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The Securi-Prod Battery 12V 7ah Lithium LiFePO4 represents a fundamental shift in backup power design, engineered specifically to replace traditional Sealed Lead Acid (SLA) batteries in critical security and automation frameworks. From a technical advisory standpoint, this battery transitions systems from old lead-chemistry limitations into high-cycle lithium infrastructure, maintaining exact physical compatibility while multiplying long-term dependability.
Traditional SLA batteries degrade rapidly under standard loadshedding conditions due to shallow cycle thresholds and slow charge absorption. This LiFePO4 variant directly solves that degradation cycle through superior chemical resilience, delivering stable voltage output and significantly reduced maintenance costs across its extended operating life.
Advanced LiFePO4 Cell Chemistry: Built using brand-new Lithium Iron Phosphate cells that provide thermal stability, chemical safety and high energy density (89.6Wh) within a small footprint.
High Cycle Longevity: Engineered for extreme duty cycles, providing over 3,000 cycles at an 80% Depth of Discharge (DOD). This represents up to 10 times the cycle life of traditional SLA alternatives under frequent discharge environments.
Integrated Battery Management System (BMS): A built-in protective circuit monitoring cell parameters. The BMS protects against over-charging, over-discharging, and over-current faults by executing low-voltage cut-off at 9.2V and charge cut-off at 14.6V.
Direct SLA Replacement Geometry: Standardised physical casing fits into standard battery compartments for gates, alarms and smaller backup configurations without requiring enclosure modifications or separate wiring systems.
Lightweight High-Efficiency Profile: Weighs only 800g, approximately 30% of the weight of a standard 7Ah lead-acid battery, greatly reducing physical structural strain while offering efficient, flat discharge curves.
Scalable Array Configurations: Supports multi-battery setups to increase capacity or operating voltage. The hardware allows up to 4 units in series (e.g., 12V to 48V arrays) or up to 8 units in parallel (increasing capacity up to 56Ah). Series and parallel combinations are not supported.
This battery operates as a direct electrical drop-in replacement for standard 12V 7Ah, 7.2Ah, 7.5Ah and 8Ah lead-acid or gel batteries. It is engineered for standard 12V DC power paths across a wide selection of security and automation infrastructure:
Domestic and Commercial Gate Automation: Compatible with prominent gate motor systems, including Centurion Systems (D2, D5, D5-Evo, D10) and Gemini gate operators.
Intrusion Alarm Frameworks: Direct fit for alarm control panel backup enclosures including IDS (X-Series), Texecom, Paradox and DSC panels.
Electric Fence Energizers: Fully compatible with Nemtek and JVA electric fence energizer backup power compartments.
Uninterruptible Power Supplies (UPS) and Small Solar Arrays: Fits compact 12V UPS units and backup equipment, provided the internal charging voltage aligns with standard LiFePO4 thresholds.
Technical Integration Note: Ensure your charging systems are configured correctly. The recommended charge current is less than 5A, with a hard maximum threshold of 5A. The battery operates over a broad discharge temperature range of -20°C to 60°C and charges safely between 0°C and 45°C.
1 x SECURI-PROD BA50-1 12V 7Ah LiFePO4 Lithium Battery
2 x Protective Terminal Covers (pre-fitted to F2 terminals)
Traditional Lead-Acid batteries suffer heavily from the Peukert effect, meaning their effective capacity drops significantly under heavy current loads. In contrast, Lithium LiFePO4 batteries maintain a stable, flat voltage curve during discharge, delivering near-maximum rated capacity even under continuous power demands.
Standard backup batteries are severely impacted when left in a discharged state during consecutive power outages, causing permanent capacity loss via sulfation. LiFePO4 chemistry completely avoids sulfation issues, allowing it to remain partially discharged without destroying internal cell infrastructure.
While a standard Lead-Acid battery requires up to 810 hours to safely achieve a full charge, this lithium variant supports efficient charge absorption. This allows it to recharge completely within 2 hours when paired with a matching 5A charger, ensuring faster recovery between consecutive outages.