SAF CFIP PhoeniX Series User manual
CFIP PhoeniX Series
TDM/IP Split Mount System
Technical Description & Configuration Guide
Product code: S0DRFMD1
SAF Tehnika JSC 2015
Table of Contents
1Overview ....................................................................................................................................5
1.1 CFIP PhoeniX TDM/IP split mount system .......................................................................................5
1.2 CFIP PhoeniX feature Summary.......................................................................................................6
1.2.1 Main Features........................................................................................................................................... 6
1.2.2 IDU mechanical features ...........................................................................................................................6
1.2.3 ODU mechanical features .........................................................................................................................6
1.2.4 IRFU mechanical features..........................................................................................................................7
1.2.5 Interfaces/Management ...........................................................................................................................7
1.3 CFIP PhoeniX ODU Parameters........................................................................................................8
1.4 Application Examples ......................................................................................................................8
1.4.1 CFIP PhoeniX 1+0 configuration ................................................................................................................ 8
1.4.2 CFIP PhoeniX 1+1 Frequency Diversity (FD) ..............................................................................................8
1.4.3 CFIP PhoeniX 1+1 Hot Stand-by (HSB).......................................................................................................9
1.4.4 CFIP PhoeniX 1+1 Space Diversity (SD)......................................................................................................9
1.4.5 CFIP PhoeniX Ring Topology.................................................................................................................... 10
1.5 Technical specification ..................................................................................................................11
1.6 Cable Requirements ......................................................................................................................16
1.7 Labelling ........................................................................................................................................17
2Configuration and Management.......................................................................................19
2.1 Connecting CFIP PhoeniX IDU to power source .............................................................................19
2.1.1 Power protection port............................................................................................................................. 20
2.1.2 Connecting CFIP PhoeniX IRFU to power source.....................................................................................20
2.2 Resetting the CFIP PhoeniX ...........................................................................................................20
2.3 Web Interface................................................................................................................................21
2.3.1 10/100/1000Base-T Ports .......................................................................................................................21
2.3.2 Ethernet Management Connection Configuration.................................................................................. 21
2.3.3 Connecting to Web Interface ..................................................................................................................21
2.3.4 Interface Description............................................................................................................................... 23
2.3.5 Command Execution ............................................................................................................................... 24
2.3.6 Initial Configuration with Web GUI .........................................................................................................25
2.4 Command Prompt Interface..........................................................................................................28
2.4.1 RS-232 Serial Management Port .............................................................................................................29
2.4.2 Telnet connection ...................................................................................................................................31
2.4.3 Initial Configuration with Command Prompt ..........................................................................................32
2.5 LED indications ..............................................................................................................................32
2.5.1 CFIP PhoeniX IDU alarm LED indications .................................................................................................32
2.5.2 Ethernet RJ-45 connector LED indications ..............................................................................................33
2.5.3 E1 RJ-45 connector LED indications ........................................................................................................ 33
3Status Window..........................................................................................................................34
3.1.1 Radial MSE.............................................................................................................................................. 36
3.1.2 LDPC ........................................................................................................................................................ 36
3.2 Alarm status ..................................................................................................................................37
3.3 Ethernet aggregation status .........................................................................................................37
3.4 Diagnostics data............................................................................................................................38
4Detailed Configuration in Web Graphic User Interface .................................................................40
4.1 ODU Configuration ........................................................................................................................40
4.1.1 Radio Configuration ................................................................................................................................40
4.1.2 ATPC Configuration ................................................................................................................................. 41
ATPC Algorithm ...................................................................................................................................................... 42
4.2 IDU Configuration..........................................................................................................................43
4.2.1 Modem Configuration.............................................................................................................................43
4.2.2 Loopback Configuration ..........................................................................................................................45
4.3 Protection configuration ...............................................................................................................47
4.3.1 Frequency Diversity (FD) protection mode .............................................................................................47
4.3.2 Hot Standby (HSB) and Space Diversity (SD) protection modes..............................................................49
4.3.3 Protection Status..................................................................................................................................... 52
4.3.4 Protection Configuration......................................................................................................................... 53
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4.3.5 Advanced Protection Configuration........................................................................................................53
4.4 System Configuration ....................................................................................................................54
4.4.1 User Configuration ..................................................................................................................................55
4.4.2 Name configuration ................................................................................................................................ 56
4.4.3 Other configuration................................................................................................................................. 56
4.4.4 NTP configuration ................................................................................................................................... 56
4.4.5 Upgrade Software ...................................................................................................................................57
4.4.6 Service information.................................................................................................................................57
4.5 IP Configuration Window ..............................................................................................................58
4.5.1 Ethernet management port IP configuration ..........................................................................................59
4.5.2 IP Services ............................................................................................................................................... 59
4.5.3 Static Route Configuration ...................................................................................................................... 59
