Telecommunication
Behind every call, every message, every connection — we keep Turkey connected.
Why LFP Lithium?
Telecom operators worldwide are transitioning from lead-acid to Lithium Iron Phosphate (LFP) batteries — and for good reason. LFP cells deliver over 3x the cycle life, occupy just 1/3 of the footprint, and require absolutely zero maintenance throughout their operational life. With a wider operating temperature range (-20°C to +55°C), faster recharge rates, and flat discharge curves that maintain consistent voltage under load, LFP technology is purpose-built for mission-critical telecom infrastructure. Operators making the switch are reporting 30–50% reductions in total cost of ownership, driven by eliminated battery replacements, reduced site visits, and lower cooling requirements.
Netzr 48 100Ah
48V 100Ah LFP battery pack designed for telecommunications infrastructure. Compact, powerful, and built for 24/7 reliability with integrated BMS and CAN/RS485 communication.
Smart BMS & Remote Monitoring
Built-in Battery Management System with CAN/RS485 interfaces provides real-time state of charge, temperature monitoring, cell balancing, and predictive maintenance — all accessible remotely through standard SNMP and Modbus protocols. Network operations centers can monitor every battery in the fleet from a single dashboard, receiving automated alerts for anomalies and scheduling maintenance proactively before issues arise.
Built for Critical Infrastructure
From cell towers to data centers, our 48V LFP system delivers reliable backup power where uptime is non-negotiable.
Cell Tower Backup
4–12 hours of backup power for macro and micro base stations, ensuring uninterrupted network coverage during grid outages and extreme weather events.
Data Center UPS
Bridge power between grid failure and generator startup with millisecond-level switchover, protecting critical IT loads and ensuring zero data loss.
Off-Grid & Bad-Grid Sites
Solar-battery hybrid operation reducing diesel generator runtime by up to 70% at remote telecom sites, cutting fuel costs and carbon emissions simultaneously.
5G Infrastructure
Higher capacity energy storage for power-intensive 5G Massive MIMO antennas and dense small cell deployments that demand 2–3x more power than legacy 4G equipment.