Company Filing History:
Years Active: 1977-1979
Title: The Innovations of Peter Pang
Introduction
Peter Pang is a notable inventor based in Hong Kong, CN. He has made significant contributions to the field of electrical engineering, particularly in the development of solid-state circuits. With a total of 2 patents to his name, his work has had a considerable impact on circuit protection technologies.
Latest Patents
Peter Pang's latest patents include a solid-state tripping circuit designed to enhance the safety and reliability of electrical systems. The first patent describes a system where the primary winding of a saturable transformer, coupled to an alternating current (a.c.) circuit, drives the core of the transformer into saturation during part of the a.c. current cycle. This innovation allows for the generation of rise-time indicator pulses that are inversely proportional to the rate of rise of the monitored a.c. current. These pulses are processed by a pick-up circuit that generates rectangular pulses when the a.c. current exceeds the normal rated value. The second patent focuses on a solid-state tripping circuit that senses overcurrent conditions in a circuit connecting a power source to a load. This circuit controls the operation of a circuit breaker, actuating it to open after a variable time delay based on the overcurrent sensed.
Career Highlights
Throughout his career, Peter Pang has worked with several prominent companies, including ITE Imperial Corporation and Gould Inc. His experience in these organizations has allowed him to refine his skills and contribute to various innovative projects in the electrical engineering sector.
Collaborations
Peter has collaborated with notable professionals in his field, including Lee A. Davis. Their joint efforts have further advanced the development of circuit protection technologies.
Conclusion
Peter Pang's contributions to electrical engineering through his innovative patents and collaborations highlight his role as a significant inventor in the industry. His work continues to influence the design and safety of electrical systems today.