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MINI-LINK TN R3/R4Training Document
MINI-LINK TN R3/R4 System Description
MINI-LINK TN System Description
• Magazine
• Power Filter Unit
• Fan
• Node Processor Unit
• Line Termination Unit
• Modem Unit
• Ethernet Termination Unit
• ATM Aggregation Unit
• Access Termination Unit
• Accessories
Access Module Magazine
There are different sizes depending of the need on the site and they house the plug-in units.Provides backplane interconnection of traffic, power and control signals.
Access Module MagazineBackplane
PIU board
NPU board
PIU board
………
Backp
lane
PFU board
MIN
I-L
INK
TN
TDM
PCI
SPI
Power
+24/-48V DC
• Separate backplane with multiple bus structure• The buses are used for traffic handling, system control and power distribution
Access Module Magazine, AMM
AMM 2p• For edge and repeater nodes• Can house 2 full width plug-in units and 2 half width plug-in units• Maximum 2 radio terminals
AMM 2pB• For edge and repeater nodes• Can house 2 full width plug-in units and 2 half width plug-in units• Maximum 2 radio terminals• Redundant DC-power directlyconnected to the magazine
Access Module Magazine, AMM
AMM 6p (previous release)• For medium sized aggregation nodes• Can house 6 full width plug-in units• Maximum 5 radio terminals
AMM 6p B• For medium sized aggregation nodes• Can house 6 full width plug-in units• Maximum 5 radio terminals• Redundant DC-power
Access Module Magazine, AMM
AMM 6p C• For medium sized aggregation nodes• Can house 5 full width plug-in unitsand 2 half width plug-in units• Maximum 5 radio terminals• Redundant DC-power
AMM 6p D• For medium sized aggregation nodes• Can house 4 full width plug-in units and 4 half width plug-in units• Maximum 4 radio terminals• Redundant DC-power
Access Module Magazine, AMM
AMM 20p• For large sized aggregation nodes• Can house 20 full height plug-in units• Maximum 18 radio terminals• Redundant DC-power
MINI-LINK TN System Description
• Magazine
• Power Filter Unit
• Fan
• Node Processor Unit
• Line Termination Unit
• Modem Unit
• Ethernet Termination Unit
• ATM Aggregation Unit
• Access Termination Unit
• Accessories
Power Filter Unit, PFU
Power distribution to the magazine.• DC/DC converter• Filter functions• Short circuit and under voltage protection• At least one per node
PFU2 for AMM 6p (Previous release)• -48VDC as supply voltage
Power Filter Unit, PFU
PFU1 for AMM 20p• -48VDC as supply voltage• Two for redundancy of the node• Alarm interconnection of the fan
Power Filter Unit, PFU
PFU3 for AMM 6p B• -48VDC as supply voltage• Two for redundancy of the node
PFU3 B for AMM 6p C and 6p D• +24 or -48VDC as supply voltage• Two for redundancy of the node
MINI-LINK TN System Description
• Magazine
• Power Filter Unit
• Fan
• Node Processor Unit
• Line Termination Unit
• Modem Unit
• Ethernet Termination Unit
• ATM Aggregation Unit
• Access Termination Unit
• Accessories
Fan Unit, FAU
To provide the correct cooling of the node
Fan Unit, FAU
FAU1 for AMM 20p• Mandatory unit• Three fans for redundancy• Two power interfaces for redundancy• Alarm interface towards PFU1
FAU1
Fan Unit, FAU
Air inAir out
FAU2
FAU2 for AMM 6p• Mandatory plug-in unit
Fan Unit, FAU
Air inAir out
FAU4
The AMM 2p or AMM 2p B must be equipped with a FAU4 depending on the total power dissipation within the AMM.When needed is referred to the TN Indoor Installation ManualEN/LZT 712 0122
MINI-LINK TN System Description
• Magazine
• Power Filter Unit
• Fan
• Node Processor Unit
• Line Termination Unit
• Modem Unit
• Ethernet Termination Unit
• ATM Aggregation Unit
• Access Termination Unit
• Accessories
Node Processor Unit, NPU
The Node Processor Unit is the ”brain” of the node• Mandatory plug-in unit• Holds the configuration of the node• The interface for management and local maintenance• Centralized node processor with DCN router, SNMP Master Agent• Traffic interfaces
NPU 8x2 (Previous release) for AMM 6p, AMM 6p B or AMM 20p• 10/100 BASE-T Ethernet interface for management• 8xE1 Interfaces (120ohm G.703)• 3 User In/Outputs
Node Processor Unit, NPU
NPU1 B for AMM 6p, AMM 6p B or AMM 20p• Same features as NPU 8x2 except for:• USB interface for local maintenance• RMM card for configuration storage
NPU, Traffic Termination
4xE14xE1
NPU1 B
E1 2A –2D
3A3B3C3D
2A2B2C2D
E1 3A –3D
E1
Bus
in b
ack-
plan
e of
AM
M.
