Indicated by low voltage despite long charge times.
Cross-reference the index numbers to ensure your specific battery model number matches the active manual supplement.
| Feature | 1715BAD1 | Commercial VRLA (e.g., UB121000) | | :--- | :--- | :--- | | Vibration tolerance | MIL-STD-810H (15g RMS) | 4g RMS | | Salt-fog resistance | 500 hours | 96 hours | | Temperature range | -30°C to 70°C | -20°C to 50°C | | Certification | NAVAIR / Navy Type 2 | None (UL optional) |
: Use of the Ampere Hour Meter to determine battery health. A fully charged "tapered" battery should reflect approximately 110–140% of its rated capacity if it was initially empty. navair 1715bad1 battery manual
The manual outlines exact periodic inspection intervals and servicing workflows to maximize battery lifespan and reliability. Inspection Intervals
: Information on how to charge the batteries properly, types of charging (e.g., float charging, rapid charging), and procedures for conducting capacity tests to assess battery health.
Warning: Do not confuse the 1715BAD1 with commercial battery manuals. Civilian documents (e.g., from Duracell or Energizer) do not meet NAVAIR’s vibration, humidity, or salt-fog corrosion standards. Indicated by low voltage despite long charge times
By adhering to the manual’s inspection schedules, charging curves, and disposal rules, maintenance crews extend battery life from an average of 18 months to over 48 months. Moreover, compliance ensures that when an aviation safety inspector asks for documentation, you can produce the signed logs mandated by OPNAV 4790.2.
For authorized personnel, the manual is accessible through:
: Defines procedures for organizational and intermediate maintenance levels. 2. Critical Maintenance Procedures Warning: Do not confuse the 1715BAD1 with commercial
: Most batteries listed consist of 19 or 20 vented, rectangular cells housed in similar containers.
The technical manual is titled Operation and Service Instructions with Illustrated Parts Breakdown - Naval Aircraft and Support Equipment Storage Batteries
Handling aircraft batteries involves risks related to sulfuric acid, high voltage, and fire/explosive hazards. The manual mandates compliance with safety standards.
While the full manual is a controlled document not available for public download, cross-references from other publications provide insight into its core content, which is organized to guide users through the entire operational spectrum.