Maipu NSS6600 Series Installation Manual

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NSS6600 Series NSS6600-06, 10(V2)

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Page 1 NSS6600 Series NSS6600-06, 10(V2) Installation Manual...
Page 3 All other trademarks that may be mentioned in this manual are the property of their respective owners. The information in this document is subject to change without notice. In no event shall Maipu be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services;...
Page 4: Preface
Manual Introduction This manual first introduces the appearance, hardware components, boards, power modules, etc. of NSS6600 series NSS6600-06(V2), NSS6600-10(V2) switches. Next, introduce the installation preparations of the device and how to install them in the cabinet. Finally, the basic usage and daily maintenance of the device are introduced from three aspects: power-on operation, troubleshooting, and device maintenance.
Page 5 Preface NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Format Description Keywords The red part represents the key information in the screen output of Screen print Symbol conventions: Format Description An alert that contains additional or supplementary information. An alert that calls attention to important information that if not understood or followed can result in data loss, data corruption, or damage to hardware or software.
Page 6: Technical Support
If you encounter difficult-to-determined or difficult-to-solve problems in the process of equipment operation and maintenance, and you still cannot solve them through the guidance of the manual, please contact Maipu Technology Service Center directly, and we will provide you with technical support services.
Page 7: Table Of Contents
Preface NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Contents PREFACE ················································································································· II 1 PRODUCT INTRODUCTION ················································································· 1-1 1.1 P ··································································· 1-1 RODUCT PPEARANCE AND ARDWARE 1.1.1 NSS6600-06 (V2) ······························································································ 1-2 1.1.2 NSS6600-10(V2) ······························································································· 1-3 1.2 I MPU C ··············································································· 1-5 NTRODUCTION TO 1.3 I...
Page 8 TATUS NFORMATION 4.3.6 C MPU C ·················································· 4-18 HECK THE TATUS NFORMATION OF THE 4.3.7 C SFU C ··················································· 4-23 HECK THE TATUS NFORMATION OF THE 4.3.8 V LPU C ··································································· 4-27 TATUS NFORMATION copyright 2023 Maipu, all rights reserved...
Page 9 Preface NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual 4.3.9 V ····························· 4-31 IEW THE TATUS NFORMATION OF THE LUGGABLE PTICAL ODULE 5 TROUBLESHOOTING ························································································ 5-34 5.1 C ··························································· 5-34 ONFIGURATION YSTEM ROUBLESHOOTING 5.1.1 T ································ 5-34 ROUBLESHOOTING HERE ISPLAY ON THE ERMINAL 5.1.2 T...
Page 10 A4.12 NSM66-40GETP8LTP4XFB-XC(V2) ··································································· A-45 A4.13 NSM66-8QXGE-EB(V2) ·················································································· A-46 A4.14 NSM66-8QXGEB-XC(V2) ··············································································· A-48 A4.15 NSM66-12QXGE-EB(V2) ················································································ A-49 A4.16 NSM66-12QXGEB-XC(V2) ·············································································· A-51 A4.17 NSM66-48XGEF-EB (V2) ················································································ A-53 A4.18 NSM66-48XGEFB-XC(V2) ·············································································· A-54 A4.19 NSM66-16XGEF4QXGE-EB (V2) ······································································ A-55 copyright 2023 Maipu, all rights reserved viii...
Page 11 Preface NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual A4.20 NSM66-16XGEF4QXGEB-XC(V2) ····································································· A-57 A5 Power Module Specifications ················································································· A-59 A5.1 AD8 00-1D005M(V1) AC Power Module ································································ A-60 A5.2 AD1600-1D005M (V2) AC Power Module ······························································· A-61 A5.3 DD1600M-5V1F(V1) DC Power Module ································································ A-62 A6 Fan Module Specifications ····················································································...
Page 12 E2.3 Equipotential Connection Requirements and Methods ···················································· E-6 F Cable Fixing Recommendation ··················································································· F-7 F1 Anti-falling Treatment of AC Power Cable ···································································· F-7 F2 Cable Bundling Recommendation ·············································································· F-7 G Environmental Substance Declaration ·········································································· 6-1 copyright 2023 Maipu, all rights reserved...
Page 13: Product Appearance And 1.1.1 Nss6600-06 (V2)
Product Introduction NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Product Introduction This chapter introduces the hardware of the device, including the following contents: 1.1 Product Appearance and Hardware 1.2 Introduction to MPU Card 1.3 Introduction to SFU Card 1.4 Introduction to LPU Card 1.5 Introduction to Power Modules...
Page 14 7. LPU card slot 5 8. Rotating cable rack 9. Power module slot 0 10. Power module slot 1 11. Power module slot 2 12. Power module slot 3 13. Chassis handle 14. Anti-static wrist jack copyright 2023 Maipu, all rights reserved...
Page 15: Nss6600-10(V2)
Product Introduction NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Figure 1-2 The rear appearance of NSS6600-06 (V2) 15. Fan module slot 0 16. Fan module slot 1 17. Air outlet 18. Chassis handle 19. Screw mounting holes for the cabinet 20.
Page 16 11. LPU card slot 9 12. Rotating cable rack 13. Power module slot 0 14. Power module slot 1 15. Power module slot 2 16. Power module slot 3 17. Anti-static wrist jack 18. Chassis handle copyright 2023 Maipu, all rights reserved...
Page 17: Introduction To Mpu Card
Product Introduction NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Figure 1-4 Rear appearance of NSS6600-10 (V2) 19. Fan module slot 0 20. Fan module slot 1 21. Air outlet 22. Grounding stud 23. Screw mounting holes for cabinet 1.2 Introduction to MPU Card MPU: Main Processing Unit main control card.
Page 18: Introduction To Sfu Card
The appearance of the SFU card is as follows: Figure 1-5The appearance of the SFU card 1. Printed board 2. Captive screws 3. Board puller 4. Air inlet 5. Board label slot 6. Function status indicator copyright 2023 Maipu, all rights reserved...
Page 19: Introduction To Lpu Card
Product Introduction NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual 1.4 Introduction to LPU Card LPU: Line Processing Unit user line interface card, which provides a variety of different interface forms for users to choose to meet the needs of various application scenarios.
Page 20 3. Power cable anti-trip slider 4. Power module unlock button 5. Power handle 6. Power status indicator AD1600-1D005M (V2) AC power module is as follows: Figure 1-9 Appearance of AD1600-1D005M (V2) AC power module copyright 2023 Maipu, all rights reserved...
Page 21: Fan Modules Andd
Product Introduction NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual 1. AC power jack 2. Power switch 3. Power cord anti-trip slider 4. Power module lock button 5. Power handle 6. Power status indicator The appearance diagram of DD1600M-5V1F(V1) DC power module is as follows: Figure 1-7 Appearance diagram of DD1600M-5V1F(V1) AC power module 1.
Page 22: Fan-11A-01 (V1) F
01(V1) fan modules must be installed to ensure the normal operation of the system. The diagram of the fan module is as follows: Figure 1-8 FAN-15B-01(V1) module 1. Fan handle 2. Status LED copyright 2023 Maipu, all rights reserved 1-10...
Page 23: Device Duct
Product Introduction NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual 3. Fan outlet 4. Fan label 5. Captive screws 1.6.3 Device Duct NSS6600-06 (V2) switch chassis inlet and outlet air ducts: the airflow direction is forward and rear, and the diagram is as follows:...
Page 25: Installation Preparation
A packing list will be attached to the device when it is delivered. Please confirm whether the delivery accessories are complete and in good condition according to the list of items in the packing list. If it is damaged or lost, please contact Maipu technical support engineers for replacement.
Page 26: Check Power Supply
For the power consumption data and power module parameters of the device, see " Appendix A Machine and Common Modules Specifications." 2.2 Security Precautions 2.2.1 General Security  Make sure that the ground of the installation site is dry and flat, and that you have copyright 2023 Maipu, all rights reserved...
