ONU Frequently Goes Online and Offline(5) – a Too Large Split Ratio

SmartAX MA5600T/MA5603T Multi-service Access Module Troubleshooting: ONU Frequently Goes Online and Offline:  TC-C6214 ONU Frequent Going Online and Offline Because of a Too Large Split Ratio, also the MA5616 works, too.

 

Fault Description

Network topology: Originally, the system uses one-level optical split and the split ratio is 1:8. Later, the customer connects a 1:16 optical splitter to the 1:8 optical splitter. The three ONUs are connected to the 1:16 optical splitter.

During deployment in an office, three ONUs frequently go online and offline.

 

Alarm Information

None

 

Possible Cause

l The ONU receive optical power is larger than the overload optical power.

l The ONU receive optical power is smaller than the sensitivity.

l There is abnormal attenuation on ODN lines.

 

Procedure

Step 1 Test the ONU receive optical power. It is found that the receive optical power of the three ONUs is approaching the sensitivity.

Step 2 Analyze the total split ratio of the three ONUs. It is found that the total split ratio is 1: (16 x 8) = 1:128, which is too large and therefore causing too large attenuation, as shown in Figure 1.

 

Figure 1 Too large split ratio

Step 3 Change the 1:16 optical splitter to a 1:4 one. Then, the fault is rectified.

 

Step 4 Such a fault does not recur in the next week.

—-End

 

Suggestion and Conclusion

Bit errors will occur on an ONU if the ONU receive optical power is approaching the sensitivity and even the ONU may go offline. Reserve a 3 dBm attenuation margin in ODN planning.

 

NOTE

The specifications of the optical path attenuation are as follows (the following are theoretical values and the actual values vary with the environment):

l The optical attenuation on the ONU GPON port should be within the range of 15 dBm to 25 dBm.

l The attenuation on an optical fiber is about 0.3 dB per kilometer.

l The attenuation for an optical splitter is as follows:

l 1:2 optical splitter: 3 dBm

l 1:4 optical splitter: 6 dBm

l 1:8 optical splitter: 9 dBm

l 1:16 optical splitter: 12 dBm

l 1:32 optical splitter: 15 dBm

l 1:64 optical splitter: 18 dBm

 

 

 

5 ONU Frequently Goes Online and Offline(1) – a Rogue ONU

 

SmartAX MA5600T/MA5603T Multi-service Access Module Troubleshooting: ONU Frequently Goes Online and Offline:  TC-C6217 ONU Frequent Going Online and Offline Caused by a RogueONU.

 

This topic describes how to troubleshoot the fault of ONU frequent going online and offline.

 

Fault Description

All ONUs connected to a port in an office frequently go online and offline after a flood.

 

Alarm Information

Rogue ONU alarm

 

Possible Cause

l The ONU receive optical power is larger than the overload optical power.

l The ONU receive optical power is smaller than the sensitivity.

l There is abnormal attenuation on ODN lines.

 

Procedure

Step 1 After communicating with the customer, we learn that there was once a flood some ONUs are flooded.

 

Step 2 Analyze the condition. Only certain ONUs are flooded. This should not cause all ONUs to go offline repeatedly. It is concluded that the optical modules of certain ONUs transmit signals abnormally because of flood and the ONUs become rogue ONUs.

 

Step 3 Check optical lines one by one near the optical splitter. It is found that one ONU works in the continuous mode, as shown in Figure 2.

 

Step 4 Replace the ONU. System services recover.

 

Step 5 Such a fault does not recur in the next week.

—-End

 

Suggestion and Conclusion

In normal conditions, ONU signal transmit timeslots are controlled by the OLT. A rogue ONU is an ONU that goes out of control of the OLT and works in the continuous mode or irregular mode. You can locate a rogue ONU manually or locate a rogue ONU by querying alarms generated on the OLT. If a rogue ONU is detected, replace it in time.

ONU Frequently Goes Online and Offline(4) – a Too Small Fiber Bend Radius

SmartAX MA5600T/MA5603T HG8010 GPON Terminal Multi-service Access Module Troubleshooting: ONU Frequently Goes Online and Offline:  TC-C6208 ONU Frequent Going Online and Offline Because of a Too Small Fiber Bend Radius

 

This topic describes how to troubleshoot the fault of ONU frequent going online and offline.

 

Fault Description

Network topology: Optical split level: one level; split ratio: 1:32; backbone fiber: 8.6 km long; branch fiber: 1.5 km long. In an office, an ONU frequently goes online and offline.

 

Alarm Information

LOSi alarm and LOFi alarm

 

Possible Cause

l The ONU receive optical power is larger than the overload optical power.

l The ONU receive optical power is smaller than the sensitivity.

l There is abnormal attenuation on ODN lines.

 

Procedure

Step 1 Test the receive optical power on ONU optical ports. It is found that the receive optical power is only -28 dBm. This indicates that there is abnormal attenuation on ODN lines.

 

Step 2 Check field conditions. It is found that fibers are placed disorderly, the fiber bend radius is too small and the fiber is almost broken, as shown in Figure 1.

