48V Battery Runtime Calculator

List of the Best 48V Battery:

#	Image	Product	Link
1		VATRER POWER 48V 105Ah Lithium Golf Cart Battery, Built-in Smart 200A BMS, with Touch Monitor & Mobile APP, 4000+ Cycles Rechargeable LiFePO4 Battery, Max 10.24kW Power Output, Perfect for Golf Carts	View on Amazon
2		OGRPHY 48 Volt Lithium Battery for Golf Cart with 18A Charger, 48V Lithium Battery with 200A BMS, LCD & Mobile Monitor, 5.12kWh with 10.24kW Output, 1000A Peak Current for Golf Cart	View on Amazon
3		LOSSIGY 48V 100AH Golf Cart Lifepo4 Battery with 48 volt 18A Lithium Charger, Prefect for RV Solar System, Built in 200A Bluetooth BMS, Peak Current 1000A(3-5s), 10 Yrs Lifespan	View on Amazon
4		DC HOUSE 48V 100Ah Lithium Golf Cart Battery, Lifepo4 Battery with 48V 18A Lithium Batteries Charger, Built-in Smart 200A BMS, LCD Monitor & Mobile APP, Peak Current 600A	View on Amazon
5		ECO-WORTHY 48V 100Ah LiFePO4 Lithium Battery, 5.12kWh Capacity, Server Rack Battery with Bluetooth, 6000 Cycles, 3U Chassis, Perfect for Off-Grid, Solar, Backup Power	View on Amazon

How to Use this 48V Battery Runtime Calculator?

To calculate your 48V battery's runtime accurately, you'll need to input:

• Battery Capacity (Ah): The ampere-hour rating of your 48V battery, typically found on the battery label or specifications
• Load Power (Watts): The total power consumption of all devices connected to the battery
• System Efficiency: Accounts for power losses in the system:
  • 85%: Typical real-world conditions with inverter losses
  • 90%: Good quality inverter with optimal conditions
  • 95%: Direct DC loading with minimal losses
  • 100%: Theoretical maximum (not recommended for calculations)
• Depth of Discharge (DOD): How much of the battery capacity you plan to use:
  • 50%: Recommended for longest lead-acid battery life
  • 70%: Moderate usage for lead-acid batteries
  • 80%: Maximum recommended for lead-acid batteries
  • 100%: Suitable for lithium-ion batteries only

Understanding Battery Runtime Calculations

The runtime calculation involves several key factors:

• Basic Formula: Runtime (hours) = (Battery Capacity × Voltage × Efficiency × DOD) ÷ Load Power
• Power Conversion: Load current (A) = Load power (W) ÷ Battery voltage (V)
• Peukert Effect: Higher discharge rates reduce effective capacity
• Temperature Impact: Cold temperatures can reduce capacity by 20-50%

Factors Affecting Battery Runtime

Several factors can significantly impact your actual battery runtime:

• Temperature Effects:
  • Optimal range: 20-25°C (68-77°F)
  • Cold reduces capacity and voltage
  • Heat increases self-discharge and aging
• Load Characteristics:
  • Constant vs. variable loads
  • Startup power requirements
  • Power factor considerations
• Battery Condition:
  • Age and cycle count
  • Maintenance history
  • Previous discharge patterns

Common 48V Battery Applications

Different applications have varying runtime requirements:

• Recreational Vehicles (RV):
  • Lighting: 10-50W
  • Refrigerator: 30-100W
  • TV/Electronics: 50-200W
• Solar Systems:
  • Small appliances: 100-500W
  • Off-grid homes: 500-2000W
  • Backup power: 200-1000W
• Marine Applications:
  • Fish finders: 5-15W
  • Navigation equipment: 20-50W
  • Electric trolling motors: 500-1500W

Frequently Asked Questions (FAQ)