Red C-Band Splitter Card - Blue Low Loss Splitter Card
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Price:
Negotiable
- minimum:
- Total supply:
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Delivery term:
The date of payment from buyers deliver within days
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seat:
Guangdong
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Validity to:
Long-term effective
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Last update:
2023-11-01 07:57
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Browse the number:
156
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- Contactaixin:
yichenggtx(Mr.)
- Email: telephone: phone:
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Arrea:
Guangdong
Address:Blog D, ZhiXuanHan Yuanling Industrial Park, Shiyan Street, Bao'an District, Shenzhen City, Guangdong Province, China
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Website:
http://www.gracy-fiber.com/ http://yichenggtx.cnhuifute.com/
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The C-band splitter card is a high-performance optical communication device, mainly used for splitting the optical signal of the C-band (1530-1565nm). The splitter card uses high-precision optical components, which can achieve low insertion loss, high wavelength accuracy and low crosstalk performance, and has high stability and reliability. It is an excellent optical communication device.
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C-band splitter card is mainly used in optical network, data center, cable TV, wireless communication, laser radar and other fields. It can realize efficient splitting of optical signals, improve data transmission efficiency and capacity, and improve communication efficiency and quality. Improve the accuracy and speed of radar detection. C-band splitter cards have various specifications and configurations, which can be selected and customized according to actual needs. We provide a full range of technical support and after-sales service to ensure that customers can obtain high-quality products and satisfactory service experience.
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1. High precision: The C-band splitter card uses high-precision optical components, which can achieve high wavelength precision and low insertion loss, ensuring high-quality transmission of optical signals.
2. Low crosstalk: The C-band splitter card has the characteristics of low crosstalk, which can effectively avoid mutual interference between optical signals and improve communication quality.
3. Multi-channel: The C-band splitter card supports multi-channel, which can realize efficient splitting of optical signals and improve data transmission efficiency and capacity.
4. High stability: The C-band splitter card has high stability and can maintain stable performance under different environments and conditions, ensuring high reliability and stability of the communication system.
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1. Optical network: C-band splitter cards can be used for splitting optical signals in optical networks, improving data transmission efficiency and capacity, and supporting high-speed data transmission.
2. Data center: C-band splitter cards can be used in optical communication systems in data centers to achieve efficient data transmission and distribution and improve data processing efficiency.
3. Cable TV: C-band splitter cards can be used in optical communication systems in cable TV to achieve high-quality video transmission and distribution and improve user experience.
4. Wireless communication: C-band splitter cards can be used in optical communication systems in wireless communication to improve communication efficiency and quality, and support high-speed data transmission and communication.
5. Lidar: The C-band splitter card can be used in the optical communication system of Lidar to improve the accuracy and speed of radar detection, and can be used in aviation, ocean, geological exploration and other fields.
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Working wavelength | 1528.77nm ~ 1562.23nm | Insertion Loss | < 0.8dB |
Split Ratio | 1:2, 1:4, 1:8, 1:16, 1:32, 1:64 | Return Loss | > 50dB |
Adjacent channel isolation | > 30dB | Working temperature | -40℃ ~ +85℃ |
Non-adjacent channel isolation | > 40dB | Interface Type | FC/PC, SC/PC, LC/PC, ST/PC |
Can withstand power | 300mW | Â | Â |
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1. First, it is necessary to determine the purpose and location of the C-band splitter card according to the actual application scenario and requirements.
2. Next, you need to confirm the optical connection method and interface type of the C-band splitter card, and select the appropriate optical fiber and optical equipment for connection.
3. Install the C-band splitter card in a suitable location to ensure its stability and safety.
4. Connect the optical fiber to the input and output ports of the C-band splitter card to ensure a stable and reliable connection.
5. After completing the optical connection, perform a test to ensure that the performance and functionality of the C-band breakout card meets the requirements.
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1. Avoid mechanical damage: When using the C-band splitter card, it is necessary to avoid mechanical damage, collision and falling, so as not to affect its performance and function.
2. Avoid optical pollution: The optical components of the C-band splitter card are very precise, so optical pollution needs to be avoided, and regular cleaning and maintenance should be carried out to ensure that they are clean and dry.
3. Avoid temperature changes: C-band splitter cards are sensitive to temperature changes, and sudden temperature changes need to be avoided, so as not to affect its performance and stability.
4. Avoid strong light exposure: The optical components of the C-band splitter card need to avoid strong light exposure, so as not to affect its performance and life.
5. Avoid reverse insertion: When connecting optical fibers, avoid reverse insertion to ensure that the optical path is connected correctly, so as not to affect its performance and function.
6. Avoid electrostatic interference: Before using the C-band splitter card, you need to pay attention to anti-static measures to avoid electrostatic interference, so as not to affect its performance and stability.
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Emily Johnson, an optical communications engineer in New York, commented:
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