Voltage Category
14.8V Lithium Battery Manufacturer
4S lithium pack configuration. Used in professional UAV systems, high-power portable lighting, and inspection equipment.
Voltage Spec
- Nominal Voltage
- 14.8V
- Chemistry
- Lithium (Semi Solid)
- Cell Formats
- Pouch, Prismatic, Cylindrical
Overview
What is a 14.8V Lithium Battery?
A 14.8V lithium battery uses a four-cell series (4S) configuration with a nominal voltage of 14.8V and a full-charge voltage of 16.8V. The 4S pack is the standard entry point for professional-grade UAV systems, where the additional voltage over a 3S pack delivers meaningfully higher motor power at lower current draw for the same thrust output. Most professional multi-rotor UAV motors are optimised for operating voltages in the 14.8V to 22.2V range, and many professional-grade chargers and motor controllers target 4S as their reference configuration.
Applications
Common applications for 14.8V Lithium Battery cells
Application
Professional Inspection Drones
Commercial inspection, survey, and mapping UAV platforms use 14.8V (4S) packs to match motor KV ratings that deliver optimal efficiency and thrust-to-weight ratio at this voltage.
Application
High-Power Portable Lighting
Broadcast lighting rigs, emergency field lighting, and professional photographic equipment use 14.8V packs to power high-lumen LED drivers at efficient operating voltages.
Application
Handheld Industrial Equipment
Borescopes, thermographic cameras, gas detection instruments, and other field-service tools that require extended runtime over full work shifts use 4S lithium packs.
OEM & Custom
Custom 14.8V Lithium Battery packs from antbattery
antbattery supports OEM and custom development programs for 14.8v lithium battery cells and packs. Projects range from single-cell modifications to multi-cell assemblies with integrated BMS, connectors, and full export documentation.
- Custom cell dimensions, capacity, and tab configuration to match your enclosure
- PCM / BMS integration with SMBus, I²C, and UART protocol support
- UN38.3, IEC 62133, CE, RoHS, and MSDS documentation for all cells
- Air freight and customs clearance paperwork prepared on request
- OEM sampling in 4 to 6 weeks from design confirmation
- Minimum 100 cells for sample evaluation — no large MOQ required
Certifications
- Transport Safety
- UN38.3
- Product Safety
- IEC 62133
- Market Access
- CE, RoHS
- Shipping Docs
- MSDS / SDS
- Lead Time
- 4 – 6 weeks
- Sample MOQ
- 100 cells
Products
14.8V Lithium Battery lineup
No products currently listed for this voltage category.
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Key advantages
Energy
High Energy Density
Semi-solid electrolyte design enables energy densities above 300 Wh/kg — measurably higher than conventional liquid electrolyte cells of equivalent format and chemistry.
Safety
Reduced Flammability
Semi-solid cells use significantly less liquid electrolyte than conventional cells, reducing the flammable material available during a thermal event and lowering thermal runaway propagation risk.
Certifications
Export-Ready Documentation
UN38.3, IEC 62133, MSDS, and supporting export documentation available for all cells. antbattery handles the certification paperwork required for air freight and customs clearance.
OEM Support
Custom Cell and Pack Formats
Custom cell dimensions, capacity ranges, tab configurations, and pack-level BMS integration available for OEM programs. Sampling typically ships within 4 to 6 weeks of design confirmation.
Related Articles
Related news
Technology Guide
How Does a Solid State Battery Work? A Clear Guide to Ions, Interfaces, and Limits
A solid state battery works by moving lithium ions between the cathode and anode through a solid electrolyte instead of a liquid one. The hard part is not the basic electrochemistry. It is keeping transport fast, interfaces stable, and solid layers in contact while the cell cycles.
June 18, 2026
Definition Guide
What Is a Solid State Battery? From a Solid State Battery Manufacturer View
A solid state battery uses a solid electrolyte instead of the liquid electrolyte found in conventional lithium-ion cells. This guide explains what that means, why the technology matters, where the main advantages come from, and why commercialization still takes time.
June 3, 2026
Market Reality Check
What Vehicles in the US Are Using Solid State Batteries?
As of June 5, 2026, no mass-produced customer vehicle sold in the US is confirmed to use a true all-solid-state battery. The real market story is a mix of prototypes in the US pipeline and faster semi-solid commercialization in China.
June 5, 2026
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