Apparatus for measuring pulse signal delay interval

US 4,620,788 A
Filed: 07/01/1983
Issued: 11/04/1986
Est. Priority Date: 07/13/1982
Status: Expired due to Term

First Claim

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1. Apparatus for measuring the length of a path by measuring the time required for pulses to propagate along said path, the combination comprising:

a transmitter and a receiver defining the ends of said path;

means for producing a start signal;

means to transmit said start signal to said transmitter to cause said transmitter to generate pulses which propagate along said path;

means responsive to receipt of one of said pulses at said receiver to generate a stop signal;

oscillator means for producing a train of reference pulses at a predetermined frequency;

coarse counter means for counting the pulses received at said receiver between said start and stop signals;

fine measurement interpolator means;

and means to cause said fine measurement interpolator means to determine two residual times, one between said stop signal and a predetermined edge of the next following reference pulse, and a second residual time betwen said start signal and a predetermined edge of the next following reference pulse.

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Abstract

Apparatus for measuring the time delay between pulse signals, particularly in conjunction with electro-optical range finders. A coarse measurement counter counts the output of a reference oscillator, while a fine measurement interpolator determines the residual time at the start and finish of a measuring interval. Both residual times are successively determined by the same fine measurement interpolator. A delay circuit only supplies the pulse transmitter with the trigger signal when the interpolation for the start signal in the interpolator is ended. An adjustable series of test pulses is produces by a clock generator, in order to form the average value from such a series of measurements in a logic circuit. Preferably, the clock generator is synchronized with the reference oscillator, which ensures the formation of a mean value with a narrow range of errors.

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23 Claims

1. Apparatus for measuring the length of a path by measuring the time required for pulses to propagate along said path, the combination comprising:
- a transmitter and a receiver defining the ends of said path;
  
  means for producing a start signal;
  
  means to transmit said start signal to said transmitter to cause said transmitter to generate pulses which propagate along said path;
  
  means responsive to receipt of one of said pulses at said receiver to generate a stop signal;
  
  oscillator means for producing a train of reference pulses at a predetermined frequency;
  
  coarse counter means for counting the pulses received at said receiver between said start and stop signals;
  
  fine measurement interpolator means;
  
  and means to cause said fine measurement interpolator means to determine two residual times, one between said stop signal and a predetermined edge of the next following reference pulse, and a second residual time betwen said start signal and a predetermined edge of the next following reference pulse.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The combination of claim 1, and means to delay transmission of said start pulse from said means for producing said start pulse to said transmitter.
  - 3. The combination of claim 1, wherein said path measuring pulses are light pulses, and wherein said transmitter and said receiver are electro-optical devices.
  - 4. The combination of claim 3;
    - means to calibrate said apparatus;
      
      said calibration means comprising a light controlling element positioned in said path;
      
      means to put said light controlling element in a first state where light is directed to and from a target and to selectively put said element in a second state wherein light from said transmitter passes along a known calibration path within said apparatus directly from said transmitter to said receiver;
      
      and the distance between said target and said apparatus corresponding to the length of the path to be measured.
  - 5. The combination of claim 1, and a clock signal generator for producing clock signals comprising;
    - a first divider circuit and a mixer circuit each having inputs connected to said means for producing reference pulses;
      
      a phase detector circuit connected to receive the outputs of said divider and mixer circuits and to produce an output signal representative of the phase differences thereof;
      
      a filter circuit connected to the output of said phase detector circuit;
      
      a voltage controlled oscillator having an input connected to receive the output of said filter circuit and an output connected to a second input of said mixer circuit;
      
      a second divider circuit connected to receive the output of said voltage controlled oscillator;
      
      and an AND-gate having one input connected to receive the output of said second divider and a second input connected to receive said start signals;
      
      whereby the clock signals from said gate are synchronized with said reference oscillator signals.
  - 6. The combination of claim 1, and a clock signal generator for producing a series of adjustable clock signals in response to said start signal.
  - 7. The combination of claim 6, and further including delay circuit means connected to receive said adjustable clock signals and to produce first and second delayed output signals;
    - gate circuit means connected to receive said first output of said delay circuit means;
      
