logo
Send Message
quality Smart BMS 48V 200Ah LiFePO4 Telecom Tower Battery Bank with RS485 Remote Monitoring 10kWh Storage factory
<
quality Smart BMS 48V 200Ah LiFePO4 Telecom Tower Battery Bank with RS485 Remote Monitoring 10kWh Storage factory
quality Smart BMS 48V 200Ah LiFePO4 Telecom Tower Battery Bank with RS485 Remote Monitoring 10kWh Storage factory
>

Smart BMS 48V 200Ah LiFePO4 Telecom Tower Battery Bank with RS485 Remote Monitoring 10kWh Storage

Product Summary

Smart BMS 48V 200Ah LiFePO4 battery bank delivering 10.24kWh energy storage for telecom towers. Features RS485/CAN remote monitoring, 6000+ cycles, and parallel scalability up to 153kWh for large base station deployments.

Product Custom Attributes

Highlight:

48V Telecom Battery Bank

,

Smart BMS LiFePO4

,

10kWh Tower Storage

Basic Properties

Place of Origin:
China
Brand Name:
ECER
Certification:
CE, RoHS, UN38.3, MSDS, IEC 62619
Model Number:
TTB-48200

Trading Properties

Minimum Order Quantity:
1
Price:
1550
Packaging Details:
Heavy-duty plywood crate with custom foam inserts, moisture barrier bag, and tilt indicator
Delivery Time:
20-30 working days
Payment Terms:
T/T, L/C, Western Union, PayPal
Supply Ability:
3000 units per month

Product Description

The ECER TTB-48200 represents a major step forward in telecom energy storage, delivering 10.24 kilowatt-hours of reliable backup power in a compact 4U rack-mount chassis. Purpose-designed for macro base stations, central office switching centers, and large-scale distributed antenna systems, this 48V 200Ah LiFePO4 battery bank combines the latest generation of grade A prismatic lithium iron phosphate cells with an advanced smart BMS featuring RS485, CAN 2.0B, and dry contact interfaces. The result is a telecom-grade energy storage solution that provides extended runtime during grid outages, reduces diesel generator cycling, and seamlessly integrates with hybrid power systems incorporating solar photovoltaic arrays and wind turbines. Each TTB-48200 undergoes a rigorous 72-hour factory burn-in test that validates capacity, cell balance, communication protocol compliance, and all protection functions under simulated field conditions including high-temperature charge limiting, low-voltage disconnect, and short circuit response. For network operators seeking to modernize aging lead-acid battery banks, the TTB-48200 offers a direct 48V drop-in replacement with dramatically improved cycle life, reduced footprint, and remote visibility into battery health that eliminates costly site visits for routine maintenance checks.

Key Features
  • 10.24kWh High-Density Energy Storage: The 200Ah capacity at 48V nominal provides extended backup runtime for medium to large base stations, supporting typical site loads of 1.5 to 3kW for 3 to 6 hours without grid or generator input. The 4U form factor achieves over 2.5kWh per rack unit, among the highest energy density in its class.
  • Smart BMS with Multi-Protocol Communication: The integrated battery management system supports RS485 Modbus RTU, CAN 2.0B, and dry contact alarm outputs for flexible integration with telecom network management systems. Real-time parameters including individual cell voltages, state of charge, state of health, cycle count, and internal temperature are accessible remotely, enabling predictive maintenance and automated alarm escalation.
  • 6000+ Cycle Longevity at 80% DOD: Grade A LiFePO4 prismatic cells with laser-welded aluminum busbar connections deliver over 6000 deep discharge cycles with less than 30 percent capacity fade. In typical telecom duty where batteries cycle once daily during peak shaving or load shifting operation, this equates to more than 16 years of service life, substantially outlasting VRLA batteries that require replacement every 3 to 5 years.
  • Massive Parallel Scalability to 153kWh: Connect up to 15 TTB-48200 units in parallel without external combiner boxes or master controllers. The BMS automatically handles charge and discharge current sharing across all parallel units via CAN bus communication, ensuring balanced aging and preventing current hogging that can prematurely age individual battery modules in traditional parallel string configurations.
  • Extreme Environment Ready: The steel enclosure with IP21 protection and conformal-coated BMS circuit boards withstands the challenging environmental conditions common in telecom shelters, including high humidity, dust ingress, and wide temperature swings from -20°C to 60°C. The BMS implements temperature-compensated charging that automatically reduces charge current as ambient temperature approaches extremes, protecting cell health without requiring HVAC upgrades.
  • Hybrid Energy System Integration: Fully compatible with hybrid power architectures combining solar PV, wind turbines, and diesel generators. The BMS communicates state of charge and available charge current to hybrid controllers, enabling intelligent source selection that maximizes renewable energy utilization and minimizes generator runtime and fuel consumption. Dry contact outputs provide generator start/stop signaling based on programmable state of charge thresholds.
  • Comprehensive Safety Architecture: Triple-redundant protection layers include cell-level voltage and temperature monitoring, module-level current sensing with fast-acting MOSFET disconnect, and system-level fuse protection. The BMS executes a controlled shutdown sequence during fault conditions, logging all event data to non-volatile memory for post-event forensic analysis. The battery enclosure is constructed from 1.5mm cold-rolled steel with powder coat finish and includes a front panel emergency stop button.
Technical Specifications
ParameterSpecification
Nominal Voltage48V DC (51.2V nominal)
Nominal Capacity200Ah (10.24kWh)
Usable Capacity180Ah (9.22kWh) at 90% DOD recommended
Battery ChemistryLiFePO4 (Lithium Iron Phosphate)
Cycle Life6000+ cycles at 80% DOD, 25°C
Charge Voltage54.75V ± 0.2V (CC/CV)
Float Voltage53.5V (optional, for UPS mode)
Discharge Cut-off Voltage40.5V (cell-level 2.5V per cell)
Max Continuous Discharge200A (1C)
Peak Discharge (10 sec)300A (1.5C)
Max Continuous Charge100A (0.5C)
Communication InterfaceRS485 (Modbus RTU), CAN 2.0B, dry contact
Parallel CapabilityUp to 15 units (153.6kWh max)
Enclosure19-inch rack-mount, 4U, 1.5mm CRS, powder coated
Operating Temperature-20°C to 60°C (discharge); 0°C to 45°C (charge)
Storage Temperature-10°C to 35°C (recommended)
Humidity5% to 95% RH (non-condensing)
Self-Discharge RateLess than 3% per month at 25°C
Weight82 kg ± 0.5 kg
Dimensions482 x 520 x 178 mm (W x D x H)
IP RatingIP21
CertificationsCE, RoHS, UN38.3, MSDS, IEC 62619
Applications

