SAF Tehnika AS INTEGRA24W Low Power Point-To-Point Transmitter User Manual

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User manual
Integra-W
Integra-WS
VER 1.2
F W 3.5 .17
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.
FODU does not contain serviceable parts. Warranty will not be applicable
in the event FODU has been hermetically unsealed.
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.
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference, and (2) this device must
accept any interference received, including interference that may cause undesired operation.
Note: This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed and
used in accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and on, the user
is encouraged to try to correct the interference by one or more of the following measures:
−
Reorient or relocate the receiving antenna.
−
Increase the separation between the equipment and receiver.
−
Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
−
Consult the dealer or an experienced radio/TV technician for help.
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is
subject to the following two conditions: (1) this device may not cause interference, and (2)
this device must accept any interference, including interference that may cause undesired
operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils
radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1)
l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout
brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le
fonctionnement.
Copyright Notice
Copyright © 2017 SAF Tehnika, JSC. All rights reserved.
SAF Tehnika JSC
Contents
Chapter 1: OVERVIEW ............................................................................................... 5
Labelling ................................................................................................................ 5
Microwave Radiation ............................................................................................ 6
Chapter 2: INSTALLATION........................................................................................ 8
Package contents ................................................................................................. 8
Integra-W FODU: assembling mounting bracket and installing with antenna on
a pole ..................................................................................................................... 8
Disassembled mounting bracket and tools required for assembly ..................... 8
Changing polarization of Integra-W FODU and antenna........................................ 9
Assembly procedure ................................................................................................... 11
Integra-WS 15-42GHz* FODU: attaching to the antenna.................................. 14
Integra-WS 6-13GHz* FODU: attaching to the antenna.................................... 17
Integra-WS 6-13GHz* 2+0 & OMT interconnection .......................................... 19
Connecting FO interface using fiber conduit kit ................................................ 21
Initial setup in indoor environment .................................................................... 21
Chapter 3: WEB GUI ................................................................................................ 23
Initial configuration ............................................................................................. 23
Powering Integra-W/Integra-WS FODU and connecting to PC .......................... 23
PoE injector (P/N I0ATPI22)....................................................................................... 23
Universal programmable PoE injector (P/N I0ATPI24) ........................................ 24
System requirements .................................................................................................. 25
Ethernet management connection ........................................................................... 26
Accessing Web GUI ..................................................................................................... 27
Main page ...................................................................................................................... 28
Modifying basic system parameters ....................................................................... 30
Over The Air ......................................................................................................... 32
Over The Air 
 Radio 
 Configuration ................................................................... 32
Networking .......................................................................................................... 35
Networking 
 Ethernet 
 Network configuration ................................................ 35
Networking 
 Ethernet 
 Port status and configuration ................................... 36
Performance........................................................................................................ 38
Performance 
 Alarm 
 Alarm status ................................................................... 38
Performance 
 Alarm 
 Alarm log......................................................................... 38
Performance 
 Alarm 
 Sensor configuration .................................................... 40
Performance 
 Alarm 
 Alarm threshold configuration .................................... 42
Performance 
 Monitoring 
 Performance graph .............................................. 45
Performance 
 Monitoring 
 Performance log ................................................... 46
Performance 
 Ethernet 
 Ethernet switch statistics........................................ 47
Performance 
 Over The Air 
 Modem graph ..................................................... 51
System................................................................................................................. 56
System 
 FW 
 Firmware upgrade........................................................................ 56
System 
 Configuration 
 IP configuration ......................................................... 58
System 
 Configuration 
 SNMP configuration ................................................. 60
System 
 Configuration 
 Configuration file ....................................................... 62
System 
 Configuration 
 Password configuration........................................... 65
System 
 Configuration 
 System configuration ............................................... 66
SAF Tehnika JSC
System 
 Configuration 
 System services ........................................................ 68
System 
 Diagnostic 
 Loopback configuration ................................................ 70
System 
 Diagnostic 
 Download troubleshooting file ..................................... 71
System 
 Tools 
 License management ............................................................. 72
System 
 Tools 
 Console ...................................................................................... 74
System 
 About 
 About System .......................................................................... 74
System 
 About 
 Copyright .................................................................................. 75
System 
 About 