4.6 Ethernet Configuration..................................................................................................................62
4.6.1 Link state propagation configuration ...................................................................................................... 63
4.6.2 Protocol transparency............................................................................................................................. 64
4.6.3 Ethernet ingress/egress rate configuration.............................................................................................64
4.7 Aggregation configuration............................................................................................................65
4.8 VLAN Configuration.......................................................................................................................67
4.8.1 Ethernet Switch Port Status and Settings................................................................................................69
4.8.2 Ethernet Switch VLAN Status and Settings..............................................................................................69
4.9 QoS ................................................................................................................................................72
4.9.1 General Configuration............................................................................................................................. 72
4.9.2 QoS 802.1p Configuration ....................................................................................................................... 74
4.9.3 DSCP Configuration ................................................................................................................................. 74
4.10 Spanning Tree Configuration.........................................................................................................76
4.10.1 Spanning Tree Configuration................................................................................................................... 76
4.10.2 Region, mapping configuration for MSTP ............................................................................................... 77
4.10.3 Spanning Tree Protocol statistics ............................................................................................................ 78
4.11 SNMP v1/v2 configuration ............................................................................................................79
4.11.1 SNMP community configuration ............................................................................................................. 79
4.11.2 SNMP Allowed Hosts Configuration........................................................................................................79
5Performance and Alarm Management ........................................................................................81
5.1 Alarm Management ......................................................................................................................81
5.1.1 Alarms and Events Structure ...................................................................................................................81
5.1.2 Alarms-Events and Groups Tables........................................................................................................... 81
5.1.3 Alarm Status Window ............................................................................................................................. 83
5.1.4 Alarm Log ................................................................................................................................................ 84
5.1.5 Alarm and Alarm Threshold Configuration..............................................................................................84
5.1.6 Alarm Management Commands .............................................................................................................86
5.2 Performance Management ...........................................................................................................87
5.2.1 Performance Management Data Collection............................................................................................87
5.2.2 Performance Values ................................................................................................................................ 88
Threshold Seconds (TS) .......................................................................................................................................... 88
Tide Mark (TM) ...................................................................................................................................................... 88
5.2.3 Performance Management in Web GUI..................................................................................................88
5.2.4 Adaptive Equalizer .................................................................................................................................. 91
5.2.5 Performance Management Commands ..................................................................................................92
5.3 Ethernet modem statistics.............................................................................................................93
5.4 Ethernet switch statistics ..............................................................................................................95
6Miscellaneous Controls in Web Graphic User Interface ................................................................99
6.1 Ethernet/Configuration files..........................................................................................................99
6.2 License Management ..................................................................................................................102
6.3 Command Line.............................................................................................................................104
6.4 File System...................................................................................................................................104
6.5 Security commands .....................................................................................................................106
7Software Update .....................................................................................................................107
7.1 Uploading File via Ethernet Management Port (FTP)..................................................................107
7.2 Uploading File via Serial Port (Xmodem).....................................................................................108
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8CFIP Discovery Protocol ...........................................................................................................110
8.1 CFIP Unit Discovery Procedure ....................................................................................................110
8.2 Discovery Protocol Performance Examples .................................................................................110
8.2.1 Discovery of IP Address and Firmware Version in Case The Subnet of CFIP Unit is Unknown ..............110
8.2.2 Discovery of IP Address and Firmware Version in Case The Subnet of CFIP Unit is Known ..................111
8.2.3 Discovery of IP Address and Firmware Version of Remote CFIP Unit Connected to Router In Case one
IP address of Remote Units is Known.................................................................................................... 112
9RSSI Port.................................................................................................................................113
10 Pinouts...................................................................................................................................114
10.1 Ethernet RJ-45 port .....................................................................................................................114
10.2 E1 port.........................................................................................................................................114
10.3 Alarm port (26-pin D-SUB)...........................................................................................................114
10.4 RS232 (DB9 female connector)....................................................................................................115
10.5 1+1 protection port (RJ-45) .........................................................................................................115
10.6 1+1 protection cable....................................................................................................................116
10.7 Power protection port .................................................................................................................117
11 Available Accessories...............................................................................................................118
11.1 Other Available Accessories ........................................................................................................119
12 List of Abbreviations................................................................................................................121
13 SAF Tehnika JSC Contacts.........................................................................................................123
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Proprietary notice
The information presented in this guide is the property of SAF Tehnika, JSC. No part of this document
may be reproduced or transmitted without proper permission from SAF Tehnika, JSC.
The specifications or information contained in this document are subject to change without notice due
to continuing introduction of design improvements. If there is any conflict between this document and
compliance statements, the latter will supersede this document.
SAF Tehnika, JSC has no liability for typing errors in this document or damages of any kind that result
from the use of this document.
To get up to date information about accessories and their availability, please contact sales
representative.
Note: FODU/ODU does not contain serviceable parts. Warranty will not be applicable in the
event FODU/ODU has been hermetically unsealed.
Note: SAF Tehnika, JSC is not responsible for any radio or TV interference caused by unauthorized
modifications to this equipment. Such modifications could void the user's authority to operate the
equipment.
