A key feature of the manual is the , which allows maintenance personnel to identify individual battery components, cells, and connectors, and order replacements. 3. Maintenance Procedures (Organizational & Intermediate)
Check for sulfation, a shorted cell, or overall end of battery life.
, such as those utilized in flight deck firefighting vehicles, tow tractors, and mobile electric power plants (MEPP). 2. Charging Protocols and Shop Operations
Proper handling of corrosive sulfuric acid in lead-acid batteries and hazardous cadmium in Ni-Cd batteries. navair 1715bad1 battery manual
Diagrams and part numbers for battery assemblies and components.
All batteries transported via military logistics must carry DD Form 1574 (Serviceable Tag) or DD Form 1577 (Unserviceable Tag). 📋 Troubleshooting Common Battery Failures Probable Cause Corrective Action per Manual Excessive Water Loss Overcharging / High Temp Recalibrate charger voltage limits Failed Capacity Test Cell imbalance / Aging Perform deep cycle cell equalization Blown Fuses/Diodes Reverse polarity connection Replace components; retrain personnel Physical Swelling Thermal runaway condition Isolate battery immediately; allow to cool 🔍 How to Access the Latest Revision
Never mix Lead-Acid and Ni-Cd maintenance tools. Cross-contamination causes immediate cell degradation. A key feature of the manual is the
[Visual Workflow: Battery Maintenance Cycle] Receive Battery ➡️ Visual Inspection ➡️ Capacity Test ➡️ Controlled Charge ➡️ Return to Fleet 1. Pre-Service Inspection
The NAVAIR 17.15B(AD1) manual governs the maintenance, inspection, charging, storage, and disposal of the rechargeable, vented/valve-regulated lead-acid or nickel-cadmium (Ni-Cd) battery, Model 1715BAD1, used in specific naval aircraft (e.g., MH-60R, F/A-18E/F, or E-2D support systems – verify per local MIM ).
Note: As this manual is an official US Navy publication, authorized access is generally required for the most current version. Always consult the official NAVAIR technical data management system to ensure you are using the latest revision. , such as those utilized in flight deck
: Overview of the battery's application in naval aircraft, importance, and the systems they support.
Protocols to mitigate risks such as explosions from by-product gas, exposure to toxic electrolytes, and over-temperature conditions. Key Technical Specifications