The e2000-Patchcord
The e2000-patchcord is terminated with an E2000 fiber optic connector on both ends and is used in high-speed data communication networks. Its metal shutter covers the connector’s inserted optical fiber for dust and laser beam protection.
It is available in simplex and duplex with 9/125 single mode or 50/125 multimode fibers. Other configurations and lengths are available upon request.
Duplex Configuration
This fiber patch cord has two connectors on each end and can be used in half duplex or full duplex data transmission. This arrangement is commonly used in telecommunication networks and data centers. The duplex configuration is easy to install and provides a more reliable communication link as it can handle a higher bandwidth capacity than simplex. Its high quality components, strict testing and fully tracked manufacturing processes ensure the network operates safely and smoothly.
This e2000-patchcord has a standard E2000 FO (Flexible Optical Connector) on both ends, compliant with the European EN 186270 and International IEC 61754-15 standards. The connector features an automatic metal shutter that protects the pin from dust and laser beam safety and ensures all optical functional parts are protected. The connectors have a push-pull latching mechanism that clicks when fully inserted and is easy to terminate. The cable is also low smoke and free of halogen and available in lengths from 1m to 10m.
The e2000-patchcord has an optical fiber with a 2.5mm ceramic ferrule and a 0.5mm optical core diameter. It has an insertion loss of 0.01 dB and return loss of 0.02 dB. It is used in telecommunications, CATV and patch field applications. The e2000-patchcord is a great choice for connecting network devices such e2000-patchcord as switches and routers. It is an ideal option for FTTH networks, CATV networks and telecommunications infrastructure.
APC (Angled Physical Contact) Polish
Optical fiber patch cords connect optical transceivers and patch panels to facilitate data transfer over high-speed networks. These cables are available in multi-mode and single-mode varieties, enabling users to establish highly-efficient connections that are free of bandwidth limitations.
The e2000-patchcord is constructed from top-quality components, including durable multi-mode or single-mode glass fibers and high-quality connectors from industry-leading brands such as Domaille and Reichle & De-Massari. The high-quality components enable the cable to have a low signal loss and a high return-loss, which minimizes data degradation over long distances. The cord is also clad in flame-resistant LSZH sheathing, which prevents the development of smoke and eliminates the release of halogens in the event of a fire.
e2000-patchcords are available with LC, SC, ST, FC, and MTRJ connectors in simplex or duplex configurations. The connectors feature different types of polishes to meet specific network requirements. For example, LC connectors with APC polish have an angled endface that reduces reflected light and improves the return-loss attenuation of the optical connection.
OM3 E2000 Fiber Patch Cords are identified by their turquoise or aqua sheathing and have a core size of 50 micrometers (um). They can support 10 Gigabit data transmissions up to 300 meters, and 40/100 Gigabit transmissions up to 100 meters, making them suitable for most applications. They are commonly used with 850nm VCSEL light sources.
Push-Pull Latching Mechanism
The e2000 patchcord features a dual-pole 2.5mm ceramic ferrule that mates with two cylindrical pins inside the connector housing to align and connect optical fibers. It is used in high-speed data communication networks and telecommunications applications. The push-pull latching mechanism makes the connection easy and secure. The spring valve and push-pull locking devices protect the pins from dust and other contaminants, reducing the chance of disconnection and damage to the fiber optic cables.
This sc-e2000 patchcord is available in a variety of lengths, including single-mode and multi-mode configurations. The SC (Subscriber Connector) connector type is a common choice in datacom and telecom fiber optic applications. The connector has a shutter cover that prevents unwanted light from entering the cable end and is designed to be used with SM and MM single-mode and multimode cables. It is a great choice for FTTH (fiber to the home) networks, cable television (CATV), and other high-speed communication systems.
The SC fiber optic patchcords are 100% tested and certified to ensure quality and performance. The connectors have an automatic metal shutter that closes when the cord is disconnected, protecting it from dust and debris and preventing laser beams from damaging the connector ferrule. The shutter also keeps out harmful electromagnetic interference (EMI) and reduces the risk of laser radiation exposure to the user.
Dust Cap
The E2000 FO connector features a spring-loaded shutter that protects the ferrule from scratches and dust thoroughly. Once the connector is disengaged, Internet of things the shutter closes and packs the end face tightly, protecting against possible damage from dust or laser beams. This helps to ensure that the ferrule remains clean and contaminant-free, which in turn contributes to better performance and durability.
With an exceptional return loss and a high precision zirconia ceramic ferrule, this SMF patch cord is designed for superior performance in various optical communication setups. This includes FTTH connections, LANs, optical fiber sensors, and more. The push-pull latching mechanism adheres to EN 186270 and IEC 61754-15 standards, providing reliable, secure connections.
The e2000-patchcord is available in simplex or duplex configuration, and supports either 9/125 single mode or 50/125 multimode fibers. It is also compatible with LC or SC APC connectors, and comes in a range of lengths from 0.5 meters to 10 meters. This allows for versatile, customizable cable assemblies. It meets Telstra Specification 1557 Part 2 Issue 6, and provides high-performance data transmission for high-speed applications.