ViBMS

High Energy Density Drone Batteries
Maximize Flight Time & Performance

ViBMS delivers cutting-edge high energy density batteries up to 420Wh/kg, enabling longer flight times, higher payload capacity, and maximum efficiency for your drone operations.

420
Wh/kg Density
1200+
Cycle Life
100Ah
Max Capacity
24S
Max Configuration

What is High Energy Density Battery?

High energy density batteries are designed to store more energy per unit of weight or volume, making them ideal for drones where flight time, payload capacity, and efficiency are critical. By delivering maximum watt-hours (Wh) in compact, lightweight formats, they enable drones to fly longer and perform more complex missions.

Extended flight time with maximum energy-to-weight ratio
Compact and lightweight designs for better maneuverability
Multiple chemistries: Li-ion, LiPo, Semi-solid state
Optimized for UAV efficiency and endurance missions
Supports high-capacity, long-duration operations
High Energy Density Battery Technology
Energy Density
420 Wh/kg

Key Features of Our High Energy Density Batteries

Engineered for maximum performance, our batteries deliver exceptional energy density while maintaining safety and reliability standards.

Exceptional Energy-to-Weight Ratio

Maximize flight time with up to 420Wh/kg energy density, significantly outperforming standard batteries.

  • 250-420 Wh/kg density range
  • Extended operational range
  • Reduced battery weight

Multiple Chemistry Options

Choose from Li-ion, LiPo, or semi-solid state chemistries to match your specific application needs.

  • Semi-solid state technology
  • High-performance Li-ion
  • Optimized LiPo solutions

Flexible Configurations

Wide range of capacity and voltage options from 5Ah to 100Ah, 1S to 24S configurations.

  • 5-100Ah capacity range
  • 1S-24S configurations
  • Custom form factors

Battery Specifications & Configurations

Comprehensive specifications for 6S, 12S, 14S, and 18S configurations to meet diverse drone application requirements.

General Specifications

Nominal Voltage per Cell 3.7V
Full Charge Voltage per Cell 4.2V
Capacity Range 5,000-100,000mAh
Energy Density 250-420 Wh/kg
Cycle Life 500-1200+ cycles

Weight Formula

Weight Calculation
Weight = Energy (Wh) ÷ Energy Density (220-420 Wh/kg)
Battery Configuration Diagram
Configuration Range
1S - 24S Available

Popular Configuration Examples

Detailed specifications for common drone battery configurations with recommended applications.

6S Battery Configuration

6S Configuration (22.2V Nominal / 25.2V Full Charge)

Capacity (mAh) Capacity (Ah) Config Nominal Voltage (V) Energy (Wh) Est. Weight (kg) Recommended Use
10,000 10 Ah 6S 22.2 222 Wh 0.529–1.009 FPV drones, racing drones
12,000 12 Ah 6S 22.2 266 Wh 0.634–1.211 Small UAVs, mapping drones
16,000 16 Ah 6S 22.2 355 Wh 0.846–1.615 Medium drones, inspection
22,000 22 Ah 6S 22.2 488 Wh 1.163–2.220 Survey drones, heavy FPV
27,000 27 Ah 6S 22.2 599 Wh 1.427–2.725 Agriculture UAVs
35,000 35 Ah 6S 22.2 777 Wh 1.850–3.532 Delivery drones (short range)
44,000 44 Ah 6S 22.2 976 Wh 2.326–4.440 Industrial UAVs
52,000 52 Ah 6S 22.2 1154 Wh 2.749–5.247 Long flight-time UAVs
88,000 88 Ah 6S 22.2 1954 Wh 4.651–8.880 Large cargo drones
12S Battery Configuration

12S Configuration (44.4V Nominal / 50.4V Full Charge)

Capacity (mAh) Capacity (Ah) Config Nominal Voltage (V) Energy (Wh) Est. Weight (kg) Recommended Use
10,000 10 Ah 12S 44.4 444 Wh 1.057–2.018 Professional filming drones
12,000 12 Ah 12S 44.4 533 Wh 1.269–2.422 Mapping and LiDAR UAVs
16,000 16 Ah 12S 44.4 711 Wh 1.691–3.229 Heavy-lift photography
22,000 22 Ah 12S 44.4 976 Wh 2.326–4.440 Survey & inspection drones
27,000 27 Ah 12S 44.4 1199 Wh 2.854–5.449 Industrial inspection UAVs
35,000 35 Ah 12S 44.4 1554 Wh 3.700–7.073 Long-range surveillance
44,000 44 Ah 12S 44.4 1954 Wh 4.651–8.880 Delivery drones
52,000 52 Ah 12S 44.4 2309 Wh 5.497–10.494 Agriculture spraying drones
88,000 88 Ah 12S 44.4 3898 Wh 9.303–17.760 Cargo or endurance drones
14S Battery Configuration