Node Processor Unit, NPU
NPU2 for AMM 2p• +24/-48VDC as supply voltage• 4xE1 Interfaces (120ohm G.703)• 10/100 BASE-T Ethernet interface for management and traffic• USB interface for local maintenance
NPU, Traffic Termination
4xE1
NPU23A3B3C3D E1:3A–3D
E1
Bus
in b
ack-
plan
e of
AM
M.
Node Processor Unit, NPU
NPU3 for AMM 2pB, AMM 6p C or AMM 6p D• 4xE1 Interfaces (120ohm G.703)• User Output for A/B alarm• 10/100 BASE-T Ethernet interface for traffic• 10 BASE-T Ethernet interface for management• USB interface for local maintenance
NPU, Traffic Termination
4xE1
NPU34A4B4C4D E1:4A–4D
E1
Bus
in b
ack-
plan
e of
AM
M.
MINI-LINK TN System Description
• Magazine
• Power Filter Unit
• Fan
• Node Processor Unit
• Line Termination Unit
• Modem Unit
• Ethernet Termination Unit
• ATM Aggregation Unit
• Access Termination Unit
• Accessories
Line Termination Unit, LTUTraffic interfaces
E1
Line Termination Unit, LTU
LTU3 12/1 for E1 termination in AMM 2p (with kit),AMM 2p B, AMM 6p C or AMM 6p D• 12xE1 Interfaces, 120ohm G.703
Line Termination Unit, LTUE
1 B
us in
bac
k-pl
ane
of A
MM
.
E1:2A–2D
3A3B3C3D
2A2B2C2D
1A1B1C1D E1:1A–1D
E1:3A–3D
4xE14xE1 4xE1
Line Termination Unit, LTU
LTU 16/1 for E1 termination in any magazine• 16xE1 Interfaces, 120ohm G.703
Line Termination Unit, LTU
E1
Bus
in b
ack-
plan
e of
AM
M. LTU 16/1
E1:2A–2D
E1:4A–4D
4A4B4C4D
3A3B3C3D2A2B2C2D
1A1B1C1D E1:1A–1D
E1:3A–3D
4xE14xE1 4xE1 4xE1
Line Termination Unit, LTU
LTU 155e or LTU155 e/o• Terminates one STM-1 connection with 63xE1 in the backplane.• Electrical interface (G.703)• Optical interface (Short haul S-1.1)
Line Termination Unit, LTUE
1 B
us in
bac
k-pl
ane
of A
MM
.LTU 1551.1.1
1.1.2
1.1.3
1.2.1
1.2.2
1.2.3
1.3.1
1.3.2
1.3.3
1.4.1
1.4.2
1.4.3
1.5.1
1.5.2
1.5.3
1.6.1
1.6.2
1.6.3
1.7.1
1.7.2
1.7.3
2.1.1
2.1.2
2.1.3
2.2.1
2.2.2
2.2.3
2.3.1
2.3.2
2.3.3
2.4.1
2.4.2
2.4.3
2.5.1
2.5.2
2.5.3
2.6.1
2.6.2
2.6.3
2.7.1
2.7.2
2.7.3
3.1.1
3.1.2
3.1.3
3.2.1
3.2.2
3.2.3
3.3.1
3.3.2
3.3.3
3.4.1
3.4.2
3.4.3
3.5.1
3.5.2
3.5.3
3.6.1
3.6.2
3.6.3
3.7.1
3.7.2
3.7.3
TX
RX
STM-1
Line Termination Unit, LTU
LTU B 155• STM-1 interface towards the RBS• Terminates one STM-1 connection with 21xE1 in the backplane.• Electrical interface (G.703)• Optical interface (Short haul S-1.1)
External traffic interfaces with the following capacities(one at the time):• 1xE3 + 1xE1• 2xE2• 2xE1Two E0 interfaces (dig. SC) provide external interface for DCNor• Protection Switching for 1+1 with MMU2
Line Termination Unit, SMU
Line Termination Unit, SMUE
1 B
us in
bac
k-pl
ane
of A
MM
.
