Company Filing History:
Years Active: 2022
Title: Nathaniel James Banka: Innovator in Motor Protection Technology
Introduction
Nathaniel James Banka, a notable inventor based in Seattle, WA, has made significant contributions in the field of electric motor protection. With a keen focus on robotics, his innovative approach addresses critical challenges faced by electric motors, particularly in preventing overheating.
Latest Patents
Nathaniel holds one patent titled "Model-based Current Limiter for an Electric Motor." This groundbreaking invention is designed to protect motors from overheating. The patent discloses an advanced algorithm that dynamically limits the motor current, making it particularly useful for motors employed in robotic applications. By utilizing a thermal model of the motor, the algorithm provides real-time estimates of coil temperature by analyzing both instantaneous power consumption and thermocouple measurements from the motor's printed circuit board. An essential feature of this current limiter is its ability to output various parameters, including the maximum permissible power consumption to avoid overheating and an estimate of how long the motor can sustain high torque before reaching thermal limits.
Career Highlights
Nathaniel is currently employed at Amazon Technologies, Inc., where he leverages his expertise in electric motor technologies. His work contributes to the company’s commitment to pushing the boundaries of innovation in robotics and automation.
Collaborations
Throughout his career, Nathaniel has collaborated with other talented individuals in the field, including his coworkers Kyle Michael Washabaugh and Aleksandar Kojic. These collaborations have further enriched his work, resulting in advanced solutions for electric motor challenges.
Conclusion
Nathaniel James Banka stands out as an innovative thinker and inventor, particularly in the realm of electric motor protection technologies. His patent not only showcases his ingenuity but also highlights the vital role of technology in enhancing the performance and safety of robotic systems. With his contributions, Nathaniel continues to influence the future of electric motor applications, ensuring safer and more efficient operations.