Copyright Notice
Copyright © 2015 SAF Tehnika, JSC. All rights reserved.
1Overview
This document briefly describes the CFIP PhoeniX series TDM/IP split mount system (IDU+ODU)
covering the built-in management system, configuration functionality, hardware features, etc.
1.1 CFIP PhoeniX TDM/IP split mount system
CFIP product family is the new next generation product line which is targeting growing demands for
data transmission over microwave radio.
As a result the primary traffic interface for CFIP split mount system is Gigabit Ethernet. As CFIP is
capable of providing bit rate of up to 363Mbps, it is a great addition to SAF portfolio. CFIP radio and
modem performance allows achieving high system capacity by employing 256-decision states
modulation scheme by user’s choice. Apart from the full system capacity of 363Mbps, it is possible to
configure the radio to any of 3.5, 7, 14, 28, 40 and 56 MHz channels as well as to any of 4QAM, 16QAM,
32QAM, 64QAM, 128QAM and 256QAM modulations, thus providing various capacities to suit
particular needs.
SAF Tehnika has employed most modern design solutions and components to create high performance
split mount system with low power consumption – 33-69W per system.
CFIP is a perfect building block for any modern future proof wireless network, including mobile service
providers, fixed data service operators, enterprise customers, municipal and governmental networks
among others.
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1.2 CFIP PhoeniX feature Summary
1.2.1 Main Features
•Split mount system solution
•Capacity: up to 363 Mbps
•Channel Bandwidth: 3.5 / 7 / 14 / 28 / 40 / 56 MHz
•Modulations: 4QAM / 16QAM / 32QAM / 64QAM / 128QAM / 256QAM
•Interfaces: 10 / 100 / 1000 Eth + 20E1/T1
•Traffic: Ethernet only, Eth+1E1/T1 to Eth+20E1/T1
•Frequency bands: 6 / 7 / 8 / 10 / 11 / 13 / 15 / 18 / 23 / 26 / 38 GHz
•ACM and ATPC with QoS four priority queues
•802.1Q VLAN support
1.2.2 IDU mechanical features
•1U high
•Power consumption: 20-30W
•Dimensions 45x430x240 mm, weight 3 kg.
Figure 1.1 CFIP PhoeniX IDU
1.2.3 ODU mechanical features
•Compact unit, 285x285x80mm, 3.9kg, antenna adaption backwards compatible with all CFM
and CFQ series units
•3 handles for user convenience
•Safe and easy to use 4 side locking arrangement
•All connectors on the side of the unit, always at 45°regarding vertical axis for both V and H
polarization
•Power consumption: 13-39W
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Figure 1.2 CFIP PhoeniX ODU
1.2.4 IRFU mechanical features
•Indoor radio unit (IDU+IRFU)
•2U high
•Power consumption: 13-39W
•Dimensions 90x430x260 mm, weight 5.8 kg.
Figure 1.3 CFIP PhoeniX IRFU
1.2.5 Interfaces/Management
•CFIP PhoeniX IDU unit provides Ethernet, E1, power, EOW, alarm, serial, 1+1, ODU connectors
and a grounding screw
•4 Gigabit Ethernet ports for user and management traffic
•Ethernet traffic supports QoS and 4 priority queues, essential for ACM use
•User and NMS traffic could be treated as a single data stream or separated by tagging with
different VLAN tags
•DB-9 connector of the unit enables serial access into the unit
•1+1 RJ-45 connector allows to interconnect 2 CFIP PhoeniX IDUs for 1+1 configuration
•Web, Telnet and SNMP are available as NMS interfaces into the unit
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Figure 1.4 CFIP PhoeniX IDU connectors
1.3 CFIP PhoeniX ODU Parameters
•CFIP PhoeniX is a good example of latest achievements in modem and transceiver
development, providing both excellent radio parameters (System Gain), due to use of QAM
modulations and efficient despite it consumes small amount of power Tx/Rx part of the
system.
•RSL Threshold at for 6GHz ODU BER 10-6, 56MHz, 256QAM, 363Mbps: -64 dBm.
•System Gain with guaranteed max Tx power and Rx sensitivity is 76 dB(SP) and 84 dB (HP)
•ACM (Adaptive Coding and Modulation), hitless ACM opens new possibilities depending on
network designers strategy
•ATPC, Automatic Transmitter Power Control, for increased deployment density capability.
•Very high flexibility allows configuring the system to various channel bandwidths, modulation
schemes and capacity settings
1.4 Application Examples
1.4.1 CFIP PhoeniX 1+0 configuration
•Basic split-mount 1+0 system with up to 20E1/T1 or up to 363 Mbps Ethernet
Figure 1.5 CFIP PhoeniX 1+0 configuration
1.4.2 CFIP PhoeniX 1+1 Frequency Diversity (FD)
•FD protected (1+1) configuration is used with single antenna and OMT (orthomode transducer)
or a coupler at each side of the link;
•Each pair of ODUs utilizes its own frequency channel (flow, fhigh, f′low, f′high);
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•The outgoing (Tx) traffic at each site is passed to both ODUs, and both are always transmitting;
•The incoming (Rx) traffic is picked from one of the ODUs;
•1+1 configuration provides hardware redundancy and mitigates multipath fading;
•Both Tx and Rx switching is hitless.
