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IPT MWR Product Management
EDITOR: COO IPT MWR PRODUCT MANAGEMENT
PUBLISHER: SSM IPT MWR
SUBJECT SRAL XD CUSTOMER FEATURE LIST
CFL-011003-1 CFL-011003-1
ISSUE 19
UPDATE: DECEMBER 2008
Nokia Siemens Networks
Customer Feature List
PDH Radio
SRAL XD
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IPT MWR Product Management
This document is issued on behalf of Nokia Siemens Networks by: Nokia Siemens Networks COO IPT MWR PM S.S. 11 Padana Superiore Km.158 20060 Cassina de’ Pecchi (Milan) Italy
The information contained herein is the property of Nokia Siemens Networks and is supplied without liability for errors or omission. The reproduction, transmission or use of this document or its contents is not permitted without express written authority. Infringes will be liable for damages. All rights, including rights created by patent grant or registration of a utility model or design, are reserved. Technical modifications are possible. Technical specifications and features are binding only insofar as they are specifically and expressly agreed upon in a written contract.
3.5 SRAL XD OUTDOOR ACCESS UNIT (FULLY OUTDOOR) VERSION ................................................... 24
History
Issue Date Author Notes
1.0 October 2003 F. Tammaro First Issue
2.0 January 2004 D. Cattelan Up to SVR 3.5, 4.5, 6.2
3.0 February 2004 D. Cattelan Revision-Up to SVR 3.5, 4.5, 6.5
4.0 July 2004 F. Tammaro Revision-Up to SVR 3.5, 4.6, 6.5
5.0 October 2004 D. Cattelan Revision-Up to SVR 3.5, 4.6, 6.5,1.3
6.0 December 2004 D. Cattelan Revision of SVR 3.5, removal of SVR 4.6 and SVR 6.5
7.0 May 2005 F.Tammaro Up to SVR 3.6, Removed SVR 6.3
8.0 September 2005 D. Cattelan Insertion of SVR 2.5
9.0 February 2006 D. Cattelan Insertion of SVR 3.7
10.0 March 2006 D. Cattelan Minor editorial revisions
11.0 April 2006 D. Cattelan Minor Revision
12.0 September 2006 V. Colaleo Insertion of SVR 3.8 and 7.5
13.0 December 2006 V. Colaleo Insertion of SVR 7.7
14.0 January 2007 V. Colaleo Insertion of SVR 3.9
15.0 January 2008 S. Bonetti Revision of SVR 3.9
16.0 March 2008 S. Bonetti Insertion of SVR 3.10
17.0 May 2008 S. Bonetti Revision of SVR 3.10
18.0 June 2008 S. Bonetti Revision of SVR 3.10, Dynamic modulation availability and of ND2/HDe ODU support
19.0 December 2008 S. Bonetti Revision with SVR 3.10 SU11 (3.10.4)
1 Standard Update 1, Maintenance release
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IPT MWR Product Management
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IPT MWR Product Management
1. INTRODUCTION
This document represents the Official Features List of the product SRAL XD developed by Nokia Siemens Networks.
2. SCOPE
From SW embedded perspective, SRAL XD product line is split into four different families of System Version Releases (SVR): SVR 1.x relevant to IDU TwoE1 family SVR 2.x relevant to OAU (Outdoor Access Unit) family SVR 3.x relevant to IDU Plug-in family SVR 4.x relevant to IDU SingleBoard family SVR 7.X relevant to IDU SingleBoard2 family Notice that all the four IDU/OAU families support both ODU ND and ODU HD (HD/HP or HDe), except IDU TwoE1 family that supports ODU ND only.
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3. FEATURE LIST
The Feature List gives information about features supported by each System Version Release. For information relevant to HW and SW availability, please refer to product road map.
