Shashank Shekhar
About Shashank Shekhar
Shashank Shekhar is an Electronics Engineer with experience in mechatronics and power electronics. He currently works at Orangewood Labs in San Francisco and has previously held positions at Triassic Aerospace and Triassic Robotics.
Work at Orangewood Labs
Shashank Shekhar currently serves as an Electronics Engineer at Orangewood Labs, a position he has held since 2023. His role involves developing advanced electronic systems and components, contributing to the company's innovative projects in the electronics sector. Located in San Francisco, CA, Orangewood Labs focuses on creating cutting-edge technology solutions.
Previous Experience at Triassic Aerospace
Before joining Orangewood Labs, Shashank worked at Triassic Aerospace as a Mechatronics Engineer for a period of four months in 2023. His responsibilities included integrating mechanical and electronic systems, enhancing the functionality of aerospace technologies. This experience contributed to his understanding of complex engineering systems.
Experience at Triassic Robotics
Shashank also worked at Triassic Robotics as an Electronics Engineer for six months in 2022. During this time, he focused on the development and implementation of electronic systems for robotic applications. His work in this role helped him gain practical experience in the robotics field.
Education and Expertise
Shashank Shekhar earned his Bachelor's degree in Electrical, Electronics and Communications Engineering from Sharda University, completing his studies from 2018 to 2022. His academic background provided him with a solid foundation in electronic engineering principles, which he applies in his professional roles.
Technical Skills and Contributions
Shashank has demonstrated expertise in developing multi-layer STM32-based PCBs for various electronics subassemblies. His skills include working with hardware interfaces for protocols such as GPS, Wi-Fi, Bluetooth, LoRA, SPI, I2C, UART, USB, RS 232, and RS 485. Additionally, he resolved significant challenges in power electronics by designing and implementing circuitry to address back EMF issues in current robots.