The TTB-48200 is engineered for telecom infrastructure deployments where extended backup duration, remote management capability, and long service life are non-negotiable requirements. Primary deployment scenarios include 4G and 5G macro base transceiver stations with site loads ranging from 2 to 5 kilowatts, where a single TTB-48200 provides 2 to 5 hours of backup runtime depending on active equipment configuration and traffic load. At microwave backhaul relay sites in mountainous terrain, the battery bank operates in daily cycling mode paired with solar arrays of 3 to 6 kilowatts peak, storing excess daytime generation for overnight consumption and reducing diesel generator runtime by over 80 percent annually. Central office and mobile switching center deployments benefit from the parallel scalability, with 5 to 10 units configured as a centralized DC plant buffer that smooths grid fluctuations and provides ride-through during short-duration outages before backup generators start. In multi-operator tower sharing scenarios, the CAN bus interface enables each tenant to monitor their allocated battery capacity independently, supporting accurate energy billing and preventing disputes over shared backup resources. The IEC 62619 certification meets international safety standards for secondary lithium cells and batteries used in industrial applications, satisfying the compliance requirements of major telecom operators in Europe, Southeast Asia, and the Middle East. For network planners evaluating total cost of ownership, the TTB-48200 typically achieves payback within 3 to 4 years versus VRLA batteries when factoring reduced replacement frequency, lower HVAC energy consumption due to wider temperature tolerance, and elimination of quarterly site visits for battery impedance testing.

Packaging and Quality Assurance

Each TTB-48200 ships in a custom-engineered heavy-duty plywood crate with high-density polyurethane foam inserts precision-cut to the 4U chassis profile. A moisture barrier bag with internal desiccant maintains humidity below 30 percent during ocean freight, while a tilt indicator and shock watch label on the exterior crate provide visual evidence of mishandling during transit. The front panel main breaker is locked in the off position and terminal covers are secured with tamper-evident seals. Each unit includes a comprehensive factory acceptance test report documenting: individual cell voltages and internal resistance values, total capacity measured at 0.2C discharge rate, BMS communication protocol verification against Modbus register map, protection function trip testing at calibrated thresholds, and high-potential insulation resistance test between battery terminals and chassis ground. ECER provides a 5-year limited warranty with an optional extended 10-year service agreement including annual remote health checks via VPN connection to the BMS and advance replacement of any module exhibiting accelerated degradation. Regional spare parts depots in Dubai, Singapore, and Rotterdam ensure replacement components reach installation sites within 72 hours for warranty claims. OEM customization options include front panel branding, custom communication protocol integration, and pre-configured parameter sets for specific rectifier and hybrid controller brands.

Contact Our Experts And Get A Free Consultation!

Our mission is to offer "High Quality" & "Good Service" & "Fast Delivery" to help our clients to gain more profits.