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MA5800 System Test Procedure
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MA5800 System Test Procedure

Topcis:
,

There are many access equipment dealers in the market, but most of them source equipment from someplace and then sell to overseas customers directly without any test due to no test lab and technical capacity, which causes GPON boards that customers received may cannot work normally (board failed, GPHF/GPSF and MPLA software version mismatched, GPON modules Tx power abnormal etc.). To avoid these problems, we will do a comprehensive test before storage and delivery.

 

Test Procedure

1. Choose Huawei MA5800 X15 with MPLA main board and GPHF C++ for testing

2. Connect computer and CON port on MPLA by a console cable

3. Insert GPHF C++, power on MA5800 X15 system

4. Observe board indicator lights, lights change from red to green and glint once every second

5. Login MA5800 via Secure CRT, input command “display board 0” to check boards status

 

MA5800-X15(config)#display board 0

Case 1. Two main control board H902MPLA have same software version

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Active_normal                   

  9       H902MPLA   Standby_normal                  

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                          

  19      H901PILA   Normal   

 

“Normal” indicates that board is loaded successfully.

 

Case 2. Insert R17 MPLA into slot 9, then insert R18 MPLA into slot 8 after MPLA in slot 9 started

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Standby_failed                       Online  

  9       H902MPLA   Active_normal               

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                          

  19      H901PILA   Normal

 

MPLA in slot 8 “Standby_failed”, shows it cannot start normally.

 

Case 3, Insert R18 MPLA into slot 9, then insert R17 MPLA into slot 8 after MPLA in slot 9 started

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Config 

  9       H902MPLA   Active_normal               

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                           

  19      H901PILA   Normal

 

About 5 minutes later, MPLA in slot 8 “Standby_normal” and synchronized to R18

 

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Standby_normal 

  9       H902MPLA   Active_normal               

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                          

  19      H901PILA   Normal


MA5800-X15(config)#display version 0/9

  Command:

          display version 0/9

  Main Board: H902MPLA        

  ---------------------------------------        

  PCB           Version: H902MPLA  VER B        

  Base     BIOS Version: 019        

  Extended BIOS Version: 022        

  Software      Version: MA5800V100R018C00        

  Logic         Version: (U44)118        

  MAB           Version: 0001

 

 

6. Enter into GPHF GPON port, detect whether GPON module work normally.

 

MA5800-X15(config)#interface gpon 0/4

MA5800-X15(config-if-gpon-0/4)#display port state all

Case 1. normal C++ module

-----------------------------------------------------------------------

  F/S/P                        0/4/0

  Optical Module status        Online

  Port state                   Offline

  Laser state                  Normal

  Available bandwidth(Kbps)    1239040

  Temperature(C)               28

  TX Bias current(mA)          31

  Supply Voltage(V)            3.26

  TX power(dBm)                7.16

  Illegal rogue ONT            Inexistent

  Max Distance(Km)             60

  Wave length(nm)              1490

  Fiber type                   Single Mode

  Length(9um)(km)              60.0

 

According to Huawei datasheet, the normal TX power range of GPON module is:

B+ 1.5~5dBm

C+ 3~7dBm

C++ 6~10dBm

In case 1, 0/4/0 GPON module TX power is 7.16dBm, which shows module works normally.

 

Case 2. failure C++ module

-----------------------------------------------------------------------

F/S/P                       0/4/5

  Optical Module status        Online

  Port state                   Offline

  Laser state                  Normal

  Available bandwidth(Kbps)    1239040

  Temperature(C)               -

  TX Bias current(mA)          0

  Supply Voltage(V)            0.50

  TX power(dBm)                21474836.47

  Illegal rogue ONT            Inexistent

  Max Distance(Km)             60

  Wave length(nm)              1490

  Fiber type                   Single Mode

  Length(9um)(km)              60.0

 

 Case 3. failure C++ module

-----------------------------------------------------------------------

F/S/P                        0/4/6

  Optical Module status        Online

  Port state                   Offline

  Laser state                  Normal

  Available bandwidth(Kbps)    1239040

  Temperature(C)               -

  TX Bias current(mA)          -

  Supply Voltage(V)            -    

  TX power(dBm)                -    

  Illegal rogue ONT            -    

  Max Distance(Km)             40   

  Wave length(nm)              1490 

  Fiber type                   Single Mode

  Length(9μm)(km)         

 

0/4/5 C++ and 0/4/6 C++ in case 2 and 3, data of Temperature, TX Bias current, Supply Voltage and TX power(dBm) is messy code and blank, which indicates modules are fail.

 

For GPON board, we cannot judge it just based on its indicator glint and display status, we must check every GPON module TX power via commend. Therefore, besides appearance inspection, inserting board into OLT to check GPON module is necessary before purchase.

 

For main control board, there are different versions, such as R16, 17, R18. Dealers who have no test capacity cannot upgrade or downgrade version according to customer’s requirements. In addition, if two main control boards in same chassis have different versions, and if the higher version board starts firstly, the lower version board will be automatically synchronized by the higher version board. If the lower version board starts firstly, the higher version board may not start normally.

 

Huawei MA5800 system is very important part in the internet access layer, any failure or malfunction of hardware, will cause even more loss. By view of this, tests of system compatibility and GPON board are indispensable. To guarantee customers’ benefits, we will do a comprehensive test for MA5800 as above procedures, which realizes plug-and-play in a real sense.


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MA5800 System Test Procedure
MA5800 System Test Procedure
Topcis:
,

There are many access equipment dealers in the market, but most of them source equipment from someplace and then sell to overseas customers directly without any test due to no test lab and technical capacity, which causes GPON boards that customers received may cannot work normally (board failed, GPHF/GPSF and MPLA software version mismatched, GPON modules Tx power abnormal etc.). To avoid these problems, we will do a comprehensive test before storage and delivery.

