Key Responsibilities
*Assist in the design and development of electronic hardware for industrial applications, including electric actuator systems.
*Design, analyze, and validate analog, digital, and mixed-signal circuits involving microcontrollers, sensor interfaces, power supplies, and signal conditioning.
*Translate subsystem and circuit-level requirements into reliable hardware solutions with technical guidance from senior engineers.
*Create and maintain hardware design documentation, including schematics, bills of materials (BOMs), and test reports.
*Support schematic design, component selection, and PCB layout while considering DFM, DFT, cost optimization, and manufacturability.
*Participate in PCB prototype bring-up, functional testing, debugging, and validation using standard laboratory equipment.
*Contribute to EMI/EMC pre-compliance testing and ensure adherence to established hardware design guidelines.
*Collaborate with firmware, mechanical, and manufacturing teams to support seamless product development.
*Coordinate with vendors and contract manufacturers for component procurement and prototype fabrication.
*Build technical expertise by actively participating in projects and team knowledge-sharing initiatives.
*Provide regular updates on project progress, technical issues, and potential risks to the Technical Lead in a timely manner.
Qualifications:
-Bachelor’s degree or equivalent in Industrial Electronics, Electronics & Telecommunication, or a related field, with 3–6 years of experience in electronics hardware design.
-Strong understanding of analog and digital circuit design fundamentals.
-Hands-on experience with microcontroller interfacing, ADCs/DACs, sensors, and communication peripherals.
-Familiarity with schematic capture tools and core PCB design principles.
-Working knowledge of communication interfaces such as SPI, I²C, UART, CAN, and RS485.
-Basic knowledge of power supply design, including LDOs and DC-DC converters.
-Experience supporting the complete hardware development cycle, from schematic capture and PCB layout to prototype development, while following design guidelines, DFM/DFT practices, and collaborating with firmware and mechanical teams.
-Good understanding of EMI/EMC design practices and grounding techniques.
-Proficiency in using laboratory equipment such as oscilloscopes, multimeters, logic analyzers, and programmable power supplies.
-Strong analytical and troubleshooting skills with a proactive approach to learning.
-Ability to collaborate effectively with cross-functional and globally distributed teams.
-Good verbal and written communication skills.
Preferred Qualifications:
-Exposure to industrial products or automation systems.
-Experience in hardware testing, validation, and technical documentation.
-Understanding of manufacturing processes and Design for Manufacturing (DFM) principles.
-Knowledge of industrial communication protocols such as HART, Modbus, Ethernet-based protocols, Profibus, and wireless technologies including Bluetooth and LoRaWAN.




