Ultra High Density Rack Mounted TAP Monitoring Device 32CH / 64CH

Feature: Ultra-high density 32CH/64CH 1U rack architecture

Pain points solved/value: Achieves integration of up to 64 independent optical taps (TAPs) within a standard 19-inch 1U rack space (482 × 230 × 44 mm). This not only helps hyperscale data centers save extremely expensive U-space but also enables centralized and modular management of all network monitoring nodes, significantly reducing operational complexity.

Feature: Extremely rich fixed splitting ratios (5/95% to 50/50%) and ultra-low insertion loss

Pain points solved/value: With an ultra-low splitting ratio of 5/95%, the insertion loss of the single-mode 95% main link is as low as an astonishing 1.3 dB, and the multi-mode main link is as low as 1.5 dB. This allows network architects to seamlessly integrate with network packet brokers while reserving ample optical power for primary service links, completely eliminating concerns about link attenuation caused by monitoring.

Features: Native MTP®/MPO interface and full fiber readiness (SM & OM5 support)

Pain points addressed/value: Perfectly adapts to parallel optical transmission networks based on SR8, DR4, and DR8. Supports G67A1/A2/B3, SMF-28, and the latest generation OM5 multimode fiber, enabling plug-and-play compatibility with mainstream 400G/800G optical modules, completely eliminating redundant patch cord conversions.

Features: High isolation, high return loss (RL ≥ 50 dB) non-invasive design

Solved Pain Points/Value: The single-mode system provides up to ≥ 50 dB of return loss and directivity, completely blocking back reflections from damaging the highly sensitive coherent transceivers. The purely passive operating mechanism ensures zero single point of failure; even during a power outage in the data center, the main data flow remains uninterrupted.

Features: Superior optical power handling capabilities and industrial-grade wide-temperature operation

Solved Pain Points/Value: Easily handles high input optical power surges of 300 mW for single-mode and 500 mW for multimode, maintaining absolute stability of optical performance in complex data center hot aisle environments ranging from -5°C to 65°C.