Lead the architecture of next-generation ultra-wideband (UWB) SoCs for cutting-edge wireless products. You'll define system-level design---spanning RF transceivers, digital baseband, and embedded MCUs---while optimizing performance, power, and area for mass production. Key Responsibilities:Architect UWB SoCs, including RF PHY (LNA, PAs, mixers, ADCs/DACs), DSP blocks, and radio stack firmware.
Translate product specs into system requirements (latency, sensitivity, bandwidth, power). Develop algorithms for coherent/non-coherent radios and PHY-layer control. Model and analyze RF link budgets, SNR, PER, spectral efficiency, and distortion.
Collaborate with analog/digital design, validation, and manufacturing teams. Lead design reviews, validation, and mentorship. You Bring:10+ years in RF IC design (5+ in system architecture).
Deep expertise in RF transceivers, DSP, and mixed-signal design (amplifiers, ADCs, impedance matching). Proficiency in Python/C++ for modeling and Cadence/Synopsys tools. Hands-on lab skills (spectrum analyzers, protocol debug).
Strong problem-solving and cross-functional leadership. Why Join? Impact: Ship high-performance ASICs in real products.
Growth: Lead technically in a lean, high-caliber team. Flexibility: Hybrid/remote options, competitive equity. Culture: Collaborative, innovative, and driven by engineering excellence.
