Acoustic flowmeter with envelope midpoint tracking
First Claim
1. An acoustic flowmeter comprisingmeans responsive to a trigger pulse for transmitting a burst of acoustic energy having a characteristic amplitude envelope along a flow axis of a fluid medium,means displaced axially from said transmitting means for receiving said burst,means for detecting the envelope of said received burst,variable frequency means responsive to an error control signal for generating a periodic output signal indicative of the midpoint of the received envelope,means responsive to said received envelope for generating said error control signal indicative of a time interval between said output signal and the actual midpoint of said received envelope,said variable frequency means having means for adjusting the frequency of said output signal in a direction to reduce said time interval, whereby said output signal tends to track the midpoint of the envelope of received signals.
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Accused Products
Abstract
An acoustic burst with a predetermined amplitude envelope is triggered by a square wave signal and transmitted upstream or downstream to a transducer connected to an adaptive control system which tracks the midpoint of the received envelope. The received signal is rectified and fed via a polarity reversing circuit controlled by the square wave to an integrator whose output level controls the frequency of the square wave. The burst transit time is measured to the next zero crossing of the received signal following the half cycle transition point of the square wave.
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Citations
17 Claims
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1. An acoustic flowmeter comprising
means responsive to a trigger pulse for transmitting a burst of acoustic energy having a characteristic amplitude envelope along a flow axis of a fluid medium, means displaced axially from said transmitting means for receiving said burst, means for detecting the envelope of said received burst, variable frequency means responsive to an error control signal for generating a periodic output signal indicative of the midpoint of the received envelope, means responsive to said received envelope for generating said error control signal indicative of a time interval between said output signal and the actual midpoint of said received envelope, said variable frequency means having means for adjusting the frequency of said output signal in a direction to reduce said time interval, whereby said output signal tends to track the midpoint of the envelope of received signals.
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10. An acoustic flowmeter comprising
means responsive to a trigger pulse for transmitting a burst of acoustic energy along a flow axis of a fluid medium, means displaced axially from said burst transmitting means for receiving said burst, means for detecting the amplitude envelope of the received burst, and servo control means for tracking the midpoint of the received envelope and for issuing trigger pulses to said burst transmitting means such that the burst repetition period is twice the burst transit time measured to the midpoint of the received envelope.
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11. An acoustic flowmeter comprising
means adapted to be mounted in a fluid medium for receiving an acoustic signal, means for detecting the amplitude envelope of the received acoustic signal, variable time base means for generating a periodic midpoint test signal, means for comparing the energy level within the envelope before the occurrence of said midpoint test signal with the energy level within the envelope following said midpoint test signal to produce a comparison output, and control means responsive to said comparison output for changing the frequency of said variable time base means in a direction to null said comparison signal.
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13. An acoustic flowmeter comprising
means adapted to be mounted in a fluid medium for receiving an acoustic pulse signal, means for determining the midcycle of the received pulse signal, means for detecting a specific amplitude level within said midcycle irrespective of the overall amplitude of the received signal, means responsive to detection of said midcycle for determining a signal transit time in said medium, and means for determining flow rate from said transit time.
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16. Method for measuring the velocity of flow of a fluid medium comprising the steps of,
transmitting in the downstream direction a first series of bursts, each having a characteristic amplitude envelope, from an ultrasonic transmitter at an angle θ - to a normal to the flow axis of a fluid medium,
detecting the envelope of said bursts at a receiver displaced axially downstream from said transmitter, measuring the transit time, Tdown, for each of said bursts from a defined point in said envelope at said transmitter to a defined point in the same envelope at said receiver, transmitting in the upstream direction a second series of bursts, each having a characteristic amplitude envelope, from an ultrasonic transmitter at an angle θ
to a normal to the flow axis of a fluid medium,detecting the envelope of said bursts at a receiver displaced axially upstream from said transmitter, measuring the transit time, Tup, for each of said bursts from a defined point in said envelope at said transmitter to a defined point in the same envelope at said receiver, computing the flow velocity V from the series of Tup and Tdown measurements, and whenever a series of upstream or downstream measurements of transit time have a standard deviation greater than a predetermined value, the computed velocity V is not used.
- to a normal to the flow axis of a fluid medium,
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17. Method for measuring the velocity of flow of a fluid medium comprising the steps, of,
transmitting in the downstream direction a first series of bursts, each having a characteristic amplitude envelope at an angle θ - to a normal to the flow axis of said fluid medium,
detecting the envelope of said bursts at a receiver displaced axially downstream from said transmitter, measuring the transit time, Tdown, for each of said bursts from a defined point in said envelope at said transmitter to a defined point in the same envelope at said receiver, transmitting in the upstream direction a second series of bursts, each having a characteristic amplitude envelope from an ultrasonic transmitter at an angle θ
to a normal to the flow axis of a fluid medium,detecting the envelope of said bursts at a receiver displaced axially upstream from said transmitter, measuring the transit time, Tup, for each of said bursts from a defined point in said envelope at said transmitter to a defined point in the same envelope at said receiver, and computing the flow velocity V, according to the equation, ##EQU3## where P=path length of the transmitted ultrasonic bursts from transmitter to receiver, F=a constant factor Tup =the mean Tup for the series of burst in the upstream direction Tdown =the mean Tdown for the series of burst in the downstream direction, where whenever a series of upstream or downstream measurements of transit time have a standard deviation greater than a predetermined value, the corresponding V measured is not used.
- to a normal to the flow axis of said fluid medium,
Specification