Precision Engineered Z Block ISO9001 Dwdm Mux

The Z-Block high-speed optical module utilizes an integrated package structure, integrating the optical transmit/receive unit, driver circuitry, and heat dissipation system into a standard SFP+ form factor. Its innovative hermetic sealing technology ensures stable performance even in extreme environments. Test data shows that after 5000 hours of continuous operation at 85°C and 90% humidity, performance degradation is less than 0.5dB. Its modular, hot-swappable design supports live module replacement. Its intelligent diagnostic system provides real-time monitoring of key parameters such as optical power, temperature, and bias current, extending maintenance cycles from three months for traditional modules to over 18 months. In large-scale data center deployments, this design reduces annual maintenance costs by 65%.

Utilizing a patented waveguide structure and anti-reflection coating technology, the Z-Block optical module achieves an insertion loss of as low as 0.8dB at a 1310nm wavelength, a 40% reduction compared to the industry standard. Its unique adaptive equalization algorithm dynamically compensates for chromatic and polarization mode dispersion in the transmission link, achieving a bit error rate of less than 10-12 at 10Gbps. Tests show that the module achieves a receiver sensitivity of -24dBm over 40km of standard single-mode fiber transmission, ensuring stable signal quality even over long distances. This design is particularly well-suited for applications with stringent data integrity requirements, such as financial trading systems.

The Z-Block optical module supports dual protocols, including 100Gbps Ethernet and 32Gbps Fibre Channel. Its innovative four-channel parallel optical architecture quadruples the bandwidth density of a single module. By utilizing a 7nm DSP chip and directly modulated laser technology, the module's power consumption is kept below 3.5W, a 30% reduction compared to traditional solutions. In actual data center deployments, the module can achieve 400Gbps of aggregate bandwidth, supporting petabyte-level data synchronization across AI training clusters. Its nanosecond latency (<500ns) perfectly meets the requirements of time-sensitive applications such as high-frequency trading and real-time video processing.