Piezoelectric resonant sensor using the acoustoelectric effect
First Claim
Patent Images
1. A piezoelectric resonant sensor utilizing the acoustoelectric effect to accurately and reproducibly measure a change of electrical properties of a medium comprising:
- a piezoelectric material having a first surface acoustoelectrically coupled to said medium;
a source of electrical energy;
a first excitation electrode and a second excitation electrode, said first and said second electrodes each having a primarily active electrode region electrically coupled to said source of electrical energy and said piezoelectric material to establish a resonant frequency therein;
said first electrode generating an active area in said first surface of said resonant sensor partially but incompletely overlapping with an active area in said first surface generated by electrical coupling of said second electrode with said second surface so as to create a transition region with an accentuated electric field in said piezoelectric material at said first surface and thereby reproducibly acoustoelectrically couple said first surface to said medium.
1 Assignment
0 Petitions
Accused Products
Abstract
An AT cut quartz crystal resonator has an unbalanced electrode geometry to induce a particularly strong electrical field in a surface of the resonator adjacent a medium. The electrical field will interact with ions and dipoles in the medium and may be used to accurately and repeatably measure the electrical characteristics of the medium. Specific examples are provided illustrating the use of a sensor designed in accord with the invention in sensing dilute electrolytes, and other applications are contemplated.
121 Citations
12 Claims
-
1. A piezoelectric resonant sensor utilizing the acoustoelectric effect to accurately and reproducibly measure a change of electrical properties of a medium comprising:
-
a piezoelectric material having a first surface acoustoelectrically coupled to said medium; a source of electrical energy; a first excitation electrode and a second excitation electrode, said first and said second electrodes each having a primarily active electrode region electrically coupled to said source of electrical energy and said piezoelectric material to establish a resonant frequency therein; said first electrode generating an active area in said first surface of said resonant sensor partially but incompletely overlapping with an active area in said first surface generated by electrical coupling of said second electrode with said second surface so as to create a transition region with an accentuated electric field in said piezoelectric material at said first surface and thereby reproducibly acoustoelectrically couple said first surface to said medium. - View Dependent Claims (2, 3, 4, 5, 6, 10, 11, 12)
-
-
7. A method of accurately and reproducibly measuring a change of electrical properties of a medium comprising the steps of:
-
measuring a frequency of oscillation of a piezoelectric oscillator; acoustoelectrically interacting a transition field formed by a transition region of a piezoelectric resonator with said medium; establishing frequencies of vibration of said piezoelectric resonator during said acoustoelectric interaction; determining said electrical properties from a difference in frequency between said frequencies of vibration and said frequencies of oscillation. - View Dependent Claims (8, 9)
-
Specification