L&
Power Electronics Design Engineer-Traction
Accepting applicationsLarsen & Toubro · Bengaluru, Karnataka, India
Full-Time Principal CadenceGaNMATLABSiCai
Posted
1 Jun
Category
Test
Experience
Principal
Country
India
Power Electronics Design Engineer – Traction Converter (P10)
Role Overview
As a Power Electronics Design Engineer, you will be responsible for the detailed design, development, and validation of high-performance power electronic components and subsystems used in traction converter for EV power trains. You need to translate system-level requirements into schematics, prototypes, and production-ready designs, playing a key role in bringing cutting-edge power electronics solutions to life.
Key Responsibilities
Design and develop power conversion circuits and modulesfor traction inverters, gate drive and protection circuits) based on system-level specifications and requirements.
Perform detailed schematic capture, PCB layout guidance, and component/device selection for high-efficiency power circuits.
Perform simulation, analysis, and optimization of power stages, switching topologies, thermal performance, and EMI/EMC characteristics, filter design using tools such as LTspice, PLECS, and MATLAB/Simulink and hardware testing to validate designs.
Design:
High-voltage DC-AC traction inverter
DC-DC converters in vehicle platforms
Semiconductor selection (SiC MOSFET / IGBT modules)
Gate driver circuit design (dv/dt immunity, Miller clamp, short-circuit protection)
Switching loss & conduction loss modelling
Thermal modelling and cooling strategy definition
Magnetics and busbar design optimization
Optimize design for motor control algorithms, various drive cycles like WLTP, MIDC
Support EMI/EMC mitigation, thermal management, and protection strategy implementation.
Collaborate with cross-functional teams (firmware, mechanical, testing, manufacturing) to ensure seamless integration and validation of designs.
Provide inputs for concept design, packaging and development of the product.
Support prototype bring-up, lab testing, and power bench measurements while driving root cause analysis and iterative debugging during validation, field trials, and production ramp-up
Develop test jigs for the testing of the products.
"Generate and maintain comprehensive technical documentation—including schematics, BOMs, layout files, design reports, validation records, and change logs—to ensure traceability and design integrity throughout the development lifecycle
Support and participate in design reviews, DFMEA/DFM activities, and failure analysis investigations, contributing to the refinement of design standards and continuous improvement of engineering practices
Ownership of design deliverables with strong communication skills, fosters effective collaboration across multidisciplinary teams, and maintains a commitment to continuous learning and engineering excellence.
Required Qualifications & Experience
M.Tech in Power Electronics & drives or related discipline
5 – 10+ years of hands-on experience in power electronics design, preferably in drives or EVs with Power rating of 10kW and above
Demonstrate in-depth expertise in power conversion topologies, high-voltage design practices, magnetic component design, switching devices (IGBTs, MOSFETs, SiC/GaN) selection and advanced gate drive techniques.
Converter Hardware testing experience.
Experience with embedded control integration and analog/digital interface design.
Proficiency in design tools such as Cadence/Altium Designer (or equivalent), LTspice, PSIM, MATLAB/Simulink, and thermal/EMI simulation platforms.
Familiarity with hardware debugging tools including oscilloscopes, power analyzers, and thermal cameras
Well-versed in EMI/EMC compliance, thermal management strategies, protection schemes, and safety and regulatory requirements across component and system-level design
Experience with high-power, high-frequency switching applications and thermal/EMC mitigation strategies.
Knowledge of ISO 26262 (ASIL C/D preferred) requirements.
Understand the real work requirements
Preferred Qualifications
Experience in high-reliability industrial applications automotive power train.
Expertise in:
400V–1000V HV systems
SiC/IGBT-based traction inverters
AC-DC and DC-DC automotive converters
Motor drives and control
Knowledge of AUTOSAR-based system integration
Experience with drive cycle analysis and efficiency optimization
Proficiency in simulation tools (MATLAB/Simulink, PLECS, LTspice)
Strong hands-on lab debugging capability
Familiarity with model-based design tools and hardware-in-the-loop (HIL) testing environments.
