CAT6A 180° Punchdown/Toolless Keystone Jack
The CAT6A 180° Punchdown/Toolless Keystone Jack is designed for shielded Ethernet cables, supporting 10GBASE-T applications up to 295 ft at 550 MHz. It features a convenient toolless punchdown design for easy installation and supports PoE++ (802.3bt) 4PPoE up to 100W, ideal for high-power networking devices. Certified by UL, CE, FCC, and RoHS-2, it meets ANSI/TIA 568 2.D standards, ensuring reliable performance in demanding environments.
Constructed with a durable nickel-plated zinc alloy housing, this keystone jack is built for strength and fire safety compliance with UL94V-0 standards. It is compatible with solid conductors ranging from 22 to 26 AWG and has a cable jacket diameter of 4.60 - 9.00 mm. The jack includes 100 µ inch nickel-plated IDC terminals over phosphor bronze, designed to withstand over 2000 insertion cycles. Engineered for optimal electrical performance, it boasts low contact resistance, high insulation resistance, and strong dielectric strength, making it a robust choice for modern networking applications.
CAT6A 180° Punchdown/Toolless Keystone Jack
The CAT6A 180° Punchdown/Toolless Keystone Jack is designed for shielded Ethernet cables, supporting 10GBASE-T applications up to 295 ft at 550 MHz. It features a convenient toolless punchdown design for easy installation and supports PoE++ (802.3bt) 4PPoE up to 100W, ideal for high-power networking devices. Certified by UL, CE, FCC, and RoHS-2, it meets ANSI/TIA 568 2.D standards, ensuring reliable performance in demanding environments.
Constructed with a durable nickel-plated zinc alloy housing, this keystone jack is built for strength and fire safety compliance with UL94V-0 standards. It is compatible with solid conductors ranging from 22 to 26 AWG and has a cable jacket diameter of 4.60 - 9.00 mm. The jack includes 100 µ inch nickel-plated IDC terminals over phosphor bronze, designed to withstand over 2000 insertion cycles. Engineered for optimal electrical performance, it boasts low contact resistance, high insulation resistance, and strong dielectric strength, making it a robust choice for modern networking applications.