System for ultrasonic communication across curved metal surfaces
First Claim
1. A system for ultrasonic communication across a curved metal surface, comprising:
- first and second acoustic transducers on opposing sides of a curved metal surface having a convex side and a concave side, said first acoustic transducer on a concave side of said curved metal surface comprising at least one curved radial mode transducer adapted to mate with the concave surface of the curved metal surface, and said second acoustic transducer on a convex side of said curved metal surface;
a transducer horn adapted to hold said second acoustic transducer in place against said convex side of said curved metal surface;
a data modulator that applies modulated data bits to one of said first and second acoustic transducers for transmission of said modulated data bits through said curved metal surface and for receipt of said modulated data bits by the other of said first and second acoustic transducers that have been transmitted through said curved metal surface; and
a demodulator that demodulates the data bits received by the other of said first and second acoustic transducers.
4 Assignments
0 Petitions
Accused Products
Abstract
Ultrasonic through metal communication systems are an effective solution for transmitting data across a metal barrier when the structural integrity of the barrier cannot be compromised by physically penetrating it. Substantial improvements in through metal communication systems have been made in recent years, enabling high speed communications of up to 15 Mbps, as well as power transmission up to 30 W across flat walls. A system is described that allows for ultrasonic through metal communication across the wall of a steel tube. Primary challenges of 1) transducer contact, 2) curvature effect on echoes, and 3) alignment are analyzed and addressed through the use of radial mode piezoelectric transducers, transducer “horns”, and Electromagnetic Acoustic Transducers (EMATs). The resulting system shows no significant loss due to changes in alignment, allows for the use of either piezoelectric transducers or EMATs externally, and achieves max data rates of approximately 600 kbps without echo equalization.
8 Citations
7 Claims
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1. A system for ultrasonic communication across a curved metal surface, comprising:
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first and second acoustic transducers on opposing sides of a curved metal surface having a convex side and a concave side, said first acoustic transducer on a concave side of said curved metal surface comprising at least one curved radial mode transducer adapted to mate with the concave surface of the curved metal surface, and said second acoustic transducer on a convex side of said curved metal surface; a transducer horn adapted to hold said second acoustic transducer in place against said convex side of said curved metal surface; a data modulator that applies modulated data bits to one of said first and second acoustic transducers for transmission of said modulated data bits through said curved metal surface and for receipt of said modulated data bits by the other of said first and second acoustic transducers that have been transmitted through said curved metal surface; and a demodulator that demodulates the data bits received by the other of said first and second acoustic transducers. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification