Arrangement for contactless measurement of the volume flow or mass flow of a moving medium
First Claim
1. An arrangement for the contactless measurement of the mass or volume flow of inhomogeneities in a moving medium comprising two transducers having detection regions which are offset with respect to each other in the direction of movement of the medium and which generate electrical output signals influenced by the spatial position of inhomogeneities of the moving medium, the output signals generated in accordance with a spatial weighting function of each transducer, the detection regions of the two transducers partially overlapping in such a manner that the gradient of the spatial cross correlation function of the spatial weighting functions for the spatial displacement zero is different from the zero vector, means for calculating the time cross correlation function of the electrical output signals from the two transducers and for generating a first electrical signal representing the gradient of the time cross correlation function of the electrical output signals for the displacement time zero, means for processing the first electrical signal to generate a second electrical signal indicative of the mass or volume flow of the inhomogeneities in the moving medium, and means for coupling the means for generating the first electrical signal to the processing means.
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Accused Products
Abstract
The arrangement for contactless measurement of the volume flow or mass flow of a moving medium comprises two transducers which furnish electrical signals into which inhomogeneities of the moving medium enter depending on their spatial position in accordance with different spatial weighting functions. The detecting regions of the two transducers are offset with respect to each other in the direction of movement of the medium but partially overlap in such a manner that the gradient of the spatial cross correlation function for the spatial displacement zero is different from the zero vector. A correlator forms the time cross correlation function of the two signals and an evaluation circuit derives the measured value for the volume flow or mass flow of the moving medium from the gradient of the time cross correlation function for the time displacement zero. Alternatively, the measured value may also be derived from the first moment of the cross power density spectrum of the two signals because said moment is mathematically equivalent to the gradient of the time cross correlation function of the two signals for the time displacement zero.
48 Citations
9 Claims
- 1. An arrangement for the contactless measurement of the mass or volume flow of inhomogeneities in a moving medium comprising two transducers having detection regions which are offset with respect to each other in the direction of movement of the medium and which generate electrical output signals influenced by the spatial position of inhomogeneities of the moving medium, the output signals generated in accordance with a spatial weighting function of each transducer, the detection regions of the two transducers partially overlapping in such a manner that the gradient of the spatial cross correlation function of the spatial weighting functions for the spatial displacement zero is different from the zero vector, means for calculating the time cross correlation function of the electrical output signals from the two transducers and for generating a first electrical signal representing the gradient of the time cross correlation function of the electrical output signals for the displacement time zero, means for processing the first electrical signal to generate a second electrical signal indicative of the mass or volume flow of the inhomogeneities in the moving medium, and means for coupling the means for generating the first electrical signal to the processing means.
- 6. An arrangement for the contactless measurement of the volume flow, mass flow, or velocity of a moving medium comprising two transducers having detection regions which are offset with respect to each other in the direction of movement of the medium and which generate electrical output signals influenced by the spatial position of inhomogeneities of the moving medium, the output signals generated in accordance with a spatial weighting function of each transducer, the detection regions of the two transducers partially overlapping in such a manner that the gradient of the spatial cross correlation function of the spatial weighting functions for the spatial displacement zero is different from the zero vector, means for calculating the time cross correlation function of the electrical output signals from the two transducers and for generating a first electrical signal representing the gradient of the time cross correlation function of the electrical output signals for the displacement time zero, means for processing the first electrical signal to generate a second electrical signal indicative of the volume flow, mass flow, or velocity of the moving medium, and means for coupling the means for generating the first electrical signal to the processing means.
Specification