System and method for calibrating a position sensing system

US 5,532,583 A
Filed: 05/04/1993
Issued: 07/02/1996
Est. Priority Date: 05/04/1993
Status: Expired due to Fees

First Claim

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1. A system for positioning an object at a desired position, comprising:

a position sensor providing a first signal having a first DC offset level and an AC component, wherein said AC component varies as a function of the position of the object;

an amplifier, coupled to said position sensor, configured to receive the first signal and a second signal and to produce an amplified signal at an output thereof, wherein said amplified signal is substantially proportional to a difference between said first and second signals;

calibration means, coupled to said amplifier, for receiving said amplified signal, for determining a magnitude of said DC offset level as manifested in said amplified signal, and for producing said second signal, wherein said second signal is chosen such that the DC level manifested in said amplified signal is set to a predetermined level;

a comparator, coupled to said amplifier, configured to receive said amplified signal and to produce pulses representing a difference between said amplified signal and a reference voltage level; and

controller means, coupled to said comparator, for using said pulses to determine the position of the object, and to produce a control signal to a motor to adjust the position of the object.

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Abstract

A system and method is provided for positioning a take-up reel in a tape drive unit so that a leader block can be inserted therein. The take-up reel is driven by a motor having a rotatable shaft and a motor controller. A position encoder, mounted on the shaft of the motor, uses a Hall-effect device to generate a Hall voltage signal in response to rotational motion of the motor shaft. The Hall voltage signal is amplified to provide a motor phase signal which is then compared to a reference level (usually zero volts) to generate encoder pulses. The encoder pulses are counted using a counter/state machine to determine a position and direction of rotation of the take-up reel. A feature of this system is that it is calibrated using a processor that determines the DC level of the motor phase signal and subsequently adjusts the motor phase signal so that it is substantially symmetrical about the reference level to which it is compared. The microprocessor accomplishes this by measuring a maximum and a minimum value for the motor phase signal, determining the offset about a DC level of the Hall voltage signal using these measured values, and generating a feedback signal to adjust the DC level of said motor phase signal as desired. This calibration is performed for a fixed period of time and only while the motor shaft is rotating. This ensures that actual maximum and minimum signal values are used for the calibration.

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14 Claims

1. A system for positioning an object at a desired position, comprising:
- a position sensor providing a first signal having a first DC offset level and an AC component, wherein said AC component varies as a function of the position of the object;
  
  an amplifier, coupled to said position sensor, configured to receive the first signal and a second signal and to produce an amplified signal at an output thereof, wherein said amplified signal is substantially proportional to a difference between said first and second signals;
  
  calibration means, coupled to said amplifier, for receiving said amplified signal, for determining a magnitude of said DC offset level as manifested in said amplified signal, and for producing said second signal, wherein said second signal is chosen such that the DC level manifested in said amplified signal is set to a predetermined level;
  
  a comparator, coupled to said amplifier, configured to receive said amplified signal and to produce pulses representing a difference between said amplified signal and a reference voltage level; and
  
  controller means, coupled to said comparator, for using said pulses to determine the position of the object, and to produce a control signal to a motor to adjust the position of the object.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The system of claim 1, wherein said controller means comprises:
    - a counter, coupled to said comparator, for counting said pulses produced by said comparator; and
      
      a controller, coupled to said counter, configured to determine an actual position of the object based on the number of pulses counted, and to produce said control signal as a difference between said actual position and the desired position.
  - 3. The system of claim 2, wherein said controller means further comprises a state machine, coupled to said comparator, configured to receive said pulses and to determine a direction of motion of the object based on said pulses.
  - 4. The system of claim 1, wherein said calibration means comprises:
    - an analog-to-digital converter, coupled to said amplifier, configured to convert said amplified signal into a digitized amplified signal;
      
      a processor, having an input coupled to said analog-to-digital converter to receive said digitized amplified signal, configured to produce a digital feedback signal, wherein said digital feedback signal is substantially proportional to the magnitude of said DC offset manifested in said amplified signal; and
      
      a digital-to-analog converter, coupled to said processor, configured to produce said second signal in response to said digital feedback signal.
  - 5. The system of claim 1, wherein said calibration means further comprises means for ensuring that the object is in motion while said determination is taking place to thereby avoid an erroneous determination of said magnitude of said DC offset.
  - 6. The system of claim 1, wherein said amplifier comprises:
    - a first amplifier, coupled to said calibration means, configured to amplify said second signal to produce a third signal; and
      
      a second amplifier, coupled to the position sensor, configured to receive said first signal and said third signal, and to amplify the difference between said first signal and said third signal to produce said amplified signal.
  - 7. The system of claim 6, wherein said first amplifier is further configured to receive a reference voltage signal, and to produce said third signal as an amplified difference between said second signal and said reference voltage signal.