 

Test Procedure

1. Choose Huawei MA5800 X15 with MPLA main board and GPHF C++ for testing

2. Connect computer and CON port on MPLA by a console cable

3. Insert GPHF C++, power on MA5800 X15 system

4. Observe board indicator lights, lights change from red to green and glint once every second

5. Login MA5800 via Secure CRT, input command “display board 0” to check boards status

 

MA5800-X15(config)#display board 0

Case 1. Two main control board H902MPLA have same software version

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Active_normal                   

  9       H902MPLA   Standby_normal                  

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                          

  19      H901PILA   Normal   

 

“Normal” indicates that board is loaded successfully.

 

Case 2. Insert R17 MPLA into slot 9, then insert R18 MPLA into slot 8 after MPLA in slot 9 started

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Standby_failed                       Online  

  9       H902MPLA   Active_normal               

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                          

  19      H901PILA   Normal

 

MPLA in slot 8 “Standby_failed”, shows it cannot start normally.

 

Case 3, Insert R18 MPLA into slot 9, then insert R17 MPLA into slot 8 after MPLA in slot 9 started

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Config 

  9       H902MPLA   Active_normal               

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                           

  19      H901PILA   Normal

 

About 5 minutes later, MPLA in slot 8 “Standby_normal” and synchronized to R18

 

SlotID  BoardName  Status          SubType0 SubType1    Online/Offline

  -------------------------------------------------------------------------

  0    

  1    

  2    

  3    

  4       H901GPHF   Normal                           

  5       H901GPHF   Normal                          

  6       H901GPHF   Normal                          

  7       H901GPHF   Normal                          

  8       H902MPLA   Standby_normal 

  9       H902MPLA   Active_normal               

  10      H901GPHF   Normal                      

  11      H901GPHF   Normal                          

  12      H901GPHF   Normal                          

  13                                

  14   

  15   

  16   

  17   

  18      H901PILA   Normal                          

  19      H901PILA   Normal


MA5800-X15(config)#display version 0/9

  Command:

          display version 0/9

  Main Board: H902MPLA        

  ---------------------------------------        

  PCB           Version: H902MPLA  VER B        

  Base     BIOS Version: 019        

  Extended BIOS Version: 022        

  Software      Version: MA5800V100R018C00        

  Logic         Version: (U44)118        

  MAB           Version: 0001

 

 

6. Enter into GPHF GPON port, detect whether GPON module work normally.

 

MA5800-X15(config)#interface gpon 0/4

MA5800-X15(config-if-gpon-0/4)#display port state all

Case 1. normal C++ module

-----------------------------------------------------------------------

  F/S/P                        0/4/0

  Optical Module status        Online

  Port state                   Offline

  Laser state                  Normal

  Available bandwidth(Kbps)    1239040

  Temperature(C)               28

  TX Bias current(mA)          31

  Supply Voltage(V)            3.26

  TX power(dBm)                7.16

  Illegal rogue ONT            Inexistent

  Max Distance(Km)             60

  Wave length(nm)              1490

  Fiber type                   Single Mode

  Length(9um)(km)              60.0

 

According to Huawei datasheet, the normal TX power range of GPON module is:

B+ 1.5~5dBm

C+ 3~7dBm

C++ 6~10dBm

In case 1, 0/4/0 GPON module TX power is 7.16dBm, which shows module works normally.

 

Case 2. failure C++ module

-----------------------------------------------------------------------

F/S/P                       0/4/5

  Optical Module status        Online

  Port state                   Offline

  Laser state                  Normal

  Available bandwidth(Kbps)    1239040

  Temperature(C)               -

  TX Bias current(mA)          0

  Supply Voltage(V)            0.50

  TX power(dBm)                21474836.47

  Illegal rogue ONT            Inexistent

  Max Distance(Km)             60

  Wave length(nm)              1490

  Fiber type                   Single Mode

  Length(9um)(km)              60.0

 

 Case 3. failure C++ module

-----------------------------------------------------------------------

F/S/P                        0/4/6

  Optical Module status        Online

  Port state                   Offline

  Laser state                  Normal

  Available bandwidth(Kbps)    1239040

  Temperature(C)               -

  TX Bias current(mA)          -

  Supply Voltage(V)            -    

  TX power(dBm)                -    

  Illegal rogue ONT            -    

  Max Distance(Km)             40   

  Wave length(nm)              1490 

  Fiber type                   Single Mode

  Length(9μm)(km)         

 

0/4/5 C++ and 0/4/6 C++ in case 2 and 3, data of Temperature, TX Bias current, Supply Voltage and TX power(dBm) is messy code and blank, which indicates modules are fail.

 

For GPON board, we cannot judge it just based on its indicator glint and display status, we must check every GPON module TX power via commend. Therefore, besides appearance inspection, inserting board into OLT to check GPON module is necessary before purchase.

 

For main control board, there are different versions, such as R16, 17, R18. Dealers who have no test capacity cannot upgrade or downgrade version according to customer’s requirements. In addition, if two main control boards in same chassis have different versions, and if the higher version board starts firstly, the lower version board will be automatically synchronized by the higher version board. If the lower version board starts firstly, the higher version board may not start normally.

 

Huawei MA5800 system is very important part in the internet access layer, any failure or malfunction of hardware, will cause even more loss. By view of this, tests of system compatibility and GPON board are indispensable. To guarantee customers’ benefits, we will do a comprehensive test for MA5800 as above procedures, which realizes plug-and-play in a real sense.


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