Company Filing History:
Years Active: 2021
Title: Innovator Eric Huang: Pioneering Battery Technologies in San Jose, CA
Introduction: Eric Huang is a prominent inventor based in San Jose, California, who has made significant contributions to the field of battery technology. With two patents to his name, his work focuses on enhancing the efficiency and effectiveness of battery charging and monitoring.
Latest Patents: Eric Huang's latest patents include the innovative "Divider Circuit for Parallel Charging," which describes a battery charging circuit designed to boost an input current. This advanced circuit utilizes a low dropout regulator (LDO) to provide voltage, a switch mode charger connected to the battery, and a capacitor divider that effectively divides the voltage output by a specific factor. Another noteworthy patent is the "Advanced Fuel Gauge," a method that measures battery current and voltage to determine the battery's state-of-charge. This method incorporates calculations involving equivalent resistance and adjusts based on the battery's performance characteristics.
Career Highlights: As an inventor at Integrated Device Technology, Inc., Eric has dedicated his career to developing innovative solutions that enhance battery technologies. His expertise in this area has positioned him as a leader within the industry, contributing to advancements that are crucial for the next generation of electronic devices.
Collaborations: Throughout his career, Eric Huang has collaborated with talented peers such as Siqiang Fan and Sercan Ipek. Working alongside these individuals, he has been part of a dynamic team that fosters creativity and drives technological innovation.
Conclusion: Eric Huang stands out as a distinguished inventor whose patents reflect his commitment to improving battery technology. His contributions not only demonstrate his skills as an innovator but also enhance the capabilities of devices reliant on efficient power management. With a promising career at Integrated Device Technology, Inc., the future holds great potential for further advancements from Eric and his colleagues.