stcflexipacketmultiradioandidufph800-151013141538-lva1-app6891.pdf
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FlexiPacket MultiRadio and IDU FPH800 configuration configuration and commissioning STC
Issu Issue: e: 1
Iss Issue date date:: Feb Febru ruar ary y 201 2013 3
Ali Dawood
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Topics 1-
Flexi Packet MW scenar ios 2- Flexi Packet MW topology 3- XPIC antenna alignment procedures 4- Basic commissioing Assisted Mode 5- Adding New link ink Advanced Mode 6- FPMR FPMR standalone conf ig iguration 7- Ether net ser vic vice & QOS conf ig iguration 8- E1 conf ig igura urattion
1 1 .1
STC
FlexiPacket Microwave scenarios
Overview This document describes the sequence of steps to be adopted in order to install a site with Hub+FPMR(P) SVR 2.4 Network Elements. The supported Hubs are listed in Table 1 and are already supported by the Commissioning Tool CT1.3EP1. Supported IDUs
Abbreviations
Hub 800 or FPH800
FlexiPacket Hub 800 R2.0 Table 1
Supported IDUs
In case of the usage of NON-NSN IDUs, the ODUs must be configured connecting directly the management PC, ei ther via CT or (in this case better) with the WebLCT just to avoid to use two different tools. In these scenarios the powering of the ODUs should be already in place without the P+E support. With the FPMR(P) SVR 2.4 the System Types in Table 2 are available:
Configuration
Hw protection Mode
1+0/1+0 Ring
-
1+1 Hot Stand-by - two cables
mode1 mode3
1+1 Hot Stand-by - single cable
-
1+1 FD - two cables
mode1
1+1 SD - two cables
mode1
2+0 FD - two cables
mode1
2+0 XPIC - two cables
mode1 mode3
2+0 XPIC - single cable Table
2
System configurations
-
STC Basic network structures
Important Note: STC network have network have different topologies and scenarios that can be used for Flexi Packet multi Radio Links : So please note the following before start the commissioning 1- Mesh Topology or Hub site where IDU “Hub IDU “Hub and spoke topology” includes power injector to supply the the MULTIPLE ODU ( refer to the Adding New link Advanced Mode ) ,also please refere to installation Manual for Power injector and Hub800 connectivity . 2-One 2-One to to one links “Tail or chain topology “ ( Refer to Basic commissioing Assisted Mode section ) For that please confirm the right topology always read and review first the TD planning doc site by site , reconfirm the link solution with PM, site supervisors or NSN Care technical team ( Tariq Tariq Ali , Az Azeem Ulla) Ulla).
Two Main basic structures in STC network
1-Hub and Spoke Topology
>Use this topoog topoog" at Sites which is !irect" connecte! to S%H or Cisco MPL MPLS router >Services shou! be create! as E- Line service ,Check how to create them at Service creation section.
>A!!ing new new Lin$ wi be through C# A!vance! Mo!e,Please Mo!e,Please Check the Add new link secti on. >Maximum ports for POE is Two Per IDU which need external power injector if you need to add more links on the same IDU
Toplogy or chain topology 2-Tail Toplogy or
>Services Can be con)igure! as E-L E-LAN or E-L E-LINE Accor!ing to #% !esign >Use Assiste! Mo!e o) C# whie choosing s"ste* as ,+ ,+, or 2+ 2+0 XPIC accor!ing to #% !esign
>You can cascad IDUs to aggregate the traffic into one port connected to MPLS router ,in this case both E-lines and E-LAN can be configured ,but be sure you choose right IDU ports.
4
Commissioning Using Assisted Mode
5
XPIC Antenna alignment
2+0 XPIC Commissioning Procedure Scope This section describes the recommended commissioning tests for a radio link in a 2+0 XPIC Co-Channel-Dual-Polarization configuration. The purpose of the commissioning tests is to verify correct and proper operation of the product. Important! Since operation of the XPIC system depends on correct installation, make sure the guidelines for XPIC system installation provided below are followed correctly.
XPIC Installation Guidelines Antenna and ODU Installation 1. Install the dual polarization antenna and point it in the direction of the other site. 2. Install the two ODUs on a dual polarization antenna using the appropriate mounting kit, and mark the ODUs with V and H respectively. IDU-ODU Cable Installation 1. Install two cables between the ODUs and the drawers (IDMs). Note that cable length difference should not exceed 10 meters. 2. Mark the cables with V and H respectively, and make sure V is connected to the right drawer and H is connected to the left drawer. 3. Mark the drawers respectively. Antenna Alignment 1. Power up drawer V on both ends of the link and configure it to the desired frequency channel and maximum power. 2. Align the antennas, one at a time, until expected RSL is achieved. Make sure the achieved RSL is no more than +/-4 dB from the expected level. Polarization Alignment Polarization alignment is required to verify that the antenna feeds are adjusted, to ensure that the antenna XPD (Cross Polarization Discrimination) is achieved. Polarization adjustment should be done on one antenna only. 1. Power up drawer V on both ends of the link and record the RSL reading on one end. 2. Power off drawer V on that end and power on drawer H. 3. Check the RSL obtained on this ODU on H pol, and compare it to the RSL obtained by the ODU installed on the V pol. 4. Verify that XPI (Cross Polarization Interference) is at least 25 dB where: XPI= RSLpol - RSLxpol
RSLpol ->RSL Link RSL with orthogona lpolarizatoi ns used at both sites.
