Company Filing History:
Years Active: 2017
Title: Innovations by Inventor Erez Shalom in Power Harvesting for NFC Devices
Introduction
Erez Shalom, an innovative inventor based in Givataim, Israel, has made significant contributions to the field of electronic communication devices. With a specialization in near field communication (NFC), he holds a notable patent that showcases his expertise and creativity in powering electronic devices.
Latest Patents
Erez Shalom's patent is titled "Power Harvest Architecture for Near Field Communication Devices." This invention presents a method of charging a power-harvested supply in electronics, particularly NFC devices. The patented technology allows for the charging process to occur without causing dV/V violations, which helps to prevent false wake-up incidents in the device. The system captures an RF (radio frequency) field via an antenna, generates a differential voltage, and subsequently creates a bandgap reference voltage along with a reference current. When the shunt current exceeds the reference current, a bank of switching devices is activated, ensuring efficient energy management.
Career Highlights
Erez Shalom is currently associated with Texas Instruments Corporation, a leading technology company known for its advancements in semiconductors and integrated circuits. His role involves development and innovation in NFC technology, where he applies his extensive knowledge in electronic communication systems to help drive new solutions and products.
Collaborations
In the pursuit of his innovative projects, Erez collaborates with talented colleagues including Srikanth Manian and Yogesh Darwhekar. Together, they work on enhancing the functionality and efficiency of electronic communication devices, contributing to the overall success of their team’s initiatives at Texas Instruments Corporation.
Conclusion
Erez Shalom's contributions in the realm of power harvesting for NFC devices demonstrate the importance of innovation in electronic communication. His patented technology not only addresses existing challenges but also paves the way for advancements in device efficiency and performance. As he continues to work with his esteemed colleagues, the future looks promising for further innovations in this dynamic field.