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High Stability 50GHz DWDM Device

High stability 50GHz DWDM equipment has the advantages of high isolation, low insertion loss and high stability. It is suitable for a variety of different optical network applications, including optical transmission, data center, enterprise network and carrier network and other fields. In optical networks, high-stability 50GHz DWDM equipment can multiplex multiple optical signals of different wavelengths into the same optical fiber, thereby improving network bandwidth utilization and transmission efficiency.

  • Product Introduction

High stability 50GHz DWDM equipment has the advantages of high isolation, low insertion loss and high stability. It is suitable for a variety of different optical network applications, including optical transmission, data center, enterprise network and carrier network and other fields. In optical networks, high-stability 50GHz DWDM equipment can multiplex multiple optical signals of different wavelengths into the same optical fiber, thereby improving network bandwidth utilization and transmission efficiency.

 

High-stability 50GHz DWDM equipment is an optical device using Dense Wavelength Division Multiplexing (DWDM) technology, which is used to realize functions such as signal multiplexing, demultiplexing and distribution in optical networks. 50GHz means that the interval between each optical channel in the device is 50GHz, which means that multiple optical signals of different wavelengths can be transmitted on the same optical fiber, achieving higher frequency utilization and greater network bandwidth.

 

High stability 50GHz DWDM equipment usually consists of multiple optical devices, such as wavelength division multiplexers, optical amplifiers, optical filters and optical monitors, etc. These devices can work together to realize multiplexing, demultiplexing and distribution of optical signals and other functions. High Stability The stability and reliability of 50GHz DWDM equipment is very important, because they usually work in a long-time, high-load operating environment, and need to maintain high-quality optical signal transmission and stable performance.

 

Product Features

 

1. High stability: The device adopts high-quality optical components and advanced DWDM technology, which has high stability and reliability, and can maintain stable performance in a long-term and high-load operating environment.


2. High channel spacing: The channel spacing of the device is 50GHz, which can achieve higher frequency utilization and larger network bandwidth, and is suitable for various optical network applications, including optical transmission, data center, enterprise network and operation business network etc.


3. High isolation: The device has high isolation, which can effectively separate and protect optical signals and avoid interference and loss of optical signals.


4. Low insertion loss: The device has very low insertion loss, which can maintain the transmission quality and performance of optical signals while reducing energy consumption and operating costs.


5. Multiple fiber connection methods: The device supports many different fiber connection methods, such as SC/APC, LC/APC, FC/APC, etc., which can meet the needs and application scenarios of different users.


6. Unique package design: The device adopts a unique package design, which can effectively resist the influence of harsh environments and ensure the stability and reliability of the device in various working environments.


7. Simple and easy-to-use operation interface: The device has a simple and easy-to-use operation interface, which can facilitate the installation, configuration and management of the device, improving the work efficiency and convenience of users.

 

Product Image

 

Product pictures of high stability 50GHz DWDM equipment

Actual picture of 50GHz DWDM equipment

 

Product Applications

 

1. Optical transmission: High-stability 50GHz DWDM equipment can be used for long-distance optical transmission, and can multiplex multiple optical signals of different wavelengths into the same optical fiber, thereby improving network bandwidth utilization and transmission efficiency.


2. Data center: High stability 50GHz DWDM equipment can be used in the optical network of the data center, which can realize high-speed, stable and reliable data transmission and multiplexing, and improve the performance and scalability of the data center.


3. Enterprise network: High stability 50GHz DWDM equipment can be used for optical transmission and data distribution of enterprise network, which can improve the bandwidth utilization and transmission efficiency of enterprise network, and reduce network delay and transmission cost.


4. Carrier network: High-stability 50GHz DWDM equipment can be used for optical transmission and data distribution of carrier networks, which can improve network bandwidth utilization and transmission efficiency, reduce network delay and transmission costs, and meet the needs of different users and application scenarios. need.


5. Scientific research experiments: High stability 50GHz DWDM equipment can be used in scientific research experiments, which can realize the multiplexing and distribution of multiple optical signals of different wavelengths, thereby improving the efficiency and accuracy of experiments.

 

Product Parameters

 

Channel Spacing 50 GHz Number of Channels 40
Operating wavelength range 1528.77 nm - 1563.86 nm Bandwidth > 100 GHz
Insertion Loss < 3.5 dB Adjacent channel isolation > 25 dB
Non-adjacent channel isolation > 30 dB Optical SNR > 40 dB

 

Instructions For Use

 

1. Confirm that you are using high-stability 50GHz DWDM equipment, and check whether the equipment is intact.


2. Connect the optical signal to be multiplexed to the input port (IN) of the device through the optical fiber, and ensure that the optical fiber is connected correctly.


3. Use the device configuration software or the web interface to configure the device, including the settings of parameters such as wavelength, channel, and power.


4. Connect the optical signal to be multiplexed to the output port (OUT) of the device through the optical fiber, and ensure that the optical fiber is connected correctly.


5. Start the device and initialize it to ensure that the device works normally.


6. Use the equipment monitoring software or web interface to monitor and adjust the equipment in real time to ensure the stability and reliability of the equipment.


7. Regularly maintain and maintain the equipment, including cleaning, calibration and other operations, to ensure the stability and performance of the equipment.

 

Terms Of Use

 

1. When connecting the optical fiber, please avoid excessive bending of the optical fiber, so as not to affect the transmission quality and performance of the optical signal.


2. When using the device, please avoid too high or too low optical power, so as not to affect the stability and reliability of the device.


3. When operating the device, please observe the relevant anti-static measures to avoid the influence of static electricity on the device.


4. Please avoid using the device in harsh environments such as humidity, high temperature, and low temperature, so as not to affect the stability and reliability of the device.


5. Please avoid collision or vibration between the equipment and other mechanical equipment, so as not to affect the performance and reliability of the equipment.


6. Please use the equipment reasonably, avoid overload operation or long-term continuous use, so as to prolong the service life of the equipment.


7. Please maintain and maintain the equipment regularly, including cleaning and calibration, to ensure the stability and performance of the equipment.

 

Customer Comments

The CTO of California Optical Communications Company commented:

Mary Johnson appreciated this high stability 50GHz DWDM equipment very much. Mary said that the device has the characteristics of high stability, high transmission capacity and high work efficiency, and the cost is very favorable. The high cost performance greatly meets the communication needs of her company.

Axel Schmidt, an engineer at Network Equipment Manufacturing Company in Hamburg, Germany, said,

This high stability 50GHz DWDM equipment is a communication equipment with advanced technology and complete functions. He believes that the advantages of this device are high speed, high density, and high reliability, and it is an indispensable device for large computer rooms and high-load operators.

A technical expert from Sydney Fiber Optic Company in Australia commented:

David Lee is also full of praise for this 50GHz DWDM equipment. He said that the equipment performed very well in terms of efficient, fast and stable data transmission, and the advantages of high reliability were also outstanding, which was very competitive for his company.

Eguchi, a senior administrator in Tokyo, Japan, commented:

The 50GHz DWDM equipment made a high evaluation. He believes that this device is one of the most cost-effective and superior-performance devices on the market, with good stability and high performance, and has achieved relatively significant praise in industrial applications.

The CFO of a telecommunications company in London commented:

After inspecting the device, Sarah Williams highly praised its performance and IT network architecture. She said that the device has very high reliability and stability, can work stably and bear huge network traffic load pressure, and can meet the communication needs of different companies and organizations.

 

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