Patent ID: 7288944
Filing Date: 2007-10-30
Classification: G01R

Abstract:
1. A method for determining a dielectric constant of an unknown material, comprising: providing a first half waveguide frame having a plurality of sides, a midpoint and a longitudinal rectangular groove along one side; providing a second half waveguide frame identical to said first half waveguide frame; mating said first half waveguide frame and said second half waveguide frame to form a full waveguide frame defining an aperture that is a rectangular cross-section waveguide, having a height b and a width a that is at least twice the height b, wherein the lowest order cutoff frequency of said waveguide guide is expressed as, where c is the velocity of light (3×10 8 m/s), a is the width of the waveguide in meters, and ε r is the dielectric constant of any material filling the waveguide; inserting a solid metal septum between the first half waveguide frame and the second half waveguide frame to define two reduced cross-sectional areas of equal volume for a corresponding portion of said rectangular cross-section waveguide, wherein said solid metal septum creates a constant cutoff frequency mode in the part of said rectangular cross-section waveguide in which the septum is inserted; sizing two samples of said unknown material wherein both samples are sized to fit within one of each of said two reduced cross-sectional areas for a corresponding portion of said rectangular cross-section waveguide, each sample having a length l in meters; inserting said at two identically shaped samples of said unknown material, one each into one of said two reduced cross-sectional areas for a corresponding portion of said rectangular cross-section waveguide, such that one sample is on either side of said septum; plotting a first graph of frequency values versus the dielectric constant of any material in said rectangular cross-section waveguide where the value of the total reflection coefficient as expressed as is zero for a sample of said material of length L=l in meters, where and and where and η 0 =377Ω in said rectangular cross-section waveguide, having a height b and a width a that is at least twice the height b, wherein Z 1 is the characteristic real impedance of said rectangular cross-section waveguide in the region in front of and behind said metal septum for a frequency greater than the lowest order cutoff frequency, and wherein Z 2 is the characteristic imaginary impedance of said rectangular cross-section waveguide in the region of the metal septum for a frequency less than or equal to the lowest order cutoff frequency; plotting a second graph of a frequency response through said full waveguide frame with said two samples therein versus the value of |S11|=20*log determining a lowest order minimum frequency response from said second graph of frequency response versus the value of |S11|=20*log determining a dielectric constant of said two samples of unknown material from said lowest order minimum frequency response of said full waveguide frame by comparing the frequency value that correspond to the dielectric constant of any material where the value of the total reflection coefficient is zero as plotted in said first graph.