Self-driven, detail-oriented engineer with strong technical documentation, problem-solving skills, collaborative mind-set.
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Role Overview
As a Power Electronics Design Engineer, you will be responsible for the detailed design, development, and validation of high-performance power electronic components and subsystems used in traction converter for EV power trains. You need to translate system-level requirements into schematics, prototypes, and production-ready designs, playing a key role in bringing cutting-edge power electronics solutions to life.
Key Responsibilities
Design and develop power conversion circuits and modulesfor traction inverters, gate drive and protection circuits) based on system-level specifications and requirements.
Perform detailed schematic capture, PCB layout guidance, and component/device selection for high-efficiency power circuits.
Perform simulation, analysis, and optimization of power stages, switching topologies, thermal performance, and EMI/EMC characteristics, filter design using tools such as LTspice, PLECS, and MATLAB/Simulink and hardware testing to validate designs.
Design:
High-voltage DC-AC traction inverter
DC-DC converters in vehicle platforms
Semiconductor selection (SiC MOSFET / IGBT modules)
Gate driver circuit design (dv/dt immunity, Miller clamp, short-circuit protection)
Switching loss & conduction loss modelling
Thermal modelling and cooling strategy definition
Magnetics and busbar design optimization
Optimize design for motor control algorithms, various drive cycles like WLTP, MIDC
Support EMI/EMC mitigation, thermal management, and protection strategy implementation.
Collaborate with cross-functional teams (firmware, mechanical, testing, manufacturing) to ensure seamless integration and validation of designs.
Provide inputs for concept design, packaging and development of the product.
Support prototype bring-up, lab testing, and power bench measurements while driving root cause analysis and iterative debugging during validation, field trials, and production ramp-up
Develop test jigs for the testing of the products.
"Generate and maintain comprehensive technical documentation—including schematics, BOMs, layout files, design reports, validation records, and change logs—to ensure traceability and design integrity throughout the development lifecycle
Support and participate in design reviews, DFMEA/DFM activities, and failure analysis investigations, contributing to the refinement of design standards and continuous improvement of engineering practices
Ownership of design deliverables with strong communication skills, fosters effective collaboration across multidisciplinary teams, and maintains a commitment to continuous learning and engineering excellence.
Required Qualifications & Experience
M.Tech in Power Electronics & drives or related discipline
5 – 10+ years of hands-on experience in power electronics design, preferably in drives or EVs with Power rating of 10kW and above
Demonstrate in-depth expertise in power conversion topologies, high-voltage design practices, magnetic component design, switching devices (IGBTs, MOSFETs, SiC/GaN) selection and advanced gate drive techniques.
Converter Hardware testing experience.
Experience with embedded control integration and analog/digital interface design.
Proficiency in design tools such as Cadence/Altium Designer (or equivalent), LTspice, PSIM, MATLAB/Simulink, and thermal/EMI simulation platforms.
Familiarity with hardware debugging tools including oscilloscopes, power analyzers, and thermal cameras
Well-versed in EMI/EMC compliance, thermal management strategies, protection schemes, and safety and regulatory requirements across component and system-level design
Experience with high-power, high-frequency switching applications and thermal/EMC mitigation strategies.
Knowledge of ISO 26262 (ASIL C/D preferred) requirements.
Understand the real work requirements
Preferred Qualifications
Experience in high-reliability industrial applications automotive power train.
Expertise in:
400V–1000V HV systems
SiC/IGBT-based traction inverters
AC-DC and DC-DC automotive converters
Motor drives and control
Knowledge of AUTOSAR-based system integration
Experience with drive cycle analysis and efficiency optimization
Proficiency in simulation tools (MATLAB/Simulink, PLECS, LTspice)
Strong hands-on lab debugging capability
Familiarity with model-based design tools and hardware-in-the-loop (HIL) testing environments.
Self-driven, detail-oriented engineer with strong technical documentation, problem-solving skills, collaborative mind-set.
Show more Show less