60KWh High Voltage LiFePO4 Battery Energy Storage System
60kWh Industrial Energy Solution for Peak Shaving, Backup Power, and Solar Integration
4000-6000
Cycles Lifespan
125kWh/m³
Energy Density
<20ms
Response Time
18-24
Month Payback
Product Overview

The 60kWh Commercial Energy Storage Battery helps businesses cut energy costs and improve operational efficiency. Its modular, high-voltage system efficiently stores solar power for use during peak hours, lowering grid dependence and electricity expenses.
Designed for flexible expansion and long service life, the HV240250 enables factories and commercial buildings to achieve energy independence with stable, sustainable performance - supplied as one factory-built cabinet rather than a kit of stackable modules.
Best fit for:
- Factories and workshops running solar self-consumption + peak shaving
- Commercial buildings, retail, hotels and offices with rooftop PV
- Telecom base stations, edge data centres and IDC backup
- Mobile and emergency power in vehicles or containers
Optimized for Your Energy Needs
Continuous, Reliable Power
Featuring 60 kWh of high-capacity lithium storage, the system delivers stable, uninterrupted power for industrial solar and critical applications, minimizing downtime and ensuring operational continuity.
Flexible Demand Response
High charge/discharge rates enable rapid adaptation to fluctuating load profiles, maintaining power stability for production equipment and other energy-intensive operations during peak demand periods.
Safe, Long-Lasting Operation
Multi-layer protection architecture and an advanced Battery Management System safeguard against electrical and thermal risks, extending system lifespan and reducing maintenance intervention over time.
Standardized Rack Design
The modular rack structure streamlines transport, installation, and servicing while ensuring smooth integration with diverse PCS and EMS platforms-optimizing project deployment and lifecycle efficiency.
Specification
| Model | HV240250 |
| Nominal Voltage | 240V |
| Nominal Capacity | 250Ah |
| Energy | 60KWh |
| Charge Cut-off Voltage | 270V |
| Discharge Cut-off Voltage | 200V |
| Standard Charge Current | 50A |
| Max Charge Current | 100A |
| Standard Discharge Current | 50A |
| Max. Constant Discharge Current | 50A |
| Peak Discharge Current | 100A |
| Protection | OVP/UVP/OCP/OTP/UTP/SCP |
| Communication | RS485/CAN |
| Protection Grade | IP21 |
| Dimension | 800*600*1712mm / 31.5*23.6*67.4in |
| Weight | 571kg / 1259lbs |
| Charge Temperature | 0~45ºC |
| Discharge Temperature | -15~60ºC |
| Storage Temperature | 0~45ºC |
Listed by Leading Inverter Brands
Our batteries are officially listed as compatible by several globally recognized inverter manufacturers. Each product has undergone rigorous testing and validation to ensure seamless communication, reliable operation, and full compatibility across diverse inverter platforms.












Why a 240V High-Voltage Platform? (240V vs 400–665V)
Most "60kWh high voltage" batteries run at 500–665V using 100Ah cells. The HV240250 240V with 250Ah cells.
What a 240V platform gives you
- Simpler, lower-cost PCS matching - pairs cleanly with widely available low-voltage and entry hybrid PCS/inverters.
- Lower per-string voltage - easier handling and lower arc/insulation risk in small electrical rooms and closets.
- Single integrated cabinet - capacity comes from higher-Ah cells, so the full 60kWh ships as one factory-built enclosure with fewer connections and failure points.
- Right-sized for small-to-mid C&I - ideal where a single 60kWh block is the target, not a growing multi-rack array.
When to choose higher voltage instead
Higher 400–665V architectures reduce current and line loss on larger arrays and scale more efficiently past ~100kWh. If that is your situation, start with a modular rack system:
60–130kWh rack-mounted system →
307–665V, 6–13 modules, up to 200A continuous output.
20–60kWh modular rack →
204–614V, start smaller and expand module by module.
HV240250 Battery System
60kWh capacity with advanced BMS technology for industrial applications
Compact Design
Compact cabinet design (800 × 600 × 1712 mm) with only 0.48 m² footprint, ideal for space-constrained environments
Advanced Protection
Multi-layer protection including OVP, UVP, OCP, OTP, UTP, and SCP for maximum safety
Intelligent BMS
Advanced battery management system with real-time monitoring and cell balancing capabilities
How Long Will 60kWh Run Your Loads?
A single HV240250 stores 60kWh. Real backup time depends on how much energy you draw and how fast.