Page 27: Electrical Security
Installation Preparation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual taken anti-slip measures.  Keep the device clean and dust-free, and do not place the device in a humid place.  The whole device and related components (such as power supply, chassis, etc.) are relatively heavy.
Page 29: Carton Unpacking And 2.4 Unpacking Wooden
Installation Preparation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual bottom of the device for force. It is strictly forbidden to use the chassis panel, fan module handle, power supply handle and other parts to exert force, so as not to cause device hardware damage or even personal injury.
Page 30 Step 3: Cut off the sealing tape and open the box cover. Step 4: Take out the pearl cotton protection pad, power supply, and accessory box sequentially from top to bottom. Step 5: Open the plastic bag and lift out the case. copyright 2023 Maipu, all rights reserved...
Page 31: Device Installation
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Device Installation This chapter describes device installation, containing the following: 3.1 Install Device into Cabinet 3.2 Device Grounding 3. 3 Install a SPD (Optional) 3.4 Post-Installation Inspection 3.1 Install Device into Cabinet This section will introduce how to install the NSS6600-06, NSS6600-10 switch into a 19- inch standard cabinet.
Page 33: Install And Adjust
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Figure 3-2 Adjust the width of the columns in the square holes of the cabinet 1. Square hole column 2. Front column of the cabinet 3.1.3 Install and Adjust Load-bearing Pallet The tray plays the role of supporting the weight of the device.
Page 34: Install Floatingn
1: Take out the floating nut from the accessory bag of the accessory box and install the positioning plate, and mark the installation position of the floating nut on the square copyright 2023 Maipu, all rights reserved...
Page 35 Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual hole column of the cabinet according to the hole position on the positioning plate. Figure 3-4 Mark the position where the floating nut is installed 1. Floating nut installation positioning 2.
Page 36: Install Thed
The installation method of the NSS6600-06 NSS6600-10 switch is similar to Maipu previous rack device. The following describes how to install the NSS6600-06 chassis into the cabinet (The installation method of the NSS6600-10 frame is the same as that of the NSS6600-06 frame).
Page 37: Install The Cabling
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Step 3: Use M6 panel screws to fix the mounting ears of the chassis and the floating nuts on the square hole bars of the cabinet columns. The purpose of fixing is to prevent the device from sliding back and forth.
Page 38: Install Power Module
1: Take the power module out of the packing box and save the accessories in the carton. Step 2: Insert the power module into the power slot of the host chassis, as shown in the figure below. copyright 2023 Maipu, all rights reserved...
Page 39: Arrange Cables
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual Figure 3-3 Install the power module of the NSS6600-06 frame Step 3: Push in the power module, and the power module is locked with the chassis. Step 4: Slide the cable anti-trip on the AC power module to the right until it is opened; insert the output plug of the power cable into the input hole of the power module until it is firmly inserted;...
Page 40  Fix the cable near the switch, and keep the cable loose between the fixed point and the switch port. In order to mark the cables, labels can be pasted to them. copyright 2023 Maipu, all rights reserved 3-10...
Page 41: Installation Check
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual 3.1.9 Installation Check After the device is installed in the cabinet, please check according to the following items, and the listed items are required to be in normal condition. ...
Page 42: Install Aspd
When in use, the alternating current enters the lightning protector first, and then enters the device after passing through the lightning protector. Figure 3-14 Power surge protector copyright 2023 Maipu, all rights reserved 3-12...
Page 43: Install A Network
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual 1. Socket Used to connect device power 2. Normal working indicator (green) On: Indicates that the circuit is working normally Off: Indicates that the protection circuit has been damaged. 3. Ground and polarity detection indicator...
Page 44 Avoid poor grounding of the network port SPD. When installing the ground wire of the lightning arrester, the ground wire should be as short as possible to ensure good contact with the device ground terminal. After the connection is completed, copyright 2023 Maipu, all rights reserved 3-14...
Page 45: Post -Installationi
Device Installation NSS6600 Series NSS6600-06 and 10 (V2) Installation Manual please use a multimeter to confirm.  Avoid incomplete installation of the network port SPD. When the device is connected to other devices with more than one cable outlet network port, it is necessary to install lightning protectors for all the cable outlet network ports for protection.
Page 47: Power On And Run The Device
Power On and Run the Device This chapter introduces the operation related to power-on operation of the device, containing the following: 4.1 Log into Device 4.2 Connect Network 4.3 Hardware Management 4.1 Log into Device When you log in to the device for the first time, you can only log in through the console port.
Page 48 picture 4-1Connect the switch and PC through the RS-232 serial port Figure 4-2Connect the switch and PC through the USB serial port  The configuration cable for RS-232 serial port (delivered randomly) is an 8-core unshielded cable, one end is a crimped RJ-45 plug, which is inserted into the Console port of the switch.
Page 49: Set Pc Hyperterminal
4.1.2 Set PC Hyperterminal Parameters The following takes the Windows XP HyperTerminal running on a PC (or laptop) as an example to introduce the setting of the serial interface parameters of the PC (or laptop). step 1: Start laptop), select [Start/All Programs Programs)/Accessories/Communications/HyperTerminal] menu item, click the “...
Page 50 Figure 4-4"Phone and Modem " interface Step 3: The "Connection Description" interface as shown below pops up. Fill in the name in the "Name (N)" column, such as test, and click the <OK> button. Figure 4-5"Connection Description" interface Step 4: The "Connect to"...
Page 51 <OK> button. Figure 4-7"com* properties" interface Step 6: The “test–HyperTerminal” interface pops up as shown below, click the “Properties” button. Figure 4-8"test-HyperTerminal" interface Step 7: The "test properties" interface will pop up as shown below, click the [Settings] bar in the properties window, as shown in the figure below, select VT100 in the "Terminal Emulation"...
Page 52: Power On And Start
Figure 4-9 "test properties" interface Step 8: The "test-HyperTerminal" interface as shown below pops up, press Enter in the blank space of the interface, and the serial port will display the print information, and the HyperTerminal is set. Figure 4-9The test-HyperTerminal interface after the setup is complete 4.1.3 Power On and Start Check before power on Check the switch as follows before powering on:...
Page 53 NSS6600 system image file ( flash 0:/flash/ sp 28 -g- 9. 6. 0(26) (R).pck), version 9. 6. 0. (26) (integrity), Compiled on Feb 2 7 20 20, 07:03:57 Copyright (C) 2019 Maipu Communication Technology Co.,Ltd. All Rights Reserved. System ID: ccd81f1512b6...
Page 54: Inspection Afterp
The displayed information on the boot interface above is for reference only, please  refer to the actual display. 4.1.4 Inspection after Power On After the switch is powered on, after all boards are fully loaded, it is best to check the following to ensure that the subsequent configuration works normally: ...
Page 55 4.2.2 Connect Network via LC-type Optical Fibers For the SFP and SFP+ optical interfaces of the switch, LC-type optical fibers can be used to connect to the network. Before connecting the optical fiber, you need to install the optical module on the switch first, and then insert the optical fiber connector into the optical module.
Page 56 Figure 4-12 Pull out the dustproof plug Figure 4-13 SFP module Figure 4-14 Install the SFP module  Before installing the optical fiber, do not pull out the dustproof plug on the SFP module.  For unused optical ports, please plug the optical ports with the dustproof plugs provided with the device.
Page 57 step 1: Wear an anti-static wrist, and make sure that the anti-static wrist is in good contact with the skin and is well grounded. Step 2: Remove the dustproof cap from the fiber optic connector, as shown in Figure 4-15. Figure 4-15 Remove the dustproof cap Step 3: Remove the dustproof plug of the SFP module, as shown in Figure 4-16.
Page 58: Ardware Anagement
MyPower (R) Operating System Software NSS6600 system image file (flash0:/flash/sp28-g-9.6.0(26)(R).pck), version 9.6.0.(26)(integrity), Compiled on Feb 27 2020, 07:03:57 Copyright (C) 2019 Maipu Communication Technology Co.,Ltd. All Rights Reserved. NSS6600 Version Information System ID: ccd81f1512b6 Hardware Model: NSS6600-06(V2) Hardware Version: 001(Hotswap Supported) Bootloader Version : 1.0.0.14...