6
XPIC Antenna alignment RSLxpol -> Link RSL with the same polarizatoi n used at both sites. 5. If XPI is less than 25 dB, adjust the feed polarization by opening the polarization screw and gently rotating the feed to minimize the RSL XPOL. Note that polarization alignment is not always possible since the RSL XPOL may fall below the sensitivity threshold of the ODU. It is also recommended to try to maximize the XPI as much as possible, by aligning the polarization.
XPIC Commissioning Tests Individual Link Verification Before operating in XPIC configuration, each of the links (V and H) should be commissioned individually in order to verify its proper operation. 1 Power up only drawer V at both ends and verify its frequency channel and Tx power configuration. 2 Verify that the RSL is no more than +/-4 dB from the expected level. 3 Run BER stability test on the link for at least 15 minutes to ensure error-free operation. 4 Power up only drawer H at both ends and verify its frequency channel and Tx power configuration. 5 Verify that the RSL is no more than +/-4 dB from the expected level. 6 Run BER stability test on the link for at least 15 minutes to ensure error-free operation. XPIC Configuration Verification 1 Using the XPIC cable, connect the two ODUs at each end to the TNC connectors. Make sure the cable is no longer than 3 meters. 2 Configure the drawers to work in XPIC mode. 3 Verify that the RSL at all four ODUs is no more than +/-4 dB from the expected level. 4 Verify that no alarms exist (if a 155 Mbps line is connected). 5 Run BER stability test on each of the 155 Mbps links for at least 1 hour to ensure error-free operation. Note: In a 2+2 configuration, repeat each step above for each of the four coupled ODU combinations. XPIC Recovery Verification In order to verify XPIC operation, simulate the faults described below. 1 Disconnect the IDU-ODU cable for each of the drawers (one at a time), and verify that the other link is operating. 2 Disconnect the XPIC cable and check that the relevant alarms are generated. 3 Power down each of the drawers and verify that the other link is operating. 4 Swap the V and H cables and check that the relevant alarm is generated. 5 Mute and then un-mute one ODU at a time and verify that the other link is operating. Note: In a 2+2 configuration, repeat each step above for each of the four coupled ODUs connected to the two standby IDUs.
7
Assisted Mode 2+0 commissioning
Commissioning procedures for 2+0 XPIC Tips : Use th this met eth hod to configure th the follow following sy syste stem m 1+0 ,1+1 ,1+1 and and 2+0 XPIC First tim time. new lin new link k at Hub and spoke topology you sh should follow follow A Ad dvan anc ced Mode met eth hod to prote rotec ct ser vice . >You can >For
This paragraph gives the procedures to install for the first time (starting from scratch) the FlexiPacket Hub 800 and the FlexiPacket MultiRadio to commission the radio link. The initial ODU SVR is 2.1. The Commissioning Tool configures t he ODUs with svr 2.4 and system type 2+0 X PIC.
Follow the steps here below and the steps in paragraph s Steps Connect the Ethernet cable from your computer Ethernet po rt to the OBB connector of the FlexiPacket Hub 800. OOB IP address is 192.168.254.100 Upgrade the FlexiPacket Hub 800 to R 2.0 . Connect the Ethernet cable from your computer Ether net port to the DCN connector of the FlexiPacket Hub 800 (DCN default IP address: 192.168.255.100). Run the FlexiPacket Commissioning Tool application from Start > Programs > Nokia Siemens Networks > Commissioning Commissioning Tool > Run CT .
Figure 3 First Installation Scenario example (FlexiPacket Hub 800)
ssisted ted Mode 2+0 commissionin ssioning Assi
Select FPH800.
ssisted ted Mode 2+0 commissionin ssioning Assi
6
SW IDU configur at ation ,choose file to upgr ade the IDU to SVR 2.0
ssisted ted Mode 2+0 commissionin ssioning Assi
Configure according Configure according to DCN plan and TD provided by STC planning and click
Configure according to TD and DCN design and click
Next.
Next.
ssisted ted Mode 2+0 commissionin ssioning Assi
Configure and click Add . ODU type must be FPMR(P) . Power supply must be Enable , External power or Power injector must be Disabled
ssisted ted Mode 2+0 commissionin ssioning Assi
10 PWR source must be PWR on integrate device. Note :choose External in case you are using External power ofr power injector
Check and click
11 Add
Next.
if you want anot her Managem ent Port ,Recommended to Add all ports and click Next.
ssisted ted Mode 2+0 commissionin ssioning Assi
13 Configure and click Add .
ODU type must be FPMR(P) . ODU system type must be 2+0 XPIC
ssisted ted Mode 2+0 commissionin ssioning Assi
Check and click Next. Next.
Browse and select latest FPMR software file for both row to upgrade from Click Modify .
ssisted ted Mode 2+0 commissionin ssioning Assi
Fill Licence key and click
Add.
ssisted ted Mode 2+0 commissionin ssioning Assi
Fill Licence key and click and click Add if you if you need to add mor e license .
Click Next.
ssisted ted Mode 2+0 commissionin ssioning Assi
Configure according to STC TD and click Modify. Modify .
21
Configure according to TD and click Modify. Modify . Click Next. Next.
ssisted ted Mode 2+0 commissionin ssioning Assi
Configure according to TD and click Modify .