 

Figure 1 Too small fiber bend radius

Step 3 Replace the fiber and test the ONU receive optical power again. -18 dBm optical power is obtained and services recover. This indicates that the too small fiber bend radius causes abnormal attenuation on ODN lines and consequently causes the ONU to go online and offline frequently.

 

Step 4 Such a fault does not recur in the next week.

—-End

 

Suggestion and Conclusion

Make sure that the fiber bend diameter is larger than 8 cm when bending a fiber.

ONU Frequently Goes Online and Offline(3) – Mismatching Fiber Connector

SmartAX MA5600T/MA5603T Multi-service Access Module Troubleshooting: ONU Frequently Goes Online and Offline:  TC-C6207 ONU Frequent Going Online and Offline Because ofMismatching Fiber Connector, and how to solve the similar product MA5606T, MA5616 troubleshooting, you can referce from this chapter, too.

 

Fault Description

Network topology: Optical split level: one level; split ratio: 1:32; connector: SC/APC connector. In an office, an ONU frequently goes online and offline.

 

Alarm Information

LOSi alarm and LOFi alarm

 

Possible Cause

l The ONU receive optical power is larger than the overload optical power.

l The ONU receive optical power is smaller than the sensitivity.

l There is abnormal attenuation on ODN lines.

 

Procedure

Step 1 Test the receive optical power on ONU optical ports. It is found that the receive optical power is -27 dBm. This indicates that there is abnormal attenuation on ODN lines.

 

Step 2 Perform a test on the optical splitter. It is found that the connector of the optical splitter is an SC/APC connector but that of the ONU fiber is an SC/PC connector. When an APC-endface fiber is connected to a PC-endface fiber, at least 3 dB attenuation will be generated, as shown in Figure 1.

Figure 1 Interconnection of PC and APC connectors

Step 3 Remove the SC/PC fiber (blue) and splice it to an SC/APC fiber (green). Test the ONU receive optical power again. It is found that the receive optical power becomes -23.5 dBm, which is within the normal range. This indicates that the mismatching fiber connector causes abnormal attenuation on ODN lines and consequently causes the ONU to go online and offline frequently.

 

Step 4 Such a fault does not recur in the next week.

—-End

 

Suggestion and Conclusion

It is recommended that you connect an SC/PC connector to an SC/PC connector (or an SC/APC connector to an SC/APC connector). The biggest difference between an SC/PC connector and an SC/APC connector lies in that the endface of an SC/PC connector is a plane but the endface of an SC/APC connector is a slop. If an SC/PC connector is connected to an SC/APC connector, at least 3 dB attenuation will be generated.

 

ONU Frequently Goes Online and Offline(2) – Unmatched Optical Fiber Connectors

SmartAX MA5600T/MA5603T Multi-service Access Module Troubleshooting: ONU Frequently Goes Online and Offline:TC-C6311 An ONT Frequently Goes Online and Offline Because of Unmatched Optical Fiber Connectors

 

This topic describes how to troubleshoot the fault when the deployed ONT frequently goes online and offline because the optical fiber connectors do not match.

 

Fault Description

When an ONT is installed in the deployment, the optical path attenuation is -23 dBm, which is within the normal attenuation range. After the optical fibers are connected, the LED of the PON port blinks. In addition, the ONT fails to register with the OLT normally, and the ONT goes online and offline frequently.

 

Alarm Information

The up and down alarms about the ONT (OT928) are generated on the OLT.

 

Cause Analysis

l The optical path attenuation is very large.

l The optical fiber connectors are not clean or not connected properly.

 

Procedure

Step 1 Use an optical power meter to measure the optical path attenuation. It is found that the optical path attenuation is -23 dBm, which is within the normal range of the optical path attenuation.

 

Step 2 It is suspected that the poor quality of optical signals is caused by the dirty optical fiber connectors of the ONT (OT928). Clean the optical fiber connectors, and remove and then insert the optical fiber connectors again. The fault, however, persists.

 

Step 3 Replace the ONT with another ONT (OT928) to conduct a test. The fault, however, persists, which indicates that the hardware of the ONT (OT928) is normal.

 

Step 4 Check the fiber patch cord of the ONT (OT928). It is found that the connector of the fiber patch cord does not match the optical fiber connector of the ONT. Though the connector of the fiber patch cord is square, the color is different. After verification, the optical fiber connectors used in the ONT (OT928) are green, square, and SC/APC.

 

NOTE

The BOM is 14130252, and the name is Patch Cord, SC/APC-FC/PC, Singlemode-G.652, 3mm, 3m.

 

Step 5 Replace the fiber patch cord with a correct fiber patch cord (SC/APC-FC/PC). As a result, the LED of the PON port is stable, and the ONT can register with the OLT normally.

—-End

 

Suggestion and Conclusion

Currently, the type of the fiber patch cord used in the ONT (OT928) is seldom used in China, but is mostly used abroad. Therefore, note that you should use the correct fiber patch cord.

The greatest difference between green and blue fiber patch cords is as follows: The

interconnection section between the fiber patch cord with green connectors and the OT928 is oblique. The interconnection section between the fiber patch cord with blue connectors and the ONT is plane, which can result in 3-6 dBm optical attenuation.