SMU2
E1:2A–2B
(E1:2A)2A
(E1:2B)2B
Configured for:1xE1 or2xE1
Line Termination Unit, SMUE
1 B
us in
bac
k-pl
ane
of A
MM
.
SMU2
E2:3B–3C
(E2:3B)
3B 13B 23B 33B 4
(E2:3C)
3C 13C 2
3C 4
3C 3
Configured for:1xE2 or2xE2
Line Termination Unit, SMUE
1 B
us in
bac
k-pl
ane
of A
MM
.
3A 1.13A 1.23A 1.33A 1.4
3A 2.13A 2.23A 2.33A 2.4
3A 3.13A 3.23A 3.33A 3.4
3A 4.13A 4.23A 4.33A 4.4
(E2:3A 1)
(E2:3A 2)
(E2:3A 3)
(E2:3A 4)
SMU2
E3:3A
(E3:3A)
E1:2A
(E1:2A)2A
Configured for:1xE3 and1xE1
MINI-LINK TN System Description
• Magazine
• Power Filter Unit
• Fan
• Node Processor Unit
• Line Termination Unit
• Modem Unit
• Ethernet Termination Unit
• ATM Aggregation Unit
• Access Termination Unit
• Accessories
• Interface to the radio• One MMU per radio• Modulates the digital traffic into analogue radio-modulation• Sets the traffic capacity and frequency bandwidth
Modem Unit, MMU
Modem Unit, MMU
MMU2 (previous release):• C-QPSK modulation• Traffic Capacities in Mbit/s: 2x2, 8, 2x8 or 34+2• To be used together with an SMU2 in a protected terminal 1+1
Modem Unit, MMU
MMU2 B:• C-QPSK modulation• Traffic Capacities in Mbit/s: 2x2, 8, 2x8 or 34+2• Compact 1+1 configuration
Modem Unit, MMU
MMU2 C:• C-QPSK or 16 QAM modulation• Traffic Capacities with C-QPSK in Mbit/s: 2x2, 8, 2x8 or 34+2• Traffic Capacities with 16 QAM in Mbit/s: 2x8, 34+2 or 2x34• Compact 1+1 configuration
Modem Unit, MMU
(E2:1)
(E2:1)
(E2:2)
BB1
BB1
BB2
MMU2 2x2
MMU2 8
MMU2 2x8
1.11.21.31.4
12
1.11.21.31.4
2.12.22.32.4
BB1BB2
E1
Bus
in b
ack-
plan
e of
AM
M.
Modem Unit, MMU
1.1.11.1.21.1.31.1.4
1.2.11.2.21.2.31.2.4
1.3.11.3.21.3.31.3.4
1.4.11.4.21.4.31.4.4
(E3:1) BB1
BB2(E1:17)2
(E2:1)
(E2:2)
(E2:3)
(E2:4)
MMU2 34+2
E1
Bus
in b
ack-
plan
e of
AM
M.
Modem Unit, MMU
MMU2 E:• 16, 64 or 128 QAM modulation• Traffic Capacity in Mbit/s: 155+2• ELP configuration for MSP 1+1 support• SFP for traffic termination• Compact 1+1 configuration
SFP:• User selectable interface module to insert in MMU• Optical interface (Short haul S-1.1)• Electrical interface (G.703)
Modem Unit, MMU Small Form-factor Pluggable
Modem Unit, MMU
(E1) BB2
MMU2 155+2
1
E1
Bus
in b
ack-
plan
e of
AM
M.
(STM1)
BB1
Modem Unit, MMU
MMU2 F:• 16, 64 or 128 QAM modulation• Traffic Capacity in Mbit/s: 155+2• ELP configuration for MSP 1+1 support• SFP for traffic termination• Compact 1+1 configuration• Supports XPIC
XPIC (Cross Polarized Interference Canceller)
1
2
Radio 1 Radio 2
Vertical
Horizontal
MM
U1
MM
U2
XX
V
V
HH
Configuration Procedure For TN
Pre-requisite for Login
• All proxy settings of internet browser should be disabled before logging in.
• Login to traffic node through LCT 2.1 using USB cable.
