Server room network patch cords are optimized for reliability and ease of maintenance in environments housing critical IT infrastructure. These cables connect servers, switches, and patch panels, ensuring uninterrupted data flow. Typically adhering to Cat6 or Cat6A standards, they support frequencies up to 500 MHz and enable 10 Gigabit Ethernet (10GBase-T) over distances of up to 100 meters. Their construction includes twisted-pair copper conductors to reduce EMI and crosstalk, ensuring stab
Server room network patch cords are optimized for reliability and ease of maintenance in environments housing critical IT infrastructure. These cables connect servers, switches, and patch panels, ensuring uninterrupted data flow. Typically adhering to Cat6 or Cat6A standards, they support frequencies up to 500 MHz and enable 10 Gigabit Ethernet (10GBase-T) over distances of up to 100 meters. Their construction includes twisted-pair copper conductors to reduce EMI and crosstalk, ensuring stab
Mid-bandwidth network patch cords are designed to balance performance and cost, making them ideal for small to medium-sized networks where high-speed data transfer is necessary but not at the expense of budget. Typically falling under categories like Cat5e or Cat6, these cables support frequencies up to 100–250 MHz, enabling reliable 1 Gigabit Ethernet (1GBase-T) and, in some cases, 2.5 Gigabit Ethernet (2.5GBase-T) over distances of up to 100 meters. Their versatility makes them suitable fo
Mid-bandwidth network patch cords are designed to balance performance and cost, making them ideal for small to medium-sized networks where high-speed data transfer is necessary but not at the expense of budget. Typically falling under categories like Cat5e or Cat6, these cables support frequencies up to 100–250 MHz, enabling reliable 1 Gigabit Ethernet (1GBase-T) and, in some cases, 2.5 Gigabit Ethernet (2.5GBase-T) over distances of up to 100 meters. Their versatility makes them suitable fo
A 250MHz FTP (Foiled Twisted Pair) network patch cord is engineered for environments where moderate bandwidth and enhanced shielding are required. Operating at frequencies up to 250 MHz, these cables support 2.5 Gigabit Ethernet (2.5GBase-T) and are backward compatible with 1GBase-T networks. The "FTP" designation indicates that each twisted pair is wrapped in a metal foil shield, which significantly reduces crosstalk and EMI, making them ideal for industrial settings, server rooms, or areas
A 250MHz FTP (Foiled Twisted Pair) network patch cord is engineered for environments where moderate bandwidth and enhanced shielding are required. Operating at frequencies up to 250 MHz, these cables support 2.5 Gigabit Ethernet (2.5GBase-T) and are backward compatible with 1GBase-T networks. The "FTP" designation indicates that each twisted pair is wrapped in a metal foil shield, which significantly reduces crosstalk and EMI, making them ideal for industrial settings, server rooms, or areas
A 500MHz STP (Shielded Twisted Pair) network patch cord is designed for high-performance networking, supporting frequencies up to 500 MHz and enabling 10 Gigabit Ethernet (10GBase-T) over distances of up to 100 meters. The "STP" designation refers to the overall braided shield that surrounds the twisted pairs, providing robust protection against EMI and crosstalk. This makes them ideal for data centers, financial institutions, and enterprise networks where uninterrupted data flow is critical
A 500MHz STP (Shielded Twisted Pair) network patch cord is designed for high-performance networking, supporting frequencies up to 500 MHz and enabling 10 Gigabit Ethernet (10GBase-T) over distances of up to 100 meters. The "STP" designation refers to the overall braided shield that surrounds the twisted pairs, providing robust protection against EMI and crosstalk. This makes them ideal for data centers, financial institutions, and enterprise networks where uninterrupted data flow is critical
A wide-bandwidth network patch cord is engineered to support the highest frequencies and data rates available in copper cabling, making it ideal for cutting-edge networking applications. These cables, typically classified as Cat8 or higher, operate at frequencies up to 2000 MHz and enable 25 or 40 Gigabit Ethernet (25GBase-T/40GBase-T) over short distances (up to 30 meters). Their ultra-high performance makes them suitable for data centers, high-performance computing, and financial trading f