1.4.3 CFIP PhoeniX 1+1 Hot Stand-by (HSB)
•HSB protected (1+1) configuration is used with single antenna and a coupler at each side of the
link;
•Both the incoming (Rx) and outgoing (Tx) traffic is switched to either one link or other, only
single ODU at each side is transmitting;
•Protects modem and radio from failure;
•Rx switching is hitless, Tx switching <50ms.
Figure 1.6 CFIP Phoenix FD and HSB 1+1 configuration
1.4.4 CFIP PhoeniX 1+1 Space Diversity (SD)
•SD protected (1+1) configuration is used with two antennas at each side of the link;
•Both the incoming (Rx) and outgoing (Tx) traffic is switched to either one link or other,
only single ODU at each side is transmitting;
•In Space Diversity mode antennas are located 10-12 meters apart hence allows
avoiding frequency selective fading - multipath (e.g. reflection over water, air
refraction, etc.);
•Rx switching is hitless , Tx switching <50ms.
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Figure 1.7 CFIP PhoeniX 1+1 SD configuration
1.4.5 CFIP PhoeniX Ring Topology
•Utilization of STP protocol allows CFIP PhoeniX operation in ring topology (for Ethernet
traffic only)
Figure 1.8 CFIP PhoeniX ring topology configuration
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1.5 Technical specification
CFIP PhoeniX IDU
Modem
Channel Bandwidths
3.5, 7, 14, 28, 40, 56 MHz
Modulations
4QAM, 16QAM, 32QAM, 64QAM, 128QAM, 256QAM
Capacity
9 - 363 Mbps
Supported ODUs
CFIP ODU
Applications
Configuration
1+0, 1+1 (HSB, SD, FD),
Ring/Mesh (with RSTP),
2+0, 3+0, 4+0 (built-in Ethernet aggregation)
Protection switching
Hot Stand-by (<50ms), Space/Frequency diversity (hitless,
errorless)
Ports
Ethernet
4x1000Base-T, RJ-45
E1/T1
20 E1/T1, RJ-45
Serial port for configuration
RS-232, DB-9 connector
Alarm port
4 digital inputs, 4 relay outputs (26 pin hi-density D-SUB)
ODU port
N-Type Female
EOW port
3.5mm headset and mic, 64 Kbps
Extension/protection port
RJ-45
DC power connector
2ESDV-02 with screw locks
Management features
Management port
Ethernet with VLAN support or serial (RS-232)
Monitoring
via Telnet, WEB GUI, NMS, SNMP Manager, Serial interface
SNMP
Yes, SNMP traps, MIB, SNMP v1/v2c, RMON
EMS
Uptime, Rx level, Tx level, System temperature, Radial MSE, LDPC
decoder stress, constellation diagram, equalizer graph
ATPC feature
Web based, HTTP
ACM feature
Yes
Ethernet
Switch type
Managed Gigabit Ethernet Layer 2
Max frame size
9728 bytes
MAC table
4K entries; automatic learning and aging
Packet buffer
128KB; non-blocking store & forward
Flow Control
IEEE 802.3x
VLAN support
IEEE 802.1Q (up to 4K VLAN entries)
QinQ (Double Tagging)
Yes, IEEE 802.1ad (Providing Bridging Technique)
QoS
64 level DiffServ (DSCP) or 8 level 802.1p mapped in 4
prioritization queues with VLAN support
QoS queuing
Fixed or weighted (configurable ratio)
Spanning Tree Protocol
IEEE 802.1D-2004 RSTP, IEEE 802.1Q-2005 MSTP
MEF
MEF 9, MEF 14
Mechanical & Electrical
Operational use
Conforms to ETSI EN 300 019 Class 3.1E, IP20, NEMA 1
Temperature Range / Humidity
-5°C to +55°C / 5% to 95%
Dimensions: HxWxD / weight
1U (45x430x240 mm) / 3.1 kg
Max. power consumption
20-30 W
IDU-ODU connection
Belden 9914/RG-8 cable (300 m), RG213 cable (200 m),
N-Type connectors
DC port
-40.5V to -57V DC (conforms to ETSI EN 300 132-2)
Built-in DC and IF port surge
protection
Conforms to ETSI EN 301 489-1;EN 61000-4-5;IEC 61000-4-5
