Keywords:RX2000 Intelligent Fiber Management System
The Fiber Digital Management System is a next-generation fiber patch management device. In addition to fiber connection and splicing, it features direct monitoring of communication fiber jumper status, monitoring of communication fiber backbone line status, monitoring of terminal device fiber status, fiber status indication, fiber loss analysis, and fiber digital management capabilities. The device is available in four versions: standalone, wired network, WIFI, and mobile.
Product List
1U Device Main Unit (*1)
Service Board (optional)
Control Host (*1)
Splicing Tray (*2)
Power Cable (*1)
Network Jumper (*1)
Cable ties Spiral tubing Equipment cabinet mounting brackets (*2)
1. Equipment Installation
1.1 Open the packaging and check the accessories against the list above to ensure everything is complete;
1.2 Before proceeding with the cabinet installation, the front-end steps for the equipment need to be completed;
1.3 After completing the front-end steps of the device, use the equipment cabinet mounting bracket to secure the device inside the cabinet.
2. Device Front End
2.1 Remove the service board (LC type or SC type) and insert the tail fiber into the connector according to the splicing order;
2.2 The 1U device has 6 service board slots, with slots 4, 5, and 6 on the upper layer and slots 1, 2, and 3 on the lower layer;
2.3 The interfaces are arranged from left to right as 1, 2, 3, 4, 5, 6, 7, 8;
2.4 The business board is inserted from the front of the device and secured with screws from the front of the device;
2.5 First, secure the three lower business panels and thread the tail fiber through the partition for bundling;
2.6 Secure the upper service board and tail fiber only after the lower service board and tail fiber have been fixed.
2.7 Pass the six business board tail wires through the two wire loops on the left side and feed them into the tray from the bottom of the splice tray.
The 2.8 device's front lower cable management groove is used to secure the front jumpers for routing downwards.
2.9 The cable management slots on both sides of the device are used to secure the front jumpers for routing to the left and right sides.
3. Device Backend
3.1 Open the top cover and unscrew the screws of the welding plate pull-out component;
3.2 Feed the optical fiber cable that needs to be spliced into the device through the optical fiber entry hole on the left side of the device;
3.3 After completion, use a cable tie to secure the fiber optic cable through the fastening hole.
3.4 The optical fiber cables to be delivered to the equipment should be bundled using a spiral tube;
3.5 Pass the bundled optical fiber cable through the two wire loops on the right side and feed it into the tray from the bottom of the splice tray.
3.6 Before inserting the optical fiber cable into the splice tray, the pull-out component of the splice tray must be removed. * (Note)
4. Fiber Optic Splicing
4.1 The welding work of this device needs to be completed at the rear end of the device; * (Note)
4.2 This device is a high-density integrated device, using two 48-core splice trays, totaling 96 cores;
4.3 Before welding, the welding plate needs to be pulled out from the rear end of the device;
4.4 After the welding is completed, secure the welded end in the fixed slot of the welding plate and use plastic and rubber covers for protection;
4.5 The default is two splice trays. If only one splice tray is needed, the other can be removed directly.
4.6 After completing the splicing, bundle and secure the optical fiber cable and the pigtails separately;
4.7 After completing all work, push the welding plate back into the equipment and secure it with screws;
5. Daily Use
5.1 Connect the equipment that has completed steps 2 to 3 to the power supply, and turn on the power switch at the back of the device.
5.2 Connect the network jumper for basic debugging. Please refer to the (Software Section) for debugging instructions;
5.3 After powering on, the device begins self-checking, which is completed in approximately 60 seconds (without network status);
5.4 After completing the self-check, the front-end interface indicator lights will illuminate according to the status of the interface;
5.5 The light is off when idle, lights up green when connected normally, and lights up yellow (or red) when the connection is abnormal;