Page 59: View System Ambient
Field Description System ID This value shows the first MAC address in the frame, for example: ccd81f1512b6. Hardware Model Hardware information, such NSS6600-06(V2) Hardware Version PCB version, such as: 00 1 (Hotswap Supported) Bootloader Version Bootloader version, such as: 1.0.0.14 Software Version Software version,...
Page 60 working status, fan module serial number, fan speed, the swapping times of the fan module, the error times statistics during swapping, and other information, for example: switch#show system fan System FAN Information (Fan 0 - ONLINE) -------------------------------------------------- -------------- Fan Name: FAN- 11A -01 (V2) Status: Normal Last-Alarm: Normal Serial No.:...
Page 61: View Power Module
Field Description the fan controller), such as: 30 % STATISTICS Statistics on the times of swapping the fan module and error swapping times. For example, 1 IN, 0 IERR, 0 OUT, 0 OERR indicates that the fan module has been inserted correctly once, where: IN: The number of physical fan insertions, such as: 1...
Page 62: View Backplanes
Field Description System Power Information Power presence information, such as: Power 0 - ON LINE Power name Power supply name: such as AD800- 1D005M(V2) Status The working status of the power module, such as: Normal  Normal: The power module is working normally ...
Page 63 memory chip. and other information, such as: switch#show system chassis System Chassis Information Device: 0 (ONLINE) -------------------------------------------------- -------------- Chassis Type: NSS6600-06 (V2) Serial No.: Chassis-MAC-Group-0: 00017a012481 00017a012482 00017a012483 00017a012484 000000000000 Chassis-MAC-Group-1: 000000000000 000000000000 000000000000 000000000000 000000000000 -------------------------------------------------- -------------- STATISTICS: 1 IN, 0 OUT, 0 IERR, 0 OERR Table 4-4 Description of the key fields displayed by the show system chassis command Field Description...
Page 64 Field Description means that the backplane has been inserted correctly once, where: IN: The times the backplane is physically inserted, such as: 1 IERR: The error times of physically inserting the backplane, such as: 0 OUT: The times backplane physically pulled out, such as: 0 OERR: The errors in physically pulling out the backplane, such as: 0 4.3.6 Check the Status Information of the MPU Card...
Page 65 MEM-Idx: 00 MEM-State: BytesFree = 1423310848 bytes BytesAlloc = 671744000 bytes BlocksFree = 13 blocks BlocksAlloc = 1694 blocks MaxBlockSizeFree = 92274688 bytes SizeTotal = 2095054848 bytes DISK-On-Card-Information: <1 DISKs> DISK-Idx: 00 Type: Flash Status: Online DISK-State: SizeTotal = 327155712 bytes SizeFree = 78135296 bytes FPGA-On-Card-Information: <1 FPGAs>...
Page 66 Field Description Power-INTF-Status MPU card power status, such as: Normal Power-Card-Status MPU card power-on status, such as: On Serial No. MPU card serial number Description Description field, configured by the user Power-RT-Information MPU card power real-time information Voltage-In MPU card internal voltage, such as: 3.28V Hardware-Information MPU card hardware information PCB-Version...
Page 67 Field Description Core-State CPU core status information Core-Idx-00 CPU core number, such as: Core-Idx-00 Core-Status CPU core status, such as: 0000 Core-Utilization CPU core utilization, such as 8% temperature CPU temperature Temperature-State CPU temperature status temperature CPU temperature, such as 52℃ Last-Alarm CPU temperature warning information, such as:...
Page 68 Field Description Status Storage device presence information, such as: Online DISK-State The storage device status SizeTotal The total size of the storage device, such as: 327155712 bytes SizeFree The remaining space of the storage device, such as: 78135296bytes FPGA-On-Card-Information MPU card FPGA information FPGA-Idx FPGA number, such as: 00 Status...
Page 69 Field Description OUT: The times the MPU card has been physically pulled out, such as: 0 OERR: The times the MPU card is physically pulled out, such as: 0 4.3.7 Check the Status Information of the SFU Card You can use the show system sfu <slot number> command to check the information about the SFU card on the S8900E series switch, which includes board card in-place information, board name, board status information, board software and hardware version information, board card storage space status information, etc., such as:...
Page 70 -------------------------------------------------- -------------- STATISTICS: 1 IN, 0 OUT, 0 IERR, 0 OERR Table 4-6 Description of the key fields displayed by the show system sfu <slot number> command Field Description System Card Information SFU card status, such as: Sfu 0 - ONLINE type SFU card type, such as: SM89E-SFUB(V2)
Page 71 Field Description CPLD -Version SFU card CPLD version, such as: 103 Temperature-Information SFU card temperature information Temperature-State SFU card temperature status Switch-Temperature card switch temperature, example: 51°C Last-Alarm SFU card Switch temperature alarm information, such as: Normal: No alarm for the temperature of the SFU card switch Mainboard-Temperature SFU card PCB temperature, such as:...
Page 72 Field Description BytesAlloc The number of memory bytes to be applied, such as: 623628288 bytes Blocks Free The free memory blocks, such as: 13 blocks BlocksAlloc The number of the memory blocks to be applied, such as: 3523 blocks MaxBlockSizeFree The size of the largest free block, such as: 226492416 bytes SizeTotal...
Page 73: View Lpu Cards
4.3.8 View LPU Card Status Information You can use the show system lpu <slot number> command to check the information about the LPU card on the NSS6600-06 switch, including board presence information, board name, board status information, board software and hardware version information, Board storage space status information, etc., for example: switch#show system lpu 0 System Card Information(Lpu 0 - ONLINE)
Page 74 command Field Description System Card Information LPU card status, such as: Lpu 0 - ONLINE type LPU card type, such as: NSM66-48GEF4XGEF-EB (V2) Status LPU card status, such as: Start ok Start ok: The LPU card starts  successfully  Init: LPU card initialization ...
Page 75 Field Description 0.0.14 IOS -Version LPU card software version, such as: 9.6.0 (1)(integrity) Temperature-Information LPU card temperature information Temperature-State LPU card temperature status Switch- Temperature LPU card exchange chip temperature, such as: 70°C Last-Alarm LPU card exchange chip temperature warning information, such as: Normal: There is no alarm for the temperature of the switching chip of the LPU card...
Page 76 Field Description as: 434593792 bytes BytesAlloc The number of memory bytes to be applied, such as: 639148032 bytes Blocks Free The free memory blocks, such as: 13 blocks BlocksAlloc The number of memory blocks to be applied, such as: 3523 blocks MaxBlockSizeFree The size of the largest free block, such as: 226492416 bytes...
Page 77 4.3.9 View the Status Information of the Pluggable Optical Module You can use the show optical all command to view the relevant working parameters of all optical modules used on the NSS6600-06 switch, for example: switch #show optical all Name VendorName LaserWaveLen(nm) Temperature(C) Voltage(V) TxPower(dBm) RxPower(dBm) -------------------------------------------------- -------------------------------------------------- ----------------------- t e 1/49 LINTES 850 33.679688 3.335500 -Inf 1.831559 t e 1/50 LINTES 850 32.222656 3.331800 -Inf 1.979694...
Page 78 switch#show optical interface tengigabitethernet 1/4 5 detail tengigabitethernet 1/4 5 optical information Device Name: SFP Connector Name: unspec(00) Encoding Code: 64B/66B Bit Rate: 10.400GBd Transmit Distance: 5m(copper) Vendor OUI: e0-ef-25 Vendor Name: LINTES Part Number: SAA005-F0101 Revision Number: 1 Serial Number: 21305014C0040 Production Date: 14/12/12(y/m/d) Laser WaveLength: 850(nm) Vendor Specific: 00000000000000000000000000000000000000000000000000000000000000000...
