San Francisco Bay Area
🔌 Embedded Systems | PCIe | IoT | PCB Design | Sensor Integration | Problem Solver Hi, I’m Chirag Satapathy, a Master’s student in Electrical Engineering at UPenn, specializing in embedded systems, hardware design, digital circuits, PCIe and IoT. I’m passionate about designing intelligent embedded systems that seamlessly connect the physical world to the digital. 🔹 What I Bring to the Table: 💡 Hands-on experience integrating sensors, wireless communication, and building smart solutions using IoT. Knowledge of protocols - UART, I2C, SPI, Modbus, MQTT, BLE, 802.11 🔌 Proficient in schematic capture (LTspice), PCB design (Altium), and hardware/software co-design. 💻Skilled in Python, C, RTOS, and familiar with microcontrollers - NVIDIA Jetson, STM32, PIC, Raspberry Pi, ATmega328, SAMW25 and F28379D. 🛜High-Speed Digital: PCIe link training, equalization algorithms, compliance testing, signal integrity validation Let’s connect if you’re into embedded systems, PCIe, IoT innovations, or tech that makes an impact! 🚀⚡ 🔗 Explore my projects & research: https://github.com/cs28-droid
1. Led the creation and prototyping of embedded systems projects, focusing on optimizing circuit designs and advancing firmware development for coursework. 2. Managed a diverse set of over 20 experiments, overseeing test equipment setup, calibration, and optimization and ensuring seamless operation of PCB design, JTAG debugging, and soldering processes. 3. Played a key role in enhancing lab efficiency, supporting the needs of more than 250 students by streamlining operations, maintaining lab inventory, and ensuring timely access to resources.
1. Validated high-speed PCIe Gen1–Gen6 retimer boards with SERDES; performed signal integrity, Tx/Rx equalization, and signal conditioning tests across multiple AIC boards using BERT, oscilloscope, and VNAs. 2. Led board bring-up, debugging, calibration, PCIe link training, and clock data recovery; collaborated with firmware teams to execute system-level testing under varied environmental conditions for stable system integration. 3. Developed and modified Python test scripts for automated board validation and system-level testing procedures.
1. Analyzed client business requirements and implemented custom Salesforce solutions, resulting in a 20% increase in deployment efficiency and streamlined processes. 2. Utilized Salesforce tools such as OmniStudio and Experience Cloud to optimize system performance, enhance scalability, and improve overall platform reliability. 3. Contributed to team success through proactive development, troubleshooting, and continuous learning, ensuring seamless integration and high-quality deliverables.