ICC IC107GATYL CAT6A RJ45 Keystone Jack
IC107GATYL | H2-107GATYL
Please sign in to view pricing and availability and to add to cart.
Product Overview
The CAT6A 10Gig UTP modular jacks provide transmission performance beyond 500MHz and Alien Crosstalk requirements exceeding the industry standards set by ANSI/TIA-568-C.2 for supporting the operation of 10Gig Ethernet applications (10GBASE-T). It is designed with a shielded termination cap which minimizes additional AXT from neighboring connectors. It also features twisted pair separation posts which minimize the untwisting of pairs to allow for efficient installation and long-term peak performance. The modular jacks are also backward compatible supporting current CAT6, CAT5e, and voice network applications.
Main Features
- CAT6A Rated connectors provide excellent performance for data networks requiring maximum speed and bandwidth
- Supports Power over Ethernet (PoE ) Type 4, up to 100W
- PCB technology provides maximum performance and superior signal quality
- Enhanced crosstalk cancellation reduces return loss and improves performance by rejecting noise and unwanted signals
- Designed with rear 110 IDC reducing termination time
- Includes an integrated TIA-568A/B color wiring diagram
- Reduced rear footprint allows for greater connectivity density
- Provide more port configurations in a smaller area
- Compatible with ICC CAT6A blank patch panels IC107PPU6A
- High-density jacks with compatible Decorex style inserts and classic faceplates
General Information
Specifications
ADI Part Number H2-107GATYL Brand Name ICC Manufacturer Part Number IC107GATYL Packaged Quantity 10 Product Name CAT6A RJ45 Keystone Jack for HD Style Product Type Network Connector
Cable Type Category 6a Contact Plating Gold, Nickel Shielding Yes
Connector Type RJ45 Female Number of Contacts 10
Color Yellow
Country of Origin TW Features Designed with rear 110 IDC reducing termination time, Includes an integrated TIA-568A/B color wiring diagram, Provide more port configurations in a smaller area, Reduced rear footprint allows for greater connectivity density