The table uses ≈ 48kWh deliverable energy - a conservative figure using the 80%-DOD long-life setpoint after PCS losses.
| Continuous load | Approx. backup time |
|---|---|
| 4 kW | ≈ 12 hours |
| 6 kW | ≈ 8 hours |
| 8 kW | ≈ 6 hours |
| 10 kW | ≈ 4.8 hours |
| 12 kW (max continuous) | ≈ 4 hours |
Notes that matter for sizing
- Delivers up to 50A continuous (≈ 12kW) through its DC output, with short-duration peaks up to 100A (≈ 24kW) for inrush.
- Actual runtime varies with depth of discharge, PCS round-trip efficiency (~94–96%), ambient temperature and load shape.
- For sustained loads above ~12kW, parallel multiple HV240250 units, or step up to the 60–130kWh rack system (200A continuous, 200/220A peak).
Advanced Battery Cell Technology
Utilizing high-performance lithium iron phosphate (LiFePO4) cells for superior performance and safety

LiFePO4 Cell Advantages
Excellent Thermal Stability
LiFePO4 chemistry offers superior thermal stability compared to other lithium-ion batteries, reducing the risk of thermal runaway and ensuring safe operation even in extreme conditions.
Long Cycle Life
With 4000-6000 charge-discharge cycles at 80% depth of discharge (DOD), LiFePO4 cells provide exceptional longevity, significantly reducing replacement costs over the system lifetime.
High Power Density
Supports short-term peak discharge up to 100 A, delivering strong instantaneous power for industrial and commercial loads.
Environmentally Friendly
LiFePO4 batteries are more environmentally friendly than traditional lead-acid batteries, containing no heavy metals and being easier to recycle at the end of their service life.
Core Functions
Advanced features designed to optimize energy usage and provide reliable power solutions
Intelligent Peak Shaving
Monitors real-time electricity pricing and load forecasting, automatically charging during off-peak hours and discharging during peak periods to reduce energy expenses
Solar-Storage Coordination
Seamlessly integrates with photovoltaic systems to achieve intelligent scheduling of generation, storage, and consumption, increasing solar self-consumption efficiency.
Off-Grid Backup Power
Automatically switches to off-grid mode within 10 milliseconds during grid failures, ensuring uninterrupted operation and continuous power supply
Demand Charge Management
Monitors 15-minute demand intervals in real time, dynamically adjusting discharge power to control peak demand and lower demand-related costs
LiFePO4 Cell Advantages
Utilizing high-performance lithium iron phosphate (LiFePO4) cells for superior performance and safety.
Excellent Thermal Stability
LiFePO4 chemistry offers superior thermal stability compared to other lithium-ion batteries, reducing the risk of thermal runaway even in extreme conditions.
01
Long Cycle Life
With 4000–6000 charge-discharge cycles at 80% depth of discharge (DOD), LiFePO4 cells provide exceptional longevity, reducing replacement costs.
02
High Power Density
Supports short-term peak discharge up to 100A, delivering strong instantaneous power for industrial and commercial loads.
03
Environmentally Friendly
More environmentally friendly than lead-acid batteries - no heavy metals and easier to recycle at end of service life.
04
System Architecture
Integrated energy management system designed for optimal performance and reliability
Central EMS
Communication Network
(RS485/CAN/Ethernet)
Energy Storage Units
(BMS + Battery Modules)
Bi-directional PCS
Load/Grid Output
Application Scenarios
Versatile energy storage solutions for various industrial and commercial environments
Industrial Manufacturing Facilities
Provides peak shaving and backup power for high-energy manufacturing operations including machining, injection molding, and welding workshops.
Enhances energy efficiency and production continuity
Lowers operational energy demand during peak hours
Improves power stability for precision manufacturing
Commercial Complexes & Office Buildings
Deployed in shopping centers, office buildings, and hotels' electrical distribution rooms, combined with rooftop solar systems.
Optimizes building energy management
Increases utilization of renewable energy
Supports green building and sustainability goals
Telecom Base Stations & Data Centers
Provides highly reliable backup power and peak shaving for 5G base stations, edge data centers, and IDC facilities.
Ensures uninterrupted data and communication services
Strengthens power reliability and system resilience
Minimizes downtime risks in critical operations
Mobile Energy Storage & Emergency Power
Installed in mobile energy storage vehicles or containers, providing flexible power for outdoor construction, emergency disaster relief, and temporary events.
Enables fast deployment and flexible use
Reduces generator noise and fuel dependence
Supports sustainable mobile energy operations
Deployment & Operations
Flexible installation options and comprehensive maintenance guidelines for optimal system performance
Installation Methods
Floor-standing Installation
Quick installation, no structural reinforcement required, easy expansion and maintenance.