 Inventory ................................................................................... 76
Chapter 4: COMMAND LINE INTERFACE ............................................................... 77
Connecting to serial RS232 interface ................................................................ 77
Connecting to SSH .............................................................................................. 79
Connecting to Telnet........................................................................................... 79
Chapter 5: 17/24GHz .............................................................................................. 81
Setting bandwidth to 60MHz .............................................................................. 81
Setting bandwidth to 80MHz .............................................................................. 81
Chapter 6: TOOLS ................................................................................................... 82
Link Layer Discovery tool ................................................................................... 82
MIB files............................................................................................................... 87
Chapter 7: INTERFACES.......................................................................................... 89
RJ-45 ports (MNG & LAN) .................................................................................. 89
SFP port (LAN) .................................................................................................... 90
USB port .............................................................................................................. 90
RSSI LED.............................................................................................................. 90
RSSI/audio port................................................................................................... 91
Appendix A: TECHNICAL SPECIFICATION ............................................................. 93
Power consumption at 48V DC4 ............................................................................... 94
Integra-W preliminary RSL Threshold (dBm) and Link Capacity (Mbps).......... 94
Maximum Tx Power for Integra-W and Integra-WS ............................................. 95
High Performance integrated antenna specification ............................................ 95
CONTACTS .............................................................................................................. 96
SAF Tehnika JSC
INTEGRA-W/INTEGRA-WS User Manual
OVERVIEW
Chapter 1: OVERVIEW
Labelling
The label contains the following information (see samples in the picture below):
Product model name (“SAF Integra-W-38”). The FODU model name example is:
- SAF Integra-W-38 for Integra-W 38GHz FODU,
- SAF Integra-WS-23 for Integra-WS 23GHz FODU, etc
Product Number / Model Number (P/N or M/N) (D38W1R01LA): product/model number
contains various information about the unit. Please see translation below.
Serial Number (3880801 00001): the serial number uniquely identifies the unit.
P/N or M/N translation:
“D” designates Integra series product;
“38” designates frequency band (38 GHz) of the radio;
“W” designates Integra-W product type;
“1” designates 1ft antenna diameter and ETSI Class 3;
“0” - <1ft (20cm) antenna diameter and ETSI Class 3;
“2” - 2ft antenna diameter and ETSI Class 3;
“3” - 3ft antenna diameter and ETSI Class 3;
“4” - 4ft antenna diameter and ETSI Class 3;
“5” - <1ft (20cm) antenna diameter and ETSI Class 4;
“6” - 1ft antenna diameter and ETSI Class 4;
“7” - 2ft antenna diameter and ETSI Class 4;
“8” - 3ft antenna diameter and ETSI Class 4;
“9” - 4ft antenna diameter and ETSI Class 4;
“S” – split-mount, without integrated antenna.
“R” designates Integra with full capacity licence;
“05” designates the version number of the radio;
“L” designates low side radio;
“H” - high side radio
“A” designates A subband radio;
“B” - B subband radio;
“C” - C subband radio
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 diagram below).
Frequency range of subband B low side Integra-W 38 GHz FODU:
SAF Tehnika JSC
INTEGRA-W/INTEGRA-WS User Manual
OVERVIEW
Microwave Radiation
In April 1998, ICNIRP (International Commission on Non-Ionizing Radiation Protection)
published its ´Guidelines for limiting exposure to time-varying electric, magnetic, and
electromagnetic fields (up to 300GHz)´. As shown in Table 2.2-1, the guidelines (Tables 6 and
7) specify the ´Reference levels on power density for occupational exposure and general public
exposure to time-varying electric and magnetic fields (unperturbed rms values)´ between 2
and 300 GHz.
ICNIRP Reference levels within the frequency range 24 GHz
Frequency range
24GHz
Exposure
characteristics
occupational 41cm
general public 91cm
Equivalent plane
wave power density
Seq (W/m2)
Average time period
50
10
68/f1.05 (f in GHz)
68/f1.05 (f in GHz)
(min)
Note: For pulsed signals it is suggested that the peak equivalent plane wave power density, as averaged over the
pulse width, does not exceed 1000 times the Seq exposure levels given in the table.
Note: Within the frequency range the 10 – 300 GHz the basic restrictions are identical to the reference levels.
Remarks to the definition of basic restrictions:
1. Power densities are to be averaged over any 20 cm2 of exposed area and any 68/f1.05 minute period (where f
is in GHz) to compensate for progressively shorter penetration depth as the frequency increases.
2. Spatial maximum power densities, averaged over 1 cm2, should not exceed 20 times the values above.
Compared to the ICNIRP restrictions, FCC CFR 47 specifies the Maximum Permissible
Exposure (MPE) levels for occupational/controlled environment and general
public/uncontrolled environment, as shown in the table below.
SAF Tehnika JSC
INTEGRA-W/INTEGRA-WS User Manual
OVERVIEW
FCC MPE limits within the frequency range 1.5-100 GHz
Frequency range
24GHz
Exposure
characteristics
occupational 41cm
general public 91cm
Equivalent plane
wave power density
Seq (W/m2)
Average time period
50
10
30
(min)
Quite a few other documents specify or refer to exposure limits comparable to those given
above, e.g.:
- 1999/519/EC: Council Recommendation of 12 July 1999 on the limitation of exposure of
the general public to electromagnetic
fields (0 Hz to 300 GHz)
- WHO: Environmental Health Criteria 137: ´Electromagnetic Fields (300 Hz to 300 GHz)´;
- ANSI/IEEE C95.1, 1999:
´IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency
Electromagnetic Fields, 3 kHz to 300 GHz´
- BRD, Bundesimmissionsschutzgesetz, 26. BImSchV Verordnung über elektromagnetische
Felder
- Bundesamt für Umwelt, Wald und Landwirtschaft (BUWAL), Bern/Schweiz
Schriftenreihe Umwelt Nr. 164, Luft, Mai 1992
´Messung nichtionisierender elektromagnetischer Strahlung, 1. Teil: Frequenzbereich 100
kHz bis 300 GHz´
- DIN VDE 0848-2, Entwurf, Oktober 1991:
´Sicherheit in elektrischen, magnetischen und elektromagnetischen Feldern, ´Teil 2: Schutz
von Personen im Frequenzbereich von 30 kHz bis 300 GHz´;
- ENV 50166-2, January 1995 (withdrawed in December 1999 by CENELEC)
´Human Exposure to Electromagnetic Fields (10 kHz – 300 GHz)´
SAF Tehnika JSC
INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Chapter 2: INSTALLATION