Page 79 Field Description 000000000000000000000000000000 Monitor Parameters Monitoring parameters (only for optical modules supporting DDMI function)  Temperature/Alarm-High/Alarm-low/Warning- High/Warning-Low Temperature/Temperature Warning Upper Limit/Temperature Warning Lower Limit/Temperature Warning Upper Limit/Temperature Warning Lower Limit  Voltage/Alarm-High/Alarm-low/Warning-High/Warning- Voltage/Voltage Warning Upper Limit/Voltage Warning Lower Limit/Voltage Warning Upper Limit/Voltage Warning Lower Limit...
Page 80: Configuration System Troubleshooting
Troubleshooting This chapter describes how to troubleshoot the installation of the NSS6600-06, NSS6600- 10 switch, containing the following: 5.1 Configuration system troubleshooting 5.2 Power Failure Troubleshooting 5.3 Fan Troubleshooting 5.4 MPU card troubleshooting 5.6 LPU Card Troubleshooting 5.7 Obtain technical support 5.1 Configuration System Troubleshooting After the switch is powered on, if the system is normal, the startup information will be displayed on the configuration terminal.
Page 81 the baud rate to 9600, data bits to 8, parity check to none, stop bit to 1, flow control to none, and terminal emulation to VT100). For details, please refer to "4.1.2 Set PC HyperTerminal Parameters". 3. If there is a problem with the configuration port cable itself, you can try to replace the configuration port cable.
Page 82: Fan Troubleshooting
Step 2: Check the connection of the power cable of the faulty power module, unplug and plug the power cable again, and check whether the power cable is loose. Step 3: Replace the power cable of the faulty power module, and check whether the indicator of the power module returns to normal.
Page 83 When the FAN indicator on the fan module panel is red, it indicates that the fan module is faulty. Please refer to the following steps to troubleshoot the fault: step 1: Please confirm that whether the power module is working normally. For details, please refer to "...
Page 84 5.5 SFU Card Troubleshooting The SFU card used by the NSS6600-06, NSS6600-10 switch is inserted horizontally from the front, and its status indicator is on the SFU board panel. In the normal state, the SFU indicator is flashing green, and the corresponding SFU card has been successfully loaded and is in the normal working state.
Page 85: Get Technical Support
5. A brief description of the problem 6. Describe the troubleshooting steps that have been taken You can contact customer service personnel through the technical support hotline, or seek help through the website or email. Technical support hotline: 028-85240888, 400-886-8669 URL: http://www.maipu.com/ E-mail: support@maipu.com...
Page 86: Device Maintenance
Device Maintenance This chapter describes device module replacement and maintenance, containing the following: 6.1 Module Replacement 6.3 Dust Removal Maintenance for the Device 6.1 Module Replacement  Please place the replaced hardware module properly. It is recommended to put it on an antistatic bag or in a packing box.
Page 87 Figure 6-1 Turn off the power switch Step 3: Unlock the power cable and unplug the power cord. Figure 6-2 Pull out the plug of the power cord Step 4: Press and hold the power unlock button, and pull out the power module. Figure 6-3 Pull out the power module Step 6: Insert the new power module to be replaced.
Page 88 Figure 6-4 Insert the power module 6.2.1 Replace the MPU board The MPU cards of the NSS6600-06, NSS6600-10 switch support hot swapping, but it is prohibited to hot swap multiple MPU cards at the same time. Preparation before replacement step 1: Wear an anti-static wrist and make sure that the anti-static wrist is reliably grounded. Step 2: Prepare the board to be installed.
Page 89 Figure 6-6 Install the MPU Step 5: Manually guide and screw in the captive screws on both sides of the board, and then tighten the captive screws with a screwdriver to secure the board. Figure 6-7 Install the MPU 6.2.2 Replace the SFU/LPU Board All SFU/LPU cards of the NSS6600-06, NSS6600-10 switch support hot swapping, but it is prohibited to hot swap multiple SFU/LPU cards at the same time.
Page 90 Figure 6-8 Remove the blank baffles Step 3: Prepare the board to be installed. Replacement steps step 1: Wear an antistatic wrist, and use a Phillips screwdriver to loosen the captive screws on both sides of the board to be replaced. Figure 6-9 Unload the LPU card Step 2: Hold the puller on the board with both hands, and turn the puller outwards to separate the board from the chassis backplane.
Page 91: Replace A Fan Module
unloaded board on an antistatic mat or in the original packing box. Step 4: Rotate the pullers on both sides of the board to be installed outward and keep them open. Then support the board with both hands, and insert it smoothly along the guide rail of the slot.
Page 92 wait for the fan to stop before pulling it out. At the same time, considering that the fan may still be running, it is strictly forbidden to put your hands into the fan module to avoid injury.  Before replacing, please prepare a new fan module in advance, and install a new fan module in time after uninstalling the fan module when the switch is working (it is recommended that the whole replacement process should not exceed 2 minutes), so as to ensure the normal use of the switch.
Page 93 Figure 6-14 Uninstall a fan module 6.2.4 Replace a Pluggable Optical Module The process of replacing the SFP module and the SFP+ module is similar. The following description uses the SFP module as an example. During the process of installing or uninstalling the SFP module, please do not ...
Page 94 Step 2: Pull down the handle of the SFP module to the horizontal position, and then pull out the SFP module. The schematic diagram of unloading the SFP module is as follows: Figure 6-15 Unload the SFP module Step 3: Put the removed SFP module on the dustproof cap and put it in an antistatic bag or packing box.
Page 95 Figure 6-18 Remove the dust cap of the SFP module Step 6: Insert the optical fibers into the corresponding SFP ports in sequence. The schematic diagram of connecting the SFP ports with fibers is as follows: Figure 6-19 Connect SFP with optical fibers ...
Page 96 6.3.1 Remove Dust for Fan Module The fan module is an important part of the device, and it mainly provides power for heat dissipation and ventilation of the device. During the operation of the device, the fan blades and the control circuit board in the fan module will absorb dust in the surrounding air. When the adsorbed dust accumulates to a certain extent, the dust will affect the stable operation of the fan module on the one hand, and on the other hand, the dust will also become a source of pollution for other service boards in the device, thereby burying...
Page 97 During the operation of the device, due to the charging of the board and the air convection during the heat dissipation of the device, the board will inevitably absorb charged particles or dust in the air and form accumulation. The worse the air cleanliness and the lower the relative humidity, the stronger the adsorption process.
Page 98 regularly remove dust from the optical interface and pigtail connector on the device. The corresponding dust removal steps are as follows: step 1: Pull out the interface sub-card where the optical interface is located: When cleaning the optical interface, you first need to unplug the optical fiber connected to the optical interface, and then pull out the corresponding interface sub-card for cleaning.
Page 99 Appendix A Machine and Common Module Specifications A1 Power Consumption/Weight/Dimensions Appendix Table A-1Power Consumption/Dimension Model Power Consumption Dimension NSS6600-06 (V2) Single power supply 441mmx434.8mmx488mm 800W/1600W (W×D×H) (The whole machine is configured with 1:1 power redundancy backup) NSS6600-10(V2) Dual power supply 1600W 441mmx434.8mmx666mm (W×D×H) (The whole machine is...
Page 100 Model Weight (kg) NSM66-MPUD(V1) NSM66-MPUE-XC(V2) 1.51 NSM66-SFUA(V 2 ) 2.42 NSM66-SFUA-XC(V2) 2.42 NSM66-24GET24GEF-S-EB(V2) 3.14 NSM66-24GET24GEF-S-XC(V2) 3.14 NSM66-48GET4XGEF-EB(V2) 3.16 NSM66-48GET4XGEFB-XC(V2) 3.16 NSM66-48GEF4XGEF-EB(V2) 3.28 NSM66-48GEF4XGEFB-XC(V2) 3.28 NSM66-24GET24GEF4XF-EB(V2) 3.24 NSM66-24GET24GEF4XFB-XC(V2) 3.24 NSM66-16XGEF-EB(V2) 3.04 NSM66-16XGEFB-XC(V2) 3.04 MPU Empty Tray LPU Empty Tray NSM66-MPUE(V2) 1.51 NSM66-MPUD(V2) NSM66-32XGEF-EB(V2) NSM66-32XGEFB-XC(V2)
Page 101 Model Weight (kg) NSM66-12QXGE-EB(V2) NSM66-12QXGEB-XC(V2) NSM66-48XGEF-EB(V2) 3.48 NSM66-48XGEFB-XC(V2) 3.48 NSM66-16XGEF4QXGE-EB(V2) 3.12 NSM66-16XGEF4QXGEB-XC(V2) 3.12 NSM66-SFUB(V2) 2.56 NSM66-SFUB-XC(V2) 2.56 NSM66-SFUD(V2) 2.82 NSM66-SFUD-XC(V2) 2.82 Appendix Table A-3Board Power Consumption Model Power Consumption (W) FAN-11A-01(V1) FAN-15B-01(V1) NSM66-MPUC(V1) NSM66-MPUD(V1) NSM66-SFUA(V 2 ) NSM66-SFUA-XC(V2) NSM66-24GET24GEF-S-EB(V 2 ) NSM66-24GET24GEF-S-XC(V2) NSM66-48GET4XGEF-EB(V 2 ) NSM66-48GET4XGEFB-XC(V2)
Page 102 Model Power Consumption (W) NSM66-48GEF4XGEFB-XC(V2) NSM66-24GET24GEF4XF-EB(V 2 ) NSM66-24GET24GEF4XFB-XC(V2) NSM66-16XGEF-EB(V 2 ) NSM66-16XGEFB-XC(V2) NSM66-MPUE(V2) NSM66-MPUE-XC(V2) NSM66-MPUD(V2) NSM66-32XGEF-EB(V2) NSM66-32XGEFB-XC(V2) NSM66-40GETP8LTP4XF-EB(V2) NSM66-40GETP8LTP4XFB-XC(V2) NSM66-8QXGE-EB(V2) NSM66-8QXGEB-XC(V2) NSM66-12QXGE-EB(V2) NSM66-12QXGEB-XC(V2) NSM66-48XGEF-EB(V2) NSM66-48XGEFB-XC(V2) NSM66-16XGEF4QXGE-EB(V2) NSM66-16XGEF4QXGEB-XC(V2) NSM66-SFUB(V2) NSM66-SFUB-XC(V2) NSM66-SFUD(V2) NSM66-SFUD-XC(V2)
Page 103 A2 MPU Card Specification The MPU card is the most important and necessary board in the NSS6600-06 device, and its function is to serve as the control center of the device. Each chassis can support two MPU cards at the same time, realizing the working mode of 1:1 backup. A2.1 NSM66-MPUC (V1) NSM66-MPUC(V1) card panel is as follows:...
Page 104 GE1/2 ports are used to build a stack management link. The current software version only supports LPU cards to build a stack system. For details, please consult the technical support staff of Maipu. The meanings of the indicators on the NSM66-MPUC(V1) card are shown in the table...
Page 105 Name LED Color Status Description Flashing: The U disk has data read and write (it is strictly forbidden to pull out the U disk at this time. Otherwise, the data files in the card will be damaged). Off: the DC0 port is not linked On: the DC0 interface is linked, but no data RJ45 with a green is sent or received...
Page 106 Interface Name Description One RJ45 interface, asynchronous serial port, the default baud rate is 115200bps CONSOLE Console port: One RJ45 interface, asynchronous serial port, default baud rate: 9600bps; One micro usb console interface; Multiplexing mode, auto switching, RJ45 interface is prior Network management port,...
Page 107 Name LED Color Status Description Flashing slowly: Indicates that the board is running normally. 0.5Hz green Fast flashing: Indicates that the board is in the IOS loading state. 5Hz Fast flashing: the monitor is starting. 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically.
Page 108 Name LED Color Status Description On: None of the LPU cards are in place, or at least one LPU card is not working properly. Note: All the LPU cards in place, as long as one of them is not in the start ok state, the indicator will be red, no matter whether the LPU card is loading, unloading, loaded, or unloaded.
Page 109 Name LED Color Status Description Off: data sent from Console/CMM/DEBUG port RJ45 with yellow light Flashing: Console/CMM/DEBUG port has data sending RJ45 serial port with LED Off: Console/CMM/DEBUG port receiving data RJ45 with green light Flashing: Console/CMM/DEBUG port has data reception A2.3 NSM66-MPUE(V2) The diagram of the NSM66-MPUE(V2) card panel is as follows:...
Page 110 The current software version only supports LPU cards to build a stack system. For details, please consult the technical support staff of Maipu. The meanings of the indicators on the NSM66- MPU E (V2) card are shown in the table...
Page 111 Name LED Color Status Description Off: no U disk inserted On: There is a U disk inserted green Flashing: The U disk has data read and write (it is strictly forbidden to pull out the U disk at this time, otherwise the data files in the card will be damaged).
Page 112 MPU cards to build a stack system, GE1/2 ports are used to build a stack management link. The current software version only supports LPU cards to build a stack system. For details, please consult the technical support staff of Maipu. The meanings of the indicators on the NSM66-MPUE-XC(V2) card are shown in the...
Page 113 Name LED Color Status Description mode. Off: The MPU card is working in slave mode. Flashing slowly: Indicates that the board is running normally. 0.5Hz Fast flashing: Indicates that the board is green booting or IOS is loading. 5Hz Off: Indicates that board is not powered on, or the board is powered on but not loaded normally.
Page 114 Name LED Color Status Description reception Off: The stack GE port is not linked On: The stack GE port is linked, but no data is being sent or received. LINK/ACT green Flashing: Stacking GE port is linked, and data is being sent and received at the same time A2.5 NSM66-MPUD(V2)
Page 115 Interface Name Description button with caution. Under single control board configuration: press the reset button, and it will trigger the reset of the control board and restart the whole machine. In the configuration of dual control boards: press the reset button of the active control board to trigger the master/standby switchover.
Page 116 Name LED Color Status Description Off: the DC0 port is not linked On: the DC0 interface is linked, but no data RJ45 comes with is sent or received a green light Flashing: DC0 interface is linked, data is RJ45 being sent and received at the same time comes with LED Off: DC0 is working at 10/100M or is not in RJ45 comes with...
Page 117 Name LED Color Status Description the IOS loading state, 5Hz. Fast flashing: booting, 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically. 0.5Hz It indicates that the board is not powered on, or the board is powered on but not loaded normally.
Page 118 Name LED Color Status Description Flashing slowly: Indicates that the board is running normally, 0.5Hz. green Fast flashing: Indicates that the board is in the IOS loading state, 5Hz. Fast flashing: booting up, 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically.
Page 119 Interface Name Description 1~24 10/100/1000BASE-T electrical interface 25~48 100/1000Base-X SFP optical interface The meanings of the indicators on the NSM66-24GET24GEF-S-EB(V2) card are shown in the table below: Appendix Table A-17 Meanings of the Indicators on NSM66-24GET24GEF-S-EB(V2) Card Name LED Color Status Description Flashing slowly: Indicates that the board is running normally, 0.5Hz.
Page 120 Name LED Color Status Description Flashing slowly: Indicates that the SFU and the corresponding LPU are sending and receiving data. Off: Indicates that all backplane channels of the SFU and the corresponding LPU are in the DOWN state.  For the indicator of the SFU itself, as long as the hg channel with any LPU is in the up state, it will be always on, and the hg channel with any LPU will flash when there is data transmission and reception.
Page 121 Name LED Color Status Description Flashing slowly: Indicates that the board is running normally, 0.5Hz. green Fast flashing: Indicates that the board is in the IOS loading state, 5Hz. Fast flashing: booting up, 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically.
Page 122 numbered ports such as 2, 4, 6, etc. on the upper layer, and ▼ indicates the status of odd-numbered ports such as 1, 3, 5, etc. on the lower layer.  SFUs of different models cannot be mixed to be inserted. A3.5 NSM66-SFUB(V2) The diagram of the NSM66-SFUB (V2) card panel is as follows:...
Page 123  For the indicator of the SFU itself, as long as the hg channel with any LPU is in the up state, it will be always on, and the hg channel with any LPU will flash when there is data transmission and reception. There are two types of port indicators: ▲...
Page 124 Name LED Color Status Description Flashing slowly: Indicates that the SFU and the corresponding LPU are sending and receiving data. Off: Indicates that all backplane channels of the SFU and the corresponding LPU are in the DOWN state.  For the indicator of the SFU itself, as long as the hg channel with any LPU is in the up state, it will be always on, and the hg channel with any LPU will flash when there is data transmission and reception.
Page 125 Name LED Color Status Description a fault that affects services and cannot be recovered automatically. 0.5Hz It indicates that the board is not powered on, or the board is powered on but not loaded normally. LPU[9:0] On: Indicates that at least one backplane channel of the SFU and the corresponding LPU is in the Up state.
Page 126 Name LED Color Status Description Flashing slowly: Indicates that the board is running normally, 0.5Hz. green Fast flashing: Indicates that the board is in the IOS loading state, 5Hz. Fast flashing: booting up, 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically.
Page 127 A4.1 NSM66-24GET24GEF4XF-EB(V2) NSM66-24GET24GEF4XF-EB(V2) interface card is an interface card composed of Gigabit Ethernet electrical signal, Gigabit Ethernet optical signal and 10G Ethernet optical signal. This card supports 24 10Base-T/100Base-TX/1000Base-T RJ45 interfaces, 24 1000Base-X SFP optical interfaces, and four 10GBase-SR/LR/ER SFP+ optical interfaces. The panel of NSM66-24GET24GEF4XF-EB (V2) is as follows: Appendix Figure A-14 NSM66-24GET24GEF4XF-EB (V2) Card Panel Diagram NSM66-24GET24GEF4XF-EB (V2) interface sub-card is shown in the following table:...
Page 128 Name LED Color Status Description It indicates that the board is not powered on, or the board is powered on but not loaded normally. Off: The link interface of the GE port is not connected LINK/ACT green On: GE port link interface is connected (RJ45 bottom LED) Flashing: Data is being sent or received on the link interface of the GE port...
Page 129 is shown in the following table: Appendix Table A-19Introduction to NSM66-24GET24GEF4XFB-XC(V2) interface daughter card interfaces Interface Name Description 1~24 10Base-T/100Base-TX/1000Base-T RJ45 interface 25~48 100BASE-FX/ 1000Base-X SFP optical interface 49~52 10GBase-SR/LR/ER, 1000BASE-X SFP+ optical interface The meanings of the indicators on the NSM66-24GET24GEF4XFB-XC(V2) interface subcard are shown in the following table: Appendix Table A-20 Meanings of the Indicators on NSM66-24GET24GEF4XFB-XC(V2) Interface Subcard...
Page 130 Name LED Color Status Description Flashing: The SFP port is linked and data is being sent and received at the same time Off: The SFP+ port is not linked LINK/ACT On: The SFP+ port is linked, but no data is green being sent or received (SFP+ comes with...
Page 131 shown in the following table: Appendix table A-29 Meanings of Indicators on NSM66-48GEF4XGEF-EB (V2) Interface Subcard Name LED Color Status Description Flashing slowly: Indicates that the board is running normally. 0.5Hz green Fast flashing: Indicates that the board is in the IOS loading state.
Page 132 The panel of NSM66-48GEF4XGEFB-XC(V2) is as follows: Appendix Figure A-12 NSM66-48GEF4XGEFB-XC (V2) card panel The interface introduction of the NSM66-48GEF2XGEF-EA (V2) interface sub-card is shown in the following table: Appendix Table A-21 Introduction to NSM66-48GEF4XGEFB-XC(V2) interface sub-card interfaces Interface Name Description 1~48 100BASE-FX/1000Base-X...
Page 133 Name LED Color Status Description being sent and received at the same time Off: The SFP+ port is not linked LINK/ACT On: The SFP+ port is linked, but no data is green being sent or received (SFP+ comes with LED) Flashing: SFP+ port is linked, and data is being sent and received at the same time ...
Page 134 Appendix table A-33 Meanings of Indicators on the NSM66-48GET4XGEF-EB (V2) Interface Subcard Name LED Color Status Description Flashing slowly: Indicates that the board is running normally. 0.5Hz green Fast flashing: Indicates that the board is in the IOS loading state. 5Hz Fast flashing: the boot is starting.
Page 135 Appendix Figure A-13 NSM66-48GET4XGEFB-XC(V2) card panel The interfaces of the NSM66-48GET4XGEFB-XC (V2) interface sub-card are shown in the following table: Appendix Table A-34 Introduction to NSM66-48GET4XGEFB-XC(V2) interface daughter card interfaces Interface Name Description 1~48 10Base-T/100Base-TX/1000Base-T RJ45 interface 49~52 10GBase-SR/LR/ER, 1000BASE-X SFP+ optical interface The meanings of the indicators on the NSM66-48GET4XGEFB-XC(V2) interface subcard are shown in the following table:...
Page 136 Name LED Color Status Description Off: The SFP+ port is not linked LINK/ACT On: The SFP+ port is linked, but no data is green being sent or received (SFP+ comes with LED) Flashing: SFP+ port is linked, and data is being sent and received at the same time There are two types of port indicators: ▲...
Page 137 Name LED Color Status Description Flashing slowly: Indicates that the board is running normally. 0.5Hz green Fast flashing: Indicates that the board is in the IOS loading state. 5Hz Fast flashing: the boot is starting. 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically.
Page 138 interface Interface Name Description 1~16 10GBase-SR/LR/ER, 1000BASE-X SFP+ optical interface The meanings of the indicators on the NSM66-16XGEFB-XC(V2) interface subcard are shown in the following table: Appendix table A-24 Meanings of Indicators on NSM66-16XGEFB-XC(V2) Interface Subcard Name LED Color Status Description Flashing slowly: Indicates that the board is running normally.
Page 139 10GBase-SR/LR/ER SFP+ optical interfaces. The panel of NSM66-32XGEF-EB (V2) is as follows: Appendix Figure A-22 NSM66-32XGEF-EB (V2) card panel The interfaces of NSM66-32XGEF-EB(V2) interface daughter card are shown in the following table: Appendix Table A-40 Introduction to NSM66-32XGEF-EB(V2) interface daughter card interface Interface Name Description...
Page 140  There are two types of port indicators: ▲ and ▼. ▲ indicates the status of even- numbered ports such as 2, 4, 6, etc. on the upper layer, and ▼ indicates the status of odd-numbered ports such as 1, 3, 5, etc. on the lower layer. A4.10 NSM66-32XGEFB-XC(V2) The NSM66-32XGEFB-XC (V2) interface card is an interface card composed of Gigabit Ethernet electrical signals and 10 Gigabit Ethernet optical signals.
Page 141 Name LED Color Status Description has a fault that affects services and cannot be recovered automatically. 0.5Hz It indicates that the board is not powered on, or the board is powered on but not loaded normally. Off: The SFP+ port is not linked LINK/ACT On: The SFP+ port is linked, but no data is (SFP+ comes with...
Page 142 Interface Name Description interface (support POE/POE+ 802.3af/at) 49-52 10GBase-SR/LR/ER, 1000BASE-X SFP+ optical interface The meanings of the indicators on the NSM66-40GETP8LTP4XF-EB(V2) interface card are as follows: Appendix table A-27 Meanings of Indicators on the NSM66-40GETP8LTP4XF-EB(V2) Interface Card Name LED Color Status Description Flashing slowly: Indicates that the board is running normally.