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Ports CFIP PhoeniX ODU CFIP PhoeniX IRFU
Antenna N-Type or flange
A) N-Type or flange
B) Tx and Rx ports
1
IF to IDU N-Type SMA
RSSI BNC 2-port for multi-meter
Power --- (over IF port) 2-pin power port
(alternative to IF port)
Mechanical & Electrical
Operational use Conforms to ETSI EN 300
019 Class 4.1, IP65, NEMA
4X
Conforms to ETSI EN 300 019 Class
3.1E, IP20, NEMA 1
Temperature Range -33°C to +55°C -33°C to +55°C
Dimensions: HxWxD /
weight 288x288x80 mm / 3.5 kg 19” 2U rack 90x430x260 / 5.8 kg
IF port surge
protection Conforms to ETSI EN 301 489-1; EN 61000-4-5; IEC 61000-4-5
Input DC voltage -40.5V to -57V DC (conforms to ETSI EN 300 132-2)
Max. power
consumption SP: 13-27 W; HP: 21-39 W
Max Tx Power
Modulation
Standard/High Tx Power1, dBm
4, U4
GHz L6, U6, 7, 8
GHz 10, 11, 13, 15 GHz 18, 23, 26 GHz 38 GHz
4QAM +33 +19/+27 +19/+25 +19 +17
16QAM +32 +18/+26 +18/+24 +18 +16
32QAM +31 +17/+25 +17/+23 +17 +15
64QAM +29 +15/+23 +15/+21 +15 +13
128QAM +29 +15/+23 +15/+21 +15 +13
256QAM +26 +12/+20 +12/+18 +12 +10
Band Frequency range Duplex offset
4 GHz 3.6 – 4.2 GHz 213 MHz, 320 MHz
U4 Ghz 4.4 – 5.0 GHz 100 MHz, 300 MHz, 312 MHz
L6 GHz 5.925 – 6.425 GHz 252.04 MHz, 266 MHz
U6 GHz 6.425 – 7.125 GHz 160 MHz, 170 MHz, 200 MHz, 340 MHz
7 GHz 7.110 – 7.900 GHz 154 MHz, 161 MHz, 168 MHz, 196 MHz, 245 MHz
8 GHz 7.725 – 8.5 GHz 119 MHz, 126 MHz, 151.614 MHz, 154 MHz, 160 MHz, 208
MHz, 266 MHz, 300 MHz, 310 MHz, 311.32 MHz, 525 MHz,
550 MHz
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Band Frequency range Duplex offset
10 GHz 10.15 – 10.68 GHz 65 MHz, 91 MHz, 300 MHz, 350 MHz
11 GHz 10.7 – 11.7 GHz 490 MHz, 500 MHz, 530 MHz
13 GHz 12.75 – 13.25 GHz 225 MHz, 266 MHz
15 GHz 14.4 – 15.35 GHz 315 MHz, 322 MHz, 420 MHz, 475 MHz, 490 MHz, 644 MHz,
728 MHz
18 GHz 17.7 – 19.7 GHz 1008 MHz, 1010 MHz, 1560 MHz
23 GHz 21.2 – 23.6 GHz 1008 MHz, 1036 MHz, 1200 MHz, 1232 MHz
26 GHz 24.25 – 27.5 GHz 800 MHz, 1008 MHz
38 GHz 38.6 – 40 GHz 700 MHz, 1260 MHz
Notes:
1For CFIP PhoeniX IRFU with Tx and Rx ports (without diplexer), Tx Power and RSL figures for
improve by up to 2 dB
CFIP ODU waveguide flange sizes
4, U4, L6, U6
GHz
7, 8 GHz 10, 11 GHz 13, 15 GHz 18, 23 GHz 26 GHz 38 GHz
N-type UBR84 UBR100 UBR140 UBR220 UBR260 UBR320
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CFIP PhoeniX ODU
CFIP ODU RSL at 10
-6
(dBm) and Total Payload Capacity (Mbps)
BW**, MHz Modulation FEC*** 6
GHz
7
GHz
8
GHz
10
GHz
11
GHz
13
GHz
15
GHz
18
GHz
23
GHz
26
GHz
38
GHz
Bit rate, Mbps
3.5
4QAM
Strong
-97
-95
-95
-97
-96
-95
-93,5
-95
-97
-96,5
-93,5
3
16QAM Strong -90,5 -88 -88 -90 -89 -88 -88 -88,5 -90 -89,5 -86,5 7
32QAM
Strong
-87
-85
-85,5
-87
-86
-85
-85
-85,5
-87
-86,5
-83,5
9
64QAM
Strong
-84
-81,5
-82
-84
-83
-82
-82
-82
-83,5
-83
-80
13
Weak
-81,5
-79
-79,5
-81
-80
-79,5
-79
-79,5
-81
-81
-78
14
7
4QAM Strong -93 -92 -92 -94 -93 -92,5 -91 -92 -94 -93,5 -90,5 8
16QAM
Strong
-86,5
-85
-85,5
-87,5
-86,5
-85,5
-85
-85,5
-87,5
-87
-84
17
32QAM
Strong
-83,5
-82,5
-83
-84,5
-83,5
-83
-82,5
-83
-84,5
-84
-81
21
64QAM
Strong
-80
-79
-80
-81,5
-80,5
-79,5
-79,5
-79,5
-81,5
-80,5
-77,5
28
128QAM Strong -77 -76 -76,5 -78 -77 -76 -76,5 -76 -78 -77,5 -74,5 34
Weak
-75
-73,5
-75
-76
-75
-74,5
-74
-74
-75,5
-75,5
-72,5
36
14
4QAM
Strong
-90
-90,5
-90
-91
-90
-90
-89
-90,5
-91
-90,5
-87,5
17
16QAM
Strong
-83,5
-83,5
-83,5
-84,5