• Login details: Default i.p. - 10.0.0.1
• User name: control_user
• Password : ericsson
Password
ericsson
Mini-Link craft
Login using USB to mini USB cable
Select from dropdown-Physical view
Right click on TN and select Initial Setup
Select Configure Radio Link
Click on MMU to be configured
Configure according to the data provided ( In Terminal ID, type Site ID and MMU position e.g. site ID is DL016 and MMU position is 2 the Terminal ID should be 016A, second
MMU in same magazine should be 016B. Here A & B are the MMU positions 2, 3) Transmitter should be on.
Configure capacity Modulation as per plan, Configure the MMU and Radio: For MMU2 B Modulation should be CQPSK For MMU2 C Modulation should be CQPSK, UP TO CAPACITY OF 16 E1’S For MMU2 C Modulation should be 16QAM, For CAPACITY more than 16 E1’s to 32 E1’s For MMU2 D Modulation should be 128QAM, For CAPACITY more than 32 E1’s to 75 E1’s For MMU2 E Modulation should be 128QAM, For STM For MMU2 F Modulation should be 128QAM, For XPIC
• Capacity and modulation agile modems optimized for Ethernet, PDH & SDH transport
• MINI-LINK TN handles Ethernet over any of these modems
Modems
16/64/128 QAM
155 Mbit/s
128 QAM
35 – 325
Mbit/s
C-QPSK
2x2 - 17x2
Mbit/s
16 QAM
8x2 - 32x2 Mbit/s
16 QAM
20 – 180
Mbit/s
4 QAM
10 – 80 Mbit/s
PDH modems
64 QAM
30 - 290
Mbit/s
256 QAM
165 - 345 Mbit/s
Ethernet and PDH modems with XPIC and AM
SDH modemswith XPIC*
*XPIC for SDH available with 128 QAM
MMU2 B and CPDH modems
• Capacity agile modems – MMU2 B: 2xE1 - 17xE1,
4-32 Mbit/s Ethernet – MMU2 C: 2xE1 - 32xE1,
4-60 Mbit/s Ethernet– Invest-as-you-grow by use of Soft Keys
• Modulation– MMU2 B: C-QPSK– MMU2 C: C-QPSK and 16 QAM
• Fits in all AMMs except AMM 1p
• Built-in 1+1 protection
• Built-in traffic routing through backplane
• MMU2 B and C are hop compatible with
MINI-LINK E (C-QPSK)
MINI-LINK E MINI-LINK TN
MMU2 BMMU2 C
C-QPSK
MMU2 B and CPDH modems
• Stand alone modem:– Needs no node processor unit
– Needs no separate line interface unit
– Works in 1+0
• Capacity:
– 4-16xE1
• Modulation:
– C-QPSK and 16 QAM
• Line interface - integrated
– 16x E1 on front panel
MMU2 CSStandalone PDH modem
• Fits in AMM 1p
• MMU2 CS is hop compatible with – MINI-LINK E (C-QPSK)– MMU2 B– MMU2 C
• HW support for future planned additional functionality– Fits in any subrack– Ethernet transport, 64 Mbit/s (NPU required)– Increased PDH capacity, 32xE1 (NPU required)– 1+1 protection (NPU required)
MMU2 CSStandalone PDH modem
• Hybrid Radio Link:– Native Ethernet : only 0.5% overhead– Native PDH Optimized with flat multiplexing– Mix Native Ethernet and Native PDH in steps of 2 Mbit/s
• Connect to Ethernet switch via backplane
• Add/drop of 1xE1-80xE1 through backplane
• Protected 2+0
• Optimized for TDM to packet migration
MMU2 DEthernet and Super PDH modem
BandwidthModulation
Capacity and modulation agile modem
Physical modes available with MINI-LINK TN 4.2 via SW upgrade
Physical modes available with MINI-LINK TN 4.1 via SW upgrade
Physical modes available with MINI-LINK TN 4.1FP via SW upgrade
Physical modes available with MINI-LINK TN 4.2FP via SW upgradePhysical modes planned for later in R4 via SW upgrade
• Mix Native Ethernet and Native PDH in steps of 2 Mbit/s• Capacity figures are based on air interface
– 325 Mbit/s air interface equals 330 – 400 Mbit/s line interface capacity• MMU2 D is HW prepared for all the bandwidths, modulations and capacities
mentioned in the table above
Capacity
Mbit/s
7 MHz 14 MHz 28 MHz 40 MHz 56 MHz
4 QAM 10 20 45 65 80
16 QAM 20 45 95 135 180
64 QAM 30 65 140 200 290
128 QAM - 70 155 225 325
MMU2 DEthernet and Super PDH modem
N.A.
