: Verifies the gland can withstand axial pull-out forces without damaging the cable structure.
| Component | Meaning (plausible interpretation) | |-----------|-------------------------------------| | | Directorate of General Supplies (or Digital Guidance System) | | EED | Electro-Explosive Device – a component that uses an electrical signal to trigger a pyrotechnic or explosive charge | | VI | Visual Inspection (or Version Interface, depending on context) | | 1535 | Document / part number – possibly referencing MIL-STD-1535 (an obsolete standard for ordnance compatibility) | | R6 | Revision 6 – indicating the sixth major iteration of the specification |
The maritime defense industry frequently cross-references technical standards to guarantee global interoperability. DGS/EED/VI/1535/R6 is typically grouped with the following frameworks: Related Standard Technical Scope Operational Overlap with R6 Naval Engineering Standard (UK) Governs general cable gland design for naval surface ships. BS EN 62444 British & European Standard dgs eed vi 1535 r6
: Ensuring watertight cable termination into motor starter enclosures and localized control gear.
Achieving certification or fulfilling an open tender referencing DGS/EED/VI/1535/R6 demands meticulous tracking and documentation: : Verifies the gland can withstand axial pull-out
: Refers to the originating defense specifications and the Directorate of Electrical Engineering , the authoritative naval board managing shipboard electrical systems.
: The "R6" suffix indicates this is the 6th Revision of the standard, reflecting updated requirements for modern naval electrical systems. Usage in Documentation BS EN 62444 British & European Standard :
The legislation serves three primary functions:
Helo Starting/Servicing Systems Spec | PDF | Rectifier - Scribd
Equipment following this standard typically must adhere to several critical marine-grade criteria: