Lcie 13 Atex 3069 X ((better)) Instant
When engineering, procurement, and safety teams encounter this certificate on equipment nameplates, understanding how to unpack its alphanumeric string is paramount to safety, liability protection, and regulatory compliance. Anatomy of the Certificate Code
: It conforms to Directive 2014/34/EU , which is mandatory for equipment used in hazardous locations within the European Economic Area (EEA). Industrial Application and Reliability
– A special condition suffix. The “X” means the certificate includes specific conditions of use (e.g., restrictions on installation, maintenance, environment, or special instructions that must be followed to maintain safety).
: The unique sequential number for this specific certificate. lcie 13 atex 3069 x
LCIE - 13 - ATEX - 3069 - X | | | | | Notified Year Directive Certificate Specific Body of Issue Type Number Conditions 1. LCIE (The Notified Body)
: Requiring specialized, high-tensile fasteners (such as quality class 8.8 carbon steel or A4-80 stainless steel) to preserve flameproof paths under structural pressure.
: Equipment holding this certification is widely accepted in sectors such as oil and gas, chemical processing, and power generation due to its proven safety in explosive dust or gas environments. restrictions on installation
: The certificate number alone is insufficient. You must obtain the full certificate schedule that includes:
If the certificate includes “X – Special condition: Annual torque check on flameproof joints,” you must document every torque wrench reading.
This is the unique identifier assigned to this specific product or product family. It allows inspectors and safety officers to look up the specific documentation associated with the device to verify its authenticity and specifications. lcie 13 atex 3069 x
LCIE performs the following ATEX certification activities:
The "story" begins with the , a French certification body under Bureau Veritas. In 2013 , they evaluated a piece of lighting equipment designed for "potentially explosive atmospheres"—places where a single spark could cause a catastrophe.