Job Description
Havells
Centre for Research & Innovation (CRI)
is the technological engine behind India’s next‑generation electrical products. With advanced simulation labs, full‑scale testing infrastructure, rapid prototyping capabilities, and end‑to‑end product development ownership, CRI drives innovation for global and domestic markets.
Job Summary
We are seeking an
Electromagnetic Simulation Engineer
to strengthen our switchgear design and development team. The role involves performing
low-frequency electromagnetic modelling, multiphysics simulations, optimization, and validation
for critical switchgear components. The ideal candidate will leverage state‑of‑the‑art tools and deep domain knowledge to improve product performance, reliability, and safety while supporting accelerated virtual prototyping and design decisions.
Key Responsibilities
Demonstrate strong understanding of
low‑frequency electromagnetic fundamentals ,
Maxwell’s equations , and
FEM theory .
Develop
low-frequency EM simulation models
for
ACB, MCCB, RCB, and MCB
components using tools such as
ANSYS Maxwell, MotorCAD.
Build accurate FEM models to predict
magnetic flux ,
losses ,
core saturation ,
thermal distribution , and
breakdown behavior .
Perform prediction and analysis of
electromagnetic forces
on magnetic steels and conducting bodies; must be skilled in
transient excitations
and
dynamic simulations .
Execute
multiphysics simulations , including electromagnetic‑thermal and electromagnetic‑mechanical coupling, to assess operational stresses and temperature profiles.
Validate simulation results with
experimental data , test reports, and prototyping outcomes; calibrate models to represent real-world performance accurately.
Use optimization tools such as
OptiSLang, MATLAB, and Python scripts
to refine component geometry, materials, coil configurations, and system efficiency.
Collaborate with
mechanical design, thermal, controls, testing, and manufacturing teams
throughout the product development lifecycle.
Prepare detailed
simulation reports , FEM documentation, BOM inputs, and design review materials.
(Optional) Support field activities such as
installation, calibration, commissioning , and troubleshooting using simulation-derived insights.
Exposure to
EMI/EMC simulations , electronics reliability assessment, and failure‑mode analysis is an advantage.
Exposure to
AI integration in simulation workflows , including
Deep Learning
and
Generative AI–based modelling , will be considered a strong plus.
Qualifications & Experience
M.Tech / MS
in Electrical Engineering, Power Engineering, Electromagnetics, or related discipline.
1–5 years
of hands‑on experience in electromagnetic simulations.
Proficiency in tools such as
ANSYS Maxwell, MotorCAD, COMSOL, OptiSLang, MATLAB, Python , etc.
Strong understanding of
switchgear components , circuit protection concepts, and power system behavior.
