DWDM Wavelengths Chart
Introduction to DWDM Wavelengths
DWDM (Плотное мультиплексирование с разделением по длине волны) is a technique used in optical communication networks to increase the capacity of fiber optic cables. It allows multiple signals to be transmitted simultaneously over a single optical fiber by utilizing different wavelengths of light. В этой статье, we will explore the various wavelengths used in DWDM and their applications.
Understanding DWDM Wavelengths
DWDM systems operate in the C and L bands of the optical spectrum, covering wavelengths from approximately 1525nm to 1610nm. Within this range, individual wavelengths are assigned to different channels, each carrying a separate data signal. These channels are tightly spaced, typically with a spacing of 0.8nm or 100GHz.
DWDM Wavelength Grid
To ensure compatibility between different DWDM systems, a standardized wavelength grid has been established. This grid defines specific wavelengths that can be used for DWDM transmission. The most commonly used grid is the ITU-T (International Telecommunication Union – Telecommunication Standardization Sector) grid, which consists of 4 channels per channel spacing. The ITU-T grid spans from 1529nm to 1563nm.
ITU-T DWDM Wavelengths
The ITU-T grid assigns specific wavelengths to each channel. The most commonly used wavelengths within this grid are 1550.12nm, 1553.33нм, 1556.55нм, and 1559.77nm. These wavelengths have become industry standards and are widely used in DWDM networks. They offer excellent performance, низкая потеря сигнала, and high data transmission rates.
Applications of DWDM Wavelengths
DWDM wavelengths are utilized in a variety of applications, including long-haul communication links, metro networks, data center interconnects, and submarine cables. The ability to transmit multiple signals over a single fiber greatly increases the capacity and efficiency of these networks. By using different wavelengths, DWDM systems can support high-speed data, голос, and video transmission simultaneously.
Заключение
DWDM wavelengths play a crucial role in increasing the capacity of optical communication networks. With the use of various wavelengths and the standardized ITU-T grid, multiple signals can be transmitted simultaneously, enabling high-speed data transmission across long distances. Understanding the different wavelengths used in DWDM is essential for network engineers and telecommunication professionals.
References:
1. Cisco Systems. \”Плотное мультиплексирование с разделением по длине волны (DWDM) Fundamentals.\” Сиско.
2. Т. К. Bose. \”Плотное мультиплексирование с разделением по длине волны: A Practical Guide.\” Wiley-IEEE Press.