-83,5
-83,5
-83
-84
-84
-83,5
-80,5
34
32QAM Strong -80 -80 -80,5 -81,5 -80,5 -80 -80 -80,5 -80,5 -80,5 -77,5 45
64QAM
Strong
-77,5
-77,5
-78
-79
-78
-77,5
-77,5
-78
-78,5
-78
-75
57
128QAM
Strong
-74,5
-74,5
-75
-75,5
-74,5
-74,5
-74
-75
-75
-75
-72
68
256QAM
Strong
-71
-71
-71,5
-72
-71
-70,5
-70,5
-72
-71,5
-71,5
-68,5
79
Weak -67,5 -67,5 -68 -69 -68 -67,5 -67 -68 -65,5 -68 -65 86
28
4QAM
Strong
-90.5
-89.5
-89
-88.5
-89.5
-89.5
-89
-90
-89
-91.5
-85
35
16QAM
Strong
-84.5
-83
-83
-82.5
-83.5
-83.5
-83
-84
-83
-85
-79
69
32QAM
Strong
-81.5
-80
-80
-80
-80.5
-80.5
-80.5
-80.5
-80
-82
-76
88
64QAM Strong -79 -77.5 -77.5 -77 -78 -77.5 -77 -78 -77.5 -79.5 -73.5 115
128QAM
Strong
-75.5
-74.5
-74
-73.5
-74.5
-74.5
-74
-75.5
-74
-76.5
-70
138
256QAM
Strong
-72.5
-71
-70.5
-70.5
-71
-71
-70.5
-72
-71
-73
-67
161
Weak
-69
-67
-66
-66
-67
-67
-66.5
-69
-67.5
-70
-63.5
174
CFIP PhoeniX Series TDM/IP Split Mount System Technical Description and Configuration Guide • Rev. 1.13 •
© SAF Tehnika JSC 2015
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CFIP ODU RSL at 10
-6
(dBm) and Total Payload Capacity (Mbps)
BW**, MHz Modulation FEC*** 6
GHz 7
GHz 8
GHz 10
GHz 11 GHz 13
GHz 15
GHz 18
GHz 23
GHz 26
GHz 38
GHz Bit rate,
Mbps
40
4QAM
Strong
-89
-87.5
-88
-87.5
-88
-88
-88
-88
-87.5
-89.5
-83.5
49
16QAM
Strong
-82.5
-81.5
-81.5
-81
-82
-82
-81.5
-82.5
-81
-83.5
-77
98
32QAM
Strong
-80
-78.5
-79
-78.5
-79.5
-79.5
-79
-79.5
-78.5
-80.5
-74.5
127
64QAM
Strong
-77
-76
-75.5
-75.5
-76.5
-76
-76
-77
-75.5
-78
-71.5
163
128QAM Strong -74 -73 -72.5 -72.5 -73.5 -73 -72.5 -73.5 -72.5 -74.5 -68.5 196
256QAM
Strong
-70.5
-69.5
-69
-68.5
-69.5
-69.5
-69
-70.5
-69
-71
-65
229
Weak
-68
-67
-64.5
-64.5
-65.5
-65
-65
-67.5
-66.5
-68.5
-62.5
245
56
4QAM
Strong
-87
-85.5
-86
-85.5
-87
-86.5
-86
-87
-85.5
-88
-81.5
72/67*
16QAM
Strong
-81
-80
-79.5
-79.5
-80.5
-80
-79.5
-80.5
-79.5
-82
-75.5
145/135*
32QAM
Strong
-78
-77
-77.5
-77
-78
-77.5
-77
-77.5
-76.5
-79
-72.5
182
64QAM
Strong
-75.5
-74.5
-74
-73.5
-74.5
-74.5
-74
-75.5
-74
-76
-70
240
128QAM
Strong
-72
-71
-71
-70.5
-71.5
-71.5
-71
-72
-70.5
-73
-66.5
287
256QAM
Strong
-68.5
-67.5
-67
-66.5
-68
-67.5
-67
-68.5
-67
-69.5
-63
335
Weak
-64
-63
-63
-62.5
-63.5
-63
-62.5
-64.5
-62.5
-65
-58.5
363
*Higher capacity is available in 16QAM and 4QAM if using 32QAM-256QAM with ACM enabled
** According to ETSI channel plan
*** Forward Error Correction (FEC) can be optimized either for sensitivity (Strong FEC) or for capacity (Weak FEC)
CFIP PhoeniX Series TDM/IP Split Mount System Technical Description and Configuration Guide • Rev. 1.13 •
© SAF Tehnika JSC 2015
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1.6 Cable Requirements
IDU-ODU cable
IDU–ODU cable is a 50 Ω coaxial cable intended to interconnect the Indoor Unit with the Outdoor
Unit. Any type of 50 Ω cable of good quality can be used; the cable should be equipped with N–type
male connectors on each end. There are two N–type male connectors included in each radio unit
delivery that fit RG–213 cables or other cables with a surface diameter of 10 mm. As the attenuation
of the cable is essential particularly at 350 MHz frequency, its usage is restricted, - the attenuation of
the signal should not exceed 20 dB at 350 MHz. Commonly employing RG–213 type coaxial cable, its
length may reach 100 m, LMR–400 type cable may usually reach up to 300 m in length.
