With over 7 years of experience, I am a specialized embedded firmware developer with a strong focus on Electric Vehicle (EV) Powertrain systems. My expertise is in designing, developing, and maintaining firmware for critical applications, from EV inverter platforms to IoT devices. I am passionate about solving complex challenges at the bare-metal level and creating highly optimized, reliable code that meets stringent industry standards.
My core technical skills are rooted in Embedded C and I have extensive experience with 32-bit microcontrollers, including Infineon Tc3xx, nRF52840, and STM32. I am adept at creating low-level drivers and custom Board-Support Packages (BSP), and I also have a strong background in RTOS environments.
I have a comprehensive command of a wide range of communication protocols, including CAN, SPI, I2C, UART, and BLE 5.0. This proficiency allows me to seamlessly integrate various sensors and components, ensuring flawless data transfer and system performance. I have a proven track record of developing reusable code modules that have significantly improved efficiency and reduced code duplication.
My skills extend to hands-on hardware debugging and board bring-up. I use professional-grade tools like the Trace32 Debugger, Vector CANOE, and INCA to perform in-depth testing and analysis. My experience with Hardware-in-Loop (HiL) systems and software development methodologies like the V-Cycle (ASPICE) ensures that all projects are completed to the highest quality standards. Additionally, I am proficient in Python for test automation, which adds to my versatility.
My blend of automotive-specific experience, bare-metal expertise, and deep understanding of communication protocols makes me a unique and valuable asset for any embedded project. I am a dedicated problem-solver with the flexibility to adapt to new challenges and deliver exceptional results.