Eaton EZ6362CDRD EZLink receptacle - NEMA 5-20R, 125V
Part Number: EZ6362CDRD
Quick Summary
Eaton EZ6362CDRD EZLink decorator receptacle delivers modular, controlled 20A power for ready outlets in commercial and industrial environments. A common challenge is wiring multiple outlets with consistent control and compliance across evolving codes. Its cULus Listed status with NOM and Federal Specification W-C-596G helps simplify certification processes, while the dual-controlled design supports safety and energy management. Designed for modular deployment, it integrates with Eaton EZLink devices to reduce installation time and change-order risk, while the red color provides quick identification for critical circuits.
Product Information
Extended Description
EZ6362CDRD Eaton: Eaton EZLink modular decorator receptacle, 20 A, 125 Vac, 60 Hz, dual controlled, NEMA 5-20R, three-wire, red
Product Name
Eaton EZLink modular decorator receptacle
Catalog Number
EZ6362CDRD
UPC
032664012266
Product Length/Depth
1.91 in
Product Height
4.4 in
Product Width
1.75 in
Product Weight
0.2 lb
Certifications
cULus Listed NOM Federal Specification Classification W-C-596G
Amperage Rating
20A
Voltage rating
125 Vac
Number of wires
3
Color
Red
Feature: 20A, 125V rating with NEMA 5-20R and three-wire configuration → Business Impact: Fits standard commercial/industrial circuits with reliable, code-compliant power delivery → Application: Use in control panels and workstation outlets to streamline wiring and reduce panel depth. Feature: Dual-controlled operation → Business Impact: Enables independent control of outlets for safety interlocks and energy management → Application: Ideal for machines with separate control zones or safety circuits. Feature: EZLink modular decorator design → Business Impact: Reduces installation time and space, enabling quick upgrades or expansions → Application: Perfect for modular device integrations in evolving automation layouts. Feature: Certifications including cULus Listed, NOM, and Federal Specification W-C-596G → Business Impact: Simplifies regulatory compliance and reduces project risk → Application: Required in regulated facilities and new builds seeking robust approvals. Feature: Compact footprint and color coding (red) → Business Impact: Saves panel space and improves circuit identification during maintenance → Application: Panels with limited depth and high-visibility safety requirements benefit most.
Get a Quick Quote for a Eaton EZ6362CDRD
Chat with us on WhatsApp - fast responses guaranteed
Need to speak with someone? We'll call you back within 2 hours during business hours
Interested in Eaton EZ6362CDRD?
Enquire Now
FAQs
The EZ6362CDRD is designed to fit standard electrical panels and integrates with Eaton EZLink modular devices. It uses a 20A, 125V, 3-wire configuration with a NEMA 5-20R footprint, making it compatible with common service outlets and modular wiring schemes in commercial and industrial environments.
Key specs include a 20A amperage rating, 125V voltage rating, 60 Hz frequency, and a 3-wire configuration. The dual-controlled design supports independent circuit control, while cULus listing and NOM compliance enhance safety and reliability in regulated facilities.
Ideal for control panels, machine kiosks, and workstations within manufacturing, packaging, and distribution environments. Its modular EZLink design helps optimize space, streamline upgrades, and ensure consistent power control across automation layouts with high visibility for safety-critical circuits.
The receptacle is cULus Listed with NOM and Federal Specification W-C-596G. These certifications confirm adherence to American and international safety standards, facilitating code compliance, reducing inspection risk, and enabling quicker project approvals for regulated facilities.
The modular decorator design reduces wiring complexity and installation time, while dual-controlled outlets provide opportunities for energy management and safety interlocks. Over the product life, these features lower maintenance costs and minimize change-order impact in dynamic automation systems.