Configure according to TD and click Modify. Modify . Click Next. Next.
Configure according to TD and click Modify. Modify .
ssisted ted Mode 2+0 commissionin ssioning Assi
Set Source SyncE transfer: NCT (if no clock transfer).
Configure and click Modify . Set Source SyncE transfer: NCT (if no clock transfer).
ssisted ted Mode 2+0 commissionin ssioning Assi
t
Set Source SyncE setting “ Radio” for remote Fixed and Source SyncE setting “
Modify if necessary and click Next.
30
.Configure and click Modify .
2
ODUs, if Source SyncE transfer
ssisted ted Mode 2+0 commissionin ssioning Assi
Radio port service status must be down .
Configure and click Modify . Click Click Next.
ssisted ted Mode 2+0 commissionin ssioning Assi
Modify if necessary and click Next.
Click on Save As. Click Next.
ssisted ted Mode 2+0 commissionin ssioning Assi Select Use default IP. IP.
Click Next. Next.
ssisted ted Mode 2+0 commissionin ssioning Assi Click Yes.
Assi ssisted ted Mode 2+0 commissionin ssioning
Click OK. OK.
Click Yes. Yes .
26
Assi ssisted ted Mode 2+0 commissionin ssioning
40 Click Validate.
27
Assi ssisted ted Mode 2+0 commissionin ssioning
Write the IP address.
28
Assi ssisted ted Mode 2+0 commissionin ssioning
Click
Next.
29
Assi ssisted ted Mode 2+0 commissionin ssioning
Click Run .
30
Assi ssisted ted Mode 2+0 commissionin ssioning
31
Assi ssisted ted Mode 2+0 commissionin ssioning
32
Assi ssisted ted Mode 2+0 commissionin ssioning
Click Next.
Check and click Next. Click Exit.
33
Adding New Link using Advanced Mode
34
Adding New Link Advanced Mode
Choose the FPH800 ,operation mode advanced
Click Next Change FPH800 IP to your IDU ip address
Click Next
35
Adding New Link Advanced Mode
Click Connect
Click Port view ,then click Add device
36
Adding New Link Advanced Mode
Choose device as FPMR(P) PWR device should be power injector Change IP address according to DCN design
Click ODU licenses and add prober license for your newely added ports
37
Adding New Link Advanced Mode
Click Device view Choose both new ports and click add LPG Choose prober LPG type for the new link and click add
38
FPMR Standalone paramters
2.1 Steps Open the Web browser. Enter http:\\ NE IP address authentication screen The Java authentication screen opens.
Open NE screen Enter: •
User name: admin
•
Password: sysmanager
and click on OK.
t
After the first launch you can install a shortcut into the desktop through the Java Control Panel. The Main view opens.
FPMR Standalone paramters
Radio parameter configuration - BB/Modem From the left-hand side tree select Radio > Link parameters.
Figure
Link parameters configuration
To change the parameters click on the Modify configuration button. The following screen opens.
Steps
Select the Standard mode according mode according to the market: etsi or ansi.
Select the Channel bandwidth. bandwidth.
40
FPMR Standalone paramters
Select the Profile Criteria: Criteria: "Standard profile" or "High Performance profile". In the latter case the LDPC (more robust) coding is used.
Select the ACM TX: TX: adaptive or static. Note: In case of the first link setup (befo re antenna align ment), the ACM Tx must be Note: static. It can be adaptive at the end of antennas alignment.
t
QPSK
16 QAM
32 QAM
64 QAM
128 QAM
256 QAM
In Rx side the Modulation scheme automatically changes according to the Modulation scheme used in Tx side in the remote equipment.
t
If the Adaptive Modulation has Modulation has to be used, enter the Lowest Tx Profile and Profile and the Highest Tx Profile. Profile. In Rx side the Modulation scheme automatically changes according to the Modulation scheme used in Tx side in the remote equipment.
t
If the Static Modulation has Modulation has to be used, enter in the relevant Tx Static Profile field Profile field the Modulation scheme to be used:
Click OK OK to to confirm the new parameters.
By clicking on Profiles Details the Details the following read-only read-only screen screen opens.
Figure 113 Profiles Details
This screen shows the modulation schemes selected for the Adaptive Modulation, the max. Tx power for each modulation scheme and the switching thresholds (based o n the S/MSE) from one modulation scheme to another one.
41
FPMR Standalone paramters
3.4
Radio Rad io pa para rame meter ter co confi nfigu gura ratio tion n - Link parameters From the left-hand side tree select Radio > link parameters “main window”.
This window You can configure >ATPC >Frequency >Max TX power >Modify ACM
42
FPMR Standalone paramters
Steps
Click on Service State field. State field. The Input dialog box appears.
Figure 116 BB/Modem Configuration: service state selection
Tick up up and and click on OK OK..
Enter the Tx RF frequency (in kHz) in the Tx Value field Value field or Rx RF frequency (in kHz) in the Rx Value field Value field (250 kHz steps). The dual RF frequency (Rx or Tx) is automatically calculated according to the selected frequency and the frequency shifter.
Figure 117 Tx RF frequency
If the ATPC is not used, enter the Tx Power value value (RTPC). Note: In case of the first link setup (before antenna alignment), the ATPC must be Note: disabled. It can be enabled at the end of antennas alignment.
Figure 118 RTPC
Enable the ATPC ATPC,, if required, and enter the relevant parameters.