Figure 1.9 CFIP PhoeniX IDU-ODU cable
DC power cable
Due to low power consumption of the CFIP PhoeniX split mount system, there are no special
requirements for the cable used to connect the IDU to the DC power source. Any 2 wire power cable
of good quality which fits well in SAF Tehnika’s supplied 2 pole “screw on” power connector could be
used. The power connector is 2 pole, type 2ESDV-02.
1+1 protection cable
Cable used should be rated Cat6 STP or better and length of the cable should not exceed meters.
For pinouts and further details please refer to Chapter 10.6.
RS-232 Serial Connection
The ASCII console must be connected to the RS-232 serial port. This requires a twisted pair (TP)
cable with common shield (foil and plaited shield); the cable must be suitable for DB-9 connector.
Using a proper cable, the operation is guaranteed for up to 10 m of cable.
RSSI BNC
To connect the digital multimeter to the CFIP PhoeniX ODU RSSI port in order to adjust the
antenna alignment, a coaxial cable with BNC connector on one end and appropriate termination on
other end can be used (see example in Figure 1.10).
The CFIP Series Full Outdoor Unit Technical Description and Configuration Guide • Rev. 1.13
© SAF Tehnika A/S 2015
16
Figure 1.10 Cable for connecting the voltmeter to the CFIP PhoeniX ODU RSSI port
1.7 Labelling
The label can be found on the front side of the unit.
The label contains the following information (see samples in the picture below):
-Model name. The model name example is:
CFIP-IDU-PhoeniX for CFIP PhoeniX Indoor Unit (IDU),
CFIP-18-PhoeniX for 18GHz Outdoor Unit (ODU), etc
-Product Number (S0GIPT01, S18RFU05LA): product number contains information of product
version (01), in case of ODU - in which frequency band (18) and band side (L, H) the ODU
operates. Letters A, B, C or D indicate specific subband.
-Unit Serial Number (3221901 00024); the serial number uniquely identifies the unit.
Figure 1.11 Label of the CFIP PhoeniX Indoor Unit
Figure 1.12 Label of the CFIP PhoeniX ODU Low band side, operating in 18 GHz band
CFIP PhoeniX Series TDM/IP Split Mount System Technical Description and Configuration Guide • Rev. 1.13 •
© SAF Tehnika JSC 2015
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Figure 1.13 Label of the CFIP PhoeniX IRFU Low band side, operating in 6 GHz band
P/N Translation for CFIP PhoeniX ODU:
-“S” designates CFIP split mount series product;
-“18” designates Frequency range (18 GHz) of the Unit;
-“RF” designates standard power radio;
-“U” designates unified band ODU operating 3.5 - 56MHz;
-“05” designates the version number of the Unit;
-“L” designates the band side in which ODU operates (H, L);
-“A” designates the subband in which ODU operates (A, B, C).
Please note that frequency range is set from the central frequency of the first 14 MHz channel to the
central frequency of the last 14 MHz channel (see the Figure 1.14).
Figure 1.14 Frequency range of the low side CFIP PhoeniX 18 GHz ODU
Figure 1.14 explains Tx frequency range of low side CFIP PhoeniX 18 GHz radio.
CFIP PhoeniX Series TDM/IP Split Mount System Technical Description and Configuration Guide • Rev. 1.13 •
© SAF Tehnika JSC 2015
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2Configuration and Management
2.1 Connecting CFIP PhoeniX IDU to power source
In case AC/DC Power supply, 48VDC, 80W (EU - P/N I0AB4810, US – P/N I0AB4811, AUS -
I0AB4818) provided by SAF Tehnika JSC is used to power up CFIP PhoeniX IDU, interconnect IDU and
power source through appropriate connectors. Otherwise perform the following steps to ensure that
CFIP PhoeniX IDU is powered up correctly:
1. It is necessary to interconnect CFIP PhoeniX IDU DC power connector (located on left side of
front panel) with power source. For this purpose power cable is required. Any 2 wire power cable
of good quality which fits well in SAF Tehnika’s supplied 2 pole “screw on” power connector
could be used. The power cable connector is 2 pole, type 2ESDV-02. This connector has screw
clamp terminals that accommodate 24 AWG to 12 AWG wire. The recommended wire size for
construction of power cables under 3 meters in length, supplying -48 V DC, is 18 AWG. The
opposite end of the power cable should have a termination appropriate for the power supply
being used. The power cable should be of sufficient length to avoid tension in the cable and
provide a service loop for connection, but not be of excessive length. Using the power cable
connector of type 2ESDV-02, pin 1 (labelled ‘-‘) should be connected to the power supply
terminal supplying -48 V DC, while pin 2 (labelled ‘+’) should be grounded. Refer to Figure 2.1.