Page 143 numbered ports such as 2, 4, 6, etc. on the upper layer, and ▼ indicates the status of odd-numbered ports such as 1, 3, 5, etc. on the lower layer. A4.12 NSM66-40GETP8LTP4XFB-XC(V2) The NSM66-40GETP8LTP4XFB-XC (V2) interface card is an interface card composed of Gigabit Ethernet signals, 2.5G Ethernet signals and 10 Gigabit Ethernet optical signals.
Page 144 Name LED Color Status Description Fast flashing: Bootloader is starting. 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically. 0.5Hz It indicates that the board is not powered on, or the board is powered on but not loaded normally.
Page 145 Appendix Table A-30 Introduction to NSM66-8QXGE-EB(V2) Interface Card Interfaces Interface Name Description 40GBASE-SR4/LR4/CR4 QSFP+ optical interface The meanings of the indicators on the NSM66-8QXGE-EB(V2) interface card are as follows: Appendix table A-31 Meanings of Indicators on the NSM66-8QXGE-EB(V2) Interface Card Name LED Color Status Description...
Page 146 Name LED Color Status Description interface indicates the status of the fourth interface in the interface. Off: The port is not split  There are two types of port indicators: ▲ and ▼. ▲ indicates the status of even- numbered ports such as 2, 4, 6, etc. on the upper layer, and ▼ indicates the status of odd-numbered ports such as 1, 3, 5, etc.
Page 147 Name LED Color Status Description Fast flashing: Bootloader is starting. 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically. 0.5Hz It indicates that the board is not powered on, or the board is powered on but not loaded normally.
Page 148 The panel diagram of NSM66-12QXGE-EB(V2) is as follows: Appendix Figure A-20 NSM66-12QXGE-EB(V2) card panel The interfaces of the NSM66-12QXGE-EB(V2) interface card are shown in the following table: Appendix Table A-34 Introduction to NSM66-12QXGE-EB(V2) interface card interfaces Interface Name Description 1~16 40GBASE-SR4/LR4/CR4 QSFP+ optical interface The meanings of the indicators on the NSM66-12QXGE-EB(V2) interface card are shown...
Page 149 Name LED Color Status Description When light 1 is on, each port indicator indicates the status of the first port in the port. When light 2 is on, the indicator of each interface indicates the status of the second interface in the interface. When light 3 is on, the indicator of each interface indicates the status of the third interface in the interface.
Page 150 Appendix table A-37 Meanings of the Indicators on NSM66-12QXGEB-XC(V2) Interface Card Name LED Color Status Description Flashing slowly: Indicates that the board is running normally. 0.5Hz green Fast flashing: Indicates that the board is in the IOS loading state. 5Hz Fast flashing: Bootloader is starting.
Page 151 of odd-numbered ports such as 1, 3, 5, etc. on the lower layer. A4.17 NSM66-48XGEF-EB (V2) The NSM66-48XGEF-EB(V2) interface card is a 10 Gigabit Ethernet optical signal interface card. This card supports 48 10GBASE-SR/LR/ER/CR SFP+ optical interfaces. The panel diagram of NSM66-48XGEF-EB(V2) is as follows: Appendix Figure A-22 NSM66-48XGEF-EB(V2) card panel The interfaces of the NSM66-48XGEF-EB(V2) interface card are shown in the following table:...
Page 152 Name LED Color Status Description Off: the 10G port is not linked LINK/ACT On: The 10G port is linked, but no data is (SFP+ comes with green being sent or received LED) Flashing: 10G port is linked, data is being sent and received at the same time There are two types of port indicators: ▲...
Page 153 Name LED Color Status Description Flashing slowly: Indicates that the board is running normally. 0.5Hz green Fast flashing: Indicates that the board is in the IOS loading state. 5Hz Fast flashing: Bootloader is starting. 5Hz Flashing slowly: Indicates that the board has a fault that affects services and cannot be recovered automatically.
Page 154 Appendix Table A-42 Introduction to NSM66-16XGEF4QXGE-EB(V2) Interface Card Interfaces Interface Name Description 1~16 10GBASE-SR/LR/ER/CR SFP+ optical interface Support 1000BASE-X SFP optical module 17~20 40GBASE-SR4/LR4/CR4 QSFP+ optical interface The meanings of the indicators on the NSM66-16XGEF4QXGE-EB(V2) interface card are as follows: Appendix table A-43 Meanings of Indicators on the NSM66-16XGEF4QXGE-EB(V2) Interface Card Name...
Page 155 Name LED Color Status Description 100G port status indicator to indicate the current status of each 25G or 10G port after 1/4: When light 1 is on, each port indicator indicates the status of the first port in the port. When light 2 is on, the indicator of each interface indicates the status of the second interface in the interface.
Page 156 Interface Name Description 1~16 10GBASE-SR/LR/ER/CR SFP+ optical interface Support 1000BASE-X SFP optical module 1 7~20 40GBASE-SR4/LR4/CR4 QSFP+ optical interface The meanings of the indicators on the NSM66-16XGEF4QXGEB-XC(V2) interface card are as follows: Appendix table A-45 Meanings of Indicators on NSM66-16XGEF4QXGEB-XC(V2) Interface Card Name LED Color...
Page 157 Name LED Color Status Description When light 1 is on, each port indicator indicates the status of the first port in the port. When light 2 is on, the indicator of each interface indicates the status of the second interface in the interface. When light 3 is on, the indicator of each interface indicates the status of the third interface in the interface.
Page 158 A5.1 AD8 00-1D005M(V1) AC Power Module The panel of AD800-1D005M(V1) AC power module is as follows: Appendix Figure A-34 AD800-1D005M(V1) power module panel The meanings of the indicators on AD800-1D005M(V1) AC power supply module are as follows: Appendix Table A-64 Meanings of the indicators on AD800-1D005M(V1) power module Name LED Color Status Description...
Page 159  When using 110V dual live wire input, the maximum output power of AD800- 1D005M can also reach 800W. A5.2 AD1600-1D005M (V2) AC Power Module The panel of AD1600-1D005M (V2) AC power module is as follows: Appendix Figure A-35 AD1600-1D005M (V2) Power Module Panel The meanings of the indicators on the AD1600-1D005M (V2) AC power module are as follows: Appendix Table A-66 Meanings of the indicators on AD1600-1D005M (V2) power module...
Page 160 Item Data Output voltage 54V, 12V AC220V: 8A Input current AC110V: 11A Maximum output power AC 220V: 1600W AC110V: 1200W When using 110V dual live wire input, the maximum output power of AD1600-  1D005M(V2) can also reach 1600W. A5.3 DD1600M-5V1F(V1) DC Power Module The panel of DD1600M-5V1F(V1) DC power module is as follows: Appendix Figure A-26 DD1600M-5V1F(V1) power module panel...
Page 161 Item Data Rated input voltage range 48V~60V DC Max. input voltage range 36V~72VDC Output voltage 54V, 12V Max. output power 36V~41V DC: 1200W 42V~72V DC: 1600W A6 Fan Module Specifications The fan module is an important part to ensure the normal operation of the device system, and provides airflow for the system to dissipate heat.
Page 162 Name LED Color Status Description working green: The fan is working normally red: The fan is working abnormally A6.2 FAN-15B-01(V1) The diagram of the FAN-15B-01(V1) card panel is as follows: Appendix Figure A-27FAN-15B-01(V1) card panel The meanings of the indicators on the FAN-15B-01 (V1) card are shown in the table below: Appendix Table A-48Meanings of Indicators on FAN-15B-01(V1) Card Name LED Color...
Page 163 Appendix Figure A-29LPU blank board The schematic diagram of the power blank board is as follows: Appendix Figure A-30Power blank board...
Page 165 B Specifications of Common Interfaces Describes the attributes of the device interfaces B1 Console Port Attributes Appendix Table B-1Console port attributes Attributes Description Interface standard Asynchronous EIA/TIA-232 Connector type RJ45 Baud rate 9600~115200 (the default value is 9600) Connected with the serial port of a local Supported services terminal (such as PC), and run a terminal emulation program on the terminal...