Figure 119 ATPC
43
FPMR Standalone paramters
By clicking on HW Parameters button Parameters button the following screen opens.
Figure 120 HW Inventory
This screen is read-only read-only and and shows the remote inventory of inventory of the FlexiPacket MultiRadio.
44
FPMR Standalone paramters
3.5 3. 5
Syst Sy stem em ty type pe co conf nfig igur urat atio ion n Make the following settings depending on the System Type to be used.
3.5. 3. 5.1 1
1+0 1+ 0 Sync SynchE hE Ring Ring co confi nfigu gura rati tion on
Click the System configuration. configuration.
Figure 121 System Configuration View
Click Change System Type on Type on the System configuration window. Select: 1+0 with SynchE-Ring. SynchE-Ring.
Figure 122 Change System Type
Click the Synchronization Synchronization button button on the Configure Configure area. area.
45
FPMR Standalone paramters
Figure 123 Synchronization Configuration
Click Modify Modify.. For Operation mode, mode, No clock transfer, Fixed clock transfer, Priority based clock transfer can be selected (Figure (Figure 124). 124).
t
The red line refers to all the available timing sources and the blue line refers to the output clock.
46
FPMR Standalone paramters
Figure 124 Operation mode configuration
For GbE source type, type, synchronous and non-synchronous can be selected.
47
FPMR Standalone paramters
For Source for synch propagation, propagation, synchronous and non-synchronous can be selected. Under fixed clock transfer mode, only GbE port can be chosen as synch source, and under prio rity based clock transfer mode, only radio and ODU-ODU port can be chosen.
Figure 125 Source for synch propagation
Figure 126 Source for synch propagation
For SSM management, management, disabled and enabled can be chosen. If enabled is selected, the synch source port will send out SSM message for synch propagation, otherwise otherwis e not.
48
FPMR Standalone paramters
For GbE port, Radio port, ODU-ODU port, port, you can select auto or force ql+Value.
Figure 127 GbE port, Radio port, ODU-ODU port
Click Local Status tab-panel. Status tab-panel.
Figure 128 Local Status
t
With the Reset button the value of Synch switch counter will return to default value 0. With the Restart Synchronization button Synchronization button the system will have resynchronization. With the Restart the Restart Synch Source Seletion button, Seletion button, the system will have the restart o f the synch source selection.
49
FPMR Standalone paramters
3.5.2 3.5 .2
1+1 HSB HSBY Y 2 cab cable le mo mode de 1 conf configu igurat ration ion
Click the System configuration on configuration on the left side (Figure (Figure 129). 129).
Click the Change System Type on Type on the system configuration window (Figure (Figure 129). 129).
Select the 1+1 Hot Standby on Standby on the System type item. type item. Select the 2 cables on cables on the Cables item. Cables item. Select the CCM based on based on the Mode Mode item. item. Then input the value in the range 16 to 39 for the P-CCM VID item VID item (Figure (Figure 129). 129).
Figure 129 Protection mode configuration
After protectio n mode is selected, th e NE will cold reboo t. After that, click the Protection button tection button on the configuration area (Figure (Figure 130). 130).
50
FPMR Standalone paramters
The P-CCM Transmission rate can be configured by clicking the value of Protection CCM transmission rate item. rate item. Then the Input Dialog window will open. 3 value 10ms/100ms/1s can 10ms/100ms/1s can be selected. If the peer ODU select the different value, the PCCM configuration error alarm will appear (Figure (Figure 130). 130).
Figure 130 CCM transmission rate configuration
The ODU switching mode can be configured by clicking the Switching Mode item. Mode item. Then the Switching mode window will appear. Two mode unrevertive/reveritve mode can be selected. The peer of ODU should be configured the same switching mode.
Figure 131 Switching mode configuration
51
FPMR Standalone paramters
The system suspend interval can be configured by clicking the Suspend Interval item and the Input Dialog window will appear. Three value 160/240/320 s can s can be selected as the suspend interval (Figure (Figure 132). 132).
Figure 132 Suspend interval configuration
The role of the ODU can be configured by clicking the ODU role item. The input Dialog window will appear. Two value protection/main protection/main can can be selected. The peer of ODU should be configured different role (Figure (Figure 133). 133).
ODU Radio switching stats item shows the ODU real role on the protection group. Colocated ODU Radio switching stats item stats item shows the collocated ODU real role on the protection group. In the normal status, the two role should be different. Colocated ODU force down item down item shows the collocated ODU whether or not on the Force down status. All the item for these is readonly (Figure (Figure 134). 134).
52
FPMR Standalone paramters
Force Down items Down items for the ODU force down configuration. Click the Force down disable item then the input dialog window appear.Enable/disable appear. Enable/disable can can be selected. Enable means Enable means enable the Force down. If active ODU force down, the ODU role switching will happen.
Figure 133 ODU role configuration
Figure 134 Switching status
53
FPMR Standalone paramters
Figure 135 Force down configuration
3.5.3 3.5 .3
1+1 SD 2 cab cable le mod mode e 1 con configu figura ratio tion n
Click the System configuration on configuration on the left side (Figure (Figure 136). 136).
Click the Change System Type on Type on the system configuration window (Figure (Figure 136). 136).
Select the 1+1 Space Diversity on Diversity on the System type item. type item. Then input the value in the range 16 to 39 for the P-CCM VID item VID item (Figure (Figure 135). 135).
