Türkiye
I am an Electronics Design Engineer specializing in high-speed systems, FPGA-based architectures, and professional PCB and circuit design. I develop hardware solutions from concept to production, applying signal integrity–driven design principles and a structured engineering approach to deliver manufacturable, high-quality electronic products. My experience covers the full hardware development lifecycle, including schematic capture, component selection, multilayer PCB layout, bring-up, and validation. I focus on stable high-speed interfaces and power architectures while considering EMC/EMI constraints, testability, and real-world manufacturing requirements. I value clean design practices and clear documentation that support long-term maintainability and scalable product development. I actively expand my expertise through hands-on development and continuous learning, with a strong interest in high-speed digital design and FPGA-centric systems. I enjoy collaborating with engineers and teams working on advanced electronics and embedded platforms, and I’m always open to connecting for technical discussions, collaboration opportunities, or product-focused engineering work.
I take active responsibility in end-to-end electronic hardware development, with a strong focus on high-speed PCB design and system-level hardware architecture. Key responsibilities include: 🔹Designing multilayer PCBs aligned with design, quality, and production standards (IPC Class 2/3), with strong attention to Signal Integrity (SI), Power Integrity (PI), grounding, EMI/EMC, DFM (Design for Manufacture), and DFT (Design for Test). 🔹Defining PCB stack-ups, selecting materials, and setting impedance targets based on electrical performance requirements, manufacturing constraints, and high-speed signal/power needs. 🔹Developing PCB and unit-level architecture across analog, digital, and mixed-signal designs, including power supply design, DC/DC converters, and protection circuits. 🔹Routing impedance-controlled and performance-critical interfaces, including high-speed digital links, transmission lines, and differential pairs (e.g., USB, LVDS, SERDES-style links, and other high-speed interfaces depending on system requirements). 🔹Conducting hardware bring-up, debugging, and validation using lab instruments such as oscilloscopes and signal analysis equipment; supporting root-cause analysis and design improvements. 🔹Participating in structured design reviews across multiple development stages, providing constructive feedback to improve reliability, manufacturability, and overall design quality. 🔹Designing and supporting motherboards and interconnection boards, ensuring smooth system integration and production readiness. 🔹Supporting EMI/EMC testing and pre-compliance activities using relevant lab tools (signal generators, multimeters, etc.), and implementing design improvements based on test outcomes.