DS21Q354B+ is a state-of-the-art device used for end-to-end transmission solutions. It uses an advanced multi-channel QAM modulation technique to send and receive data signals over fiber. Whether used as part of an end-to-end telecom solution, or for data link redundancy, the DS21Q354B+ offers the highest performance needed for today\'s telecom applications.
The DS21Q354B+ offers a wide range of features and options, making it suitable for any telecom application. It can be used as a point-to-point solution, in a network configuration, or as part of a larger, multi-channel solution. With the DS21Q354B+, it is easy to transmit data over distances of up to 20km and beyond, over both single mode and multimode fiber.
The DS21Q354B+\'s versatility is thanks to its advanced QAM modulation technique, which is capable of carrying a maximum of 16 channels. Each channel has a symbol rate of up to 512Mbaud, which is enough to carry data signals over long distances. To ensure a reliable link, the DS21Q354B+ uses an advanced Reed Solomon FEC (forward error correction) system to correct and/or discard any transmission errors, thereby ensuring a reliable and consistent data link.
The DS21Q354B+ is designed to work with a range of different external systems and devices. It is compatible with SONET/SDH systems, which are commonly used in telecom applications. The DS21Q354B+ can also be used to help build a redundant data link, in case of a main link failure. It is even capable of supporting IP-Based networks, making it suitable for a variety of internet-based applications.
The DS21Q354B+ is an ideal choice for end-to-end telecommunication solutions. With its advanced QAM modulation technique, it is capable of supporting both short- and long-distance connections, and can be used with a variety of different systems and devices. Its advanced Reed Solomon FEC system ensures a reliable and consistent data link. Whether used for building a redundant data link or as part of an end-to-end telecom solution, the DS21Q354B+ is sure to offer the highest performance today\'s telecom applications demand.