Figure 136 Protection mode configuration
After protectio n mode is selected, th e NE will cold reboo t. After that, click the Protection button tection button on the configuration area (Figure (Figure 137). 137).
54
FPMR Standalone paramters
The PCCM and ACCM Transmission rate can be config ured by clicking the value of Protection CCM transmission rate item. rate item. Then the Input Dialog window will open. 3 value 10ms/100ms/1s 10ms/100ms/1s can can be selected. If the peer ODU select the differen t value, the PCCM and ACCM configuration error alarm will appear (Figure (Figure 137). 137).
Figure 137 CCM transmission rate configuration
The role of the ODU can be configured by clicking the ODU role item. The input Dialog window will appear. Two value slave/master can can be selected. The peer of ODU should be configured different role (Figure (Figure 138). 138).
55
FPMR Standalone paramters
Switching forcing is for the Rx data. Click the Switching forcing, there is three value auto/forcedLocal/forceColocated to auto/forcedLocal/forceColocated to choose. Auto Auto means means the acting master ODU will select the Rx data automatically. Force Local means Local means forcing acting master ODU select the Rx data from itself. Force Colocated means Colocated means forcing acting master ODU select the Rx data from collocated ODU.
Figure 138 Rx Switching
56
FPMR Standalone paramters
3.5.4 3.5 .4
2+0 XPI XPIC C 2 cab cable le mod mode e 1 co confi nfigur gurat ation ion
Click the System configuration on the left side (Figure (Figure 139). 139).
Click the Change System Type on Type on the system configuration window (Figure (Figure 139). 139).
Select the 2+0 XPIC on XPIC on the System type item. type item. Select the 2 cables on cables on the Cables item. Select the CCM based on based on the Mode Mode item. item. Then input the value in the range 16 to 39 for the P-CCM VID it VID item. em. Select the horizontal polarization/vertical polarization on ization on the Polarization Polarization item. item. The peer ODU should select the different polarization (Figure (Figure 139). 139).
Figure 139 2+0 XPIC configuration
After protection mode is selected, th e NE will cold reboo t. After that, click the Protection button tection button on the configuration area (Figure (Figure 140). 140).
Switching ODU behavior item on the a cting master ODU. Click the apply means the ODU role will switch between the Peer ODU (Figure (Figure 140). 140).
Rx clock forcing is for the Rx clock. Click the Switching forcing, there is three value auto/forcedLocal/forceColocated to auto/forcedLocal/forceColocated to choose. Auto Auto means means the acting master ODU will select the Rx clock automatically. Force Local means forcing acting master ODU select the Rx clock from itself. Force Colocated means Colocated means forcing acting master ODU select the Rx clock from collocated ODU.
57
FPMR Standalone paramters
Figure 140 Switch ODU behavior
Figure 141 Rx clock switch
58
FPMR Standalone paramters
3.5.5 3.5 .5
2+0 XPI XPIC C 1 cab cable le mod mode e 1 co confi nfigur gurat ation ion
Click the System configuration on configuration on the left side (Figure (Figure 142). 142).
Click the Change System Type on Type on the system configuration window (Figure (Figure 142). 142).
Select the 2+0 XPIC on XPIC on the System type item. type item. Select the 1 cables on cables on the Cables item. Then input the value in the range 16 to 39 for theP-CCM the P-CCM VID item. Select the horizontal polarization/vertical polarization on polarization on the Polarization Polarization item. item. The peer ODU should select the different polarization (Figure (Figure 142). 142).
Figure 142 2+0 XPIC 1 cable configuration
After protection mode is selected, th e NE will cold reboo t. After that, click the Protection button tection button on the configuration area (Figure (Figure 143). 143).
Figure 143 Protection configuration
59
FPMR Standalone paramters
3.5.6 3.5 .6
1+1 FD 2 cab cable le mode mode 1 conf configu igura ration tion
Click the System configuration on configuration on the left side.
Click the System the System type on type on the system configuration window. Select 1+1 Frequency diversity. diversity.
Configure the P-CCM VID, VID, the value between 16 to 39.
Figure 144 1+1 Frequency diversity
The system will hardware reboot after change the system type.
If protection mode is selected, click the Protection button on the configuration area.
Configure the ODU role (master/slave) on the protection window. The ODU behavior can also be shown on the window.
Configure the switch ODU behavior in in the Acting master ODU. ODU.
60
FPMR Standalone paramters
Clock Switch can also operated by switch forcing command. forcing command.
Figure 145 Switch forcing
Set the value of P-CCM and A-CCM transmission rate, rate, 10ms, 100ms and 1s can be chose.
The system status can be checked by click the Equipment/System Status. Status.
Some main information can be shown on the System Status windows. Status windows. The ODU reboot command can also be operated by select software reboot/Configuration to default/Hardware reset. reset.
Figure 146 System Status
61
FPMR Standalone paramters
3.5.7 3.5 .7
2+0 FD 2 cab cable le mode mode 1 conf configu igura ration tion
Click the System configuration on configuration on the left side.
Click the system the system type on type on the system configuration window. Select 2+0 Frequency diversity. diversity.
Configure the P-CCM VID (value VID (value between 16 to 39).
Figure 147 2+0 Frequency diversity
The system will hardware reboot after change the system type.
If protection mode is selected, click the Protection button on the configuration area.