Package contents
Integra-W
Integra-WS
Integra-W FODU D**W1*****
(0.3m), D**W2***** (0.6m)
Mounting bracket D0SPKR02
Locking key for Integra-W
D0ALK001
Kit of replacement parts
D0AZIP01
RJ-45 connector 8P shield solid
FOACNR02
Installation manual D0DB2RM1
Integra-WS FODU D**WS*****
Locking key for Integra-WS
D0ALK002
RJ-45 connector 8P shield solid
FOACNR02
Installation manual D0DBSRM1
Integra-W FODU: assembling mounting bracket and
installing with antenna on a pole
Disassembled mounting bracket and tools required for assembly
Parts of disassembled mounting bracket
Parts of disassembled mounting bracket
Three M8x1.25x16 hex flange bolts already attached to clamps for housing and pipe
[5]
One hex flange bolt M8x1.25x30, one M10x1.5 hex flange nut and one M8x80 eye
screw already attached to clamps for housing and pipe [5]
SAF Tehnika JSC
INTEGRA/-S/-G/-GS User Manual
INSTALLATION
One M8x80 eye screw
M8x160 and M8x130 threaded rods
Clamps for housing and pipe interconnected with three M8x1.25x16 hex flange bolts
[1] and an eye screw for horizontal alignment [2]
Six M8x1.25 hex flange nuts
Three M8x1.25 hex nuts
One hex flange bolt M8x1.25x20
Mounting bracket clamp
10
11
12
13
14
Parts of Integra-W FODU
10 Spacer hex flange nut
11 Lifting eye nut
12 Fixation plate
13 Side screw flange nuts
14 Grounding flange nut
Numbers of mounting bracket and Integra-W FODU parts in next sections will be mentioned
in square brackets [].
Changing polarization of Integra-W FODU and antenna
Tools required: 13mm (0.512”) wrench (comes in
package)
The default polarization for licensed frequency band radios is vertical.
Integra series 17/24GHz FODUs should be installed in opposite polarizations.
By default Integra series 17/24GHz FODU radios are shipped with opposite polarizations
pre-installed for low and high side units.
SAF Tehnika JSC
INTEGRA/-S/-G/-GS User Manual
Remove Integra-W FODU with antenna
from mounting bracket.
INSTALLATION
Using 13mm wrench remove indicated nuts
and fixation plate [10, 11, 12, 13, 14].
Default polarization is vertical.
Removed parts must be attached back
with 90 degree offset (see above). Gap
between side screw flange nuts [13] and
fastening angles should be 5mm.
SAF Tehnika JSC
View of Integra-W FODU with swapped
polarization.
When polarization is changed, make sure
that drain hole cap located at grounding
flange nut should be removed and
inserted in previous drain hole.
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INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Assembly procedure
Tools required: 13mm (0.512”) wrench (comes in package)
Using 13mm wrench slightly loosen three hex
flange bolts [1] and hex flange bolt, nut and eye
screw [2] interconnecting clamps for housing
and pipe [5].
Screw on one hex flange nut [6] on each of
threaded rods [4]. Note that flange nuts should
be screwed on exposing approx. 20mm (0.8
in.) of threaded rods.
Attach mounting bracket clamp [9] on longest
threaded rod [4] as shown on the picture and
afterwards screw on remaining two hex flange
nuts [6] on both threaded rods. No parts
should remain not assembled.
SAF Tehnika JSC
Attach vertical alignment eye screw [3] to clamps for
housing and pipe [5] using hex flange bolt [8] and
screw on one hex nut [7] and two hex flange nuts [6].
Make sure that both eye screws are positioned as
shown in the image (turned to the back side of
clamps) and the gap between each two flange nuts on
eye screws should be 15..20mm (0.6..0.8 in.). Do not
tighten both hex flange bolts [8] and [2].
Insert both threaded bolts into two available holes of
mounting clamp. Put hex nuts [7] on the other side of
the clamp and screw on the threaded bolts until it is
visible from other side of the clamp not more than
2mm. Tighten hex flange nuts [6] with torsion 20..25
N·m.
Unscrew hex flange nut [6] from shortest threaded rod
[4]. Make sure that hex flange nuts on longest
threaded rod is not too far; otherwise adjust nut’s
position accordingly. Put other end of mounting
bracket clamp [9] on free threaded rod and screw on
hex flange nut.
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INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Bracket clamps in following position support
mast ∅ 55..120mm. Reversing clamps allows
support of smaller masts ∅ 25..75mm.
Hex flange nuts should be evenly aligned on
threaded bolts so that mounting bracket clamp
[9] is tightly attached to the pipe. Tighten hex
flange nuts with torsion not exceeding 20 N·m.
Make sure that both horizontal and vertical
alignment eye screws are turned to the mast
before attaching Integra-W FODU.
10
Attach Integra-W FODU with antenna to the mounting
bracket so that side screws fit into grooves of the
housing clamp [5].
Connect vertical alignment eye screw [3] to the
upper groove on Integra-W housing.
12
View of assembled bracket on the mast pole with
Integra-W FODU attached and secured.
11
View of assembled mounting bracket on the mast
pole.
It is recommended to protect the installed radio from
direct sunlight.
Antenna alignment
SAF Tehnika JSC
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INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Tools required: 13mm (0.512”) wrench (comes in
package)
Before aligning the antenna, make sure that
screws marked with red dots on the right side
view of mounting bracket are loosened - hex
flange nuts and bolts of azimuth and
elevation eye screws, right side screw on
Integra-W FODU and hex flange bolt on
azimuth angle indicator.
For initial alignment make sure that elevation
is approximately at zero degree angle by
adjusting hex flange nuts [9] on vertical
alignment eye screw so that Integra’s
housing is parallel with the bracket.
Each notch corresponds to one degree of
azimuth angle. Half distance between
notches (each lip) corresponds to 0.5 degree.
SAF Tehnika JSC
Additionally loosen following screws marked
with red dots on the left side view of
mounting bracket: left side screw on IntegraW FODU and two hex flange bolts between
both mounting bracket clamps for housing
and pipe.
Adjust azimuth angle by manually moving
mounting bracket in horizontal axis. Note
that all azimuth position fixing hex flange
bolts, as well as horizontal alignment eye
screw with flange bolt need to be loosened
ensuring free movement in horizontal axis.
Fix azimuth angle on horizontal axis by
adjusting position of flange nuts [6] on both
horizontal and vertical alignment eye screws.
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INTEGRA/-S/-G/-GS User Manual
When alignment is finished tighten screws
marked with red dots on the right side view of
mounting bracket: hex flange nuts and bolts
of azimuth and elevation eye screws, right
side screw on Integra-W FODU and hex
flange bolt on azimuth angle indicator with
torsion 20..25 N·m.
INSTALLATION
Additionally tighten following screws marked
with red dots on the left side view of
mounting bracket: left side screw on IntegraW FODU and two hex flange bolts between
both mounting bracket clamps for housing
and pipe with torsion 20..25 N·m.
Integra-WS 15-42GHz* FODU: attaching to the
antenna
Parts of Integra-WS FODU: 1 – O-ring; 2 – flange protecting sticker; 3 – wire handle; 4 –
fixation clamps; 5 – grounding screws.
Tools required: Size 5 allen wrench
