314Ah Hybrid Solid-State Battery Cell
The KRL Power SHS180-314Ah is a next-generation hybrid solid-state lithium battery engineered for high-performance ESS applications. Utilizing proprietary nano solid electrolyte technology, this 314Ah battery delivers exceptional thermal stability, enhanced safety, ultra-long cycle life, and reliable 1P continuous charge/discharge capability for demanding commercial and industrial energy storage environments.
Product Model:SHS180-314Ah
Battery Type:Hybrid Solid-State Lithium Battery
Nominal Capacity:314Ah
Nominal Energy:1005Wh
Nominal Voltage:3.2V
Operating Voltage (>0°C):2.5V – 3.65V
Operating Voltage (≤0°C):2.0V – 3.65V
Energy Density (Gravimetric):180Wh/kg
Energy Density (Volumetric):390Wh/L
Energy Efficiency:≥94.5%
AC Internal Resistance:0.18 ± 0.03mΩ
DC Internal Resistance:0.4 ± 0.1mΩ
Dimensions:207.1 × 174.2 × 71.7 mm
Weight:5.60 ± 0.1kg
Cycle Lifet:6000 Cycles @ 80% SOH
Charge/Discharge Rate:Continuous 1P
Recommended Application:C&I ESS / Utility Storage
Why Choose KRL SHS180-314Ah Hybrid Solid-State Battery?
Ultra-High Safety Performance
Designed with advanced hybrid solid-liquid electrolyte architecture to significantly reduce thermal runaway risks. The battery successfully passes nail penetration, overcharge, external short circuit, thermal abuse, and propagation resistance tests according to GB/T 36276-2023 standards.
Long Cycle Life
Engineered for 6000+ cycles at 80% SOH under 0.5P charge/discharge conditions with 100% DOD, making it ideal for long-term ESS deployments and peak shaving applications.
High Energy Density
With 180Wh/kg gravimetric energy density and 390Wh/L volumetric density, the SHS180-314Ah enables higher energy storage capacity within compact ESS cabinet designs.
1P Continuous Operation Capability
Supports continuous 1P charging and discharging from 0–80% SOC, improving power flexibility for high-load industrial applications.
Advanced Thermal Stability
The proprietary nano solid electrolyte technology enhances internal thermal resistance and reduces heat generation during high-rate cycling and abuse conditions.
Safety Performance
Industry-Leading Battery Safety Design
The SHS180-314Ah hybrid solid-state battery is engineered to exceed conventional liquid lithium battery safety standards.
| Item | Technical Criteria | Test Result |
|---|---|---|
| Overcharge | No leakage, no venting, no ignition, no explosion, no deformation, and no rupture at the vent or pressure relief point. | Pass |
| Overdischarge |
No short circuit, no ignition, no explosion, no venting, and no rupture at the vent or pressure relief point.
1P52S cell: no ignition, no explosion. | Pass |
| Overcurrent | No leakage, no venting, no ignition, no explosion, and no rupture at the vent or pressure relief point. | Pass |
| External Short Circuit | No ignition, no explosion, and no rupture at the vent or pressure relief point. | Pass |
| Nail Penetration |
3~5 mm: no thermal runaway, no ignition, no explosion.
8 mm: no ignition, no explosion. | Pass |
| Crush | No leakage, no venting, no ignition, no explosion, and no rupture at the vent or pressure relief point. | Pass |
| Drop | No venting, no ignition, no explosion, and no rupture at the vent or pressure relief point. | Pass |
| Thermal Abuse |
0.5C overcharge to thermal runaway: no ignition, no explosion.
In accordance with GB/T 36276-2023, no ignition, no explosion; maximum surface temperature ≤ 90°C. | Pass |
| Thermal Propagation | 1P135 cell: thermal runaway does not propagate; no fire or explosion; no thermal propagation between adjacent cells. | Pass |
| Heating | Place the cell in a constant temperature chamber, heat to 130°C, then raise the heating rate to 10°C/min, hold at the target environment of 200°C for 1 h, then standby for 24 h. | Pass |
| Temperature Shock | In accordance with GB/T 31485-2015: temperature shock from -40°C to 85°C, 10 cycles, then standby for 24 h. | Pass |
| Insulation Resistance at Elevated Temperature | In accordance with GB/T 36276-2023. | 110°C ≥ 0.02°C/min |
Cycle Life Performance
Exceptional Long-Term Reliability
Laboratory simulation and real-world cycling tests demonstrate superior capacity retention performance:
- 950 cycles tested with 94.33% capacity retention
- Simulated 7000 cycles with >80% SOH
- First-year near-zero degradation under industrial operating conditions
- 5-year capacity retention exceeding 90% under optimized conditions
Cycle Life Performance
Optimized for High-Power ESS Applications
The SHS180-314Ah battery supports:
- Continuous 1P charging/discharging
- 1P discharge operation from 0–80% SOC
- Multi-stage fast charging strategies
- Stable operation under high-frequency cycling scenarios
This makes it highly suitable for:
- Commercial & Industrial ESS
- Solar + Storage Systems
- Peak Shaving Applications
- Microgrid ESS
- Utility Energy Storage
- Backup Power Systems
Application Scenarios
Recommended Applications
- Commercial & Industrial Energy Storage
- Renewable Energy Integration
- Solar PV + ESS
- Microgrid Systems
- Telecom Backup Power
- Peak Demand Management
- Grid Stabilization Projects