3.1 SRAL XD PLUG-IN VERSION
3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10
1.1 Capacities
2/4/8/16xE1 SW selectable on IDU PI 16xE1 version X X X X X X X X
1xE3+E1 WaySide X X X X X X
32xE1 (fixed) on IDU PI 32xE1 version X
4/8/16/32xE1 on IDU PI 32xE1 version X X X
2/4/8/16xT12 SW selectable
X X X X X X X
4x10/100BaseT+8xE1 X X X X X
3x10/100BaseT+1x1000Base-T/Base-X+16xE1 (up to 32xE1 on air)
X
1.2 Outdoor Unit
ODU HDe 3 X X X X X X
ODU HD/HP4 X X X X X X X X
ODU ND X X X X X X X X
ODU ND2 X X X X X X
1.3 Indoor Unit Cards
Controller X X X X X X X X
Controller with fans X X X X X X X
Controller with RS-485 X X X X X X
16xE1 Access Board X X X X X X X X
32xE1 Access Board X X X X
NxT1 Access Board X X X X X X X
16xE1 Base Band module X X X X X X X X
32xE1 Base Band module X X X X
E3 Access Board X X X X X X
E3 Base Band module X X X X X X
Ethernet Access Card (8xE1 + 4xFE) X X X X X
2 HD option not available
3 ODU HDe is able to perform both Normal density and High density channel arrangement. Supported
capacities are 4/8/16/32xE1. Due to HW constraints, High density arrangement is available on 8E1, 16E1/E3 and 32E1. 4 ODU HD/HP is able to perform both Normal density and High density channel arrangement. Supported
capacities are 2/4/8/16xE1.Due to HW constraints, High density arrangement is available on 8E1 and 16E1/E3.
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3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10
Access Card 16xE1+3X10/100baseT+1xGE (SFP) X
16xE1 on mini RJ-21 X
3x 10/100 Base T autosensing RJ-45 X
Gigabit Ethernet on SFP X
Electrical 1x10/100/1000 Base T autosensing via SFP X
Optical Gigabit Ethernet Long Range (1000 Base LX) via SFP
X
HW ready for Spanning Tree X
1.4 Service Facilities
Voice Service Channel via IP on a single link (IP telephone/Netmeeting)
X X X X X X X X
10/100 BaseT NMS channel (Q Ch) X X X X X X X X
10BaseT NMS channel (V Ch) X X X X X X X X
64 Kbit/s V.11 (2x) selectable as -NMS Channel (Dext Ch) or -User Channel
X X X X X X X X
64 Kbit/s Embedded NMS Channel (D embedded Ch)5
X X X X X X X X
2 Mb/s G.703 Wayside Channel6 X X X X X X
128kbit/s RS-485 (V bus) for interworking with SRA L7 X X X X X X
F interface RS-232 (LCT) X X X X X X X X
Interworking over F Interface X X X X X X X
Standard IP protocol stack over NMS channels X X X X X X X X
2 CONFIGURATIONS
(1+0) Terminal X X X X X X X X
2x(1+0) Terminal8 X X X X X X X X
(1+1) Frequency/Polarization diversity X X X X X X X X
(1+1) Hot Stand-by X X X X X X X X
Add/Drop Repeater (including 2x(1+0))9 X X X
X X X X X
Ring (including 2x(1+0) and Add-Drop/ Repeater)10
X X X
(1+0) with two trunks X
(1+1)Hsby with two trunks X
(1+1)FD/PD with two trunks X
5 Not Available for ANSI Version
6 64 Kb/s D embedded functionality included.
7 With new controller card only. When Vbus channel is working, Q channel and V channel are disabled 8 Available on IDU Plug-in 16xE1
9 Available on IDU Plug-in 16xE1 and, starting from SVR 3.10, IDU Plug-In 32xE1 with 16xE1+3xFE+1xGE
Access unit 10
On IDU Plug-in 32xE1 with 32xE1 Access unit
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IPT MWR Product Management
3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10
3 FEATURES
3.1 Configuration management
Spectrum efficiency selection (ND/HD) X X X X X X X X
Tx/Rx frequency selection X X X X X X X X
Tx and Rx Freq.Range Display X X X X X X X X
RF channel management: Frequency plan
11
Continuous mode
X X
X X
X X
X X
X X
X X
X X
X
Tx output power selection mode (fixed, ATPC)
X X X X X X X
Tx output power setting (fixed mode) X X X X X X X X
Capacity selection (NxE1)12
X X X X X X X X
2 Mb/s tributary lines disabling/enabling X X X X X X X X
System activation (on/off) (TX squelch) X X X X X X X X
Dembedded Channel enabling/disabling X X X X X X X X
Dembedded Ch Drop/insert & Time Slot assignment X X X X X X X X
64Kbit/s User Channel mode selection (co/contra-directional)
X X X X X X X X
Automatic F Interface configuration between LCT only or LCT/NMS channel
X X X X X X X
NMS channel protocol stack selection (SRA L like / standard IP stack)
X X X X X X X X
MTU Setting X X X X X X
Ethernet – Vbus Bridiging Enabling/Disabling X X X X X X
11
Channel spacing: 3.5, 7, 14 (13.75), 28 (27.5) MHz for Normal Density arrangement; 7, 14 (13.75) MHz, 28 (27.5) MHz for High Density arrangement. 12 Not Available for E3 versions