Level (not supplied)
SAF Tehnika JSC
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INTEGRA/-S/-G/-GS User Manual
Using size 5 allen wrench loosen one
clamp completely and second clamp by a
half-turn.
INSTALLATION
Put Integra-WS on antenna adapter flange
by hooking half-turn loosened clamp at the
top and leaving the completely loosened
clamp at the bottom. Make sure O-ring is in
place and the adapter flange fits into the
Integra-WS transition flange socket.
Note! Protective sticker should be removed
before attaching the Integra-WS FODU to
the antenna.
Secure the interconnection by tightening
the bottom clamp (not fully). Make sure
rotation of the Integra-WS is still possible.
The sticker on the back lid indicates the
polarization of the Integra-WS. Adjust
polarization so that the interface ports are
located at the lower side of the Integra-WS.
SAF Tehnika JSC
Rotate Integra-WS to match the required
polarization.
Verify polarization accuracy with a level, by
placing it against the top edge of the
Integra-WS housing
15
INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Secure the position of the Integra-WS by
fully tightening both fixation clamps.
*Integra-WS 15/18/17/23/24/26/32/38/42GHz are separate FODU models
It is recommended to protect the installed radio from
direct sunlight.
The default polarization for licensed frequency band radios.
SAF Tehnika JSC
16
INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Integra-WS 6-13GHz* FODU: attaching to the
antenna
Integra-WS 6-13GHz* FODU features twisted polarization flange and resulting signal
polarization is determined by Interface on antenna/OMT. To change signal polarization,
please rotate only the antenna interface, as radio always remains in vertical position.
Always this side
down
11 GHz Integra-WS,
suited for both V and H polarization
6 GHz Integra-WS,
suited for both V and H polarization
Tools required: Size 5 allen wrench, 240mm
Level (not supplied)
SAF Tehnika JSC
17
INTEGRA/-S/-G/-GS User Manual
Integra-WS 6-13GHz* FODU features twisted
polarization flange and resulting signal
polarization is determined by Interface on
antenna/OMT. To change signal polarization,
please rotate only the antenna interface, as
radio always remains in vertical position.
INSTALLATION
Example of horizontal polarization interconnection.
Tighten bottom fixation clamps.
Example of vertical polarization
interconnection.
Put Integra-WS on antenna adapter flange by
hooking half-turn loosened clamp at the top
and leaving the completely loosened clamp at
the bottom. Make sure O-ring is in place and
the adapter flange fits into the Integra-WS
transition flange socket.
Note! Protective sticker should be removed
before attaching the Integra-WS FODU to the
antenna.
SAF Tehnika JSC
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INTEGRA/-S/-G/-GS User Manual
Use air level to verify that Integra-WS FODU is
properly levelled. Tighten all four fixation
clamps properly.
INSTALLATION
Final view of assembled Integra-WS 6-13GHz* 1+0
setup.
*Integra-WS 6U/6L/7/8/10/11/13 are separate FODU models
If any further assistance is required please contact
techsupport@saftehnika.com
Integra-WS 6-13GHz* 2+0 & OMT interconnection
Tools required: Size 5 allen wrench, 240mm
10mm (0.394”) wrench (not supplied)
8mm (0.315”) wrench (not supplied)
Level (not supplied)
It is recommended to perform steps 1-2 on the ground.
Prepare Integra-WS 6-13GHz* FODU by
loosening both bottom clamps (should not
overlap the flange plate) and tightening both
upper clamps (will be used as a hook).
SAF Tehnika JSC
Attach Integra-WS 6-13GHz* FODU to the OMT using
both upper clamps. Integra S 6-13GHz* FODU
features twisted polarization flange and resulting
signal polarization is determined by Interface on
19
INTEGRA/-S/-G/-GS User Manual
INSTALLATION
antenna/OMT. To change signal polarization, please
rotate only the antenna interface, as radio always
remains in vertical position
Slightly tighten both bottom fixation clamps to
secure FODU to the OMT.
Use air level to verify that FODUs are properly levelled.
Tighten all 4 Integra fixation clamps on both
FODUs. When properly attached there’s a gap
between FODUs, OMT and antenna.
Final view of assembled Integra-WS 6-13GHz* 2+0
setup.
*Integra-WS 6U/6L/7/8/10/11/13 are separate FODU models
If any further assistance is required please contact
techsupport@saftehnika.com
SAF Tehnika JSC
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INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Connecting FO interface using fiber conduit kit
Fiber conduit kit.
Unscrew the cap of the SFP port (LAN2 or LAN3) that
will be used and install a SFP module.
Disassemble conduit kit and put its parts in
the following sequence (left – Integra-W
direction, right – CPE direction).
Push FO cable from LC connector side through the
conduit.
Connect LC connector to SFP module.
Tighten parts on both ends of the conduit. Fasten
other end of fiber conduit to the pole using included
tie-wrap. Assembled view.
Initial setup in indoor environment
Integra-S/Integra-GS FODUs can be interconnected using a test kit (available for purchase
as optional accessory). P/N is DxxTST01, where xx – frequency band, e.g. D11TST01 for
11GHz. Exception is 17 and 24GHz radios.
SAF Tehnika JSC
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INTEGRA/-S/-G/-GS User Manual
INSTALLATION
Test kit consists of adapter flange, waveguide-to-coaxial adapter, attenuators and coaxial
cable.
In case of 17 and 24 GHz radios a test tube (P/N D0S17TST01 or D0S24TST01) should be
used:
SAF Tehnika JSC
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INTEGRA-W/INTEGRA-WS User Manual
WEB GUI
Chapter 3: WEB GUI
Initial configuration
Powering Integra-W/Integra-WS FODU and connecting to PC
Use Power over Ethernet (PoE) injector P/N I0ATPI22/24 with appropriate power supply
(22…60VDC, at least 80W). Please see interconnection scheme below.
Gigabit Ethernet
Power over Ethernet
DC
Ethernet cable from PoE injector should be connected to RJ-45 port on Integra-W/IntegraWS FODU (MM or LAN(TP)).
For some HW revisions PoE may be available on data (LAN(TP)) port only.
Total length of Ethernet cables from CPE to PoE injector (DATA port) and from IntegraW/Integra-WS to PoE injector (DATA+PWR port) combined should not exceed 100m. It is
recommended to use outdoor rated STP/FTP Ethernet cable Cat5e or better.
When powered RSSI LED will light up in solid green colour for approx. 20sec. Afterwards
RSSI LED will go out for approx. 35sec. and eventually start blinking indicating current Rx
level.
Please refer to Chapter RSSI LED for further details on blinking patterns and corresponding
Rx levels.
PoE injector (P/N I0ATPI22)
The injector has a built-in DC/DC converter which can be enabled with a switch at the back
by switching it to “54V” position. In this mode 22..60VDC input voltage will be converted to
54VDC output voltage. It is required to use this mode when input voltage is below 48VDC or
when longer Ethernet cable is used in order to ensure sufficient input voltage to IntegraW/Integra-WS FODU (36…57VDC). In “48V” mode output voltage of PoE injector is the same
as input voltage.
In case input voltage is between 22..36V DC, output current is limited to 1.2A, which will
