Company Filing History:
Years Active: 1996
Title: Scott M Peters - Innovator in Selective Call Radio Technology
Introduction
Scott M Peters is an accomplished inventor based in Coral Springs, FL (US). He is known for his innovative contributions to the field of selective call radio technology. With a focus on enhancing communication devices, Peters has made significant strides in the industry.
Latest Patents
Scott M Peters holds a patent for a "Method and apparatus for power off control of a selective call radio." This invention includes a selective call radio that features a receiver section, an address detector, a power off command detector, and a power control section. The receiver section is designed to receive and demodulate radio signals. The address detector compares the demodulated address to stored selective call addresses and generates an address detect signal when a match occurs. The power off command detector generates a power off signal when the address detect signal is present along with a power off command in the radio signal. The power control section then changes the state of the selective call radio to an off state in response to the power off signal. This innovation enhances the functionality and efficiency of selective call radios.
Career Highlights
Scott M Peters has had a notable career, working with Motorola Corporation, a leading company in communication technology. His work has contributed to advancements in radio communication, showcasing his expertise and dedication to innovation.
Collaborations
Throughout his career, Peters has collaborated with talented individuals such as Donald L Branner and Andrew E Ray. These collaborations have fostered a creative environment that has led to the development of impactful technologies.
Conclusion
Scott M Peters is a distinguished inventor whose work in selective call radio technology has made a lasting impact. His innovative patent demonstrates his commitment to enhancing communication devices, and his collaborations further highlight his contributions to the field.