Configure the ODU role (master/slave) on the protection window. The ODU behavior can also be shown on the window.
Configure the switch ODU behavior in in the Acting master ODU. ODU.
62
FPMR Standalone paramters
Clock Switch can also operated by switch forcing command. forcing command.
Figure 148 Switch forcing
Set the value of P-CCM and A-CCM transmission rate, rate, 10ms, 100ms and 1s can be chose.
The system status can be checked by click the Equipment/System Status. Status.
Some main information can be shown on the System Status windows. Status windows. The ODU reboot command can also be operated by select software reboot/Configuration to default/Hardware reset. reset.
Figure 149 System Status
63
FPMR Standalone paramters
3.5.8 3.5 .8
1+1 HSB HSBY Y 2 cab cable le mo mode de 3 conf configu igurat ration ion
Click the System configuration on configuration on the left side.
Click the System type on type on the system configuration window. Select 1+1 Hot Stand-by. Stand-by.
Click the Cables Cables on on the system configuration window. 2 options can be selected: 1 cable/2cables.. cable/2cables Choose 2 cables. cables.
Click the Mode Mode on on the system configuration window. 2 options can be selected: Standalone/CCM based. based. Here we choose Standalone Standalone..
Click the P-CCM VID on VID on the system configuration window. The VID should be set properly within the range [16-39]. And for the partner ODU theP-CCM the P-CCM VID should be same. Here we use 16 as P-CCM VID. VID. The system will reboot after change the system type.
If system mode is changed successfully, click the Protection Protection button button on the system configuration area.
Click the Switching Mode on Mode on the system configuration window. 2 options can be selected: revertive/unrevertive revertive/unrevertive.. Here we choose revertive revertive mode mode and for the partner ODU the same mode should be set properly.
You can Configure the ODU role (main/protection) on (main/protection) on the protection window. The ODU behavior can also be shown on the window. Here we choose main main for for one ODU and for the partner one we should choose protection protection..
Click the CCM Transmission Rate in Rate in CCM area. The CCM interval can be set for A-CCM (ODU-ODU) and P-CCM (Protection). 3 value can be set for the CCI: 10ms/100ms/1s.. Here we choose 100ms 10ms/100ms/1s 100ms and and this value should be same for both A-CCM and P-CCM. For the partner ODU the same value should be set p roperly. The Force down function down function can be enabled enabled to to manual switch the traffic to the partner ODU.
64
FPMR Standalone paramters
The ODU reboot command can also be operated by select software reboot/Configuration to default/Hardware reset. reset.
Figure 150 System type view
Figure 151 Protection Configuration
65
FPMR Standalone paramters
3.5.9 3.5 .9
2+0 XPI XPIC C 2 cab cable le mo mode de 3 conf configu igurat ration ion
Click the System configuration on configuration on the left side.
Click the System type on type on the system configuration window. Select 2+0 XPIC. XPIC.
Click the Cables Cables on on the system configuration window. 2 options can be selected: 1 cable/2cables.. cable/2cables Choose 2 cables. cables.
Click the Mode Mode on on the system configuration window. 2 options can be selected: Standalone/CCM based. based. Here we choose Standalone Standalone..
Click the Polarization Polarization on on the system configuration window. 2 options can be selected: horizontal polarization/vertical polarization. polarization. Here we choose horizontal polarization for polarization for one ODU and for the partner one we should choose vertical polarization.. polarization
Click the P-CCM VID on VID on the system configuration window. The VID should be set properly within the range [16-39]. And for the partner ODU theP-CCM the P-CCM VID should be same. Here we use 16 as P-CCM VID. VID.
The system will reboot after change the system type.
If system mode is changed successfully, click the Protection Protection button button on the system configuration area.
You can Configure the ODU role (master/slave) on (master/slave) on the protection window. The ODU behavior can also be shown on the window. Here we choose master for for one ODU and for the partner one we should choose slave slave..
Rx Clock Switch can Switch can also operated by switch forcing command.
Click the CCM Transmission Rate in Rate in CCM area. The CCM interval can be set for A-CCM (ODU-ODU) and P-CCM (Protection) . 3 value can be set for the CCI: 10ms/100ms/1s.. Here we choose 100ms 10ms/100ms/1s 100ms and and this value should be same for both A-CCM and P-CCM. For the partner ODU the same value should be set p roperly.
66
FPMR Standalone paramters
The ODU reboot command can also be operated by select software reboot/Configuration to default/Hardware reset. reset.
Figure 152 System type view
Figure 153 Protection Configuration
67
FPMR Standalone paramters
4 Test Functions Administration and Maintenance . Select menu Equipment > O peration, Administration
Figure 9
4 .1
Test Functions (1+0)
Loopbacks The loopbacks are available only in 1+0 configuration:
t
•
LL4 : used to test cable connectivity. LL4 can be enabled for a time T (user configurable with granularity in seconds), before being automatically disabled by µP.
•
LL1: RF loopback.
•
LsRL3 (in the local station) and RL3 (in the remote station): these 2 loopbacks can be used to test the radio link.
Note - When a loopback is activated on the remote ODU, the STP protocol must be disabled on the IDU.
