Publications Details

Trans-Barrier Communication Device For High Data Rate Applications

Corral, Celestino A.; Reinke, Charles M.; Gibson, Christopher L.; El-Kady, I.; Haschke, Greg B.

A high bandwidth piezoelectric transducer technology for high data rate communications across metallic barriers is presented and discussed. To properly characterize the channel, a linear time-invariant (LTI) model of the device is obtained using frequency fitting methods on the S-parameter measurements of the communication network. The corresponding impulse response of the channel is derived from the poles and residues used to fit the frequency data. A recursive formulation of the impulse response of complex poles is advanced and analyzed. The channel characteristics were used to estimate the trans-barrier data rate employing orthogonal frequency division multiplex (OFDM) as used in a powerline communication (PLC) standard. An off-the-shelf PLC system is used to communicate through a metallic barrier and data rates exceeding 70 Mbps were achieved as predicted by the model. The methods described here are useful for estimating the physical data rate achievable by trans-barrier communication systems using piezoelectric transducers.