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OTQDD-40X31-DR4
400G Optical Transceiver

OTQDD-40X31-DR4

The Optoray 400G Optical Transceiver series comprises high-performance, hot-pluggable form factor 400G transceiver products, including OSFP SR4, OSFP DR4 ,QSFP112 SR4 , QSFP112 DR4 , QSFP-DD DR4 and QSFP-DD SR8. Designed for high-speed optical networking applications. Ideal for data center 400G Ethernet, they operate in a high-temperature range with low power consumption.

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Huangshan Optoray Communication Corp., Ltd.

FORGING AHEAD,
LINK FIBER TO FUTURE!

Optoray is China OTQDD-40X31-DR4 Optical Transceiver Suppliers. We are professional high-tech enterprise that is engaged in OTQDD-40X31-DR4 Optical Transceiver Modules and sub-assembly device research and development, production, and sales; Founded in Huangshan economic development zone, Anhui province in 2007 while the R&D center is in Shenzhen! the phase covers 10,000 square meters. Optoray is a Professional production OTQDD-40X31-DR4 Transceiver Company that has a full series of optical transceiver modules and sub-assembly devices from 1Gbps to 400Gbps, which application covers Datacom, Telecom, Video surveillance, and FTTX... And so on. Thanks to our outstanding value in " performance, quality, price, and service" we own many valued customers in China and Overseas such as North America, Korea, India, and Vietnam! Currently, we already own dozens of related patents and have passed ISO9001:2015 quality system certification and FCC, CE, and RoHS test certification.

Huangshan Optoray Communication Corp., Ltd.
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  • 2022 ISO9001 Certification
  • Occupational Health&Safety Management System Certification
  • Environmental Management System Certification
  • CE Certification Certificate
  • CE-EMC
  • CE-EMC
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400G Optical Transceiver Industry knowledge

What specific innovations have 400G optical transceiver suppliers made in signal processing algorithms?


With the rapid development of data communication technology, 400G optical modules, as a new generation of high-speed communication modules, are gradually becoming the new favorite of the market. In this rapidly developing field, optical module suppliers are faced with multiple challenges such as how to optimize signal quality and reduce transmission costs while ensuring transmission rates. As one of the key technologies to improve the performance of optical modules, signal processing algorithms are receiving attention and investment from more and more suppliers.
Traditional optical modules mostly use relatively simple algorithms for signal processing. However, with the advent of the 400G era, traditional algorithms can no longer meet the requirements of high speed, large capacity, and low bit error rate. Therefore, 400G optical module suppliers have made many innovations in signal processing algorithms.
In terms of signal encoding, traditional NRZ (non-return to zero) encoding technology can no longer meet the transmission rate requirements of 400G optical modules. Therefore, many vendors began to try to adopt PAM4 (four-level pulse amplitude modulation) encoding technology. PAM4 technology doubles the rate by increasing the signal levels to 4, each level carrying 2 bits of data information. This encoding method not only improves the transmission speed, but also reduces the bit error rate to a certain extent and improves the signal quality.
In order to further improve the stability and reliability of signal transmission, 400G optical transceiver suppliers have introduced a variety of optimization technologies into signal processing algorithms. For example, by using an adaptive filtering algorithm, the optical module can automatically adjust the filter parameters according to changes in the real-time transmission environment, thereby effectively suppressing signal noise. The application of this algorithm not only improves the anti-interference ability of the signal, but also reduces the maintenance cost of the system.
In order to achieve real-time monitoring and prediction of signal transmission status, some advanced 400G optical transceiver suppliers have also introduced neural network algorithms. By training the neural network model, the optical module can realize intelligent identification and prediction of signal transmission status, thereby discovering and dealing with potential problems in a timely manner. This intelligent signal processing method not only improves the stability of the system, but also reduces the probability of failure.
In addition to the above algorithm innovations, 400G optical transceiver suppliers have also conducted in-depth research and technological innovation in signal preprocessing, signal equalization, signal synchronization and other aspects. The application of these innovative technologies not only improves the performance indicators of optical modules, but also provides more stable and reliable transmission guarantees in complex and changeable network environments.
For 400G optical transceiver suppliers, innovation in signal processing algorithms does not happen overnight. As technology continues to advance and the market changes, they also need to continue to invest in research and development and constantly explore new algorithms and technologies to meet future communication needs of higher speed, larger capacity, and lower bit error rates.

When building high-speed networks, what 400G optical modules do 400G optical module manufacturers provide to meet different needs?


With the rapid development of the digital era, high-speed networks have become key infrastructure supporting the stable operation of all walks of life. When building high-speed networks, 400G optical modules are a new generation of high-speed communication modules, and their performance and application scope directly determine the transmission capacity and efficiency of the network. In order to meet the needs of different industries and scenarios, 400G optical module manufacturers provide various types of 400G optical modules.
In response to the needs of data centers, 400G optical module manufacturers provide high-density 400G optical modules. This type of module uses advanced packaging technology to achieve higher port density in a limited space, thereby meeting the needs of large-scale deployment and efficient management of data centers. At the same time, they also have the characteristics of low power consumption and high reliability, ensuring that the data center remains stable and efficient during long-term operation.
In response to the needs of metropolitan area networks and backbone networks, 400G optical module manufacturers provide 400G optical modules for long-distance transmission. This type of module uses special modulation and coding technology to maintain signal stability and clarity during long-distance transmission and reduce signal attenuation and noise interference. This makes them suitable for long-distance communication scenarios across metropolitan areas and countries, providing strong support for building efficient and stable global communication networks.
For some special scenarios, such as submarine optical cables, aerospace, etc., 400G optical module manufacturers also provide customized solutions. These modules not only have excellent transmission performance, but can also adapt to extreme environmental conditions, such as high pressure, high temperature, high humidity, etc. This enables them to operate stably in complex and changeable environments and meet the communication needs of special industries.
In addition to the above types of 400G optical modules, manufacturers also provide modules with a variety of interfaces and packaging forms to meet the compatibility needs of different devices and systems. For example, some modules adopt standard SFP or QSFP packaging and can be easily inserted into various network devices; while some modules provide customized interfaces and protocols to achieve seamless connection with specific devices.