Company Filing History:
Years Active: 2017-2018
Title: Grant Seaman Anderson: Innovator in Digital Communication and Amplifier Technology
Introduction
Grant Seaman Anderson is a notable inventor based in Salt Lake City, UT (US). He has made significant contributions to the fields of digital communication and amplifier technology. With a total of 2 patents, Anderson's work showcases his innovative approach to solving complex engineering challenges.
Latest Patents
Anderson's latest patents include the "Buffered Body Return Receiver" and "Asynchronous Digital Communication." The Buffered Body Return Receiver patent describes configurations that allow an amplifier for a receiver to connect to two electrodes. One electrode connects to the non-inverting input of the amplifier, while the second electrode serves as a driven node connected to both the inverting input and the output of the amplifier. This design enables improved channel gains with reduced power consumption at the transmitter, making it suitable for scenarios where the signal source is electrically independent of the receiver's amplifier power supply. The Asynchronous Digital Communication patent outlines systems and methods for encoding and transmitting digital information. This technology allows for the reception and decoding of digital information based on transitions between symbols, making the timing of the symbols irrelevant.
Career Highlights
Grant Seaman Anderson is affiliated with the Massachusetts Institute of Technology, where he continues to push the boundaries of innovation in his field. His work has garnered attention for its practical applications and potential to enhance communication systems.
Collaborations
Anderson collaborates with Charles G Sodini, a fellow innovator, to further advance their research and development efforts.
Conclusion
Grant Seaman Anderson's contributions to amplifier technology and digital communication exemplify the spirit of innovation. His patents reflect a commitment to improving technology for practical applications. Anderson's work continues to influence the field and inspire future advancements.