Electrification
More Than Batteries, it’s a Multi-Systems Opportunity
Electrification is no longer a technology trend it’s an architectural reset. Headlines lean towards battery chemistries and gigafactories, while success also depends on decisions about cooling loops, enclosures, integration strategies, safety trade-offs, and regional adaptation.
We work across the supporting systems that make electrification scalable and serviceable: pack integration, thermal routing, component packaging, and material transitions.
ITB has advised clients on battery housing strategies, eAxle adoption tendencies, charging architecture trade-offs and the nuanced supplier shifts that continue to occur behind the EV supply chain buildout.
🔮 Shaping the Futures of Electrification
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🔋 Pack Integration & Safety Design Cell-to-pack, underbody placement, and housing materials remain in flux as OEMs chase cost, strength, and crash resilience. |
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💧 Thermal Management for BEVs Liquid loop complexity is rising—balancing battery, cabin, and electronics needs within tight envelopes and driving coolant or refrigerant-centric paths forward. |
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⚡ Charging Architecture + Voltage Strategy 400V vs 800V affects cable routing to supplier tiering and inverter design. |
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🧱 Propulsion Packaging & Materials Aluminum, plastics, and composites are competing for spots where weight, strength, and shielding are needed in BEVs. |
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🛠️ Where ITB Assists
- Evaluate battery pack integration and enclosure strategies across platforms and regions
- Benchmark thermal loops and charging system evolution by OEM and tier
- Track shifts in supplier capabilities from legacy Tier 1s to startup suppliers to new EV entrants
- Map propulsion design decisions—eMotors, inverters, and structural systems
- Guide material and cost trade-offs in an evolving regulatory and commercial context
✅ Let’s Talk Electrification
We can give insight into how every supporting systems are changing. Let’s work together to shape an electrified future that works at scale.