8. A method of calibrating a system for determining the position of an object, the system having a position encoder device that provides a first signal having a DC component and an AC component, comprising the steps of:
- (a) amplifying the first signal to obtain an amplified first signal, said amplified first signal having an amplified DC component and an amplified AC component;
  
  (b) measuring a plurality of values of said amplified first signal;
  
  (c) determining maximum and minimum values of said amplified first signal from said plurality of values;
  
  (d) determining a level of said amplified DC component of said amplified first signal, said determination based on the maximum and minimum values determined in said step (c), said step (d) further comprising the steps of;
  
  (i) determining a correct voltage level required to adjust said amplified DC component of said amplified first signal to a level that will allow a comparator to detect the presence of pulses above and below said level of the DC component; and
  
  (ii) generating a feedback signal to provide said correct voltage level determined in said step (i); and
  
  (e) adjusting said amplified DC component of said amplified first signal to a predetermined level in response to said level determined in said step, (d), said adjustment made based on known characteristics of said amplifier.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The method of claim 8, further comprising the step of allowing the object to move for a fixed period of time, and wherein said step (c) is performed only while the object is in motion.
  - 10. The method of claim 8, further comprising the step of adjusting said amplified signal to a usable range using approximation techniques.
  - 11. The method of claim 8, further comprising the step of using the maximum and minimum values determined in said step (c) to calculate positive and negative thresholds.
  - 12. The method of claim 11, further comprising the steps of using the positive and negative thresholds to determine peaks in said amplified signal.
  - 13. The method of claim 10, wherein said feedback signal is a digital feedback signal and said step (d) further comprises the step of converting said digital feedback signal into an analog feedback signal.

14. A system for calibrating a position encoder device used for determining the position of an object, the position encoder device providing a first signal having a DC component and an AC component, the system comprising:
- means for amplifying the first signal to obtain an amplified first signal, said amplified first signal having an amplified DC component and an amplified AC component;
  
  means for measuring a plurality of values of said amplified first signal;
  
  means for determining maximum and minimum values of said amplified first signal from said plurality of values;
  
  means for determining a level of said amplified DC component of said amplified first signal, said determination based on said determined maximum and minimum values, said means for determining further comprising;
  
  means for determining a correct voltage level required to adjust said amplified DC component of said amplified first signal to a level that will allow a comparator to detect the presence of pulses above and below said level of the DC component, andmeans for generating a feedback signal to provide said correct voltage level; and
  
  means for adjusting said amplified DC component of said amplified first signal to a predetermined level in response to said determined level, said adjustment made based on known characteristics of said amplifier.

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Current Assignee
Storage Technologies Corporation (Oracle Corporation)
Original Assignee
Storage Technologies Corporation (Oracle Corporation)
Inventors
Stetler, Steven S., Rebman, Chester L., Davis, Bruce M.
Primary Examiner(s)
Snow, Walter E.

Application Number

US08/056,625
Time in Patent Office

1,155 Days
Field of Search

324/225, 324/207.12, 324/251, 324/207.2, 324/173, 324/174, 324/202, 324/207.24, 324/207.25, 324/207.26, 338/324, 307/309
US Class Current

324/202
CPC Class Codes

G05B 19/21   using an incremental digita...

G05B 2219/37016   Calibrate dc offset, measur...

G05B 2219/37154   Encoder and absolute positi...

G05B 2219/37184   Hall generator cooperates w...

G11B 15/67   by extracting end of record...

System and method for calibrating a position sensing system

First Claim

1 Assignment

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Abstract

37 Citations

14 Claims

Specification

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System and method for calibrating a position sensing system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

37 Citations

14 Claims

Specification

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Solutions

Use Cases

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