      pulse transmitter means connected to receive said second output of said delay circuit means and for producing a ranging pulse; and
      
      circuit means for connecting the output of said clock signal generator as a count start signal to said coarse counter.
  - 8. The combination of claim 7, wherein said delay circuit means includes;
    - a second oscillator circuit;
      
      a second counter circuit having a start input connected to receive said clock signals;
      
      a first bistable multivibrator having an input connected to receive a first output of said second counter for producing a start signal output as said first delayed output signal;
      
      a second bistable multivibrator having an input connected to receive a second output of said second counter, said second multivibrator being activated upon reaching a second counting rate to produce said second signal connected to said pulse transmitter means; and
      
      circuit means connecting the output of said second oscillator to the trigger inputs of both of said first and second multivibrators.
  - 9. The combination of claim 1, and further including delay circuit means connected to receive said start signal for producing first and second delayed output signals;
    - gate circuit means connected to receive said first output of said delay circuit means; and
      
      pulse transmitter means connected to receive said second output of said delay circuit means for producing a ranging pulse.
  - 10. The combination of claim 9, wherein said delay circuit means includes;
    - a second oscillator circuit;
      
      a second counter circuit having a count input connected to said second oscillator and a start input connected to receive said start signals;
      
      a first bistable multivibrator having an input connected to receive a first output of said second counter for producing a start signal output as said first delayed output signal;
      
      a second bistable multivibrator having an input connected to receive a second output of said second counter, said second multivibrator being activated upon reaching a second counting rate to produce said second signal connected to said pulse transmitter means; and
      
      circuit means connecting the output of said second oscillator to the trigger inputs of both of said first and second multivibrators.
  - 11. The combination of claim 10, and further including circuit means for connecting said second output of said second counter to the start input of said coarse counter.

12. A method for mesuring the length of a path by measuring the time required for pulses to propagate along said path, comprising the steps of:
- providing a transmitter and a receiver to define the ends of said path;
  
  producing a start signal;
  
  transmitting said start signal to said transmitter to cause said transmitter to generate pulses which propagate along said path;
  
  generating a stop signal responsive to receipt of said pulses at said receiver;
  
  producing a train of reference pulses at a predetermined frequency;
  
  counting the pulses received at said receiver between said start and stop signals using a coarse counter;
  
  providing fine measurement interpolator means; and
  
  causing said fine measurement interpolator means to determine two residual times, one between said stop signal and a predetermined edge of the next following reference pulse, and a second residual time between said start signal and a predetermined edge of the next following reference pulse.
- View Dependent Claims (13, 14, 15, 16, 17, 18)
- - 13. The method of claim 12, and delaying transmission of said start pulse from said means for producing said start pulse to said transmitter.
  - 14. The method of claim 12, wherein said path measuring pulses are light pulses, and wherein said transmitter and said receiver are electro-optical devices.
  - 15. The method of claim 14;
    - and calibrating said apparatus using a light controlling element positioned in said path;
      
      putting said light controlling element in a first state where light is directed to and from a target and selectively putting said element in a second state wherein light from said transmitter passes along a known calibration path within said apparatus directly from said transmitter to said receiver;
      
      and wherein the distance between said target and said apparatus corresponds to the length of the path to be measured.
  - 16. The method of claim 12, and providing a clock signal generator to produce clock signals comprising a first divider circuit and a mixer circuit each having inputs;
    - connecting said inputs to receive said reference pulses;
      
      providing a phase detector circuit and connecting said phase detector circuit to receive the outputs of said divider and mixer circuits to produce an output signal representative of the phase differences thereof;
      
      providing a filter circuit connected to the output of said phase detector circuit;
      
      providing a voltage controlled oscillator having an input connected to receive the output of said filter circuit and an output connected to a second input of said mixer circuit;
      
      providing a second divider circuit connected to receive the output of said voltage controlled oscillator;
      
      and providing an AND-gate having one input connected to receive the output of said second divider and a second input connected to receive said start signals;
      
      whereby the clock signals from said gate are synchronized with said reference oscillator signals.
  - 17. The method of claim 12, and producing a series of adjustable clock signals in response to said start signal.
  - 18. The method of claim 17, and providing delay circuit means connected to receive said adjustable clock signals and to produce first and second delayed output signals;
    - providing gate circuit means connected to receive said first output of said delay circuit means;
      
      providing pulse transmitter means connected to receive said second output of said delay circuit means to produce a ranging pulse; and
      
      providing circuit means for connecting the output of said clock signal generator as a count start signal to said coarse counter.

