Company Filing History:
Years Active: 1981
Title: Innovations by Robert G Heitz
Introduction
Robert G Heitz is an accomplished inventor based in Concord, CA. He has made significant contributions to the field of battery technology, holding a total of 2 patents. His work focuses on enhancing the efficiency and functionality of power systems.
Latest Patents
Robert G Heitz's latest patents include an "Efficient, high power battery module" and "D.C. transformers and multiterminal, high voltage D.C. power networks." The latter patent describes a system where sub-terminals are electrically isolated from each other, utilizing D.C. transformers that consist of a large number of efficient, high energy batteries. These batteries are organized into two groups: one with paralleled long strings of series-connected batteries and another with paralleled short strings. The system also features automatic monitoring and control mechanisms that allow for the periodic exchange of charged and discharged strings between the two groups.
Additionally, his patent addresses a solution for internally open-circuited cells. If a battery cell fails, an automatic bypass mechanism maintains the circuit, allowing the string to continue operating at a lower voltage. This innovative approach utilizes the potential difference across the failed cell to heat a conductive liquid, which then ruptures an ampoule and fills the gap between conductors, completing a shunt circuit.
Career Highlights
Robert G Heitz is currently employed at The Dow Chemical Company, where he continues to develop innovative solutions in battery technology. His work has been instrumental in advancing the efficiency of power systems, making significant strides in the field.
Collaborations
Robert G Heitz collaborates with Robert R Stringham, contributing to the development of cutting-edge technologies in their field.
Conclusion
Robert G Heitz is a notable inventor whose work in battery technology has led to significant advancements. His innovative patents reflect his commitment to improving energy efficiency and functionality in power systems.