Sasikala J

Title: The Innovative Contributions of Sasikala J in Circuit Design

Introduction

Sasikala J is a prominent inventor based in Tamil Nadu, India, known for her significant contributions to the field of circuit design. With a total of 2 patents, she has made strides in enhancing the performance and efficiency of multi-layer circuits. Her work is particularly focused on improving impedance profiles, which is crucial for circuit designers.

Latest Patents

Sasikala's latest patents include innovative methods for capacitive compensation for vertical interconnect accesses. These patents allow for the simulation of multiple designs for a multi-layer circuit to determine the impedance profiles of each design. This enables circuit designers to select the most suitable design based on these profiles. One of the key features that can be modified is the structure surrounding the barrels of a differential VIA on layers that are not connected to the differential VIA. Specifically, she explores the use of one antipad that surrounds both barrels or two antipads, with one for each barrel. Additionally, the size of the antipad or antipads can be adjusted, which directly affects the impedance of the differential VIA. Furthermore, a conductive region may be placed that connects to the VIA barrel, even if the circuit on that layer does not connect to the VIA. This unused pad, surrounded by a non-conductive region, also influences the impedance of the differential VIA.

Career Highlights

Sasikala J is currently employed at Achronix Semiconductor Corporation, where she continues to push the boundaries of circuit design. Her innovative approaches have garnered attention in the industry, making her a valuable asset to her team.

Collaborations

Sasikala collaborates with talented individuals such as Hansel Desmond Dsilva and Abhishek Jain, contributing to a dynamic work environment that fosters creativity and innovation.

Conclusion

Sasikala J's contributions to circuit design through her patents and collaborative efforts highlight her role as a leading inventor in her field. Her work not only enhances the efficiency of multi-layer circuits but also sets a foundation for future innovations in the industry.