Fiber Optic Transmitters - Discrete

Discrete fiber optic transmitters are components specifically designed to inject a signal into a fiber optic cable. These transmitters consist of a light source, typically an LED (Light Emitting Diode) or laser, and an adaptive housing that provides compatibility with different connector types. The light source within a discrete fiber optic transmitter plays a crucial role in generating the optical signal that will be transmitted through the fiber optic cable. LEDs are commonly used as light sources in lower-speed applications, while lasers are preferred for higher-speed and long-distance transmissions. The light source is characterized by several specifications, including wavelength, spectral bandwidth, forward voltage, forward current, and DC reverse voltage. These specifications determine the performance and compatibility of the transmitter with the fiber optic network. The adaptive housing of a discrete fiber optic transmitter is designed to accommodate various connector types, providing flexibility in integration with different cables and interfaces. Common connector types supported by these transmitters include FC, PC, SC, SMA, ST, TOSLINK, Versatile link, and connector-less solutions. The selection of the appropriate connector type depends on the specific requirements of the network and the compatibility with existing fiber optic infrastructure. By utilizing discrete fiber optic transmitters, network operators can inject signals into fiber optic cables for data transmission. These devices, with their light sources and adaptive housings, enable the efficient and reliable transmission of data over fiber optic networks. The choice of the light source and connector type ensures compatibility and optimal performance within the network infrastructure.