Modiin-Maccabim-Reut, Center District, Israel
I am a Consultant Electrical Engineer in board design and embedded hardware systems, with an expertise in analog electronics and sensor input design. My goal is to help my clients achieve business success by delivering innovative, high-quality hardware designs on a competitive schedule, following a "HARDWARE AS A SERVICE" approach. I accomplish this by leveraging best practices and insights from my experience in past projects, applying multidisciplinary solutions, gathering feedback by comparing simulations to real-world results, and continuously expanding my theoretical knowledge. My expertise spans the entire design process—from concept inception through R&D to production and hands-on proof of design. Additionally, I have experience in the medical device and defense industries, ensuring compliance with their processes and standards. On the project level, I have built a strong network of engineers specializing in firmware, FPGA, PCB layout, mechanical design, and more. This collaboration enables me to take on complex projects with greater flexibility and efficiency. For more details on my services, please DM me or explore the Services section of my LinkedIn profile.
The company developed cutting-edge GaN FET technology for the automotive industry. These GaN FETs feature high power density and can switch high voltages and currents at exceptionally fast speeds. As part of an innovative team, I contributed to the development of the driving and protection circuits for the company’s GaN FETs. My primary project focused on enhancing the current protection circuit. Leveraging my expertise in waveform analysis, FFT mathematics, and analog circuit design, I developed a compact, fast-reacting, and efficient solution to the over current protection circuit.
Led the hardware development of a key product in the company’s portfolio. The product featured power and embedded circuits and was integrated as the core component of a customer’s system. As part of my role, I coordinated cross-functional collaboration with software and integration teams to ensure the product met customer requirements and production support needs.
Served as the sole hardware engineer, responsible for all aspects of R&D, clinical applications, manufacturing, and support for the company’s hardware systems. The core of the system was a CO₂ isotope sensor based on IR discharge lamps. My work on the sensor involved transimpedance sensing and power extraction circuits. Additionally, I collaborated with the software team on developing new embedded hardware for the system. Provided close support to production, including technical training and designing production test fixtures.
Recruited to contribute my expertise to the next generation of magnetic navigation systems. As an analog board designer specializing in precision signal chains—and with extensive experience in magnetic navigation systems at Biosense—I was a strong match for the company's development team. Collaborated with the chief algorithm designer to develop innovative solutions for navigation system challenges.