Select a design brief below. AEDI will run through 8 analysis steps and generate 3 fully optimized battery pack designs — Cost, Performance, and Space optimized — each with complete BOM, circuit schematic, and electrical specs.
48V 100Ah Rack-Mount LiFePO4 Battery Pack Design a 48V 100Ah rack-mount LiFePO4 battery pack for telecom backup power (BTS/tower application). The pack must have integrated BMS with 100A continuous discharge, MCB protection (125A), WiFi remote monitoring capability, LCD display interface, and 19-inch rack-mount enclosure. Target use: outdoor telecom cabinets requiring -48V DC UPS backup 72V Heavy-Duty Motorcycle Design a 72V battery pack and BMS for a heavy-duty electric motorcycle targeting 150+ km highway range. The powertrain uses an 8.0 kW nominal motor with peak surges up to 18 kW for overtaking. The battery requires ~6.0 kWh energy capacity. Total pack weight must remain under 35 kg. Use forced air cooling with aluminum heatsink fins. BMS must support continuous discharge at 8.0 kW nominal and brief 18 kW peak bursts (≤5 seconds). Include CAN bus communication for vehicle ECU integration. 48V Delivery Scooter Design a 48V swappable battery pack and BMS for a light-duty delivery electric scooter targeting 80 km urban range. The powertrain uses a 1.5 kW nominal hub motor with peak load up to 3.5 kW on inclines. The battery requires ~2.0 kWh energy capacity. Total pack weight must remain strictly under 12 kg for easy manual swapping. Use passive cooling only. BMS must handle continuous 1.5 kW discharge with 3.5 kW peaks during hill climbs. *Note: These are concept demos only. For accurate real world results please connect with AEDI.