Senior R & D Engineer, Electrical Engineering

About The Position

Requirements

• Bachelor’s degree in electrical engineering or a related discipline
• 8+ years of experience in analog/mixed-signal hardware design for miniaturized, high-reliability electronic systems
• Deep expertise in low-noise neural or bioelectric front-end design, including amplifier chains, ADC interfacing, and filtering
• Strong PCB and flex-circuit design experience with high-density, space-constrained layouts
• Proficiency with EDA tools (Altium, Cadence, or equivalent) and circuit simulation
• Hands-on experience bringing electronic subsystems from prototype through design verification into production

Nice To Haves

• Active implantable medical device experience (e.g., neurostimulators, cochlear implants, cardiac rhythm devices)
• ASIC integration or co-design experience, including specification development and silicon bring-up
• RF or wireless telemetry design for implantable or body-worn devices
• Familiarity with ISO 14708, IEC 60601, and FDA guidance for implantable electronics
• Experience supporting regulatory submissions (IDE, PMA, or 510(k)) with electrical design evidence
• Background in power management for energy-constrained, long-life implantable systems

Responsibilities

• Own the end-to-end electrical architecture of the IRTU implant, including neural acquisition front end, mixed-signal processing, power regulation, and RF telemetry subsystems
• Lead schematic design, component selection, and circuit simulation for ultra-low-power implantable electronics
• Define electrical interface specifications and performance budgets across the implant system (power, noise, bandwidth, data throughput)
• Drive ASIC integration and co-design with silicon partners, defining specifications, test plans, and bring-up procedures
• Lead design of miniaturized, high-density PCB and flex-rigid circuit assemblies suitable for chronic implantation
• Manage layout reviews, signal integrity analysis, and design-for-manufacturing constraints at implant scale
• Coordinate with mechanical engineering on board-level integration within hermetically sealed enclosures
• Architect power delivery and energy harvesting/storage strategies for long-duration implant operation
• Design and optimize wireless communication links (custom RF, BLE, or inductive) under biological tissue constraints
• Establish power budgets and duty-cycling strategies that balance neural data throughput against implant longevity
• Define and execute electrical verification and validation test plans aligned with design control requirements
• Lead bench-level characterization, environmental testing, and EMC/EMI assessment of implant electronics
• Own failure analysis and root-cause investigation for electrical anomalies across prototype and production builds
• Establish design-for-reliability practices including derating analysis, accelerated life testing, and worst-case circuit analysis
• Serve as electrical engineering lead within the design controls framework (IEC 60601, IEC 62304)
• Author and maintain electrical design inputs, risk analyses (per ISO 14971), and verification/validation protocols
• Support regulatory submissions with electrical test reports, design rationale, and traceability documentation
• Partner closely with firmware, mechanical, and systems engineers to co-optimize the implant across all domains
• Collaborate with the Stentrode electrode team on neural interface electrical requirements and signal quality
• Work with contract manufacturers and test houses to transfer designs into scalable production

Benefits

• Subsidized medical and dental insurance coverage for you and your dependent(s)
• Life insurance, short-term disability, long-term disability
• 401k
• Discretionary unlimited PTO
• Flexible Spending Account for you and your dependent(s), with eligible plan elections
• Commuter benefits for NY employees