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2023-07-09 14:14
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Company Profile
Shenzhen Gracyfiber Technology Co., LtdBy certification [File Integrity]
Contact:yichenggtx(Mr.)
Email:
Telephone:
Phone:
Area:Guangdong
Address:Guangdong
Website:http://www.gracy-fiber.com/ http://yichenggtx.tjtaibao.com/
CWDM multiplexing transponder is a high-performance optical fiber communication equipment, which can be used in data centers, enterprise networks, telecommunications, radio and television and other fields. The device uses CWDM technology for signal multiplexing and forwarding, and can multiplex optical signals of different wavelengths onto one optical fiber to improve the transmission efficiency and bandwidth utilization of optical fiber communication.
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The CWDM multiplexing transponder has a variety of optional channels, and can support multiple configurations such as 4 channels, 8 channels, 16 channels, and 18 channels to meet the needs of different users. At the same time, the device also has the advantages of high transmission rate, low insertion loss, high signal-to-noise ratio, high stability and reliability, etc., and can meet the needs of users for high-speed, high-capacity, and high-stability optical fiber communication equipment.
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The CWDM multiplexing transponder also adopts advanced optical and electronic technologies, which can amplify, compensate and repair optical signals to improve the transmission quality and distance of optical fiber communication. At the same time, the device also supports a variety of management methods, including SNMP, WEB, CLI and TELNET, etc., which is convenient for users to remotely manage and control the device.
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1. Multi-channel support: CWDM multiplexing transponder supports a variety of optional channels, such as 4 channels, 8 channels, 16 channels, 18 channels, etc., to meet the needs of different applications.
2. High-speed transmission: CWDM multiplexing transponder supports high-speed transmission, and can transmit optical signals of different rates such as 2.5Gbps, 10Gbps, 40Gbps, etc., to meet the needs of users for high-speed transmission.
3. Low insertion loss: CWDM multiplexing transponder adopts advanced optical technology and precise manufacturing process, and has the characteristics of low insertion loss, which can effectively reduce the energy loss during signal transmission and improve the transmission quality of optical fiber communication.
4. High signal-to-noise ratio: CWDM multiplexing transponder adopts high-quality optical components and electronic components, which has the characteristics of high signal-to-noise ratio, which can improve the reliability and stability of signal transmission.
5. Flexible application: CWDM multiplexing transponders can be flexibly applied in data centers, enterprise networks, telecommunications, radio and television and other fields to meet the needs of different application scenarios.
6. Remote management: CWDM multiplexing transponder supports multiple management methods, including SNMP, WEB, CLI and TELNET, etc., which is convenient for users to remotely manage and control the equipment.
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1. Data center: CWDM multiplexing transponder can be used for optical fiber communication in data center. It can multiplex the optical signals of multiple data center equipment to one optical fiber, improve bandwidth utilization, reduce communication cost, and meet the high-speed requirements of data center. , High-capacity, high-stability optical fiber communication requirements.
2. Enterprise network: CWDM multiplexing transponders can be used for optical fiber communication in enterprise networks, and can multiplex optical signals from multiple offices, branches, etc. onto one optical fiber, improve network bandwidth utilization, reduce communication costs, and meet Enterprises require high-speed, high-capacity, and high-stability optical fiber communications.
3. Telecommunication: CWDM multiplexing transponder can be used for optical fiber communication of telecommunication, which can multiplex the optical signals of multiple telecommunication equipment to one optical fiber, improve the transmission efficiency and bandwidth utilization of the communication network, and meet the needs of telecommunication operators. Demand for high-speed, high-capacity, and high-stability optical fiber communications.
4. Radio and television transmission: CWDM multiplexing transponders can be used for optical fiber communication in radio and television transmission. It can multiplex the optical signals of multiple radio and television equipment onto one optical fiber, improve transmission efficiency and bandwidth utilization, and meet the requirements of high-speed and high-speed radio and television transmission. High capacity and high stability optical fiber communication requirements.
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Number of channels | 2, 4, 8, 16, 18, 20, 40, 80 | Insertion Loss | ≤ 5 dB |
Wavelength Range | 1270 nm ~ 1610 nm | Bandwidth | 20 nm |
Speed | 10 Gbps, 40 Gbps, 100 Gbps | Working temperature | 0 ℃ ~ 70 ℃ |
Working Humidity | 5% ~ 90% RH | Power supply voltage | AC 100 V ~ 240 V, 50/60 Hz |
Dimensions | 19-inch, 1U | Â | Â |
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1. Preparation: Place the CWDM multiplexing transponder in a well-ventilated, dry, and dust-free environment, and check whether the device is damaged or deformed. At the same time, before connecting the device to other devices, please confirm whether the parameters such as the number of channels, wavelength range, and rate of the device match those of other devices.
2. Connecting equipment: Connect the CWDM multiplexing transponder to the equipment that needs to multiplex and transmit optical signals, such as optical fiber transceivers, routers, switches, etc., and connect the equipment according to the connection method of the equipment to ensure stable and reliable connection.
3. Configuration parameters: Configure the parameters of the CWDM multiplexing transponder according to actual needs, including the number of channels, wavelength range, rate, etc. It can be configured through WEB management interface, CLI command line interface or SNMP protocol.
4. Start the device: After the configuration is complete, start the CWDM multiplexing transponder to check whether the device is running normally. You can check the running status of the device through the device's LED indicator or WEB management interface.
5. Monitoring equipment: In order to ensure the normal operation of the CWDM multiplexing transponder, it is necessary to regularly monitor the operating status of the equipment. Various parameters of the device, such as temperature, voltage, optical power, etc., can be monitored through the WEB management interface or SNMP protocol.
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1. Optical fiber connection: The CWDM multiplexing transponder needs to be connected with other devices through optical fiber, so it is necessary to pay attention to factors such as the interface type of the optical fiber, the length of the optical fiber, and the quality of the optical fiber to ensure a stable and reliable connection.
2. Power connection: The CWDM multiplexing transponder needs to be connected to the power supply to work, so it is necessary to pay attention to the stability of the power supply and the voltage of the power supply to avoid the equipment not working properly or being damaged due to power supply problems.
3. Environmental requirements: CWDM multiplexing transponders need to be placed in a well-ventilated, dry, and dust-free environment to prevent the equipment from being affected by moisture and dust. At the same time, parameters such as the operating temperature and humidity of the equipment also need to be within a reasonable range to avoid equipment failure or damage due to environmental problems.
4. Configuration parameters: The CWDM multiplexing transponder needs to configure the number of channels, wavelength range, rate and other parameters according to the actual needs, so it is necessary to pay attention to the correctness and rationality of the configuration parameters to avoid the device not working properly or transmitting data errors due to configuration problems .
5. Maintenance: CWDM multiplexing transponders need to regularly check the operating status and various parameters of the equipment, such as temperature, voltage, optical power, etc., and deal with equipment abnormalities in time to ensure the normal operation and stability of the equipment.
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Zhang Wei, a network architect in Ghana, commented:
Alejandro Fernandez, Systems Engineer in Mexico, commented:
Irish network engineer Liam O'Connor commented:
Swedish system administrator Sofia Andersson commented:
Japanese communications engineer Hiroshi Tanaka commented:
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