What EBOSS® Hybrid Energy System Models Are Available and What Are Their Specifications?
Explore EBOSS® model options, battery technology, power output, and compatibility guidelines to select the right hybrid energy system for your application.
1. EBOSS® Overview
The ANA EBOSS® Hybrid Energy System is a mobile power platform that pairs high-efficiency diesel generators with advanced LTO battery technology and proprietary controls. EBOSS® is designed to deliver reliable power, reduce generator runtime, lower emissions, and support demanding site loads — including construction, telecom, remote operations, and disaster response
Core Benefits:
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Reduce generator runtime by up to 75%
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Lower fuel consumption and operating costs
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Reduce greenhouse gas (GHG) emissions and noise
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Enable extended quiet power operation on battery
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Operate in extreme temperature environments
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Access remote monitoring and control via integrated SCADA
2. Model Lineup and Technical Specifications
EBOSS® Hybrid Energy Systems
EBOSS® Hybrid Systems combine an AIRMAN® generator, inverter technology, and ultra-long-life LTO battery storage in one towable package. These systems deliver silent battery operation, automatic load management, and seamless integration with site power.
| Model | Power Output | System Type | Application |
|---|---|---|---|
| EBOSS® 25-25 | 23 kVA | Hybrid | Small sites, telecom, light loads |
| EBOSS® 70-45 | 70 kVA | Hybrid | Medium construction, utility support |
| EBOSS® 125-65 | 125 kVA | Hybrid | High-demand industrial and backup |
| EBOSS® 220-125 | 220 kVA | Hybrid | Large-scale operations, paralleling |
| EBOSS® 400-220 | 400 kVA | Hybrid | Critical infrastructure, large sites |
Key Features:
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Trailer-mounted, plug-and-play systems
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3-phase inverters with industrial duty cycles
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Seamless generator + battery integration
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Ideal for remote sites, events, utilities, and telecom
EBOSS® Power Modules
EBOSS® Power Modules provide the battery and inverter component only — perfect for modular builds, system expansions, or pairing with existing generator fleets. These units can be paralleled for scalable power output.
| Model | Power Output | Configuration | Use Case |
|---|---|---|---|
| EBOSS® 25 kVA | 23 kVA | Power Module | Light applications, mobile power |
| EBOSS® 70 kVA | 70 kVA | Power Module | Mid-sized hybrid builds |
| EBOSS® 125 kVA | 125 kVA | Power Module | Industrial and utility projects |
| EBOSS® 220 kVA | 220 kVA | Power Module | Large-scale site operations |
| EBOSS® 400 kVA | 400 kVA | Power Module | Multi-unit microgrids, critical infrastructure |
Key Features:
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Stand-alone inverter and battery package
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Designed for EBOSS® paralleling architecture
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Ideal for fleet retrofits or large hybrid system builds
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All models use 3-phase industrial inverters and LTO batteries
Choosing the Right EBOSS® System
✅ Hybrid Systems → Best for turnkey deployments, tow-in power, or sites without existing infrastructure.
✅ Power Modules → Best for scaling, custom builds, or pairing with existing generators.
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All voltage outputs are available simultaneously (single and three-phase).
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EBOSS uses ultra-high life cycle LTO batteries rated for up to 20,000 cycles, outperforming AGM and LiFePO₄ chemistries.
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Systems support modular and future expansion options.
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Remote access allows users to monitor both the generator and EBOSS systems from a central dashboard.
3. Battery Technology Comparison
EBOSS uses advanced Lithium Titanate Oxide (LTO) battery chemistry, which offers:
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20x the cycle life of LiFePO₄
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Faster charge (approx. 1 hour) vs. 4–10 hours for other chemistries
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Wider temperature range (-22°F to 130°F charging, -40°F storage)
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No thermal runaway, eliminating the need for additional HVAC or fire suppression
| Battery Type | Cycle Life | Charging Time | Temp Range | Safety | Cost Over Life |
|---|---|---|---|---|---|
| AGM Lead Acid | ~500 | 10 hrs | -4°F to 120°F | Low | High |
| LiFePO₄ | ~3,000 | 4 hrs | -4°F to 120°F | Medium | Medium |
| EBOSS LTO | 20,000 | 1 hr | -22°F to 130°F | Very High | Lowest |
4. EBOSS + Generator Compatibility
EBOSS is designed to work seamlessly with ANA AIRMAN® generators and other prime power sources.
Typical Configurations:
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Generator ON: EBOSS charges while the generator supplies site load.
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Generator OFF: EBOSS powers the site silently for extended periods.
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Paralleling: Multiple EBOSS units can be paralleled for larger battery capacity or longer runtimes.
Sizing Example:
For a 20 kW site load with a 15 kWh EBOSS:
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Generator ON: 2 hours
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Generator OFF: 6 hours
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Runtime reduction: ~75% fewer generator hours per day
5. Is a Bigger Battery Better?
Not always. The brochure highlights that larger batteries do not inherently improve fuel savings or runtime efficiency:
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A bigger battery doesn’t save more fuel or reduce emissions beyond the system’s load balance.
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Smaller, faster-cycling batteries often deliver better ROI.
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Oversized low-cycle-life batteries (AGM or LiFePO₄) increase upfront cost without extending useful life
6. Environmental & Cost Impact
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Reduced Generator Runtime: Up to 75% fewer operating hours per day
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Lower Emissions: Significant CO₂ reduction due to less diesel use
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Lower Noise: Extended silent operation improves site safety and community compliance
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Cost Savings: Lower fuel consumption and extended service intervals reduce operating costs by 50–80% depending on site load
7. Manuals & Spec Sheets
You can access EBOSS® spec sheets, operating manuals, and parts information through ANA’s Knowledge Base and SmartEquip®:
Support Contacts
For model selection, site sizing, or integration support:
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Email: support@anacorp.com
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Phone: Service & Support – Option 3
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Portal: Submit a ticket through the Service Portal