not be sufficient for low frequency band radios (6-13GHz). Use 36..60V DC input voltage
instead.
SAF Tehnika JSC
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INTEGRA-W/INTEGRA-WS User Manual
WEB GUI
Universal programmable PoE injector (P/N I0ATPI24)
I0ATPI24 injector is designed to operate with any PoE capable product with Fast Ethernet /
Gigabit Ethernet interface. Built-in protection conforms with IEC 61000-4-5 standard.
Accepted input voltage 24…60VDC. Output voltage is stabilized to 54VDC.
Interconnection scheme:
Front panel has 3 indication LEDS. LED3 indicates position of DIP switch S1. Color indication
of all LEDs must be ignored in Forced mode (DIP switch S4 in DOWN position).
Load detected and voltage fed at the
output of PoE injector (POWER GOOD)
PoE controller detected and voltage fed
at the output of PoE injector (POWER
ON)
Classified PoE mode (PoE CLASSIFIED)
(if S4 is UP; see table below).
No load at the output of PoE injector
(OPEN)
Short at the output of PoE injector
(SHORT)
Unclassified PoE mode (PoE MANUAL)
(if S4 is UP; see table below).
Back panel has 4 switches in order to operate PoE injector in different modes.
Appropriate Imax selection while unclassified PoE mode is enabled (S1 UP, S4 UP) will provide
most effective surge protection for the radio. In case Imax exceeds set value, upper LEDs
(LED1&LED2) will blink in green color.
Connecting device in Unclassified or Forced modes will introduce approx. 5 second delay of
LED indication.
In case classified PoE mode is enabled (S1 position DOWN, S4 position UP) Imax mode (PD
class) is negotiated automatically with the device connected.
Position of DIP switches should be changed only while PoE injector is turned off.
Nr.
S1
S2
S3
S4
↓ × × ↑
↑ ↓ ↓ ↑
↑ ↓ ↑ ↑
↑ ↑ ↓ ↑
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Description
Classified PoE mode (PoE controller enabled). Imax= auto.
Unclassified PoE mode (PoE controller disabled). Imax=750mA.
Unclassified PoE mode (PoE controller disabled). Imax=1000mA.
Unclassified PoE mode (PoE controller disabled). Imax=1250mA.
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↑ ↑ ↑ ↑
Unclassified PoE mode (PoE controller disabled). Imax=1700mA.
×
Forced mode. Imax=2000mA. DIP switches S1, S2, S3 ignored. LED3
color will be blue or green depending on position of S1.
×
× ↓
↓ — DIP switch position DOWN, ↑ — DIP switch position UP, × — any position
Recommended modes
Mode Nr. 2 or 6* (Classified or Unclassified PoE mode. Imax= auto or Imax=1700mA);
depending on HW revision
Electrical specification
Data rate
Classified PoE mode
Unclassified PoE mode
Input Voltage
Output Voltage
Max Current
Power Connector
Ethernet Connectors
Data Lines
Power Lines
Power Clamping Voltage
Max data cable length
Up to 1000 Mb/s
Green indicator LED*
Blue indicator LED*
22 – 65 V
54 V
1.2 A (22…36V DC), 1.6 A (36…60V DC)
2ESDV-02P with screw locks
Shielded RJ45 jacks
Pins (1, 2), (3, 6), (4, 5) and (7, 8)
+ (1, 2) and (4, 5); - (3, 6) and (7, 8)
+/- 70 V
100 m
* Color indication can be disregarded in Forced mode (DIP S4 position DOWN), will indicate only Power ON.
Mechanical specification
Ports
-RJ45 - Data
-RJ45 - Data + Power
-DC - 2ESDV-02P socket with screw
locks**
-Grounding screw
Dimensions (W/H/D):
82 mm/41 mm/154 mm
Weight
0.4 kg
Enclosure
Steel
Operating Temperature
-10ºC to + 50ºC
-With bracket (included)
-19” rack mounting shelf (p/n
I0KTPI11.003)
-DIN-rail clip (p/n I0STPI11.01)
Mounting
** 2ESDV-02P plug with screw locks included.
System requirements
To access Integra-W/Integra-WS Web GUI you will need a PC with the following system
requirements:
Operating system
•
Microsoft Windows XP / Vista / 7 / 8;
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Linux
•
Web browser
•
•
•
Google Chrome;
Mozilla Firefox;
Internet Explorer 8 (or above)
Ethernet management connection
Before proceeding with initial link setup in Web GUI, you must adjust IPv4 settings of your
LAN adapter to 192.168.205.0 subnet. IP address should be other than default low/high side
IP addresses (192.168.205.10/192.168.205.11).
After applying these settings you are ready to connect to Web GUI or establish SSH/Telnet
connection. Refer to Chapter 4: COMMAND LINE INTERFACE for details how to connect to
other CLI interfaces (serial, SSH, Telnet).
Depending on the P/N Integra-W(S) may come pre-installed with in-band management or
out-band management. In case of out-band management option management access will
be available only on dedicated management port (labelled “MM”).
If “MM” port was used for PoE, management will be available directly on PoE injector’s port,
but an additional cable will be required to be installed for user data traffic. If “LAN(TP)” port
was used for PoE, user data traffic will be available directly on PoE injector’s port, but an
additional cable will be required to be installed for management access.
Note that by default management is transmitted over radio interface and you will have
access to management of local and remote sides simultaneously. Back-to-back
interconnection at remote side of the link will be required only if you have a chain of at least
two Integra-W(S) links.
In case of in-band management access port labelled “MM” cannot be used for user data
traffic, only for management access, while both LAN ports can be used for user data traffic
and management access.
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Traffic and management cable installation for out-band Integra-W(S)
Traffic and
cable installation for
W(S)
management
in-band Integra-
Accessing Web
GUI
1. Launch your
address field enter
IP address. Default
as follows:
browser and in
Integra-W FODU
IP addresses are
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•
•
WEB GUI
192.168.205.10 for low side Integra-W/Integra-WS FODU (P/N D*******L*)
192.168.205.11 for high side Integra-W/Integra-WS FODU (P/N D*******H*)
For secure connection use https:// prefix.
2. Press “Enter” key.
3. Login screen will appear.
4. Enter username and password. Default credentials are as follows:
• Username: admin
• Password: changeme
5. Select “Remember password” if you want browser to remember entered login credentials.
6. Press “Log in” button.
“Switch to secure connection (HTTPS)” indicates that HTTP protocol is being used. Press
on the link and you will be redirected to secure HTTPS URL.
Minimum supported horizontal resolution is 1024px.
Main page
After login you will be automatically redirected to the Main page of Web GUI:
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Web GUI is divided into 5 sections:
1 Top panel
Shows information about Integra-W/Integra-WS FODU you are connected to including:
•
•
•
•
•
•
•
Model name
System name
IP address
Serial number
Uptime
Firmware version
User name
2 Menu panel
Allows navigating between Main page (“Main”) and subpages of 4 sections:
• Over the air (Radio/modem (NP) configuration)
• Networking (Ethernet configuration)
• Performance
• System
3 Main Web GUI window
By default Main page (“Main”) is shown. Contents will change according to menu panel
selection.
4 MODIFY / SAVE / LOGOUT
Allows modifying parameters in the main window. If none can be modified, MODIFY button
appears inactive. After modification SAVE button becomes active and indicates number of
unsaved changes as well as their type (when moving cursor over the button). LOGOUT
