Livoltek HomCellar 15–16kWh Low-Voltage Residential Battery | 314Ah, LFP, Floor-Standing Energy Storage
The Livoltek HomCellar E1 is a 15–16kWh low-voltage residential battery system rated at 314Ah with LFP (lithium iron phosphate) chemistry, floor-standing design, and scalable capacity — engineered for whole-home backup and self-consumption optimisation in solar energy storage systems.
Key Features
- 15kWh and 16kWh capacity options with 314Ah rating
- LFP (lithium iron phosphate) chemistry for safety and longevity
- Floor-standing design for easy garage/utility room installation
- Compatible with Livoltek hybrid inverters
- Intelligent charge/discharge scheduling via EMS
- Comprehensive BMS with cell-level protection
- Time-of-use tariff optimisation capability
- Scalable capacity for growing energy needs
- Suitable for whole-home backup and self-consumption maximisation
Technical Specifications
| Voltage | Low-voltage (48V nominal) |
| Form Factor | Floor-standing |
| Rated Capacity | 314Ah |
| Capacity | 15kWh / 16kWh |
| Chemistry | LFP (Lithium Iron Phosphate) |
Overview
The Livoltek HomCellar 15–16kWh E1 delivers high-capacity low-voltage energy storage for residential homes seeking whole-home backup power and maximum solar self-consumption. Built with safe and long-lasting LFP (lithium iron phosphate) cells rated at 314Ah, this floor-standing battery system provides exceptional cycle life and thermal stability.
Designed for seamless pairing with Livoltek's range of hybrid inverters, the HomCellar E1 supports intelligent charge/discharge scheduling for time-of-use tariff optimisation and peak demand reduction. Its generous 15–16kWh usable capacity can power a typical household through extended outages or overnight periods when solar generation is unavailable.
The floor-standing form factor simplifies installation in garages, utility rooms, or outdoor enclosures, while modular scalability allows capacity expansion as household energy needs grow. Comprehensive Battery Management System (BMS) monitoring ensures cell-level protection against overcharge, over-discharge, overcurrent, and temperature extremes.