The multi-mode fiber pigtail (3 meters, SC connector) is a flexible, mid-length fiber-optic component designed for terminating multi-mode networks in data centers, enterprise LANs, and short-haul connectivity setups. Like all pigtails, it has one terminated end (an SC connector) and one bare, unterminated fiber end—this allows it to be spliced to longer multi-mode cables, enabling connections between devices like transceivers, patch panels, or switches. The 3-meter length is well-suited for
The multi-mode fiber pigtail (3 meters, SC connector) is a flexible, mid-length fiber-optic component designed for terminating multi-mode networks in data centers, enterprise LANs, and short-haul connectivity setups. Like all pigtails, it has one terminated end (an SC connector) and one bare, unterminated fiber end—this allows it to be spliced to longer multi-mode cables, enabling connections between devices like transceivers, patch panels, or switches. The 3-meter length is well-suited for
The outdoor single-mode network patch cord is a ruggedized fiber-optic solution designed to withstand harsh external conditions while delivering single-mode’s signature long-distance performance. Unlike indoor patch cords, it features a weather-resistant construction that protects against rain, snow, UV radiation, temperature fluctuations, and physical damage—making it ideal for outdoor applications like connecting cell towers, linking building-to-building campus networks, or extending telec
The outdoor single-mode network patch cord is a ruggedized fiber-optic solution designed to withstand harsh external conditions while delivering single-mode’s signature long-distance performance. Unlike indoor patch cords, it features a weather-resistant construction that protects against rain, snow, UV radiation, temperature fluctuations, and physical damage—making it ideal for outdoor applications like connecting cell towers, linking building-to-building campus networks, or extending telec
The indoor multi-mode network patch cord is a versatile fiber-optic solution optimized for short-haul, high-bandwidth applications in controlled indoor settings like data centers, enterprise offices, schools, and healthcare facilities. Unlike outdoor cords, it prioritizes flexibility, compactness, and fire safety over weather resistance—making it ideal for connecting devices within a single building or enclosed space. This patch cord uses 50/125um or 62.5/125um multi-mode fiber, with 50/125
The indoor multi-mode network patch cord is a versatile fiber-optic solution optimized for short-haul, high-bandwidth applications in controlled indoor settings like data centers, enterprise offices, schools, and healthcare facilities. Unlike outdoor cords, it prioritizes flexibility, compactness, and fire safety over weather resistance—making it ideal for connecting devices within a single building or enclosed space. This patch cord uses 50/125um or 62.5/125um multi-mode fiber, with 50/125
The multi-mode network patch cord (50 meters) is a mid-length fiber-optic solution optimized for short-haul yet extended connections in data centers, enterprise offices, and large commercial buildings—where 10-20 meter cords are too short, but 100-meter single-mode cords are unnecessary or cost-prohibitive. This 50-meter length aligns with multi-mode’s sweet spot for high-speed performance: it supports 10 Gbps (up to 550 meters with OM4 fiber) and 40 Gbps (up to 150 meters with OM4), making it i
The multi-mode network patch cord (50 meters) is a mid-length fiber-optic solution optimized for short-haul yet extended connections in data centers, enterprise offices, and large commercial buildings—where 10-20 meter cords are too short, but 100-meter single-mode cords are unnecessary or cost-prohibitive. This 50-meter length aligns with multi-mode’s sweet spot for high-speed performance: it supports 10 Gbps (up to 550 meters with OM4 fiber) and 40 Gbps (up to 150 meters with OM4), making it i
The single-mode network patch cord (100 meters) is a specialized long-length solution designed to bridge large distances in enterprise campus networks, telecom backbones, and long-haul data links—where shorter cords would require costly splicing or repeaters. This 100-meter length aligns with single-mode’s maximum effective transmission distance for high-speed data (up to 100 km+ at lower speeds, but optimized for 100 meters here for consistent 10 Gbps/40 Gbps performance), making it ideal for c
The single-mode network patch cord (100 meters) is a specialized long-length solution designed to bridge large distances in enterprise campus networks, telecom backbones, and long-haul data links—where shorter cords would require costly splicing or repeaters. This 100-meter length aligns with single-mode’s maximum effective transmission distance for high-speed data (up to 100 km+ at lower speeds, but optimized for 100 meters here for consistent 10 Gbps/40 Gbps performance), making it ideal for c
The unarmored multi-mode network patch cord is a lightweight, flexible fiber-optic solution optimized for short-haul, high-bandwidth applications in low-risk indoor environments. Unlike armored cords, it lacks a rigid protective layer, relying instead on a durable yet pliable jacket to shield the fiber core—this design reduces weight, improves flexibility, and lowers costs, making it ideal for data centers, enterprise offices, schools, and healthcare facilities, where physical damage risks are m
The unarmored multi-mode network patch cord is a lightweight, flexible fiber-optic solution optimized for short-haul, high-bandwidth applications in low-risk indoor environments. Unlike armored cords, it lacks a rigid protective layer, relying instead on a durable yet pliable jacket to shield the fiber core—this design reduces weight, improves flexibility, and lowers costs, making it ideal for data centers, enterprise offices, schools, and healthcare facilities, where physical damage risks are m
The armored single-mode network patch cord is a heavy-duty fiber-optic solution designed to withstand extreme physical stress while delivering single-mode’s industry-leading long-distance performance. Unlike standard patch cords, it features a rigid armor layer—typically made of stainless steel or aluminum—wrapped around the fiber core and jacket. This armor acts as a barrier against crushing, cutting, rodent damage, and impact, making it ideal for high-risk environments like industrial faciliti
The armored single-mode network patch cord is a heavy-duty fiber-optic solution designed to withstand extreme physical stress while delivering single-mode’s industry-leading long-distance performance. Unlike standard patch cords, it features a rigid armor layer—typically made of stainless steel or aluminum—wrapped around the fiber core and jacket. This armor acts as a barrier against crushing, cutting, rodent damage, and impact, making it ideal for high-risk environments like industrial faciliti
The multi-mode fiber loopback patch cord (SC-SC) is a dedicated testing solution for verifying the functionality of multi-mode network devices, including transceivers, switches, SAN controllers, and video surveillance encoders—critical for ensuring seamless performance in short-haul high-bandwidth environments like data centers and enterprise LANs. Its unique design loops the multi-mode fiber signal back to the source (with SC connectors on both ends), allowing technicians to test a device’s
The multi-mode fiber loopback patch cord (SC-SC) is a dedicated testing solution for verifying the functionality of multi-mode network devices, including transceivers, switches, SAN controllers, and video surveillance encoders—critical for ensuring seamless performance in short-haul high-bandwidth environments like data centers and enterprise LANs. Its unique design loops the multi-mode fiber signal back to the source (with SC connectors on both ends), allowing technicians to test a device’s
The single-mode fiber loopback patch cord (LC-LC) is a specialized testing tool designed to verify the functionality of single-mode network devices, such as transceivers, switches, routers, and optical line terminals (OLTs). Unlike standard patch cords that connect two separate devices, a loopback cord has both ends terminated with the same connector (LC-LC here) and loops the fiber signal back to its source—this allows technicians to test if a device can transmit and receive signals correct
The single-mode fiber loopback patch cord (LC-LC) is a specialized testing tool designed to verify the functionality of single-mode network devices, such as transceivers, switches, routers, and optical line terminals (OLTs). Unlike standard patch cords that connect two separate devices, a loopback cord has both ends terminated with the same connector (LC-LC here) and loops the fiber signal back to its source—this allows technicians to test if a device can transmit and receive signals correct