75GHz 64-channel AAWG Mux Demux Module
Gracyfiber DWDM AAWG (heatless arrayed waveguide grating) module is a passive module based on PLC (planar waveguide) technology, which does not require additional power or temperature control; Compared with traditional TFF (thin film filter) products, AAWG has the advantages of high integration, good uniformity, low PMD and low insertion loss. Gracyfiber can provide a variety of channels, logistics methods and expansion ports for customers to choose. At present, it is widely used in long-distance signal transmission such as MAN, backbone network and data center
- Product Introduction
The 75GHz 64-channel AAWG Mux Demux Module is an optical device for multiplexing and demultiplexing of optical signals, that is, combining multiple optical signals into one optical fiber for transmission, or separating one optical signal into multiple optical signals to transfer. The module adopts AWG (Arrayed Waveguide Grating) technology, that is, arrayed waveguide grating technology, which is a key device for optical multiplexing (MUX) and demultiplexing (DEMUX), with high throughput, high precision, low insertion loss, High isolation and good stability and other advantages.
The module supports 64 channels with a channel spacing of 75GHz and a channel bandwidth of 0.1nm, which can meet the needs of large-capacity data transmission and improve network transmission efficiency. At the same time, the module adopts a compact design, supports hot-swappable, easy and convenient installation, and is compatible with different equipment and systems. It is an important optical device in the fields of data centers, communication networks, radio and television, etc.
Product Features
1. High-throughput: The module supports 64 channels, the channel interval is 75GHz, and the channel bandwidth is 0.1nm, which can meet the needs of large-capacity data transmission and improve network transmission efficiency.
2. High precision: the module adopts AAWG technology, which has excellent wavelength accuracy and stability, wavelength accuracy is less than 0.05nm, insertion loss is less than 3.5dB, ISOL is greater than 30dB, adjacent channel isolation is greater than 25dB, non-adjacent channel isolation The degree is greater than 40dB to ensure clear and stable signal transmission.
3. Ease of use: The module adopts a compact design, supports hot swapping, and is easy to install. It also supports multiple interface types and is compatible with different devices and systems.
4. Low insertion loss: The module uses high-quality materials and advanced technology, and the insertion loss is lower than 3.5dB to ensure signal transmission efficiency.
5. High isolation: the isolation of adjacent channels of the module is greater than 25dB, and the isolation of non-adjacent channels is greater than 40dB, which can effectively reduce crosstalk and interference of optical signals and ensure signal transmission quality.
6. High reliability: The module adopts high-quality materials and advanced technology, has good durability and anti-vibration performance, can run stably in harsh environments, and ensures the long-term stability and reliability of the equipment.
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Product Applications
1. Data center: With the rapid development of cloud computing, big data, artificial intelligence and other technologies, data centers have an increasing demand for high-speed, high-density, and high-reliability optical fiber transmission equipment. This module has the advantages of high throughput, high precision, low insertion loss, high isolation, etc. It is suitable for high-speed optical fiber networks in data centers and improves the transmission efficiency and stability of data centers.
2. Communication network: With the widespread application of 5G, Internet of Things, intelligent transportation and other technologies, the demand for optical fiber transmission equipment in communication networks is also increasing. This module has the advantages of high throughput, high precision, and high isolation. It is suitable for the MUX/DEMUX function of optical transmission equipment to improve the transmission rate and signal quality of the communication network.
3. Broadcast TV: With the development of high-definition TV, ultra-high-definition TV, 4K/8K video and other technologies, the demand for optical fiber transmission equipment in broadcast TV is also increasing. This module has the advantages of high throughput, high precision, low insertion loss, etc. It is suitable for the optical transmission system of broadcasting and television, and improves the transmission quality and stability of video signals.
Product Parameters
| Number of channels | 64 channels | Channel Spacing | 75GHz |
| Channel Bandwidth | 0.1nm | Input wavelength range | C band (1528.77nm-1563.86nm) |
| Insertion loss | ≤ 6.5dB | Output wavelength range | C band (1528.77nm-1563.86nm) |
| Isolation | ≥ 25dB | Adjacent channel crosstalk | ≤ -25dB |
| Non-adjacent channel crosstalk | ≤ -30dB | Wavelength Stability | ≤ 0.005nm |
| Relative Power Stability | ≤ 0.5dB | Operating temperature range | -5℃ ~ +70℃ |
Instructions For Use
1. Confirm the device connection: Before using the module, please ensure that the device is connected correctly, including connecting the optical fiber to the input port and output port of the module, and ensure that the connection is stable.
2. Confirm the wavelength: Before using the module, please confirm whether the wavelength range of the input signal is within the working range of the module to prevent signal loss or signal interference.
3. Set the channel: according to the need, set the number and interval of the channel to meet different transmission requirements. The module supports 64 channels with a channel spacing of 75GHz and a channel bandwidth of 0.1nm.
4. Connect the device: connect the input port to the optical signal source, connect the output port to the receiver or other devices, and make sure the connection is stable.
5. Monitor the signal: Use an optical power meter or other test equipment to monitor the power and quality of the transmitted signal to ensure the stability and quality of the signal transmission.
6. Adjust parameters: adjust the parameters of the module as needed to meet different transmission requirements. For example, channel spacing and channel bandwidth can be adjusted to accommodate different wavelength ranges and transmission distances.
Terms Of Use
1. Please check before installation: Before using the module, please check whether the module is intact and whether there are foreign objects or pollutants to ensure normal use. At the same time, pay attention to the installation direction and position to avoid affecting the transmission quality.
2. Pay attention to wavelength matching: before using this module, please confirm whether the wavelength range of the input signal is within the working range of the module to prevent signal loss or signal interference. If multiple modules are cascaded, attention should also be paid to the wavelength matching of each module.
3. Avoid excessive power: When using this module, please pay attention to the power range of the input signal to avoid damage to the device caused by excessive power. If you need to use higher power, please use a power splitter or other auxiliary equipment for power control.
4. Pay attention to the fiber connection: before using the module, please make sure the fiber connection is correct, including connecting the fiber to the input port and output port of the module, and make sure the connection is stable. When connecting fiber optics, avoid bending, stretching, or twisting them to prevent light loss or signal interference.
5. Avoid vibration and shock: When using this module, please avoid vibration and shock to prevent equipment damage or signal interference. During installation and use, please handle with care and avoid collision or vibration.
6. Pay attention to the ambient temperature: When using this module, please pay attention to the change of the ambient temperature to avoid damage to the equipment caused by excessively high or low temperatures. At the same time, pay attention to ventilation and heat dissipation to ensure the normal operation and stability of the equipment.
Customer Comments
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