Page 166 Attributes Description Interface standard IEEE 802.3z Connector type Work mode 1000Mbps full duplex/1000Mbps auto- negotiation Support SFP interface Support 1000Base-X Connection cable single mode fiber or multimode fiber B4 10GBase-SR/LR/ER SFP+ Optical Interface Attributes Appendix Table B-4 10GBase- SR/LR/ER SFP+ Optical Interface Attributes Attributes Description Interface standard...
Page 167 Cable none C Cable  It is recommended to use relevant cables of Maipu on the device.  The following information is for reference only, please consult Maipu marketing personnel or technical support engineers for details. C1 Console Port Cable The console port cable of the NSS6600-06 switch is connected to the 9 -core serial socket of the computer.
Page 168 RJ45 Signal Direction DB-9 —— —— ← ← ← —— —— —— —— C2 Ethernet Electrical Interface Cable Appendix Table C-2 RJ45 cable connection table RJ45 Signal Direction RJ45 Description Length TRD0+ ←→ twisted pair TRD0- ←→ TRD1+ ←→ twisted pair TRD1- ←→...
Page 169 1000Base-X SFP Gigabit Optical Module Model and Corresponding Interface Cable Relationship Table Appendix Table C-31000Base-X SFP Gigabit optical module model and corresponding interface cable relationship table Max. Overlo Interface Trans Center Optical Module Cable missi Remar Wavelen Optical Sensiti Inte Model Optical Specificati...
Page 170 Model Power vity Specification Distance Powe SFP- suppo Multimode (OM4) -7.3~-1 <-9.9 > -1 850nm fiber (fiber diameter: 0.4km L192P 50μm) DDMI SFP- suppo <-14.4 >0.5 9/125μm 1310nm 8.2~0.5 10km _ _ L192P single mode DDMI SFP- suppo -4.7~ 4 <-15.8 >...
Page 171 GETB Electrical Port Module Appendix Table C-7GETB electrical port module model parameters and corresponding interface cable relationship table GETA Module User Cable Type Transmission Max. Remark Model Interface Rate Transmission Distance 10Mbps/100 Mbps/1000 Mbps Category 5 and above SFP-GETB RJ45 100m Half- twisted pair...
Page 172 Appendix Figure C-310A AC Power Cable C10 16A AC Power Cord Appendix Table C-916A AC power cord description Supporting Power Power Cord Max. Load Main Country Supply Model Length Current Region of Use AD1600-1D005M (V2) 3 meters Chinese mainland Appendix Figure C-416A AC power cord ...
Page 173: Temperature Requirements
Ground Wire Length Wire Diameter Color Terminal Model Specification P7878-1465 10mm² yellow green Single-hole cold-press terminal D Equipment Operating Environment Requirements D1 Environmental Requirements for Computer Room D1.1 Computer Room Building Requirements It is recommended that the computer room adopt an anti-static floor to avoid dust. It is generally required to lay an electrostatic raised floor.
Page 174: Humidity Requirements
measures (such as drying, drying, etc.).  Long-term working altitude: 45℃@2000m. If the distance is greater than 2000m and less than 4000m, the temperature will drop by 1°C for every increase of 220m, that is, the derating of 1°C/220m.  Storage altitude: <5000m.
Page 175: Space Requirements
 When evaluating the ground load, please consider the need for future switch expansion (such as adding boards). D1.5 Space Requirements In order to ensure sufficient operating space for moving the chassis far away and for module plugging and maintenance, it is recommended that the aisle width of the device room should not be less than 0.8meters.
Page 176: Anti-Interference Requirements
The device room should prevent the intrusion of harmful gases such as SO S, NO etc. The specific limit values are shown in the table below: Appendix table D-4Harmful gas content index in computer room Max. (mg/m Sulfur dioxide SO Hydrogen sulfide H 0.006 Nitrogen dioxide NO...
Page 177 D2 Power Condition Requirements D2.1 AC Basic Power Requirements  The low-voltage power supply system should adopt a three-phase five-wire system or a single-phase three-phase system. The nominal voltage of low-voltage alternating current is 110V/220V, and the frequency is 50Hz/60Hz. ...
Page 178  For communication loads that require uninterrupted AC or no transient, UPS power supply system or inverter power supply system should be used for power supply.  When the mains power is abnormal, in order to ensure the important communication load and important power load, the communication station should be equipped with a self-provided generator set as a self-provided power supply.
Page 179  Batteries should be installed in two or more groups, and their total capacity is determined by the time when the battery groups independently supply power to the load.
Page 181 E Equipment Grounding Specification and Protection E1 Equipment Grounding Specifications Grounding specifications include: general grounding specifications, device room building grounding specifications, device grounding specifications, communication power supply grounding specifications, and grounding wire layout specifications. E1.1 General Grounding Specifications Common grounding specifications are shown in the table below. Appendix Table E-1General Grounding Specifications Description The grounding design should be designed according to the principles of...
Page 182 Description All communication equipment and supporting equipment (mobile base station, transmission, switching, power supply, etc.) in the machine room shall be protected and grounded. The protective grounding of all equipment in the station shall be connected to the same main grounding bar. The protective grounding of equipment in the same machine room shall be connected to the same protective grounding bar in the same machine room.
Page 183 Description a nominal discharge current of not less than 20KA. The protective ground of the communication power supply and the protective ground of the communication device should share a set of grounding bodies. If the communication power supply and the communication device are in the same computer room, it is advisable to share the same protective ground bar in the computer room.
Page 184 E2 Device Protection This chapter mainly introduces the matters needing attention for device lightning protection during installation. E2.1 General Requirements for Lightning Protection Cabling Equipment cables can be divided into indoor cables and outdoor cables according to the location of the connection terminal. The two have different requirements for wiring in the lightning protection design.
Page 185  When routing optical fibers, it is required that the cables be routed smoothly and bundled neatly. Outdoor optical cables require that the internal strengthening core be grounded before entering the room, and the optical fibers cannot be stretched or bundled too tightly.
Page 186 rounding radius should not be less than 2mm), pass through the metal plate hole and turn along the sharp edge of the structural member When used, a protective cover or liner should be added.  Be careful when plugging and unplugging the connector to avoid damaging the connector or breaking the optical fiber due to excessive force.
Page 187 impedance is low enough. Appendix Figure E-1Schematic diagram of device equipotential connection 1. Equipment ground terminal 2. Device equipotential connection line 3. Ground protection cable 4. Ground bar F Cable Fixing Recommendation F1 Anti-falling Treatment of AC Power Cable To ensure the normal operation of the device and prevent accidental power failure, please close the anti-disengagement device on the handle of the AC power module downwards and lock the cables, as shown in the following figure: Appendix Figure F-1 Schematic diagram of anti-tripping of AC power lines...
Page 188 Appendix Figure F-2 Cable Bundling Diagram  In the middle of the cable, the bending radius should not be less than 2 times of the cable diameter, and at the outlet of the connector, the bending radius should not be less than 5 times of the diameter.
Page 189  The power cord must not be tied to the rails of moving parts.  For power cables connected to moving parts, such as grounding wires, etc., a certain margin should be left after assembly to prevent the cables from being stressed. When the moving parts reach the installation position, it should be ensured that the excess cables will not come into contact with heat sources, sharp corners, sharp edges, etc.
Page 190  For terminal blocks with crimped cold-pressed terminals (such as air switches, etc.), the metal part of the cold-pressed terminals should not be exposed outside the terminal block during assembly.
Page 191 G Environmental Substance Declaration Appendix Table G-1Toxic and Hazardous Substance Name and Content Identification Toxic and hazardous substances or elements Part name Cr(VI) PBDE Each printed circuit board assembly switching power supply Chassis/Frame (Metal) Chassis pads screw dust cover (plastic) heat sink cable lithium battery...
Page 192  The statement lists all possible components of our company's products. The actual parts contained in each product are subject to the actual product. Printed circuit board assemblies include printed circuit boards and their constituent  IC devices and discrete devices, such as resistors, capacitors, integrated circuits, connectors, etc.

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