Assuring Safety and Performance for EV Power Systems
Battery packs and energy-storage systems define the range, reliability, and safety of electric and hybrid vehicles. Their high energy density demands exhaustive testing to validate resilience against shock, thermal runaway, and long-term degradation.
BQCIS provides full-scope testing from cell to complete pack, covering UN 38.3 transport safety, IEC 62133 safety compliance, and UL 2580 performance verification. Our accredited facilities conduct controlled abuse, vibration, and thermal stability trials under globally recognized standards.
We verify cycle life, capacity retention, and thermal integrity—ensuring every system meets durability targets for OEM approval, warranty assurance, and regulatory acceptance across global EV markets.
Key Testing & Validation Activities
Key Benefits of Battery Testing
Regulatory Compliance
Meets global transport and safety mandates under UN 38.3, IEC 62133, and IEC 62619 to ensure cross-border acceptance.
Enhanced Safety Assurance
Detects potential failure modes early—mitigating risks of fire, explosion, or leakage during service or transport.
Performance Validation
Independent verification of cycle-life and capacity ensures manufacturer claims align with real-world reliability expectations.
Market Readiness
Supports homologation, investor confidence, and end-user trust through verified product durability and certification.
Success Story
Capacity Testing Validates Grid-Scale Battery Performance
A 50 MW grid-storage developer required third-party confirmation that installed capacity and degradation rates met contract warranties before financial closure.
BQCIS executed controlled charge-discharge cycling and capacity verification under simulated grid load conditions. Power output, energy throughput, and degradation curves were benchmarked against OEM guarantees.
Verified performance within 99 % of warranty parameters unlocked project financing and secured long-term operational confidence for the operator.