II-VI is a leading global provider of engineered materials and optoelectronic components. With a strong focus on innovation, II-VI designs and manufactures a wide range of products for various industries including telecommunications, aerospace, defense, and industrial markets. The company's portfolio includes optical components, laser systems, semiconductor materials, and thermal management solutions. II-VI's optical components are used in fiber optic communications networks, while its laser systems find applications in materials processing, medical, and scientific research fields. As a trusted supplier, II-VI collaborates with customers to develop customized solutions that meet their specific requirements. With a commitment to quality and technological advancement, II-VI continues to drive progress in the fields of optics and photonics, contributing to the development of cutting-edge technologies and enabling a variety of applications across multiple industries.
About Fiber Optic Transmitters - Drive Circuitry Integrated
Fiber optic transmitters with integrated drive circuitry are advanced components used to inject signals into fiber optic cables. These transmitters combine a light source, such as an LED or laser, with signal conditioning electronics, which include the necessary circuitry for driving the light source and ensuring proper signal transmission. These transmitters find widespread applications in various fields, including digital audio, DVI (Digital Visual Interface), Ethernet, HDMI (High-Definition Multimedia Interface), telecommunications, and general data transfer. They enable high-speed and reliable transmission of digital signals over fiber optic networks. One of the key differentiating factors for fiber optic transmitters is the transmission wavelength. Different wavelengths are utilized based on the specific application and network requirements. Common transmission wavelengths include 850 nm, 1310 nm, and 1550 nm, among others. The choice of wavelength depends on factors such as transmission distance, available fiber optic infrastructure, and compatibility with receiving devices. Another important parameter for differentiating fiber optic transmitters is the data rate, which is typically expressed in bits per second (bps). The data rate represents the speed at which digital information is transmitted through the fiber optic cable. Higher data rates allow for faster and more efficient data transfer. Common data rates supported by these transmitters range from Mbps (megabits per second) to Gbps (gigabits per second) and even higher speeds for advanced applications. By utilizing fiber optic transmitters with integrated drive circuitry, users can ensure accurate and reliable transmission of digital signals over fiber optic cables. These transmitters, with their light sources and signal conditioning electronics, provide the necessary functionality for various applications. The selection of the appropriate transmitter based on transmission wavelength and data rate allows for seamless integration within the network infrastructure and efficient data transfer.