button will logout from current session.
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5 System summary
Shows three selected parameters of local and remote systems and Tx polarization (as read
from internal accelerometer).
Values appear in red colour in case of exceeding alarm threshold values or in case of a
warning (e.g. if loopback is active).
Values appear in orange colour in case alarm threshold values were exceeded during last
15 seconds.
Modifying basic system parameters
In order to proceed with initial configuration, press MODIFY button and entry fields will
appear for adjustable values:
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1 Tx power
Available range depends on radio model and selected modulation. Actual range will be
indicated in the brackets.
2 Tx frequency
Available range depends on frequency band, subband, radio side and channel bandwidth
selected. Actual range will be indicated in the brackets.
Tx frequency range indicates range of central frequencies for configured channel bandwidth.
Default frequency range (indicated on the label) is defined for 14MHz channel bandwidth.
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3 Standard
Allows choosing whether only FCC, ETSI or both channel bandwidth options are visible in
“Configuration” selection field.
4 Bandwidth
Allows choosing between available channel bandwidth options along with indication of fixed
modulation or maximum modulation for ACM, bandwidth standard ETSI or FCC.
5 Modem profile
Allows choosing between available modulations for selected channel bandwidth.
ACM stands for Adaptive Coding and Modulation and enables adaptive modulation change
according to MSE value. Modulation indicates maximum modulation, while minimum is
4QAM.
6 State
Allows enabling/disabling each of two available ports. You can switch LAN port between
electrical and SFP interfaces in Networking
Ethernet
Port status and configuration.
7 Execute
By pressing „Execute configuration” changes made to the corresponding section apply only
for the local side Integra-W/Integra-WS. If „Rollback on” is selected, configuration will be
reverted in case erroneous configuration changes are applied.
Rollback triggers when configuration changes applied interrupt management connectivity.
For this reason rollback will not work if remote side of the link is not reachable.
Pressing „Execute for both” applies changes made to the corresponding section both for
local and remote side Integra-W/Integra-WS FODUs.
Over The Air
Over The Air 
 Radio 
 Configuration
Radio configuration page is available in “System” menu (Over The
Air
Radio
Configuration).
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Status mode
Press
button.
Modify mode
1) Tx power – Indicates current Tx (transmit) power value (status mode); allows
specifying Tx power value (modify mode). Available range depends on radio model
and selected modulation. Actual range will be indicated in the brackets.
sign
indicates that Tx power value was adjusted by ATPC. Move mouse over the sign for
further details.
2) Tx frequency – Indicates current Tx (transmit) frequency (status mode); allows
specifying Tx frequency (modify mode). Available range depends on frequency band,
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3)
4)
5)
6)
7)
8)
9)
WEB GUI
subband, radio side and channel bandwidth selected. Actual range will be indicated in
the brackets.
Tx frequency range indicates range of central frequencies for configured channel
bandwidth.
Default frequency range (indicated on the label) is defined for 40MHz channel
bandwidth.
Tx mute [ >=10 sec ] – Indicates whether Tx mute is enabled or disabled (status mode);
allows muting transmitter to limited time interval in seconds (modify mode). Minimum
value is 10 seconds. Note that transmitter will be muted only if valid value in seconds
is entered.
RSSI Audio – Indicates whether RSSI audio is enabled or disabled (status mode);
allows disabling or enabling RSSI audio (modify mode). RSSI audio is available using
3.5mm jack beside USB port. By default RSSI Audio is disabled. Please refer to
RSSI/audio port description for further details.
RSSI LED – Indicates whether RSSI LED is enabled or disabled (status mode); allows
disabling or enabling RSSI LED operation (modify mode). By default RSSI LED is
enabled. Please refer to RSSI LED section for further details.
RSSI LED mode – Indicates which RSSI LED mode is active (status mode); allows
selecting RSSI LED operation mode (modify mode). By default Mode 1 is enabled.
Please refer to RSSI LED section for further details.
ATPC – Indicates whether ATPC (Automatic Transmit Power Control) is enabled
(status mode); allows enabling/disabling ATPC (modify mode). By default this feature
is disabled.
ATPC update period (1..5 sec) – Indicates ATPC update period (status mode); allows
defining the period in seconds with which ATPC parameters are being updated
(modify mode). By default the update period is 5 seconds. Range is 1..5 seconds.
Rx (remote) level range (-75..-40 dBm) – Indicates minimum and maximum Rx level
of remote side Integra-W/Integra-WS for ATPC operation (status mode); allows
defining the minimum and maximum Rx level of remote side Integra-W/Integra-WS
(modify mode). There should be at least 3dB difference between min and max values.
ATPC Tx power correction will be performed only in case of exceeding these
thresholds.
Minimum Rx level threshold should be set at least 10dB above sensitivity threshold in
order to avoid ACM/ATPC switching loops.
ATPC operates only when ACM is at maximum modulation (if ACM is enabled).
10) Filter – Allows choosing whether only FCC, ETSI or both channel bandwidth options
are visible in “Configuration” selection field. Controls are available in modify mode
only.
11) Bandwidth – Indicates currently configured channel bandwidth (status mode); allows
choosing between available channel bandwidth options along with indication of
maximum modulation, as well as according standard of channel bandwidth – ETSI or
FCC (modify mode).
12) Modem profile – Indicates currently configured modulation (status mode); allows
choosing between available modulations for selected channel bandwidth (modify
mode).
ACM stands for Adaptive Coding and Modulation and enables adaptive modulation
change according to MSE value. Modulation indicates maximum modulation, while
minimum is 4QAM.
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13) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
Pressing „Execute for both” applies changes made to the corresponding section both
for local and remote side Integra-W/Integra-WS FODUs.
CLI commands (System 
 Tools 
 Console)
radio status
Use to show radio status.
radio power 
Use to set Tx power in dBm.
radio frequency 
Use to set Tx frequency in kHz.
radio rssi-led 
Use to enables or disable RSSI LED operation.
radio tx-mute 
Use to mute transmitter on specific time in seconds or
unmute.
radio factory
Use to reset radio settings to factory defaults – Tx
power will be disabled and frequencies set to factory
defaults.
radio upgrade 
Use to upgrade radio software version.
radio version
Use to check radio software version
radio atpc status
Use to check status of ATPC (Automatic Transmit
Power Control).
radio atpc state

