Home β€Ί Products β€Ί Battery Systems

Stationary Batteries &
Cell Monitoring

When grid failure is not an option β€” high-performance energy storage and predictive cell monitoring for mission-critical infrastructure.

Stationary Battery Systems by Trevor Technologies
Energy Storage Solutions

Flawless Power Continuity

When grid failure is not an option, our stationary energy storage systems provide flawless power continuity. We engineer tailored, high-performance battery banks designed to bridge immediate sub-second transients and handle sustained multi-hour utility outages.

Our systems fortify critical infrastructure across power plants, sub-stations, data centers, telecom networks, healthcare facilities, and heavy industrial automation plants. Additionally, we provide customized mounting options, including racks and enclosures, to meet specific customer needs.

Our expertise extends to cell monitoring systems, which help predict potential failures in advance, ensuring the safety and reliability of your critical loads.

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Sub-second transient bridging to multi-hour outage coverage
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Custom racks, enclosures, and mounting solutions
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Advanced cell monitoring with predictive failure detection
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Multiple battery chemistries for every application
Discuss Your Requirements β†’
Battery Technologies

Battery Chemistry Portfolio

We offer a comprehensive range of battery chemistries to match the specific requirements of your application β€” from proven lead-acid to cutting-edge lithium-ion technologies.

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Lead Acid β€” Vented Cells

20-Year Design Life

The industry's most trusted and time-tested battery technology for stationary applications. Vented lead-acid cells offer exceptional reliability for critical backup power in substations, power plants, and industrial environments where long service life and deep-cycle performance are essential.

Cell Types Available:

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PlantΓ© (GroE) β€” Pure lead plates, highest reliability, 20+ year life
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Tubular (OPzS) β€” Tubular positive plates, excellent cycling capability
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Flat-plate (Ogi) β€” Cost-effective, suited for float applications
PlantΓ© (GroE) Tubular (OPzS) Flat-plate (Ogi)
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VRLA β€” Valve-Regulated Lead-Acid

Maintenance-Free

Sealed, maintenance-free battery technology ideal for environments where space is limited or ventilation is restricted. VRLA batteries offer clean, reliable backup power for DC/AC UPS systems, data centers, and telecom installations β€” including variants rated for high-temperature climates like the Middle East.

Cell Types Available:

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GEL Cells β€” Gelified electrolyte, superior deep-cycle performance
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AGM Cells β€” Absorbed glass mat, high-rate discharge capability
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High Temperature β€” Rated for elevated ambient environments
GEL Cells AGM Cells DC/AC UPS High Temp
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Nickel-Cadmium (Ni-Cd)

Extreme Durability

The most rugged battery chemistry for harsh industrial environments. Nickel-Cadmium batteries offer unmatched tolerance to extreme temperatures, deep discharges, and mechanical abuse β€” making them the preferred choice for oil & gas, petrochemical, and remote industrial installations where reliability is non-negotiable.

Cell Types Available:

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Vented Pocket Plate β€” H (High), M (Medium), L (Low) discharge rates
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Sintered Plate β€” Superior high-rate performance for UPS systems
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Ultra Low Maintenance β€” Extended topping-up intervals
Pocket Plate (H/M/L) Sintered Plate Ultra Low Maintenance
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Advanced Technologies

Next Generation

Next-generation battery technologies offering superior energy density, lighter weight, and longer cycle life compared to traditional chemistries. Available per customer specification for applications requiring compact form factors, rapid charging, or extended service life in modern power systems.

Technologies Available:

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Lithium-ion (Li-ion) β€” High energy density, long cycle life, fast charging
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Sodium-Nickel (Na-NiClβ‚‚) β€” Maintenance-free, extreme temperature tolerance
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Nickel-Metal Hydride (NiMH) β€” Environmentally friendly, excellent cycling
Lithium-ion Sodium-Nickel NiMH Custom Specs
Engineering Excellence

Why Choose Our Battery Systems

Every battery bank we deliver is engineered for maximum reliability, optimized lifecycle cost, and seamless integration with your existing power infrastructure.

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Application-Specific Sizing

Precise battery bank sizing based on your load profile, backup duration requirements, and environmental conditions β€” ensuring optimal performance without over-specification.

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Extreme Temperature Rating

Battery solutions rated for the harshest environments, from sub-zero installations to high-ambient Middle Eastern climates exceeding 50Β°C.

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Custom Racks & Enclosures

Purpose-built battery racks, cabinets, and seismically rated enclosures designed to meet your exact space constraints and safety requirements.

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Lifecycle Cost Optimization

Total cost of ownership analysis comparing chemistries, helping you choose the most economical solution over the full operational lifetime of the system.

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Capacity Testing & Verification

Comprehensive IEEE / IEC compliant capacity discharge testing during commissioning and periodic maintenance to validate actual backup time performance.

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Safety & Compliance

All battery systems comply with international standards including IEC 60896, IEC 62485, IEEE 1188, and IEEE 484 for safe installation and operation.

Cell Monitoring System Interface
Predictive Intelligence

Cell Monitoring Systems

Our advanced cell monitoring systems provide real-time visibility into every individual cell in your battery bank β€” enabling early detection of weak cells, predicting potential failures before they impact your critical loads, and maximizing the operational life of your battery investment.

Continuous monitoring of key parameters ensures your battery bank is always ready to perform when called upon, giving you confidence in your backup power infrastructure.

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Individual Cell Voltage Monitoring

Continuous per-cell voltage tracking with configurable alarm thresholds for early detection of degradation, imbalance, or pending cell failure.

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Temperature Sensing

Per-cell and ambient temperature monitoring to detect thermal runaway conditions, ensuring safe operation across all environmental conditions.

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Internal Resistance Measurement

Periodic ohmic testing reveals cell health trends over time, enabling proactive replacement scheduling and avoiding unexpected outages.

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SCADA & Remote Access

Integration with plant SCADA/DCS systems via Modbus, SNMP, or Ethernet. Web-based dashboards and SMS/email alerts for remote monitoring.

Where We Deploy

Critical Applications

Our battery systems protect the most demanding infrastructure across diverse industries worldwide.

⚑ Power Plants & Generation
πŸ”Œ Electrical Substations
πŸ–₯️ Data Centers
πŸ“‘ Telecom Networks
πŸ₯ Healthcare Facilities
🏭 Industrial Automation
πŸ›’οΈ Oil & Gas Refineries
πŸš† Railway & Metro Systems
πŸ’§ Water Treatment Plants
Technical Overview

Battery Chemistry Comparison

Choose the right battery technology based on your application requirements, environment, and lifecycle expectations.

Parameter Lead Acid (Vented) VRLA (GEL/AGM) Ni-Cd Li-ion
Design Life 20+ years 10–15 years 20–25 years 15–20 years
Maintenance Regular topping-up Maintenance-free Low–Ultra low Maintenance-free
Temperature Range -20Β°C to +55Β°C -20Β°C to +45Β°C -40Β°C to +70Β°C -20Β°C to +60Β°C
Cycle Life 1,200+ cycles 400–800 cycles 2,000+ cycles 3,000+ cycles
Footprint Large Compact Medium Very compact
Self-Discharge Low Very low Medium Very low
Best For Substations, Power Plants UPS, Data Centers Oil & Gas, Extreme Environments Space-constrained, Modern facilities

Need Help Choosing the Right Battery?

Our battery specialists will analyze your application, environmental conditions, and budget to recommend the optimal battery chemistry and configuration for your critical power system.

Request a Consultation β†’ πŸ“ž +973 39341269