The 1x32 Fiber Optical Splitter Module SC/APC for Corning OptiTect cabinet (Part number: 1700094316) from Corning is a type with a SC /APC connector and 1x32 configuration. Fiber optic splitters are passive component that split the fiber and its signal. The signal is sent along of fiber and when it reached a fiber optic splitter, the signal is divided into two or more signals.
SC FO Connector is a type of fiber optic connector that uses a 2.5mm ceramic ferrule to align and connect optical fibers. Used in high-speed data communication networks. Provides low insertion loss and high return loss. The connector is easy to install and provides a secure, reliable connection for both single-mode and multimode fiber optic cables. Its locking mechanism ensures a stable connection and the push-pull design makes it easy to connect and disconnect. The SC connector is commonly used in data centers, telecommunication rooms, and other high-density fiber optic installations.
APC (Angled Physical Contact) FO Polish Connector Type 1 is a fiber optic connector that uses an angled endface to achieve low back reflection and insertion loss. It features a 1.25mm ceramic ferrule and is commonly used in telecommunications and data networking applications where low back reflection is critical. The APC connector offers high precision and reliability, making it suitable for use in single-mode fiber networks. However, the angled endface of the APC connector requires special polishing techniques, making it more expensive than other connector types.
Single mode fiber uses a LASER light source, is a type of optical fiber with a small core diameter that allows only one mode of light to propagate. It is used in telecommunications and data transmission systems to transmit signals over long distances with low attenuation and high bandwidth. Single mode fiber is ideal for high-speed and long-distance applications, such as internet backbone networks, cable television networks, and fiber-to-the-home (FTTH) services. Its narrow core reduces the dispersion of light, allowing signals to travel further and faster than with multimode fiber.