radio atpc delay <1..5>
radio atpc rx_level <-75..-43>
<-72..-40>
modem configuration set
 

Use to enable/disable ATPC.
Use to define ATPC update period.
Use to define ATPC remote Rx level min and max
thresholds.
Use to set modem configuration – bandwidth, minimum
and maximum modulation.
modem configuration set
factory
Use to reset modem settings to factory defaults –
bandwidth and modulation will be reset to minimum.
modem loopback

Use to enable or disables modem loopback.
modem allowed
Use to check list of available modem configurations.
Networking
Networking 
 Ethernet 
 Network configuration
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Status mode
Press
button.
Modify mode
1) Data port priority – Indicates current priority interface of LAN (data) port – SFP or
electrical RJ-45 (status mode); allows setting priority interface for LAN (data) port –
SFP or electrical RJ-45 (modify mode). Note that only single LAN port can be active,
the other one is ignored. By default priority is set to electrical RJ-45 interface.
Priority setting means that if both interfaces are linked, only the priority interface will be
used. This way redundancy can be set up – if prioritized interface goes down, the
secondary one will take over.
Note that the active interface is indicated in “Main status” and “Port status and
configuration” pages.
2) Jumbo frame support – Indicates whether jumbo frame support is enabled (status
mode); allows enabling or disabling jumbo frame support (modify mode). By default
jumbo frame support (up to 9600B) is enabled. When disabled, maximum supported
frame size is 1522B.
3) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
CLI commands (System 
 Tools 
 Console)
network port set LAN jumbo

Use to enable or disable jumbo frame support on LAN
port.
network port set LAN interfprio 
Use to set active LAN port – electrical RJ-45 or SFP.
Networking 
 Ethernet 
 Port status and configuration
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Status mode
Press
button.
Modify mode
1) Port – Indicates available switch ports. Note that LAN port configuration (SFP or
electrical RJ-45) should be done in Network configuration page.
2) State – Indicates operation status of each LAN port (status mode); allows
enabling/disabling each port (modify mode).
3) Link status – Indicates whether link with appropriate port is established and its link
speed.
4) Link speed – Indicates whether link speed is configured to automatic speed setting
or manual (status mode); allows changing link speed to manual setting (modify
mode). Note that it is only possible to change speed of MNG port (only to 100FDX).
Only MNG port can be modified to 100FDX. LAN ports support Auto Gigabit (1000FDX) only
and cannot be modified.
Maximum L2 frame size supported for LAN ports is 9600B, for MNG port – 1518B.
5) Flow control – Indicates whether flow control is enabled or disabled on LAN port
(status mode); allows enabling/disabling flow control on LAN port (modify mode). By
default flow control is disabled.
6) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
CLI commands (System 
 Tools 
 Console)
network port show info
Use to show status of all ports.
network port show config
Use to show configuration of all ports.
network port set  adminstate 
Use to enable or disable particular port.
network port set MNG speed

Use to change speed and duplex setting on MNG
port. Default value is “auto” (autonegotiation).
network port set LAN flow-control

Use to enable or disable flow control on LAN port.
network port set LAN dpll

Use to set DPLL operation mode on LAN port.
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Performance
Performance 
 Alarm 
 Alarm status
Alarm status page summarizes current alarms by showing date and time the alarm
occurred and its name.
1) Date – shows date when alarm was initiated;
2) Time – shows time when alarm was initiated;
3) Alarm – shows name of the alarm.
CLI commands (System 
 Tools 
 Console)
log sensor setlist
Use to show alarm status.
Performance 
 Alarm 
 Alarm log
Alarm log shows 20 alarm entries per page and about 2000 alarm entries in total. Full
alarm log can be downloaded by pressing on “Alarm event log file”. Last page of log entries is
shown by default.
Alarm entries are mostly distributed in two groups – “Set”’ when alarm appears and
“Reset” when alarm disappears.
You also have fast access to alarm filtering, where it is possible to choose which alarm
groups you are willing to filter out of all log entries.
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Status mode
Press
button.
Modify mode
Clear alarm log – deletes all alarm log entries;
Toggle period selection – opens period selection controls;
Load the latest data – refreshes alarm log and shows last 20 log entries;
List of alarm log entries – entry number, date and time, source node, status and
event name. Clicking on “Cfg # accepted from <>” will redirect to Configuration file
page and highlight changes made.
5) Navigation controls. “<<” navigates to start of alarm log, while “>>” – to the end;
“Previous 20” navigates to previous alarm log page showing 20 previous alarm log
1)
2)
3)
4)
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entries, while “Next 20” – to next alarm log page showing 20 next alarm log entries
(if available).
6) Shows number of currently viewed alarm log page. In Web GUI only last 20 pages
(400 entries) are shown. Download alarm log to view full list. You can enter specific
page number to navigate to required page.
7) Filter – press to filter alarms from certain source node (e.g. Radio);
8) Alarm event log file – press on the link to download full alarm log text file.
CLI commands (System 
 Tools 
 Console)
log event show last
<#_of_entries>
Use to show certain number of last alarm log entries.
log event show time 
Use to show entries from a certain time point. Following
formats are supported: YYYY-MM-DD/hh:mm:ss; MMDD/hh:mm:ss; MM-DD/hh:mm; hh:mm:ss; hh:mm
log event show sensor
 