• Built-in support for fully redundant traffic routing
• Built-in 1+1 protection
• Fits in all AMMs except AMM 1p
• MMU2 D and MMU2 H are hop compatible
MMU2 DEthernet and Super PDH modem
• Hybrid Radio Link:
– Native Ethernet : only 0.5% overhead
– Native PDH Optimized with flat multiplexing
– Mix Native Ethernet and Native PDH in steps of 2 Mbit/s
• XPIC support
• Adaptive modulation
• Protected 2+0
• Modem optimized for TDM to packet migration
MMU2 HEthernet and Super PDH modem
• Built-in support for fully redundant traffic routing
• Built-in 1+1 protection
• Fits in all AMM’s except AMM 1p
• MMU2 D and MMU2 H are hop compatible
MMU2 HEthernet and Super PDH modem
BandwidthModulation
Capacity and modulation agile modem
Physical modes available with MINI-LINK TN 4.2 via SW upgrade
Physical modes available with MINI-LINK TN 4.1 FP
Physical modes available with MINI-LINK TN 4.2 FP via SW upgradePhysical modes planned for later in R4 via SW upgrade
• Mix Native Ethernet and Native PDH in steps of 2 Mbit/s• Capacity figures are based on air interface
– 345 Mbit/s air interface equals 350 – 425 Mbit/s line interface capacity• MMU2 H is HW prepared for all the bandwidths, modulations and capacities
mentioned in the table above
MMU2 H Modem optimized for TDM to packet migration
N.A.
Capacity
Mbit/s
7 MHz 14 MHz 28 MHz 40 MHz 56 MHz
4 QAM 10 20 45 65 80
16 QAM 20 45 95 135 180
64 QAM 30 65 140 200 290
128 QAM 35 70 155 225 325
256 QAM - - 170 245 345
Physical modes that with MINI-LINK TN 4.2FP support XPIC
via SW upgrade
BandwidthModulation
Capacity and modulation agile modem with XPIC
MMU2 H Modem optimized for TDM to packet migration
Physical modes that with MINI-LINK TN 4.1FP support XPIC
Physical modes planned to support XPIC in later R4 via SW upgrade
Physical modes that with MINI-LINK TN 4.2 support XPIC via SW upgrade
• Mix Native Ethernet and Native PDH in steps of 2 Mbit/s• Capacity figures are based on air interface
– 345 Mbit/s air interface equals 350 – 425 Mbit/s line interface capacity• MMU2 H is HW prepared for all the bandwidths, modulations and capacities
mentioned in the table above
Capacity
Mbit/s
7 MHz 14 MHz 28 MHz 40 MHz 56 MHz
4 QAM 10 20 45 65 80
16 QAM 20 45 95 135 180
64 QAM 30 65 140 200 290
128 QAM 35 70 155 225 325
256 QAM - - 170 245 345
N.A.
Capacity
Mbit/s
7 MHz 14 MHz 28 MHz 40 MHz 56 MHz
4 QAM 10 20 45 65 80
16 QAM 20 45 90 135 180
64 QAM 30 65 135 200 290
128 QAM 35 70 155 225 325
256 QAM - - 170 245 345
BandwidthModulation
Capacity and modulation agile modem with Hitless Adaptive
Modulation
MMU2 H Modem optimized for TDM to packet migration
Hitless adaptive modulation HW support planned for later in R4 via SW upgrade
Hitless adaptive modulation support available in 4.2FP via software upgrade
• Mix Native Ethernet and Native PDH in steps of 2 Mbit/s• Capacity figures are based on air interface
– 345 Mbit/s air interface equals 350 – 425 Mbit/s line interface capacity• MMU2 H is HW prepared for all the bandwidths, modulations and capacities
mentioned in the table above
MMU2 D and MMU2 HComparison
MMU2 D MMU2 H
Hybrid Radio Link Hybrid Radio Link
Bandwidth 7 – 56 MHz 7 – 56 MHz
Modulation 4 – 128 QAM 4 – 256 QAM
Additional functions
Protected 2+0 Protected 2+0
XPIC
Hitless Adaptive Modulation
MMU2 E 155, MMU2 F 155SDH modems
• Capacity:– 1x STM-1, 150 Mbit/s Ethernet– MMU2 F 155 also supports:
• 2 x STM-1, 300 Mbit/s Ethernet per channel, with XPIC using 128 QAM (2 modems needed)
• Integrated line interface– STM-1 front feed through a SFP (Small Form-factor
Pluggable) module, one per terminal– Wayside 1xE1 via backplane
• Traffic feed also trough backplane – via high speed bus
• Modulation agile– 16, 64 and 128 QAM
• Fits in all AMM’s except AMM 1p
• SDH Protection– Integrated switch for 1+1 protection– ELP supporting MSP 1+1– EEP
• Supporting ACAP, ACCP, CCDP
* XPIC available with 128 QAM
MMU2 E 155, MMU2 F 155SDH modems
Configure Protection 1+0 for MMU , else 1+1 should be configured as per planPlease note that when it comes to 1+1 configuration following the rules.(eg for AMM 6P insert MMU in slot no 2-3,or 4-5 strictly)
Click on Basic and add frequency as per plan and Save
Click on Terminal and from BER Alarm Threshold select 1e-6 and Save
Far End ID as per plan and please keep Radio ID unchecked and Save
Click on MMU, No changes required, check Admin status should be In service and Notifications enabled.
