AIDC · Backup & power quality
Data Center Energy Storage Solutions
High-power lithium backup for AIDC workloads — engineered for supply reliability and power quality, with millisecond response to GPU-scale load swings.
Industry pain points
- 01
Rapidly rising data center power demand challenges grid capacity and expansion timelines.
- 02
GPU load swings create high peaks and increase IT downtime risk from power-quality events.
- 03
PUE and efficiency requirements are becoming stricter across facilities.
- 04
Battery safety expectations are extreme — no fire or explosion tolerance in mission-critical sites.
Application scenarios
For future distributed data center power architectures, storage adds both stabilization and backup at grid- and load-side touchpoints.
Grid-proximate BESS
Battery energy storage near the grid stabilizes large-scale GPU cluster swings and provides UPS-class backup power.
GPU-proximate energy storage
Local storage near GPUs smooths millisecond-level transients with configurable backup duration and load-adjacent support.
What we provide
Full-chain lithium UPS products from cells and modules to systems — modular parallel designs for dependable delivery.
Key features & advantages
High safety
Controlled temperature rise; cells demonstrate no fire or explosion under rigorous tests such as nail penetration (per applicable certifications and reports).
Long lifespan
10-year calendar life design orientation for long-run data center operations.
Fast response
Millisecond response to load swings with support for up to ~300% peak load scenarios.
Cost friendly
~20% lower unit power cost vs conventional approaches; 50%+ fewer UPS systems deployed in comparable architectures (project-dependent).
Authoritative certification
Independent IP and quality systems aligned with leading enterprise supply-chain requirements.
Greener & more efficient
Higher DC voltage architectures help evolve AIDC power design and reduce PUE.
Technical specifications · UPS module
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| Module | Type | Cell voltage | Module voltage | Discharge C-rate | Backup time |
|---|---|---|---|---|---|
| 40Ah | 1P16S | 3.2V | 51.2V | 6C | 10–30 min |
| 45Ah | 1P18S | 3.2V | 57.6V | 10C | <6 min |
| 50Ah | 1P16S | 3.2V | 51.2V | 6C | 10–30 min |
| 100Ah | 1P18S | 3.2V | 57.6V | 4C | 15–30 min |
| 200Ah | 1P16S | 3.2V | 51.2V | 2C | 30 min |
| 314Ah | 1P20S | 3.2V | 64V | 1C | 60 min |
Technical specifications · UPS system
| Parameter | Tier 1 | Tier 2 | Tier 3 | Tier 4 | Tier 5 |
|---|---|---|---|---|---|
| Backup time | <6 min | 10–30 min | 15–30 min | >30 min | >30 min |
| Cell voltage | 3.2V | 3.2V | 3.2V | 3.2V | 3.2V |
| Module voltage | 51.2V | 57.6V | 51.2V | 57.6V | 64V |
| Discharge C-rate | 10C | 6C | 4C | 2C | 1C |
| System power | 461–518 kW | 241–346 kW | 204–230 kW | 204 kW | 201 kW |
Design & fire suppression
Design: modular parallel topology — safe, reliable, flexible, intelligent, and streamlined O&M. Fire suppression: aerosol and perfluoro options (per project engineering).
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