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Posted 2mo ago

Lead Engineer - Embedded Hardware, Power & Safety

@ Origin
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Bengaluru, Karnataka, India
OnsiteFull Time
Responsibilities:Define topology, Design PCB, Ensure safety
Requirements Summary:Master's in Electrical/Electronics Engineering, Robotics, 8+ years embedded hardware, power electronics, HV systems; PCB design (Altium preferred); regulatory approvals (UL/CE/FCC); EMI/EMC; industrial bus interfaces; experience in EV/aerospace/heavy machinery; functional safety knowledge.
Technical Tools Mentioned:Altium Designer, Eagle, EMI/EMC, Hardware-in-the-Loop (HIL)
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Job Description

About Origin

Origin (previously 10xConstruction) is building general-purpose autonomous robots for US construction to tackle rising costs, safety risks, and labour shortages. Our modular, multi-trade platform combines purpose-built hardware with real-time site intelligence to navigate complex environments and execute tasks with precision. Trained in high-fidelity simulation and already deployed on live sites, our robots deliver 5x faster execution, 250%+ margin expansion, and significant cost savings. Join India’s most talent-dense robotics team consisting of individuals from IITs, Stanford, UCLA, etc.

About the role

As the Lead Embedded Hardware and Power Engineer, you will own the end-to-end electrical architecture of our heavy-duty autonomous robots. You will architect the high-power systems capable of running demanding construction end-effectors all day, as well as the intricate embedded hardware that drives our compute and control stacks. You will make the definitive decisions on system topology, safety architectures, and regulatory compliance, guiding the hardware team from white-board concepts to mass manufacturing.

Key Responsibilities

System Architecture & Strategy:

  • Define the global electrical and power topology for the robot, balancing high-power demands with the strict noise requirements of sensitive compute and perception sensors.
  • Architect custom Battery Management Systems (BMS), high-power inverters, and fast-charging systems tailored for rugged construction environments.

Advanced Hardware Design & HIL Strategy:

  • Lead the schematic design and review process for all custom PCBs (using Altium/Eagle), focusing on high-current routing, thermal management, and EMI/EMC mitigation.
  • Define the global Hardware-in-the-Loop (HIL) testing strategy, architecting simulation environments that validate functional safety and system reliability before physical deployment.
  • Design complex, high-reliability wire harness architectures.

Hardware Defined-Safety Systems:

  • Architect the global hardware-based safety loop, integrating error signals (e.g., over-current faults, thermal limiters, hardware watchdogs) from distributed compute and motor drives into a centralized, fail-safe E-stop circuit. 
  • Ensure the entire hardware safety topology complies with industrial standards (e.g., ISO 13849, IEC 61508) independently of software state.

Compliance & Manufacturing:

  • Drive the product through rigorous regulatory approval processes (UL, CE, FCC), acting as the primary technical authority for compliance testing.
  • Manage relationships with contract manufacturers (CMs) and define the end-of-line (EOL) testing strategy for PCBs and assembled power systems.

Leadership:

  • Mentor and lead a team of hardware engineers, establishing strict guidelines for design reviews, component selection, and testing protocols.