FPMR Standalone paramters
Figure 10
IDU-ODU Cable Test
Figure 11
RF Self Test
Figure 12
Link Test
Not more than one loopback can be enabled at a given time. When a loopback is enabled, the system moves to a "test mode" configuration designed for transmitting back traffic. The differences between the test and the normal are in the L2 switch configuration. When operating in test mode the auto-learning and filtering functions are disabled; the MAC forwarding table is flushed. During the entire duration of the loopback the FlexiPacket MultiRadio is not reachable for management. Moreover after loopback has been performed, an xml file becomes available containing the result of the counters.
FPMR Standalone paramters
4.1.1 Check the cable connectivity by using the local loopback. Steps
FPMR Standalone paramters
4.1.2 .1.2
LL1 LL1 (RF (RF loo loopbac pback) k) Check the correct operation of the station by using the RF loopback. Once enabled the FlexiPacket MultiRadio declares the "test mode"; during loopback test the µP is not reachable from local GbE cable and supervision is lost. The system will save the actual configuration for the i nvolved elements (switch, modem, etc…) for being restored once the procedure is finished. Test packets are generated by the µP. The procedure terminates after a configurable time T (default = 10 seconds). Once the previous system configuration is restored, the result of the l oopback test is reported and a detailed report file (.xml format) is available. Steps
FPMR Standalone paramters
4.1. 4.1.3 3
Lin Link Te Test loop loopba bac cks Remotely test the radio link by using two loopbacks: •
LsRL3 in the Local Station
•
RL3 in the Remote Station
t
First activate the loopback in the Remote S tation and then activate the loop back in the Local Station.
t
The time-out set in the Remote S tation must be longer than the time-out set in the Local Station. This test procedure extends local self-test procedure over the radio link. The procedure here described assumes the LCT being able to access both local and remote FlexiPacket MultiRadio. No User traffic is required to be supported whilst remote test procedure is ongoing. Test packets are generated by the µP. The system will save the actual configuration for the i nvolved elements (switch, modem, etc…) for being restored once the procedure is finished. The procedure terminates after a configurable time T (default = 10 seconds). Once the previous system configuration is restored, the result of the loopback test is reported and a detailed report file (.xml format) is available.
t
Note - When a loopback is activated on the remote ODU, the STP protocol must be disabled on the IDU.
FPMR Standalone paramters
Steps for RL3
FPMR Standalone paramters
Steps for LsRL3
FPMR Standalone paramters
8.2 8.2 8.2. 8.2.1 1
Prod Produc uctt and and Soft Softwa ware re menu menu Soft Softw ware are Data ata View iew Select “Software Inventory ” in menu Product & Software . This menu shows the following software data: •
check sum, software release and build of the software uploaded on the active memory bank;
•
check sum, software release and build of the software uploaded on the standby memory bank;
•
version of the software running on each hardware module.
Figure 48
8.2. 8.2.2 2
Equipment Software Data View
Soft Softw ware are Upgr pgrade ade From WebLCT, the build software can be upgraded without any interruption on the operation. The upgrade procedure uploads the software build on the standby bank; the system keeps running the pre-existing s oftware on the active bank. To make active the new build software, it is necessary to execute the switching of the banks. The switching operation runs the new version of the software. To upgrade the build software, follow the steps.
Steps 1. Click on Product and Software menu. 2. Click on SW Upload button. 3. Insert User Name = “admin” and Password = Administrator Password.
FPMR Standalone paramters
4. Click OK .
Figure 49
Software Upgrade
5. Select the file “ standby.pec” (previously stored in the PC). 6. Confirm the operation.
FPMR Standalone paramters
7. In the Stand-by SW load the status of the download ( running ), as shown in the next f igure.
8. Wait until the SW download field disappears from the screen (the downl oad is now complete). 9. In the Switch Loads area two ways to swap the 2 banks are available: a) Click the Switch button in the Immediate Switch field to start with the swap of the two loads: the standby load becomes active and the active load becomes standby. b) Click on Schedule button in the Scheduled Switch field to set the date and time of the activation of the standby load. (Click on Delete to cancel the scheduled d ate).
t
The software upgrade can be done a lso by using any FTP client in binary mode. When you log-in check to be in directory ram 0.
t
The Align loads button copies the active bank to the stand-by bank.
t
Sw load hybrid packet mismatch alarm in the stand-by SW load area
The FlexiPacket MultiRadio can work in 2 different ways according to the type of the installed software: packet (application described in this document) or hybrid . If on the active bank is installed the packet application and for any reason in the stand-by bank is installed the hybrid application, t his alarm will become active.
FPMR Standalone paramters
8.2. 8.2.4 4
Prod Produc uctt Inv Invento entorry Dat Data a Select HW Inventory in the Product & Software menu. The Hardware Inventory menu shows all the inventory data (memorized into non volatile memories).
Figure 51
Product Inventory Data
FPMR Standalone paramters
8 .3
License Upgrade The license is stored into the Memory Hardware. When a change of the functionalities (subject to license) is required, the NE checks if the fees and the credits allow the new setting. Select the menu Equipment > Operation, Administration and Maintenance > tabpanel License.
In the Feature area are listed the features included in the installed license. Pressing the “ Enter License SMS Key Code ” push-button, the License Key Modify window opens, where it is possible to to insert in SMS format a new license for expanding the software functions. There are four text fields for the four blocks of the license.
t
To generate a new license the CLicS application must be used. With this application the new values to be inserted in the four License Key fields are calculated. The instructions to use the CLicS are given in chapter 9.1 Instru Instructions ctions for fetching fetching license key from CLicS system. system .
FPMR Standalone paramters
8.6 8.6
Backu ackup p and Rest estor ore e A backup file, which contains the NE configuration, can be saved on the PC. (Refer to paragraph 8.6.1 8.6.1). ). A previous saved backup file can be downloaded to the NE by the Restore Restore menu. (Refer to paragraph 8.6.2 8.6.2). ). Select the menu Equipment > Operation, Administration and Maintenance > tabpanel Backup & Restore .
8.6.1
Backup
Figure 54
Backup
Steps
Press the Backup button (to create the backup file in the NE). Wait until the Backup status is normal. Press the Get config file from NE button. Click OK on the message “ Always allows this action ”. Browse in the directory to be used to store the backup file. Save the file by assigning name and extension.
FPMR Standalone paramters
8.6.2 Restore Service Creation with QOS configuration
Figure 55
Restore
Steps
Press the Put config file from NE button. Browse in the directories to find the previously saved backup file. Click on Open. Wait until the transfer of the file on the NE has been completed. Click on Restore to activate the new configuration.
t
Click on View Last Restore Log button to view the log of the last restore done on the application, if any (refer to Figure 56). 56).
Service Creation with QOS configuration Example : Service Creation
1- From Service Managment > Create
Choose the ports which will be in same service then Click
Next
Follow TD design for Service VLAN Service Type will be according to Topology and number of ports need to be in same service
82
Service Creation with QOS configuration
Add Mapping rule according to TD and QOS configuration ,this should should be done only for UNI ports Click Next
Assign the Traff ic ic priority according to QOS STC TD provided. Click Next
83
Service Creation with QOS configuration
Click Next
Accept ,All should be Green Click Accept
84
Service Creation with QOS configuration Modify From Main window click Advance QOS
and change the
parameters as per f ollowing slides
Modify to “350,016” for Queue for Queue Rate shaper index shaper index 1 (BE queue egress traffic shping) Others Queue use default “1,000,000”
85
Service Creation with QOS configuration
Modify to max. value for Q0, for Q0, Q1 & Q5, the others leave as default
86
Service Creation with QOS configuration
Radio FPMR/FPR with 8 Queues Modify existing configuration for QoS Mapping
Configuration steps in Priority settings >Check
“IPv4/IPv6” priority >Click on “IPv4/IPv6” Button to map the DSCP (TOSTC) to CoS (Priority value) >Scheduling remain SP Queue in 6 & 7, and WFQ in Queue 5,4,3, 2,1,0 with default weight settings.
87
Service Creation with QOS configuration
Radio FPMR /FPR /FPR with 8 Queues DSCP to COC mapping
Mapping: TOS 46 to 6 TOS 34 to 5 TOS 10 to 1 TOS 0 to 0 The rest as default.
88
E1 service creation Click Create button
to open the Create CESoP Service winService window, there are two modes that can be selected.
Select E1/T1 port window-Advanced mode (SAToP)
g
By default, all the Time Slots are ticked.
Select the values for the parameters Operation mode, PW Type, Type, Time Slot, Port, VC12 / FB channel id, Remote UDP port, Local UDP port, CVLAN ID. ID. Click the button to add a port entity. Click the
button to delete a port
selected.
g
Click
to open the Select Traffic Profile window, Profile window, see Figure 157. 157.
This step is not available for the Basic mode.
Figure 157 Selecting traffic profile for CES service
89
E1 service creation
Figure 156 Select E1/T1 port window-Advanced mode (SAToP)
g
By default, all the Time Slots are ticked.
Select the values for the parameters Operation mode, PW Type, Type, Time Slot, Port, VC12 / FB channel id, Remote UDP port, Local UDP port, CVLAN ID. ID. Click the button to add a port entity. Click the
button to delete a port
selected.
g
Click
to open the Select Traffic Profile window, Profile window, see Figure 157. 157.
This step is not available for the Basic mode.
Figure 157 Selecting traffic profile for CES service
90
E1 service creation
Set the Frame Size, Size, RTP header used, used, Jitter buffer size to size to a profile, and give a Name to Name to it in the corresponding text field.
Click the
button to add the profile defined in step step4 4.
Click
to open the Select Ethernet Service window, Service window, see Figure 158. 158.
Figure 158 Selecting Ethernet service for CES service
Select an desired Ethernet service to be mapped in the available Ethernet service list.
Click
to open the Config Service window, Service window, see Figure 159. 159.
Figure 159 Config service for CES service
Configure the required parameters in the page.
91
E1 service creation
Click
to open the Finish Finish window, window, see Figure 160. 160.
Figure 160 Finishing creating a CES service
Click the cessfully.
button to confirm the settings, the CES service is created suc-
92
E1 service creation
Figure 176 Modify Modifying ing a CES IWF window
In the Modify window, type in the value of the parameters and click the to modify the CES IWF.
8.2.5
button
CES ba ban ndwid idtth In the CES Bandwidth tab Bandwidth tab (see Figure 177), 177), the bandwidth used by each CES service is listed with detailed information, the parameters are listed in Table 61. 61.
Figure 177 CES Bandwidth view
Pa rameter
Des cription
Index
Identification of a CES band width.
Name
A name g iven b y the u se r.
Packet size
The packet size in b ytes.
Packet rate
The packet rate in packet/s.
Bit rate
The bit rate i n b it/s.
Table 61
CES bandwidth parameters
93
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