Suitable for: Indoor settings, electrical rooms, equipment rooms, workshops
Compact/Modular Mounting
Flexible placement of smaller battery modules or subunits on wall brackets or within racks, saving space in constrained areas.
Suitable for: Small commercial spaces, telecom base stations, modular equipment rooms
Outdoor Container
Integrated design, IP54 protection, rapid deployment.
Suitable for: Solar farms, construction sites, island or off-grid applications
Maintenance Schedule
| Frequency | Maintenance Tasks | Duration |
|---|---|---|
| Daily | Check monitoring platform status, verify no alarms | 5 minutes |
| Weekly | Inspect cooling system operation, clean air intake filters | 15 minutes |
| Monthly | Record battery voltage/temperature data, check terminal connections | 30 minutes |
| Quarterly | Perform equalization charging, test insulation resistance (>10MΩ) | 1.5–2 hours |
| Annually | Capacity test (0.5C discharge), replace air filters | 3-4 hours |
Network Planning Guidelines
Single 60 kWh unit can support 30–50 kW average load; recommended configuration is 1.2–1.5× peak load for safe operation
RS485 supports up to 32 cascaded modules; for larger systems (<40 nodes), CAN bus is recommended for real-time monitoring and control.
Each system requires 5–10 Mbps uplink for monitoring, remote configuration, and firmware updates
Multiple units should be the same model and production batch; SOC differential ≤5%, synchronized via master-slave CAN protocol
Competitive Advantages
How the HV240250 compares to traditional lead-acid batteries and competing energy storage solutions
vs Traditional Lead-Acid Battery Solutions
| Dimension | HV240250 Lithium | Lead-Acid Battery |
|---|---|---|
| Cycle Life | 4000-6000 cycles (80% DOD) | 300-500 cycles (50% DOD) |
| Energy Density | 125kWh/m³ | 35-45kWh/m³ |
| Charge/Discharge Efficiency | ≥95% | 70-80% |
| Maintenance | Maintenance-free, remote monitoring | Periodic watering, replacement every 3–5 years |
| Response Time | <20ms |
|
| Temperature Range | -15~60°C | 0~40°C |
vs Competing Battery Energy Storage Systems
Automotive-Grade Manufacturing
Utilizes high-quality LiFePO₄ cells with excellent consistency, outperforming typical industry standards, helping extend overall system lifespan.
Wide Temperature Performance
Low-temperature discharge capability remains high, significantly better than average, suitable for cold-region industrial applications.
Rapid Expansion
Modular design supports online hot-swap expansion without interrupting operation, minimizing downtime during capacity upgrades.
Intelligent Forecasting
Built-in AI algorithms analyze historical load and electricity pricing to optimize charge/discharge scheduling with high accuracy.
60kWh Commercial Battery Storage - Common Questions
Q: Is the HV240250 a battery only, or an all-in-one inverter system?
A: It is a battery cabinet (battery + BMS). It connects to a separate bi-directional PCS/inverter and EMS, giving you freedom to match the inverter brand and power rating to your site.
Q: Can it work with Deye, Growatt, Solis or SMA inverters?
A: Yes. It is listed as compatible with 12+ inverter brands, including Deye, Growatt, Solis, SMA, GoodWe, Victron, SAJ, Sunsynk, Afore, Phocos, TBB and Studer. Confirm your exact model with our team.
Q: Is it for indoor or outdoor installation?
A: The standard cabinet is IP21 for indoor electrical and equipment rooms. An IP54 enclosure option is available for outdoor or containerized deployment.
Q: How many hours can 60kWh support?
A: Roughly 12 hours at a 4 kW load, 6 hours at 8 kW, and about 4 hours at the unit's ~12 kW continuous limit - based on conservative deliverable energy. Runtime depends on DOD, PCS efficiency and temperature.
Q: What PCS power is recommended?
A: Size the PCS at about 1.2–1.5× your peak load. The unit delivers ~12 kW continuous and ~24 kW short-duration peak per cabinet; parallel units for more power.
Q: Can I expand capacity later?
A: Yes - parallel additional HV240250 units (same model and batch, SOC ≤ 5% differential), or move to the modular 60–130kWh rack system for larger arrays.
Q: What is the cycle life?
A: 4000–6000 cycles at 80% depth of discharge, with ≥ 95% round-trip efficiency - far beyond lead-acid.
Why Choose Us

Get a Quote on the HV240250 60kWh System
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