19. Apparatus for measuring the length of a path by measuring the time required for a pulse to propagate along said path, the combination comprising:
- a transmitter and a receiver defining the ends of said path;
  
  a logic control circuit;
  
  means for producing a start signal;
  
  means to transmit said start signal to said transmitter to cause said transmitter to generate a pulse which propagates between the transmitter and the receiver;
  
  means responsive to receipt of said pulse at said receiver to generate a stop signal;
  
  means for producing reference pulses;
  
  coarse counter means having first, second and third inputs and an output for counting whole ones of said reference pulses;
  
  time interpolator means having first and second inputs and an output for evaluation of segments of said reference pulses smaller than whole ones of said reference pulses which may occur at the beginning and at the end of a path length measurement;
  
  an OR-gate having first and second inputs and an output;
  
  means to connect said first input of said OR-gate to said means to transmit said start signal to said transmitter;
  
  means to connect said second input of said OR-gate to said stop signal generating means;
  
  an edge detector having first and second inputs and an output;
  
  means to connect said output of said OR-gate to both said first input of said time interpolator means and said first input of said edge detector;
  
  means to supply said reference pulses to said second input of said edge detector, said time interpolator means and said coarse counter means;
  
  means to connect said output of said edge detector to said second input of said time interpolator means and to said second input of said coarse counter means;
  
  means to interconnect said means to transmit said start signal with said third input of said coarse counter means; and
  
  means to interconnect said logic control circuit with said output of said coarse counter means and said output of said time interpolator means.
- View Dependent Claims (20, 21, 22, 23)
- - 20. The combination of claim 19, and a calibration circuit, said calibration circuit comprising first and second inputs, and a calibration start output and a calibration stop output;
    - means to supply said reference pulses to said first input, means to interconnect said logic control circuit to said second input of said calibration circuit, and means to interconnect both of said calibration circuit start and stop outputs with said time interpolator means.
  - 21. The combination of claim 19, and a delay circuit, means to connect said delay circuit into said means to transmit said start signal to said transmitter, said connection of said first input of said OR-gate to said means to transmit said start signal being made to said delay circuit, and said delay circuit serving to delay delivery of said start signal to said transmitter.
  - 22. The combination of claim 19, and a path length switching means, means to cause said path length switching means to selectively define either a calibration path or a said path length to be measured, and means to interconnect said last mentioned means to cause with said logic control circuit.
  - 23. The combination of claim 22, said apparatus comprising an optical system and said propagating pulses comprising pulses of light;
    - said path length switching means comprising a dual state optical element which transmits light in one state for calibration and which reflects light in its second state for path measurement.

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Current Assignee
Wild Heerbrugg AG
Original Assignee
Wild Heerbrugg AG
Inventors
Giger, Kurt
Primary Examiner(s)
NOT, DEFINED
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/510,223
Time in Patent Office

1,222 Days
Field of Search

356/5, 356/28.5, 343/13 R, 368/118, 328/63, 328/155, 328/179, 328/129.1, 307/262, 307/269, 307/511, 331/25
US Class Current

356/5.13
CPC Class Codes

G01S 17/14   wherein a voltage or curren...

G01S 7/497   Means for monitoring or cal...

G04F 10/04   by counting pulses or half-...

Apparatus for measuring pulse signal delay interval

First Claim

1 Assignment

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Abstract

86 Citations

23 Claims

Specification

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Apparatus for measuring pulse signal delay interval

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

86 Citations

23 Claims

Specification

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Use Cases

Quick Links

Others