25dB SMF Waveguide Grating AWG Array Single Mode Fiber For Transceiver

The core principle of the 4ch AWG is based on arrayed waveguide grating (AWG) technology. It uses a precisely designed waveguide array to achieve wavelength multiplexing and demultiplexing of optical signals. When an optical signal containing multiple wavelengths is input, the AWG utilizes phase differences and interference effects between waveguides to precisely separate the different wavelengths into their corresponding output channels. This physical isolation mechanism ensures pure signal transmission and avoids crosstalk between wavelengths. By optimizing the waveguide design, the 4ch AWG further improves isolation accuracy and transmission efficiency, providing a reliable wavelength management solution for optical communication systems.

The 4-channel AWG offers exceptional wavelength control capabilities, enabling precise management of optical signal wavelength allocation. By optimizing the waveguide array design, the 4-channel AWG achieves highly accurate wavelength positioning, ensuring stable and consistent transmission of signals of different wavelengths. This precise wavelength control not only improves the transmission efficiency of optical communication systems but also reduces signal distortion and bit error rates, providing reliable support for high-speed data transmission.

The 4-channel AWG is designed specifically for high-traffic applications like data centers, providing efficient optical network solutions. Its multi-channel design supports transmission rates up to 100Gbps, bringing total system bandwidth to over 400Gbps, meeting the high-speed, high-bandwidth needs of data centers. By processing multiple wavelengths in parallel, the 4-channel AWG effectively alleviates network congestion and improves data transmission efficiency and stability. Furthermore, its low power consumption and high reliability make it an ideal choice for data center optical networks, providing strong support for their sustainable development.