HARTING is a renowned German company specializing in the development and manufacture of electrical and electronic connectors, device terminations, backplanes, network components, and cable harnesses. With a history dating back to 1945, HARTING has established itself as a global leader in providing connectivity solutions for various industries, including automation, transportation, telecommunications, and energy. The company's commitment to innovation and quality has resulted in a wide range of reliable and high-performance products that support the efficient and seamless transmission of data, signals, and power. HARTING's dedication to sustainability and technological advancement has solidified its position as a trusted partner for businesses seeking state-of-the-art connectivity solutions tailored to their specific needs.
Discrete fiber optic receivers are specialized photodiodes housed in adaptive enclosures, specifically designed to receive optical signals transmitted over fiber optic cables. Unlike integrated solutions, these receivers do not incorporate drive circuitry, focusing solely on the reception of optical signals.
The key distinguishing factors for discrete fiber optic receivers include their data rate, receivable power range, voltage supply requirements, and current consumption specifications. These parameters are critical in determining the receiver's compatibility with specific optical signal characteristics and the overall system design.
Adaptive enclosures used for discrete fiber optic receivers are designed to accommodate various connector types, ensuring compatibility with different fiber optic cable interfaces. Common connector types supported by these adaptive housings include FC, PC, SC, SMA, ST, TOSLINK, Versatile link, as well as connector-less solutions, providing versatility and flexibility in deployment.
By offering a range of options for data rate, receivable power, and connector compatibility, discrete fiber optic receivers cater to diverse application scenarios and system configurations. Their focused functionality and adaptability make them essential components in fiber optic communication systems, enabling reliable and efficient reception of optical signals while facilitating seamless integration within complex network environments.