Ting Chia Chang

Title: Innovations of Ting Chia Chang

Introduction

Ting Chia Chang is an accomplished inventor based in Stanford, CA (US). She has made significant contributions to the field of power and data transfer technologies. With a total of 2 patents, her work focuses on enhancing communication and energy efficiency in various applications.

Latest Patents

One of her latest patents is titled "RF-ultrasound relay for efficient power and data transfer across interfaces." This invention features a hybrid RF-acoustic relay that rectifies some of the incident RF power to power the relay and potentially support additional link features. The remaining RF power drives an acoustic transceiver array, facilitating communication with acoustically powered nodes. This innovation ensures efficient power, control, and communication, even in challenging conditions where traditional RF or acoustic links may falter.

Another notable patent is "Dynamic reconfiguration for maximizing the overall link efficiency of energy receivers in a reliable implantable system." This patent describes a control system that varies the transmitted acoustic frequency to optimize power transmission from an acoustic transmitter to an electrical load on an implanted device. By adjusting the transmitted frequency, the electrical impedance of the acoustic transducer can be modified, enhancing power delivery to the load.

Career Highlights

Ting Chia Chang is affiliated with Leland Stanford Junior University, where she continues her research and development in innovative technologies. Her work has garnered attention for its potential applications in medical devices and other fields requiring efficient energy transfer.

Collaborations

She collaborates with notable colleagues, including Jayant Charthad and Mohammad Amin Arbabian, contributing to a dynamic research environment that fosters innovation.

Conclusion

Ting Chia Chang's contributions to the field of power and data transfer technologies exemplify her commitment to innovation. Her patents reflect a deep understanding of the challenges in energy efficiency and communication, paving the way for future advancements.