Posted 09 July, 2026
BESS Electrical Design Engineer
Larsen & Toubro
Bengaluru, KA, IN
Full Time
Reference: 078eeb445525c2b3
Job Description
Role Summary
\nThe is responsible for the design, analysis, and validation of electrical systems for utility-scale and industrial battery energy storage solutions. The role includes designing HV/LV electrical architecture, protection schemes, cable routing, battery rack wiring, earthing/grounding, and grid interconnection while ensuring compliance with global standards and safe, reliable operation.
\nKey Responsibilities
\n- Develop complete electrical architecture for containerized or modular BESS that includes HV battery racks and string design, DC bus architecture, PCS/inverter integration, LV auxiliaries (HVAC, fire systems, controls, lighting) \n
- Prepare SLDs (Single Line Diagrams), wiring schematics, and interconnection drawings. \n
- Define cable sizing, protection device selection, busbar design, and interconnection details. \n
- Prepare technical documentation such as SLD, Wiring diagrams, Protection coordination studies, Electrical BoM (Bill of Materials), Installation manuals \n
- Support UL/IEC certification activities with required electrical design artefacts. \n
- Design HV DC circuits including Contactor, Fuses/breakers, DC isolators, \n
- Define creepage/clearance, dielectric strength, and insulation coordination. \n
- Design LV AC/DC circuits for auxiliary systems and control circuits. \n
- Ensure compliance with IEEE, IEC, NEC, CEA, NFPA, UL, and utility grid codes. \n
- Develop electrical protection strategies: overcurrent, short circuit, earth fault, arc flash, isolation monitoring. \n
- Work with BMS and EMS teams to align electrical protection with software/logic protection. \n
- Support arc-flash studies, fault current calculations, and grounding/earthing design. \n
- Ensure compliance with UL 9540, UL 1973, IEC 62933, and NFPA 855. \n
- Integrate battery racks, PCS/inverters, MV skids, transformers, HVAC, fire suppression, and control systems. \n
- Develop cable routing, harnessing plans, and connector specifications. \n
- Work with mechanical teams on enclosure layout, HVAC panel integration, and mounting systems. \n
- Define interface control documents (ICD) for OEM components. \n
- Prepare FAT/SAT test procedures for electrical systems. \n
- Support prototype builds, subsystem testing, and field commissioning. \n
- Validate system performance through electrical measurements and simulations. \n
- Collaborate with Battery engineering, Power electronics/PCS engineering. Thermal/HVAC teams, Fire safety teams, Mechanical engineering, Firmware & controls, Supply Chain \n
- Provide technical support to sales, application engineering, and project delivery teams. \n
- Strong knowledge of DC and AC power systems (up to 1500 VDC, 400–800 VAC, MV if applicable). \n
- Experience with cable sizing, protection coordination, and grounding. \n
- Proficiency with design tools such as AutoCAD Electrical, EPlan, or SolidWorks Electrical. \n
- Knowledge of ETAP/DigSilent for fault and protection studies (advantage). \n
- Understanding of PCS, BMS, EMS, and thermal system interaction. \n
- Familiarity with global standards (UL, IEC, IEEE, NFPA). \n
- 3-6 years in electrical design for BESS, Solar Inverters, UPS, EV Charging, or power systems. \n
- Experience with lithium-ion safety, HV DC systems, and grid interconnection is strongly preferred. \n
- Experience supporting FAT/SAT and field commissioning is an advantage.
Required Qualifications
\nBachelor’s oin Electrical Engineering, Power Engineering, or related fields.
\nTechnical Skills
\nExperience
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