
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a rotor and a stator and including a plurality of windings driven by a multiphase inverter for selectively energizing said windings in sequence; a voltage controlled oscillator for controlling the frequency of the multiphase inverter, and having an output and an input; a solid state virtual Hall signal generator circuit operatively connected to the voltage controlled oscillator output to provide output signals substantially the same as those of Hall-effect sensors; and
a direction reverse circuit connected to said solid state virtual Hall signal generator circuit; anda connotation error detector circuit connected to the input of said voltage controlled oscillator.
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19. A machine as recited in 18 further comprising a sampling logic circuit connected to the outputs of the virtual Hall signal generator circuit to construct sampling logic from the outputs of the virtual Hall signal generator circuit so that which phase is a non-energized phase may be determined.
Specification
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Current AssigneeSL Auburn, Inc. (Eaton Corporation PLC.), RFL Electronics, Inc. (Hubbell, Inc.), Cedar Corp. (Steel Partners Holdings LP), SL Delaware Holdings, Inc. (Steel Partners Holdings LP), SL Delaware, Inc. (Steel Partners Holdings LP), SL Industries Incorporated (Steel Partners Holdings LP), Sl-Montevideo Technology Incorporated (Steel Partners Holdings LP), SL Surface Technologies, Inc. (Steel Partners Holdings LP), SLW Holdings, Inc. (Steel Partners Holdings LP), Teal Electronics Corporation (Steel Partners Holdings LP)
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Original AssigneeSl-Montevideo Technology Incorporated (Steel Partners Holdings LP)
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InventorsHuang, Hao
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Primary Examiner(s)Ro, Bentsu
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Application NumberUS08/246,859Time in Patent Office550 DaysField of Search318/138, 318/254, 318/439US Class Current318/400.01CPC Class CodesH02P 6/185 using inductance sensing, e...
