Snagless RJ45 Stranded 550MHz UTP CMR Riser Rated Pure Bare Copper Wire 28AWG SlimRun Series Orange Monoprice Cat6 Ethernet Patch Cable 30 feet
Monoprice Cat6 Ethernet Patch Cable - 30 feet - Orange | Snagless RJ45 Stranded 550MHz UTP CMR Riser Rated Pure Bare Copper Wire 28AWG - SlimRun Series: Computers & Accessories. Buy Monoprice Cat6 Ethernet Patch Cable - 30 feet - Orange | Snagless RJ45 Stranded 550MHz UTP CMR Riser Rated Pure Bare Copper Wire 28AWG - SlimRun Series: Cat 6 Cables - ✓ FREE DELIVERY possible on eligible purchases. SLIMRUN CAT6 DESIGN: SlimRun Cat6 is much thinner and lighter than standard Cat6 cables. The 0.149-inch diameter, 28AWG flexible cable and snagless narrow boot design is easier to install/uninstall and takes less space than conventional 23 or 24 AWG Cat6 cables. . Buy with Confidence: With Monoprice's Lifetime Warranty on all Cables, you can rest assured we stand behind our products and our customers . SUPERIOR PERFORMANCE: SlimRun Cat6 patch cables are component tested, providing superior performance in 1 to 10 Gigabit applications. SlimRun is the perfect solution for high-performance applications, such as data centers and telecommunications rooms. . HIGH DENSITY ENVIRONMENTS - SAVE SPACE, SAVE MONEY: At half the size of standard Cat6 patch cables (0.149" v 0.29"), SlimRun Cat6 helps reduce congestion in high-density environments, such as data centers and telecommunications rooms. With SlimRun Cat6, you can fit more cables in the same space, saving you the time and cost of expanding or replacing cable pathways. . 0.149 inches diameter | Reduces congestion in high density spaces | Component-tested for optimized channel performance | Snagless narrow profile boot design . 's SLIMRUN CAT6 UTP ETHERNET PATCH CABLES are designed for high density environments where space is a premium. SlimRun's ultra-slim 0.149-inch diameter 28AWG cable and narrow boot design reduces congestion and simplifies moves, additions, and changes. SlimRun Cat6 is component tested, which provides a better level of performance over channel-rated patch cables. . . .