Ina Shternberg

Title: The Innovative Contributions of Ina Shternberg

Introduction

Ina Shternberg is a prominent inventor based in Haifa, Israel. She has made significant contributions to the field of electronics, particularly in the development of advanced circuit architectures. With a total of 2 patents to her name, her work addresses critical challenges in digital-to-analog conversion and power amplification.

Latest Patents

One of Ina's latest patents is titled "Dynamic power rail floating for CDAC circuits." This invention describes techniques to mitigate P-MOS bias temperature instability (BTI) stress issues within capacitive radio frequency digital-to-analog converters (CDAC). The circuit architecture solution she developed protects transistors under various operating conditions. Additionally, her patent discloses methods to adjust the power supply rail voltages for CDAC cells based on different operational scenarios, including the transmitting state of individual cells and the overall CDAC array.

Another notable patent is the "High voltage digital power amplifier." This invention allows for a switched capacitor digital power amplifier (PA) that operates at high supply voltage levels, exceeding twice the maximum voltage rating for any of the transistor terminals. This advancement opens new possibilities for high-performance amplification in electronic devices.

Career Highlights

Ina Shternberg is currently employed at Intel Corporation, where she continues to push the boundaries of innovation in electronic circuit design. Her expertise and dedication to her work have made her a valuable asset to the company.

Collaborations

Throughout her career, Ina has collaborated with talented individuals such as Ofir Degani and Assaf Ben-Bassat. These partnerships have fostered a creative environment that encourages the development of groundbreaking technologies.

Conclusion

Ina Shternberg's contributions to the field of electronics exemplify the spirit of innovation. Her patents not only address current challenges but also pave the way for future advancements in digital-to-analog conversion and power amplification.