A wide-bandwidth network patch cord is engineered to support the highest frequencies and data rates available in copper cabling, making it ideal for cutting-edge networking applications. These cables, typically classified as Cat8 or higher, operate at frequencies up to 2000 MHz and enable 25 or 40 Gigabit Ethernet (25GBase-T/40GBase-T) over short distances (up to 30 meters). Their ultra-high performance makes them suitable for data centers, high-performance computing, and financial trading f
Shielded Cat6 network patch cords combine the performance of the Cat6 standard with enhanced electromagnetic interference (EMI) protection, making them a versatile choice for medium to large businesses, data centers, and environments with moderate to high interference. The Cat6 standard supports 10 Gigabit Ethernet (10 Gbps) over short distances (up to 55 meters) and Gigabit Ethernet (1 Gbps) over 100 meters, with stricter specifications for crosstalk and signal loss than Cat5e. The shieldin
Shielded Cat6 network patch cords combine the performance of the Cat6 standard with enhanced electromagnetic interference (EMI) protection, making them a versatile choice for medium to large businesses, data centers, and environments with moderate to high interference. The Cat6 standard supports 10 Gigabit Ethernet (10 Gbps) over short distances (up to 55 meters) and Gigabit Ethernet (1 Gbps) over 100 meters, with stricter specifications for crosstalk and signal loss than Cat5e. The shieldin
Unshielded Cat5e network patch cords are one of the most widely used Ethernet cabling solutions, offering a cost-effective balance of performance and compatibility for residential, small business, and non-critical enterprise applications. The “enhanced” designation (Cat5e) builds on the original Cat5 standard, improving crosstalk reduction and signal integrity to support Gigabit Ethernet (1 Gbps) over distances up to 100 meters—double the 500 Mbps limit of Cat5. As an unshielded cord, Cat5e
Unshielded Cat5e network patch cords are one of the most widely used Ethernet cabling solutions, offering a cost-effective balance of performance and compatibility for residential, small business, and non-critical enterprise applications. The “enhanced” designation (Cat5e) builds on the original Cat5 standard, improving crosstalk reduction and signal integrity to support Gigabit Ethernet (1 Gbps) over distances up to 100 meters—double the 500 Mbps limit of Cat5. As an unshielded cord, Cat5e
Shielded Cat8 network patch cords represent the cutting-edge of Ethernet cabling, combining robust shielding with the high-performance Cat8 standard to support ultra-fast data transmission in demanding environments. The Cat8 standard, defined by IEEE, is designed for 25/40 Gigabit Ethernet (25GBASE-T/40GBASE-T) over distances up to 30 meters, making it ideal for high-density data centers and enterprise networks where speed and signal integrity are paramount. What sets shielded Cat8 cords apa
Shielded Cat8 network patch cords represent the cutting-edge of Ethernet cabling, combining robust shielding with the high-performance Cat8 standard to support ultra-fast data transmission in demanding environments. The Cat8 standard, defined by IEEE, is designed for 25/40 Gigabit Ethernet (25GBASE-T/40GBASE-T) over distances up to 30 meters, making it ideal for high-density data centers and enterprise networks where speed and signal integrity are paramount. What sets shielded Cat8 cords apa
SSTP network patch cords—also known as “Double-Shielded Twisted Pair”—offer the highest level of EMI protection among common patch cord types, featuring a dual-shield design: an inner foil shield around each individual twisted wire pair, plus an outer braided shield around the entire bundle of pairs. This dual-layer shielding creates a “double barrier” against EMI, blocking even the strongest external interference and eliminating almost all internal crosstalk or signal leakage. The structur
SSTP network patch cords—also known as “Double-Shielded Twisted Pair”—offer the highest level of EMI protection among common patch cord types, featuring a dual-shield design: an inner foil shield around each individual twisted wire pair, plus an outer braided shield around the entire bundle of pairs. This dual-layer shielding creates a “double barrier” against EMI, blocking even the strongest external interference and eliminating almost all internal crosstalk or signal leakage. The structur