Company Filing History:
Years Active: 1996
Title: Peter J Daigneault: Innovator in Communication Technology
Introduction
Peter J Daigneault is a notable inventor based in Plymouth, NH (US). He has made significant contributions to the field of communication technology, particularly through his innovative designs and patents. His work focuses on enhancing the efficiency and functionality of communication systems.
Latest Patents
One of Peter J Daigneault's key patents is the Enhanced Line Powered Amplifier. This invention provides an advanced solution for interconnecting a two-wire, bidirectional cable side transmission path and a two-wire bidirectional equipment side transmission path in a communication system. The amplifier includes a first splitter, which consists of a cable-to-equipment voltage sense amplifier, a shunt current driver, and a series current compensator. This configuration generates a first simulated terminating impedance. Additionally, the second splitter is designed with an equipment-to-cable voltage sense amplifier, the shunt current driver, and the series current compensator to create a second simulated terminating impedance. The patent also features manual balancing circuitry for adjusting the cable side balance networks and a loopback circuit for facilitating remote testing and alignment of the amplifier from the cable side. Peter holds 1 patent for this innovative technology.
Career Highlights
Peter J Daigneault is currently associated with Wilcom, Inc., where he continues to develop and refine communication technologies. His expertise and innovative mindset have positioned him as a valuable asset in the industry.
Collaborations
Peter has worked alongside Frederick J Kiko, contributing to various projects and enhancing the capabilities of their team.
Conclusion
Peter J Daigneault's contributions to communication technology through his patent for the Enhanced Line Powered Amplifier demonstrate his commitment to innovation and excellence in the field. His work continues to influence the development of efficient communication systems.