RG-MUX-16LC/LC-V-BIDI, Building-Side 16-Port Passive Transparent Distribution Module
The transparent distribution module supports 1GE/2.5GE/10GE per port, dual uplink COM ports, and VSU scenarios. It can be used with BiDi CWDM transceivers in SOE Solution 4.0.
1:16 High-Density CWDM, Providing Ultra-High 160GE Bandwidth per Port
Used with the RG-S7610-10SFXP2CQ core switch and high-density optical transceivers, the transparent distribution module achieves 160GE high-density CWDM transmission per port. A single device supports up to 160 rooms with 10GE dedicated access, meeting deployment requirements for high-bandwidth, high-density scenarios.
Single-Fiber, End-to-End Connections for All Network Elements, Improving Cabling Reliability and Doubling Deployment Efficiency
The transparent distribution module is used with BiDi CWDM transceivers and adopts single-fiber interconnections, eliminating the need to distinguish receive and transmit ends, and doubling the deployment efficiency.
Optical fiber count and fusion splicing nodes are halved, resulting in lower cost, faster cabling, significantly reduced construction error risks, and improved single-fiber cabling reliability.
Unique CWDM Technology, Achieving Zero Optical Splitting and Delivering Dedicated 10GE/2.5GE/1GE Bandwidth to Rooms
CWDM technology is used to implement point-to-point 1:1 transmission from core to access with zero optical splitting, providing dedicated 10GE/2.5GE/1GE bandwidth to rooms.
This meets high-bandwidth device access requirements, effortlessly supporting endpoint network usage demands.
Large Layer 2 Passive Networking Architecture with O&M-Free ELV Rooms, Enhancing Network Reliability
The passive transparent aggregation module is deployed at the aggregation layer, eliminating O&M workloads in ELV rooms and saving equipment room space and cooling costs.
The two-layer architecture reduces network layers, and passive equipment eliminates aggregation single point of failure from the physical layer, resulting in low failure probability and a more stable and reliable network.