14S Configuration (51.8V Nominal / 58.8V Full Charge)

Capacity (mAh) Capacity (Ah) Config Nominal Voltage (V) Energy (Wh) Est. Weight (kg) Recommended Use
10,000 10 Ah 14S 51.8 518 Wh 1.233–2.354 High-power UAVs
12,000 12 Ah 14S 51.8 621 Wh 1.481–2.825 Mapping & industrial UAVs
16,000 16 Ah 14S 51.8 829 Wh 1.974–3.767 Survey & delivery drones
22,000 22 Ah 14S 51.8 1140 Wh 2.714–5.180 Heavy-lift drones
27,000 27 Ah 14S 51.8 1399 Wh 3.330–6.357 Long-range agriculture
35,000 35 Ah 14S 51.8 1813 Wh 4.317–8.241 Delivery UAVs
44,000 44 Ah 14S 51.8 2279 Wh 5.427–10.360 Industrial monitoring
52,000 52 Ah 14S 51.8 2694 Wh 6.413–12.243 Energy drones, survey
88,000 88 Ah 14S 51.8 4558 Wh 10.853–20.720 Cargo UAVs, large drones
18S Battery Configuration

18S Configuration (66.6V Nominal / 75.6V Full Charge)

Capacity (mAh) Capacity (Ah) Config Nominal Voltage (V) Energy (Wh) Est. Weight (kg) Recommended Use
10,000 10 Ah 18S 66.6 666 Wh 1.586–3.027 High-performance UAVs
12,000 12 Ah 18S 66.6 799 Wh 1.904–3.633 Industrial UAVs
16,000 16 Ah 18S 66.6 1066 Wh 2.538–4.844 Inspection & delivery
22,000 22 Ah 18S 66.6 1465 Wh 3.488–6.660 Agriculture UAVs
27,000 27 Ah 18S 66.6 1798 Wh 4.281–8.173 Long-range drones
35,000 35 Ah 18S 66.6 2331 Wh 5.555–10.595 Cargo drones
44,000 44 Ah 18S 66.6 2930 Wh 6.977–13.320 Heavy-duty UAVs
52,000 52 Ah 18S 66.6 3463 Wh 8.246–15.742 Survey & endurance drones
88,000 88 Ah 18S 66.6 5861 Wh 13.955–26.640 Military / large logistics UAVs
Drone Flight Performance
Flight Time
+75%

Importance of Energy Density in Drones

Energy density directly impacts your drone's operational capabilities, determining flight duration, payload capacity, and overall mission efficiency. Higher Wh/kg ratios translate to superior performance.

Extended Flight Time & Range

Directly impacts flight time and payload capacity with longer operational range

Reduced Battery Swaps

Eliminates the need for frequent battery changes during extended missions

Improved ROI

Key factor for commercial and industrial drones maximizing efficiency and profitability

Customization Options (OEM/ODM)

We offer tailored solutions to meet specific drone requirements with custom voltage, capacity, and form factors optimized for your UAV integration needs.

Custom Parameters

  • Custom voltage and capacity configurations
  • Optimized form factors for UAV integration
  • Capacity: 500mAh-200Ah
  • Voltage: 3.2V-100V
  • Discharge Rate: 1C-200C

Advanced Features

  • High energy Li-ion, LiPo, or semi-solid state chemistries
  • Ruggedized, waterproof, and aviation-grade designs
  • Integration with advanced Battery Management Systems (BMS)
  • Global certification compliance (UN38.3, CE, UL, RoHS)
Custom Battery Solutions
Custom Range
500mAh - 200Ah
OEM/ODM
10+ Years

Safety & Certifications

Our high energy density drone batteries are manufactured to meet international safety standards with comprehensive testing and quality assurance protocols.