Click on RAU, No changes required, check Admin status should be In service and Notifications enabled
Click on RF Power and add Output Power as per Plan and Save
No changes required
After alignment and configuration of MMU and Radio of both ends i.e. near end and far end the final view of the hop will be as below.
Near End View Far End View
In Tree View from the dropdown select Radio Link view and under Radio Links highlight the MMU of which the RSL (receive level), RF
loop and IF loop is to be checked.
RSL IF Loop RF Loop
In Tree View from dropdown select Physical View and in Initial setup configure Basic NE
Select Basic NE
NE Name (Type NE Name as complete Site ID)NE Location Name ( Type City name )NE Contact ( Leave Blank)NE IP Address ( Type IP as per Plan)NE Subnet Mask ( Type subnet as per plan)Default Gateway ( IP of the previous link Node)Continent AsiaDate and time as per current timeRest no changes are required.SAVE the configuration
In Tree View from dropdown select Physical View and in Initial setup configure DCN
No changes required
Under DCN configure OSPF AreasNet address: Type Net address as per planNE Subnet Mask: AS per plan, same as defined in BASIC NE.Area ID : As per planArea Type : Stub ( or as per plan )Click on Create to save the configuration.
NPU SOFTWARE UPGRADATIONREQUIREMENTS:1-LAPTOP2-MINI USB OR CROSS CABLE3-NPU LATEST SOFTWARE Currently R7C02)4-BULLET PROOF FTP SERVER(BPFTFP)
STEPS:
1-Make a folder named tn_ftp_home in your C drive.2-Make three folders folder inside folder (tn_ftp_home) named tn_system_release, tn_error_log & tn_backup_configuration.3-Make a folder ml_tn_software inside folder tn_system_release.4- Unzip the .tar file & copy all the folders in to folder ml_tn_software.5-If your desired software is R7C02 create new folder CXP9010021_1_R7C02 inside tn_system_release folder then copy folder CXP9010021_1 from ml_tn_software & paste to folder CXP9010021_1_R7C02.
In Tree View from dropdown select Physical View and in Initial setup select Software Upgrade.
In C:\ drive create a new folder and name the folder as tn_ftp_home, under tn_ftp_home create a sub folder and
name the folder as tn_system_release
Unzip and place the software to be upgraded in sub folder tn_system_release
For TN Software Upgrade we need BPFTP tool in our system
Click on BPFTP
Click on OK
Create a new user account for only first time, Click on User account
Click OK
Right Click & then click ADD
Type Account Name as anonymous & press OK
Type password as anonymous
Right Click & select New
Right Click
Select Add
3
Select the directory & check the box & press select
Click OK
Click on On-line
In Traffic Node Tree View from dropdown select Physical View and in Initial setup select Software Upgrade.
Click on Upgrade of Baseline
Make sure FTP should be on and running and connect the Node with cross cable.Change the IP of the Local server to the IP of your PC by selecting PC, also make it sure IP of your PC should be 1 greater than Node IPClick on Browse and the upgraded software under folder tn_system_releae will be displayed in the small windowHere the SW we are upgrading is R12B14, click on the required software.
1.Give Release 2.press Apply 3.Press Next
No changes required and click on Next
Click on Start Upgrade
Upgrade grill window
Window showing software upgrade started
Software upgrade in progress
Software upgrade completed and click Activate and OK
Click OK
Activation progress window
Click on Confirm
Click on Confirm
Check the software version