Distributed acoustic sensor
First Claim
1. A distributed acoustic sensor comprising:
- a) a light source for injecting a first light beam into a first optical fiber;
b) optical coupling means connected by a first port to said first optical fiber from the light source for conveying said first light beam to a second port of the coupling means, and for conveying a portion of a second light beam entering the second port to a third port of the coupling means;
c) a second optical fiber connected to the second port of the coupling means for conveying the first light beam to a remote point;
d) transducing means connected to said second optical fiber at the remote point for receiving said first light beam, sensing acoustic energy, producing said second light beam responsive to the combination of the acoustic energy and said first light beam, and injecting said second light beam back into said second optical fiber;
e) a photoelectric detector connected by a third fiber to the third port of the optical coupling means, thereby receiving a portion of said second light beam returned from said transducer means;
f) an electronic circuit connected to the photoelectric detector for processing the electrical output of the photoelectric detector resulting from changes in the intensity of the second light beam in response to acoustic energy sensed by said transducer means; and
g) an extended acoustic collector connected to said transducing means which comprises;
i) a hollow member enclosing an internal cavity and having at least one branch; and
ii) an acoustic conducting medium filling the internal cavity of the hollow member which is in acoustic communication with the transducing means for collecting and conveying acoustic energy to the transducing means.
1 Assignment
0 Petitions
Accused Products
Abstract
A distributed acoustic sensor utilizing a Fizeau type fiber optic transducer and a distributed acoustic collector to gather and return acoustic disturbances from remote areas in buried, underground, or underwater installations. A light beam from a laser or LED source is transmitted over a fiber to a remote transducer which is coupled to a distributed acoustic collector. The collector may be an extended pipe or tube system filled with an acoustic conducting medium such as air or an appropriate liquid which communicates with the sensing diaphragm in the transducer. An interference beam whose characteristics are a function of the diaphragm motion is created in the transducer and transmitted back over the common single fiber toward the source. An in-line optical coupler/splitter diverts a portion of the returning modulated beam to a photodetector which outputs a proportional electrical signal to an electronic circuit for amplification and analysis.
-
Citations
4 Claims
-
1. A distributed acoustic sensor comprising:
-
a) a light source for injecting a first light beam into a first optical fiber; b) optical coupling means connected by a first port to said first optical fiber from the light source for conveying said first light beam to a second port of the coupling means, and for conveying a portion of a second light beam entering the second port to a third port of the coupling means; c) a second optical fiber connected to the second port of the coupling means for conveying the first light beam to a remote point; d) transducing means connected to said second optical fiber at the remote point for receiving said first light beam, sensing acoustic energy, producing said second light beam responsive to the combination of the acoustic energy and said first light beam, and injecting said second light beam back into said second optical fiber; e) a photoelectric detector connected by a third fiber to the third port of the optical coupling means, thereby receiving a portion of said second light beam returned from said transducer means; f) an electronic circuit connected to the photoelectric detector for processing the electrical output of the photoelectric detector resulting from changes in the intensity of the second light beam in response to acoustic energy sensed by said transducer means; and g) an extended acoustic collector connected to said transducing means which comprises; i) a hollow member enclosing an internal cavity and having at least one branch; and ii) an acoustic conducting medium filling the internal cavity of the hollow member which is in acoustic communication with the transducing means for collecting and conveying acoustic energy to the transducing means. - View Dependent Claims (2, 3, 4)
-
Specification