Phase commutation circuit for brushless DC motors using a spike insensitive back EMF detection method

US 5,057,753 A
Filed: 06/29/1990
Issued: 10/15/1991
Est. Priority Date: 06/29/1990
Status: Expired due to Term

First Claim

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1. In a brushless DC motor comprising a plurality of windings to define m phases of said motor, a permanent magnet or DC current excitation winding positioned relative to said windings and rotatable relative to said windings and comprising means for establishing fixed first magnetic fields, commutation apparatus comprising;

driver means connected to said plurality of windings for applying a current pulse to at least one phase thereof inducing at least one second, controlled magnetic field, which interacts with said fixed first magnetic fields causing rotation of said permanent magnet;

commutation means for controlling said driver means to apply said current pulse to said phase in a timed and orderly manner, maintaining said rotation of said permanent magnet;

detection means for detecting back EMF signals from said plurality of windings and generating detected back EMF signals;

latching means for latching said detected back EMF signals;

parity checking means for combining said detected back EMF signals into a single digital bit stream having a transition representing each detected back EMF zero crossing;

gating means for inhibiting passage of said single digital bit stream during periods of commutation noise and for enabling passage of single digital bit stream at all other times;

first delay means for delaying said transitions of said single bit stream which occur during said gating enablement, said delayed transitions causing said latching means to latch; and

second delay means for delaying said transitions of said single bit stream to provide delayed signal for enabling said gating means.

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Abstract

Apparatus for controlling phase commutation of a brushless DC motor. The apparatus is comprised of a back EMF detection technique to determine the current position of the rotor, an error rejection circuit to prohibit commutation noise from causing errors in determining the present rotor position, a means for determining the next phase set to energize and proper energization timing to maintain a lead angle between the physical rotor position and the magnetic wave, and a means for driving the appropriate brushless DC motor phases with current.

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12 Claims

1. In a brushless DC motor comprising a plurality of windings to define m phases of said motor, a permanent magnet or DC current excitation winding positioned relative to said windings and rotatable relative to said windings and comprising means for establishing fixed first magnetic fields, commutation apparatus comprising;
- driver means connected to said plurality of windings for applying a current pulse to at least one phase thereof inducing at least one second, controlled magnetic field, which interacts with said fixed first magnetic fields causing rotation of said permanent magnet;
  
  commutation means for controlling said driver means to apply said current pulse to said phase in a timed and orderly manner, maintaining said rotation of said permanent magnet;
  
  detection means for detecting back EMF signals from said plurality of windings and generating detected back EMF signals;
  
  latching means for latching said detected back EMF signals;
  
  parity checking means for combining said detected back EMF signals into a single digital bit stream having a transition representing each detected back EMF zero crossing;
  
  gating means for inhibiting passage of said single digital bit stream during periods of commutation noise and for enabling passage of single digital bit stream at all other times;
  
  first delay means for delaying said transitions of said single bit stream which occur during said gating enablement, said delayed transitions causing said latching means to latch; and
  
  second delay means for delaying said transitions of said single bit stream to provide delayed signal for enabling said gating means.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The commutation apparatus of claim 1 wherein said detection means includes a plurality of comparators equivalent to the number of phases in said motor, where each comparator has said phasetap voltage signal as one input from a respective phase and the centertap voltage as the second input, such that each comparator switches states each time said phasetap voltage signal crosses said the centertap voltage.
  - 3. The commutation apparatus of claim 1 wherein said detection means includes a simulated centertap circuit comprising a plurality of resistors equivalent to the number of said phases of said motor connected in a star configuration, and connected to said driver means to provide a voltage representative of the centertap voltage of said motor.
  - 4. The commutation apparatus of claim 3 wherein said detection means includes a plurality of comparators equivalent to the number of phases in said motor, where each comparator has said phase tap voltage signal as one input from a respective phase and said representative centertap voltage as the second input, such that each comparator switches states each time said phasetap voltage signal crosses said representative centertap voltage.
  - 5. The commutation apparatus of claim 1 wherein said driver means is a power bridge controlled by said commutation means and connected to each phase of said motor for applying a current pulse to at least one phase thereof inducing at least one second, controlled magnetic field, which interacts with said fixed first magnetic fields causing rotation of said permanent magnet.
  - 6. The commutation apparatus of claim 1 wherein said commutation means includes a signal encoding means for processing the output of said latching means to determine the current rotor position and the next set of said phase pairs to be energized by said driver means to maintain rotor motion.
  - 7. The commutation apparatus of claim 1 wherein said parity checking means is a circuit that exclusively ORs said detected phasetap voltage signals into said single bit stream.
  - 8. The commutation apparatus of claim 1 wherein said second delay means delays the output of said first delay means by a fixed duration substantially equivalent to the time duration between the initiation of commutations of said motor phases and the disappearance of said excessive noise creating a doubly delayed bit stream to create an enabling signal for said gating means.
  - 9. The commutation apparatus of claim 1 wherein said first delay means has a variable delay.
  - 10. The commutation apparatus of claim 9 wherein said first delay means includes an edge triggered sawtooth waveform generator responsive to each state change of said single bit stream to create a sawtooth waveform and a comparator which compares said sawtooth waveform with a reference voltage source producing a bit stream with each transition being identical to said single bit stream, but delayed by an amount of time corresponding to the duration from the sawtooth waveform generator trigger to the time when the comparator changes state.
  - 11. The commutation apparatus of claim 10 wherein said reference voltage source is variable according to the desired lead angle for said motor.

12. In a commutatorless DC motor comprising a plurality of windings to define m phases of said motor, a permanent magnet or DC current excitation winding positioned relative to said windings and rotatable relative to said windings and comprising means for establishing, fixed first magnetic fields, commutation method including the steps of:
- comparing the back EMF voltage on each of said phases to the centertap voltage;
  
  representing said back EMF voltage that is greater than said centertap voltage by a digital one and representing said back EMF voltage that is less than said centertap voltage by a digital zero, creating a digital representation of said back EMF signal for each of said phases;
  
  combining said digital representations for each of said phases by using a logical exclusive OR and creating a single bit stream;
  
  gating said single bit stream;
  
  delaying said single bit stream by a variable duration;
  
  delaying said single bit stream a second duration of fixed length creating a gate enabling signal;
  
  using said gate enabling signal to enable said gating of said single bit stream, at all other times said single bit stream is inhibited from passing through the gate;
  
  latching said digital representations using a transition of said delayed single bit stream;
  
  processing said latched digital representations to determine the current rotor position and the next phase combination to be energized to maintain rotor motion; and
  
  commutating the phases based upon said processing.

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Current Assignee
Seagate Technology LLC (Seagate Technology Holdings Plc)
Original Assignee
Seagate Technology plc (Seagate Technology Holdings Plc)
Inventors
Leuthold, Hans M., De Herrera, Felix
Primary Examiner(s)
Smith, Jr., David

Application Number

US07/546,512
Time in Patent Office

473 Days
Field of Search

318/254, 318/138, 318/439
US Class Current

318/400.35
CPC Class Codes

H02P 6/085 in a bridge configuration

H02P 6/182 using back-emf in windings

Phase commutation circuit for brushless DC motors using a spike insensitive back EMF detection method

First Claim

8 Assignments

0 Petitions

Accused Products

Abstract

64 Citations

12 Claims

Specification

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Phase commutation circuit for brushless DC motors using a spike insensitive back EMF detection method

First Claim

8 Assignments

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0 Petitions

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Accused Products

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Abstract

64 Citations

12 Claims

Specification

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Use Cases

Quick Links

Others