ZTE GTGH (Version K) is an advanced GPON board with 16 ports, providing robust connectivity in high-performance optical networks. This board, seamlessly compatible with OLT terminals C320 and C300, is engineered to deliver reliable and efficient GPON access services.
Product Features:
ZTE 16-port GPON interface board equipped with advanced C++ modules.
Specifications:
Port Configuration: The board boasts a versatile array of 16 ports, providing flexibility and scalability in network deployment.
Wavelengths: With a Tx wavelength of 1490 nm and Rx wavelength of 1310 nm, the GTGH board ensures optimal signal transmission and reception.
Transmission Throughput: Each port supports impressive transmission rates, with Tx at 2,488 Gb/s and Rx at 1,244 Gb/s, ensuring high-speed data transfer.
Optical Power Management: The board is designed with precise control over optical power, featuring a minimum transmit power of 4.5 dBm and a maximum transmit power of 8 dBm.
Receive Sensitivity: The GTGH board exhibits excellent sensitivity with a maximum receive sensitivity of -32 dBm, ensuring efficient reception of optical signals.
Connector Type: Equipped with SC/UPC connectors in the module, the GTGH board ensures reliable and standardized fiber optic connectivity.
Fiber Compatibility: Designed for single-mode fiber optics, the board supports optimal signal transmission over extended distances.
Optical Power Overload Protection: With a tolerance for optical power overload up to -12 dBm, the board ensures robust performance in various network conditions.
Extinction Ratio: Featuring an extinction ratio of 8.2 dB, the board maintains signal integrity, minimizing signal degradation for enhanced network reliability.
Compact Design: Weighing 1 kg and with dimensions of 22.86 x 237 x 395.4 mm, the GTGH board offers a compact form factor, facilitating easy integration into existing network infrastructure.
ZTE GTGH (Version K) stands out as a reliable and feature-rich GPON board, catering to the evolving demands of high-speed optical communication networks