Rangefinder with reduced noise receiver
First Claim
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1. A rangefinder configured to determine a range to a target by measuring a flight time of a beam traveling between the rangefinder and the target, the rangefinder comprising:
- a transmitter configured to emit the beam towards the target;
a receiver configured to detect a reflection of the beam from the target, the receiver comprising;
a photodiode configured to generate a current signal proportional to the received reflection;
a transimpedance amplifier configured to receive the current signal and to generate a voltage signal proportional thereto;
noise reduction circuitry configured to reduce noise present in the voltage signal by limiting the voltage signal relative to a first voltage level, the first voltage level selected according to a methodology of reducing said noise in said voltage signal;
a comparator configured to indicate when the noise-reduced voltage signal exceeds a second voltage level, the second voltage level selected above an expected noise in the noise-reduced voltage signal, thereby confirming that when said noise-reduced voltage signal exceeds said second voltage level, said received reflection comprises a desired reflection;
one or more filters configured to remove noise components from the voltage signal; and
an amplifier configured to amplify the voltage signal, wherein the amplifier is further configured to set a mean value of the voltage signal to the first voltage level; and
a processor configured to convert the flight time of the beam into a range measurement when the comparator indicates the noise-reduced voltage signal has exceeded the second voltage level.
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Abstract
A rangefinder and method are provided for measuring a distance between the rangefinder and a target by measuring the flight time of a beam reflected from the target. In an embodiment, a receiver having reduced noise detects weak reflections from the targets or targets with poor reflectivity. The receiver generates a voltage signal proportional to a reflected beam, clamps the voltage signal to remove a portion of the noise therefrom, and compares the voltage signal to a threshold. In some embodiments, the receiver also filters the voltage signal to remove a portion of the noise therefrom. In an embodiment, the sensitivity of the receiver is increased as a function of time to reduce the likelihood of detecting stray reflections from objects other than the intended target. In some embodiments, the rangefinder collects calibration data with each range measurement or group of range measurements. The calibration data comprise a plurality of simulated range measurements.
108 Citations
20 Claims
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1. A rangefinder configured to determine a range to a target by measuring a flight time of a beam traveling between the rangefinder and the target, the rangefinder comprising:
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a transmitter configured to emit the beam towards the target; a receiver configured to detect a reflection of the beam from the target, the receiver comprising; a photodiode configured to generate a current signal proportional to the received reflection; a transimpedance amplifier configured to receive the current signal and to generate a voltage signal proportional thereto; noise reduction circuitry configured to reduce noise present in the voltage signal by limiting the voltage signal relative to a first voltage level, the first voltage level selected according to a methodology of reducing said noise in said voltage signal; a comparator configured to indicate when the noise-reduced voltage signal exceeds a second voltage level, the second voltage level selected above an expected noise in the noise-reduced voltage signal, thereby confirming that when said noise-reduced voltage signal exceeds said second voltage level, said received reflection comprises a desired reflection; one or more filters configured to remove noise components from the voltage signal; and an amplifier configured to amplify the voltage signal, wherein the amplifier is further configured to set a mean value of the voltage signal to the first voltage level; and a processor configured to convert the flight time of the beam into a range measurement when the comparator indicates the noise-reduced voltage signal has exceeded the second voltage level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for detecting a reflected beam received from a target, the method comprising:
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generating a voltage signal proportional to the reflected beam; amplifying the voltage signal; removing a first portion of noise from the voltage signal; comparing the voltage signal to a first voltage level to detect the reflected beam, wherein the first voltage level is above a second portion of the noise present in the voltage signal; and indicating that the voltage signal is at least as great as the first voltage level, wherein removing the first portion of noise comprises filtering low frequency noise components from the voltage signal, wherein amplifying the voltage signal comprises setting the mean value of the voltage signal to a second voltage level, and wherein removing the first portion of noise comprises clamping the voltage signal at the second voltage level. - View Dependent Claims (14, 15, 16)
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17. A rangefinder receiver comprising:
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means for generating a voltage signal proportional to a beam reflected from a target; means for removing noise from the voltage signal; and means for comparing the voltage signal to a first voltage level, the first voltage level selected above an expected noise in the voltage signal, thereby confirming that when said voltage signal exceeds said first voltage level, said receiver has received a desired reflection, wherein the means for removing noise comprises means for limiting the voltage signal to a second voltage level to thereby remove a portion of noise present in the voltage signal, the second voltage level selected according to a methodology of reducing said noise in said voltage signal, and wherein the means for limiting the voltage signal comprises; means for removing high frequency noise components from the voltage signal; means for amplifying the voltage signal and substantially centering the voltage signal with respect to the second voltage level; and means for clamping the voltage signal at the second voltage level. - View Dependent Claims (18)
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19. A receiver comprising:
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a photodiode configured to generate a current signal proportional to a received light pulse; a transimpedance amplifier configured to receive the current signal and to generate a voltage signal proportional thereto, wherein the voltage signal comprises noise and a voltage pulse proportional to the light pulse; noise reduction circuitry configured to remove noise present in the voltage signal, wherein the noise reduction circuitry comprises circuitry configured to clamp the voltage signal; and a threshold that is adjustable in a search pattern, wherein the circuitry configured to clamp the voltage signal comprises; a high-pass filter; an amplifier coupled to the high-pass filter, wherein the high-pass filter and the amplifier are configured to adjust the mean value of the voltage signal; a first diode configured to remove portions of the voltage signal below the mean value; and a second diode configured to bias the first diode. - View Dependent Claims (20)
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Specification
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Current AssigneeMeade Instruments Corporation
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Original AssigneeMeade Instruments Corporation
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InventorsLaBelle, John
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Primary Examiner(s)Tarcza; Thomas H
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Assistant Examiner(s)Brainard; Timothy A
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Application NumberUS10/995,687Publication NumberTime in Patent Office1,582 DaysField of Search356 501- 515US Class Current356/5.01CPC Class CodesG01C 3/08 Use of electric radiation d...G01S 17/10 using transmission of inter...G01S 7/4813 Housing arrangementsG01S 7/4873 by deriving and controlling...G01S 7/497 Means for monitoring or cal...