13 Managed by LCT. It is managed also by Netviewer from version 6.0 onwards.
14 Not Available for 32xE1, E3 and Data versions
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IPT MWR Product Management
3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10
Security enabling/disabling via password X X X X X X X X
Link identification code X X X X X X X X
NE IP Address and net mask configuration X X X X X X X X
Modulation index setting (BW 99% adaptation)
15
X X X X X X X X
3.2 Ethernet
Forwarding Mode:
LAN/TRUNK Port- Fully Interconnected X
LAN/TRUNK Port- Isolated X
LAN Port isolated; full connected TRUNK port X
LAN Port full connected; TRUNK port isolated X
VLAN forwarding mode: VLAN ID Based VLAN ID Based -No tagging VLAN ID Based - Tagging and Overwrite
X X X
X X X
X X X
X X X
X X X
Double VLAN Tagging (LAN to TRUNK) X
VLAN tag removal X
Bit rate limitation on Ethernet port X
2nd trunk port (e.g. for separation of Real Time traffic and Non Real Time Traffic)
X
Ethernet over Radio E1 mapping
X X X X X
Ethernet Switching X X X X X
Ethernet Port Enabling/Disabling X X X X X
Switching Mode LAN Port Fully Interconnected Isolated Port VLAN Based No Tagging Tagging and Overwrite
X X
X X
X X
X X
X X
X X
X X
X X
X X
X X
QoS16
: Classification
802.1Q VLAN ID LAN port
802.1p IP Based
Scheduling Fixed Priority
WFQ
X X X
X X
X X X
X X
X X X
X X
X X X
X X
X X X X
X X
15
Available with ODU ND only 16
on IDU PI 32xE1 ETH. Please note: on IDU PI 16xE1 ETH Fixed Priority and WFQ have been verified as underperforming and therefore removed starting from SVR 3.10 Standard Update 1 (SU1). The behaviour will be fixed in a future Standard Update.
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IPT MWR Product Management
3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10
3.1.1. Dynamic Modulation
on IDU Plug-in 16xE1 version X X
on ODU HD/HP and HDe17
X X
on mixed link ODU HD/HP-ODU HDe X X
on System types 1+0 and 1+1 Hot Stand-by X X
Payload loss < 2 seconds X X
Switch logic based on S/N Measurement X X
Interworking with ATPC X X
ATPC boost (+X dB18
on Tx Power in 16TCM) X
Enable/Disable Dynamic Modulation X X
Enable/Disable ATPC boost X
Working modes of Dynamic Modulation with IDU Plug-in 16xE1 versions
4QAM-Normal (4xE1 and 8xE1) X X
16TCM-Enhanced (8xE1 and 16xE1) X X
Unique Working Modes for TX and RX direction X X
Switch criteria configurable parameters:
Hysteresys respect to low and high thresholds X X
Check of simultaneous switching conditions before passing from Normal Working Mode to Enhanced Working Mode for a configurable time window
X X
Selection of E1 tributaries to be managed with Enhanced Working Mode
X X
3.2 Fault Management/Maintenance/Monitoring
Disable Dynamic Modulation procedure in case of Controller HW failure
X X
"Hard" switch in case of Dynamic Modulation protocol failure
X X
“Local AIS insertion on half payload” alarm (Normal Working Mode)
25 ODU HDe is able to perform both Normal density and High density channel arrangement. Supported
capacities are 4/8/16xE1. Due to HW constraints, High density arrangement is available on 8E1 and 16E1 26
ODU HD/HP is able to perform both Normal density and High density channel arrangement. Due to HW constraints, High density arrangement is available on 8E1 and 16E1 only.
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IPT MWR Product Management
4.3 4.4
3.1 Configuration management
Spectrum efficiency selection (ND/HD) X X
Tx/Rx frequency selection X X
Tx and Rx Freq.Range Display X X
RF channel management: Frequency plan
27
Continuous mode
X X
X X
Tx output power selection mode (fixed, ATPC)
X
Tx output power setting (fixed mode) X X
Capacity selection (NxE1) X X
2 Mb/s tributary lines disabling/enabling X X
System activation (on/off) (TX squelch) X X
Dembedded Channel enabling/disabling X X
Dembedded Ch Drop/insert & Time Slot assignment
X X
64Kbit/s User Channel mode selection (co/contra-directional)
X X
Automatic F Interface configuration between LCT or NMS channel
X
NMS channel protocol stack selection (SRA L like / standard IP stack)
1.5.6 Interworking over F Interface within same SubNet (LAN Disabling)
X
1.5.7 Standard IP protocol stack over NMS channels X
2 CONFIGURATIONS
2.1 (1+0) Terminal X
2.2 E1 75/120 ohm (selectable via proper cabling) X
3 FEATURES
3.1 Configuration management
3.1.1 Spectrum efficiency selection (ND/HD) X
36
ODU HD/HP is able to perform both Normal density and High density channel arrangement. Supported capacities are 2/4/8xE1.Due to HW constraints, High density arrangement is available on 8E1 only 37 ODU HDe is able to perform both Normal density and High density channel arrangement. Supported
capacities are 4/8xE1. Due to HW constraints, High density arrangement is available on 8E1 only
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IPT MWR Product Management
SVR
2.5
3.1.2 Tx/Rx frequency selection X
3.1.3 Tx and Rx Freq.Range Display X
3.1.4 RF channel management: Frequency plan
38
Continuous mode
X X
3.1.5 Tx output power selection mode (fixed, ATPC)
X
3.1.6 Tx output power setting (fixed mode) X
3.1.7 Capacity selection (NxE1) X
3.1.8 2 Mb/s tributary lines disabling/enabling X
3.1.9 System activation (on/off) (TX squelch) X
3.1.10 Dembedded Channel enabling/disabling X
3.1.11 Dembedded Ch Drop/insert & Time Slot assignment X
3.1.12 Automatic F Interface configuration between LCT or NMS channel
X
3.1.13 F interface configuration between LCT or LCT/NMS channel X
3.1.14 NMS channel protocol stack selection (SRA L like / standard IP stack)
X
3.1.15 MTU Setting X
3.1.16 Security enabling/disabling via password X
3.1.17 Link identification code X
3.1.18 NE IP Address and net mask configuration X
3.1.19 Modulation index setting (BW 99% adaptation)
39
X
3.2 SRA L& SRAL XD interoperability
3.2.1
Mixed link SRA L Universal /SRAL XD ND (on air)
X
3.2.2 Mixed link SRAL XD Fully Outdoor (OAU)/SRAL XD with Single Board or Plug-in IDU X
3.3 Fault Management/Maintenance/Monitoring
3.3.1 Parallel alarms restitution via LED and HW contacts (system summarized alarms)
X
3.3.2 Station alarms collection/remotisation X
3.3.3 Alarm (summarised & detailed) reporting and collection
X
3.3.4 Automatic Storage of last 12 events for each slave X
3.3.5 Tributary loop back at 2 Mbit/s level (Local & Remote)
X
3.3.6 Auto-Test capability (final test / maintenace purpose)
X
38
Channel spacing: 3.5, 7, 14 (13.75) MHz for Normal Density arrangement; 7 MHz for High Density arrangement. 39
Available with ODU ND only
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IPT MWR Product Management
SVR
2.5
3.3.7 Outdoor unit power-up and power-down X
3.3.8 Status control (each card/unit) (Dis. – Con. – OnL. – Mis.)
X
3.3.9 Local / Remote Controller reset X
3.3.10 HW Mismatch alarm transparent management X
3.4 Measures
3.4.1 Received Field X
3.4.2 ODU internal temperature X
3.4.3 Tx output power40
X
3.5 Performance Monitoring
3.5.1 G.826/G.828 parameters calculation X
3.5.2 Radio power Parameters (RSPI, Rx Thr. only) X