UN38.3 Certified

Safe transport certification for air and sea shipping worldwide

CE & RoHS

Environmental and consumer compliance for European markets

UL Certification

Independent product validation for safety and performance

ISO 9001

Certified manufacturing quality management system

In-House Testing

Comprehensive cycle life, vibration, drop, and thermal testing

MSDS Compliant

Material Safety Data Sheet compliance for global shipping

Advantages of High Energy Density
Drone Batteries

Experience superior performance with batteries engineered for maximum efficiency, longer endurance, and enhanced operational capabilities across all drone applications.

Longer Endurance Flights

Critical for surveillance and delivery drones requiring extended operational time

Higher Payload Capacity

Carry more equipment without compromising flight duration or performance

Improved Power Efficiency

Mission-critical UAV operations with optimized energy consumption

Enhanced Maneuverability

Reduced battery weight improves drone agility and flight characteristics

Drone Battery Advantages
Performance Boost
+85%
Weight Reduction
-40%

Applications in the Drone Industry

Our high energy density batteries power diverse drone applications across consumer, professional, industrial, and specialized sectors.

Consumer Drones

Extended recreational flight sessions for photography and entertainment

  • Longer flight time
  • Better photo/video quality
  • Enhanced user experience

Professional UAVs

Photography, filming, and mapping missions requiring reliability

  • Professional cinematography
  • Survey and mapping
  • Real estate photography

Industrial Drones

Agriculture, inspection, surveying, and delivery applications

  • Agriculture spraying
  • Infrastructure inspection
  • Package delivery

Military & Aerospace

Long endurance, high reliability missions in challenging environments

  • Surveillance operations
  • Reconnaissance missions
  • Border monitoring

Emergency & Medical

Urgent supply delivery with extended range for critical missions

  • Medical supply delivery
  • Search and rescue
  • Disaster response

Entertainment

Drone light shows and performance applications

  • Light show performances
  • Synchronized formations
  • Event entertainment

Frequently Asked Questions

Common questions about high energy density drone batteries and our solutions.

What is the maximum energy density you can achieve?

Our semi-solid state batteries can reach up to 420Wh/kg, significantly higher than traditional Li-ion batteries at 250Wh/kg.

How do high energy density batteries affect flight time?

Higher energy density can increase flight time by 50-75% compared to standard batteries, depending on the drone and flight conditions.

Are high energy density batteries safe for drone use?

Yes, our batteries meet all international safety standards including UN38.3, CE, and UL certifications with comprehensive safety testing.

What is the typical cycle life of these batteries?

Depending on the chemistry and usage, our high energy density batteries offer 500-1200+ charge cycles with proper maintenance.

Can you customize the battery shape and size?

Absolutely. We offer complete OEM/ODM customization including form factor, capacity, voltage, and connector specifications.

What's the difference between Li-ion, LiPo, and semi-solid state?

Semi-solid state offers the highest energy density (420Wh/kg), Li-ion provides good balance (300Wh/kg), and LiPo offers high discharge rates (250Wh/kg).

How do I choose the right configuration for my drone?

Consider your drone's voltage requirements, power consumption, weight limits, and flight time goals. Our engineers can help optimize the configuration.

What is the minimum order quantity for custom batteries?

MOQ varies by customization level, typically starting from 100 units for standard modifications and 500+ for completely custom designs.

Do you provide Battery Management System (BMS)?

Yes, we integrate advanced BMS with features like overcharge protection, temperature monitoring, and cell balancing for optimal performance.

What is the typical lead time for custom orders?

Standard customizations: 2-3 weeks. Complex custom designs: 4-6 weeks. We provide detailed timeline estimates for each project.

Ready to Power Your Drone Innovation?

Contact our battery experts to discuss your high energy density requirements and get a custom solution tailored to your drone applications.

Email
info@vibms.com
WhatsApp
+86-15798483339
Address
201, SiLi Road No.504, GuanLan Street, LongHua, ShenZhen, China

Why Choose ViBMS?

  • 10+ years of lithium battery manufacturing experience
  • Specialization in drone-specific high energy density solutions
  • Complete OEM/ODM customization capabilities
  • Global certification and compliance support
  • Competitive pricing with unmatched reliability
ViBMS Battery Manufacturing
Manufacturing Since
2015
Global Customers
50+ Countries