2. Connect the power cable to the -48 V DC power supply, and place the voltmeter probes at the
unconnected ends of the power cable, with the positive voltmeter probe on pin 1 (’-’) of the
cable connector and the negative probe on pin 2(’+’). The connector screw terminal screw heads
may be used as convenient monitor points. Refer to Figure 2.1.
3. Turn on the –48 V DC supply. Verify that the digital voltmeter reads between -36 V DC and -57 V
DC when monitoring the cable points specified above. Adjust the power supply output voltage
and/or change the connections of the power supply to achieve this reading.
4. With the negative voltmeter probe still on pin 2 (’+’) of the power cable connector (and the
power supply still on), put the positive voltmeter probe to the CFIP PhoeniX IDU chassis and
verify a potential of zero volts between the IDU chassis and cable pin 2 (’+’). If the measured
potential is not zero, the power supply may be grounded incorrectly and should not be used for
CFIP PhoeniX IDU powering. Note that this measurement assumes that CFIP PhoeniX IDU is
installed and properly grounded. If that is not the case, the same measurement can be made
between cable pin 2 (’+’) and a convenient ground (such as an ac outlet third-wire ground).
5. Turn the -48 V DC supply off.
6. Plug the power cable into CFIP PhoeniX IDU front panel DC Power connector (DC Input). Place
the voltmeter probes on the cable connector screw terminal screw heads as described in step 2
above. Refer to Figure 2.1. Note that CFIP PhoeniX IDU does not have a power on/off switch.
When DC power is connected, the digital radio powers up and is operational. There can be up to
500 mW of RF power present at the antenna port. The antenna should be directed safely when
power is applied.
7. Turn on the -48 V DC power supply, and verify that the reading on the digital voltmeter is as
specified in step 3 above.
(!) Note that pin 2 (‘+’) of the CFIP PhoeniX IDU DC Power connector (Figure 2.1) is connected
to the IDU chassis ground internal to the IDU. Use of a power supply with an inappropriate
ground reference may cause damage to CFIP PhoeniX IDU and/or the power supply.
CFIP PhoeniX Series TDM/IP Split Mount System Technical Description and Configuration Guide • Rev. 1.13 •
© SAF Tehnika JSC 2015
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Figure 2.1 CFIP Phoenix IDU DC Power Cable Connector of type 2ESDV-02
After successful powering of PhoeniX IDU there are four ways to adjust and read settings and
operation parameters of the CFIP PhoeniX equipment:
1. using Web terminal connected to the 10/100/1000Base-T Port,
2. using Telnet terminal connected to the 10/100/1000Base-T Port,
3. using NMS or SNMP terminal, connected to the 10/100/1000Base-T Port, or
4. using ASCII console connected to the serial port.
2.1.1 Power protection port
Optionally CFIP PhoeniX IDU can be equipped with power protection port, which allows you to
interconnect 2 CFIP PhoeniX IDUs in 1+1 configuration for power interface redundancy functionality.
Interconnection between power protection ports is done with optional power protection cable (P/N
S0ACPR11).
Figure 2.2 CFIP Phoenix power protection port and cable (for IDU S0GIP*11)
2.1.2 Connecting CFIP PhoeniX IRFU to power source
CFIP PhoeniX IRFU can be powered via coaxial IF cable or using separate power supply, providing at
least 60W load power.
2.2 Resetting the CFIP PhoeniX
Depending on the method used, the user may reset the whole terminal or the management
controller individually, see table below for details.
Reset action unplugging power source. Restarts both the multiplexer module and the management
module. Resets all management counters.
Resetting with button in
Web GUI ‘Configuration System
configuration’ window or using command
Restarts CPU of the management controller. Resets all
management counters.
(!) Power protection port is available for CFIP PhoeniX IDU with P/N S0GIP*11
(!) Note that pin 2 (‘+’) of the CFIP PhoeniX IRFU DC Power connector (Figure 2.1) is connected
to the IDU chassis ground internal to the IDU. Use of a power supply with an inappropriate
ground reference may cause damage to CFIP PhoeniX IRFU and/or the power supply.
CFIP PhoeniX Series TDM/IP Split Mount System Technical Description and Configuration Guide • Rev. 1.13 •
© SAF Tehnika JSC 2015
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Table of contents
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