Patent ID: 6260408
Filing Date: 2001-07-17
Classification: G01N

Abstract:
A sensor for determining the properties of a liquid, comprising:a resonator means, having at least one liquid-contacting surface, for generating a plurality of acoustic waves in said liquid when immersed therein;an oscillator means connected to said resonator means for driving said resonator means simultaneously at a plurality of different frequencies;a frequency means connected to said oscillator means for measuring the operating frequencies of said resonator means when said at least one liquid-contacting surface is in contact with said liquid;a liquid property means responsive to said frequency means for determining difference frequencies by comparing said operating frequencies measured by said frequency means with predetermined reference frequencies, and for determining said properties of said liquid from said difference frequencies;a means for velocity for denoting an acoustic velocity for said plurality of acoustic waves in said liquid, wherein said liquid property means includes a means for determining said properties of said liquid from said acoustic velocity denoted by said velocity means and said difference frequencies;said velocity means includes a means for measuring said acoustic velocity for said plurality of acoustic waves when propagating in said liquid;said measuring means includes a means for measuring the wavelength of said plurality of acoustic waves in said liquid and for denoting said acoustic velocity as the product of said wavelength and the average frequency of said plurality of acoustic waves;said resonator means comprises at least one resonator and said oscillator means drives said at least one resonator at two or more different frequencies;said measuring means includes a reflector means for forming a plurality of gaps of different widths between said reflector means and said liquid-contacting surface of said at least one resonator, for reflecting said plurality of acoustic waves to form standing acoustic waves in said gaps at particular gap widths, and for determining the acoustic wavelength of said standing acoustic waves;said liquid property means includes a means for calculating said acoustic velocity of said liquid from said acoustic wavelength and the frequency of said plurality of acoustic waves;said resonator means includes a means for generating compression and shear acoustic waves in said liquid, said reflecting means includes a means for reducing said gap widths such that said acoustic shear waves extend across said gaps, and said liquid property means includes a means for determining the shear wave penetration depth of said liquid;said properties of the liquid include determining density, .rho., viscosity, .eta., acoustic compressional velocity, V, and shear-wave penetration depth, .delta., through a plurality of frequency measurements without measuring quality factor, Q; andsaid shear-wave penetration depth, .delta., being related to said properties of the liquid according to the formula:.delta.=.eta./.pi.f.rho.where said .eta. is viscosity of said liquid, said f is a shear-wave frequency and said .rho. is density of said liquid.