The FC-LC single-mode network patch cord (6 meters) is a high-precision fiber-optic solution designed for demanding environments where secure, low-loss connections and single-mode’s long-distance performance are critical. The 6-meter length is well-suited for mid-range setups—such as linking an FC-equipped industrial sensor to an LC-enabled router in a factory, or connecting a single-mode telecom transceiver to a patch panel in a utility closet—where devices are spaced farther apart but stil
The FC-LC single-mode network patch cord (6 meters) is a high-precision fiber-optic solution designed for demanding environments where secure, low-loss connections and single-mode’s long-distance performance are critical. The 6-meter length is well-suited for mid-range setups—such as linking an FC-equipped industrial sensor to an LC-enabled router in a factory, or connecting a single-mode telecom transceiver to a patch panel in a utility closet—where devices are spaced farther apart but stil
The SC-LC multi-mode network patch cord (4 meters) is a versatile fiber-optic tool that connects SC-equipped devices to LC-enabled hardware while delivering the short-distance, high-bandwidth performance of multi-mode fiber. The 4-meter length strikes a balance between flexibility and practicality—it is long enough to link devices across a data center rack (e.g., an SC-based patch panel to a LC-equipped top-of-rack switch) or between adjacent racks, yet short enough to avoid excessive cable
The SC-LC multi-mode network patch cord (4 meters) is a versatile fiber-optic tool that connects SC-equipped devices to LC-enabled hardware while delivering the short-distance, high-bandwidth performance of multi-mode fiber. The 4-meter length strikes a balance between flexibility and practicality—it is long enough to link devices across a data center rack (e.g., an SC-based patch panel to a LC-equipped top-of-rack switch) or between adjacent racks, yet short enough to avoid excessive cable
The LC-SC single-mode network patch cord (2 meters) is a specialized fiber-optic solution designed to bridge devices with different connector interfaces while delivering the long-distance performance of single-mode fiber. This 2-meter length makes it ideal for short-haul connections—such as linking a LC-equipped server to an SC-enabled switch in a data center rack, or connecting a single-mode transceiver to a patch panel in a telecom closet—where space is constrained and a compact, precise l
The LC-SC single-mode network patch cord (2 meters) is a specialized fiber-optic solution designed to bridge devices with different connector interfaces while delivering the long-distance performance of single-mode fiber. This 2-meter length makes it ideal for short-haul connections—such as linking a LC-equipped server to an SC-enabled switch in a data center rack, or connecting a single-mode transceiver to a patch panel in a telecom closet—where space is constrained and a compact, precise l
Outdoor armored network patch cords represent the most rugged category of outdoor patch cords, designed to withstand extreme physical abuse and harsh environmental conditions that would damage standard outdoor cords. The key distinguishing feature of these cords is their armored layer—typically a flexible metal sheath made of steel or aluminum—positioned between the outer jacket and the internal conductors (either copper or fiber). This armor provides exceptional protection against rodent da
Outdoor armored network patch cords represent the most rugged category of outdoor patch cords, designed to withstand extreme physical abuse and harsh environmental conditions that would damage standard outdoor cords. The key distinguishing feature of these cords is their armored layer—typically a flexible metal sheath made of steel or aluminum—positioned between the outer jacket and the internal conductors (either copper or fiber). This armor provides exceptional protection against rodent da
Outdoor copper network patch cords are widely used in outdoor Ethernet networks, leveraging copper conductors to transmit electrical signals efficiently for short to medium distances. These cords are designed to combine the cost-effectiveness of copper with the durability required for outdoor use, making them a popular choice for applications such as connecting outdoor IP cameras to NVRs (Network Video Recorders), linking outdoor wireless access points to PoE (Power over Ethernet) switches,
Outdoor copper network patch cords are widely used in outdoor Ethernet networks, leveraging copper conductors to transmit electrical signals efficiently for short to medium distances. These cords are designed to combine the cost-effectiveness of copper with the durability required for outdoor use, making them a popular choice for applications such as connecting outdoor IP cameras to NVRs (Network Video Recorders), linking outdoor wireless access points to PoE (Power over Ethernet) switches,
Outdoor fiber network patch cords, also known as outdoor fiber jumpers, are essential components in high-speed outdoor optical fiber networks, offering superior bandwidth and signal integrity compared to copper-based alternatives. These cords utilize optical fibers to transmit data via light signals, enabling them to cover much longer distances—often several kilometers—without significant signal attenuation, a key advantage for large-scale outdoor applications like campus networks, municipal
Outdoor fiber network patch cords, also known as outdoor fiber jumpers, are essential components in high-speed outdoor optical fiber networks, offering superior bandwidth and signal integrity compared to copper-based alternatives. These cords utilize optical fibers to transmit data via light signals, enabling them to cover much longer distances—often several kilometers—without significant signal attenuation, a key advantage for large-scale outdoor applications like campus networks, municipal
Outdoor network patch cords are specifically engineered to withstand the harsh conditions of external environments, distinguishing them from their indoor counterparts. Unlike indoor patch cords that prioritize flexibility and cost-effectiveness, outdoor versions integrate robust materials and protective features to resist factors such as UV radiation, temperature fluctuations, moisture, and physical abrasion. These cords serve as critical links in outdoor network setups, connecting devices l
Outdoor network patch cords are specifically engineered to withstand the harsh conditions of external environments, distinguishing them from their indoor counterparts. Unlike indoor patch cords that prioritize flexibility and cost-effectiveness, outdoor versions integrate robust materials and protective features to resist factors such as UV radiation, temperature fluctuations, moisture, and physical abrasion. These cords serve as critical links in outdoor network setups, connecting devices l
Data centers, as the core of modern information infrastructure, demand high-speed, stable, and reliable connectivity to handle massive data transmission. The 10G network patch cord tailored for data centers is designed to meet these stringent requirements. Unlike ordinary patch cords, it adopts high-quality conductive materials and advanced shielding technology to minimize signal interference and ensure the integrity of 10Gbps data transmission. In the dense cabinet environment of data cente
Data centers, as the core of modern information infrastructure, demand high-speed, stable, and reliable connectivity to handle massive data transmission. The 10G network patch cord tailored for data centers is designed to meet these stringent requirements. Unlike ordinary patch cords, it adopts high-quality conductive materials and advanced shielding technology to minimize signal interference and ensure the integrity of 10Gbps data transmission. In the dense cabinet environment of data cente
Servers are the workhorses of data processing and storage, and their connection to the network directly affects the efficiency of data exchange. The 10G network patch cord for server connection is specifically optimized to match the high-performance requirements of servers. It supports stable 10Gbps transmission speed, which can fully release the data processing capacity of servers, avoiding network bottlenecks that may occur when servers interact with other network devices. When multiple se
Servers are the workhorses of data processing and storage, and their connection to the network directly affects the efficiency of data exchange. The 10G network patch cord for server connection is specifically optimized to match the high-performance requirements of servers. It supports stable 10Gbps transmission speed, which can fully release the data processing capacity of servers, avoiding network bottlenecks that may occur when servers interact with other network devices. When multiple se