Senior Analog & Mixed Signal IC Design Engineer

Teradar is pioneering a new era in perception with the world’s first automotive terahertz vision sensor, delivering ultra-high resolution imaging in any weather condition. Founded in Boston, Teradar’s solid-state, chip-scale technology unlocks safer, smarter vehicles and opens the door to transformative applications in mobility, defense, and beyond.As an Analog / Mixed-Signal IC Design Engineer, you will be at the forefront of this innovation. You will lead the development of critical low-power AMS circuits and define the IF and baseband architectures that power our novel terahertz sensor. This is a high-impact role where you will collaborate across RF, systems, and digital teams to bring next-generation sensor SoCs from initial concept to high-volume silicon.ResponsibilitiesArchitectural Leadership: Lead the definition and design of IF and baseband signal chains, ensuring seamless integration with RF front-ends and digital back-ends.Circuit Design: Design and implement high-performance, low-power blocks including bandgap references, temperature sensors, diagnostic ADCs, programmable gain amplifiers (PGAs), power detectors, and bias circuits.System Integration: Derive block-level specifications from complex system requirements and spearhead architecture-level trade-off discussions.Full Lifecycle Ownership: Own the schematic design, pre-/post-layout simulation, and rigorous verification using industry-standard EDA tools.Physical Design Oversight: Work closely with layout engineers to ensure robust, noise-immune, and area-efficient physical implementations.Silicon Bring-up: Lead silicon validation, debugging, and characterization in the lab to ensure hardware meets performance targets.Key QualificationsSystem Expertise: Proven experience in AMS design specifically for IF and baseband architectures. Deep understanding of signal conditioning and conversion in these domains.Experience: 10+ years of hands-on experience in analog and mixed-signal IC design, specifically in advanced nodes (e.g., TSMC 28nm or below).Block Expertise: Expertise in bandgap design, temperature sensors, biasing circuits, IFM, PGA, power detection, or diagnostic ADCs.Tools: High proficiency with Cadence Virtuoso, Spectre, and AMS simulation environments.Low-Power Mastery: Solid background in low-power design methodologies and the performance/power trade-offs inherent in sensor applications.Education: PhD in Electrical Engineering (or equivalent) preferred; MS required with significant industry track record.