<#_of_entries|time>
Use to show entries for a specific sensor. Regarding
subcommands “last” and “time” refer to commands
above.
log event show module


<#_of_entries|time>
Use to show entries for a specific module. Regarding
subcommands “last” and “time” refer to commands
above.
log event clear
Use to clear alarm log
log event configure

Use to enable/disable grouped repetitive alarm-event log
entries.
log event configure dump

Use to configure timer during which repetitive log entries
are counted.
log event configure pattern
<1…10>
Use to specify amount of non-repetitive entries to be
counted.
log event configure status
Use to display current configuration of grouped repetitive
alarm-event log entries (filter).
Performance 
 Alarm 
 Sensor configuration
Following section allows specifying behaviour of available sensor parameters.
It is not recommended to add “License remaining time” sensor parameter to performance
(“perfd”) type parameters.
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Status mode
Press
button.
Modify mode
1) Group description (name) – Shows 5 groups of sensors divided by different group
data destinations (event; perf; snmp), as well as indicates whether group is enabled
(state);
2) Ungrouped sensor list – Shows list of sensors not added to any of existing groups
(status mode); allows dragging to any of existing groups, thus specifying how the
sensor will be treated. Unchecking checkbox next to the sensor disables the sensor
(modify mode).
3) Add group – Allows creating a new group with custom name and description.
Afterwards sensors from ungrouped sensor list or other groups can be added to the
group by dragging in.
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4) Remove group – Allows deleting existing groups via a dialog window.
5) Set all to default – Restores default settings for all groups and sensors.
6) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
CLI commands (System 
 Tools 
 Console)
log group info
Use to show sensor group configuration.
log group create 

Use to create a new group.
log group mgmt 
add destination

Use to add a destination for a group.
log group mgmt 
add sensor 
Use to add a sensor to a group.
log group mgmt 
config 
Use to enable or disable a group.
log group mgmt 
delete
Use to delete a group.
log group mgmt 
remove destination

Use to remove a destination from a group.
log group mgmt 
remove sensor 
Use to remove a sensor from a group.
log sensor list
Use to list all available sensors.
Performance 
 Alarm 
 Alarm threshold configuration
Page provides summary of parameters’ alarm thresholds. All thresholds are predefined and
some change dynamically according to system configuration. Thresholds can be modified if
required.
Alarm activates when current value exceeds low-delta or high+delta values. Alarm
deactivates when current value exceeds low+delta or high-delta values.
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Status mode
Press
button.
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Modify mode
1) Indicates low, high and delta values of the parameters (status mode); “Low value”,
“High value” and “Delta value” fields for all parameters become editable when
“Default value” is deselected (modify mode);
2) Set all to default – resets “Low value”, “High value” and “Delta value” for all
parameters to factory defaults;
3) Default value – deselect to activate manual threshold modification;
4) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS.
CLI commands (System 
 Tools 
 Console)
log sensor info
Use to show configuration of sensor thresholds.
log sensor mgmt 
control 
Use to set sensor thresholds to user defined or
automatically adjusted.
log sensor mgmt 
thold   
Use to set sensor’s min, max thresholds and delta value
manually.
log sensor mgmt 
time <0…30>
Use to set sensor hysteresis time in seconds. Will be used
to show value in orange colour indicating that sensor value
recently exceeded its thresholds.
log default

Use to set group, individual sensor or all sensor
configuration to default.
log sensor list
Use to list all available sensors.
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Performance 
 Monitoring 
 Performance graph
Performance graph allows visualising various parameters over chosen time period as
curves. Available parameters will depend on Sensor Configuration. Any two parameters can
be shown at a time. By default Rx level (dBm) and Radial MSE (dB) are selected.
Not all sensors available in Sensor Configuration can be displayed in Performance
graph.
MODIFY button is deactivated in Performance graph page.
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1) Left axis sensor – Allows choosing sensor parameter coloured in red and displayed
on left axis.
2) Right axis sensor – Allows choosing sensor parameter coloured in blue and
displayed on right axis.
3) Sensor log step – Allows choosing graph granularity – 1, 15 or 60 minutes.
4) Indicates start and end date/time of period displayed and allows selecting specific
period to show.
5) Period length – Indicates length of currently displayed period.
6) Get data – Press to apply selected time interval changes.
7) Left and right sliders allow to “zoom” currently selected time period.
Performance 
 Monitoring 
 Performance log
MODIFY button is deactivated in Performance log page.
1) Select sensors – Allows choosing sensor parameters to be displayed in
performance log.
2) Select fields – Allows choosing parameter fields to be displayed in performance log.
“Minimum” and “Maximum” represent minimum and maximum values in specified
sensor log step, while “Average” displays average value; “Threshold seconds” will
show amount of seconds in chosen time interval when parameter exceeded
minimum or maximum alarm thresholds; “No data (s)” and “Not available (s)” show
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3)
4)
5)
6)
WEB GUI
respectively time when there was no data of according parameter and it was not
available.
Select time interval – Allows choosing graph granularity – 1, 15 or 60 minutes.
One page – Will display performance log on a single page in a separate tab.
Paged – Will display performance log divided in pages in a separate tab.
Download XML – Press to download performance log in a extensible markup
language (.xml) file.
CLI commands (System 
 Tools 
 Console)
log perf show
<1M|15M|60M> last
<1…1440>
Use to show specified number of last performance log
entries with specified sensor log step.
log perf show
<1M|15M|60M> time 
Use to show entries from a certain time point. Following
formats are supported: YYYY-MM-DD/hh:mm:ss; MMDD/hh:mm:ss; MM-DD/hh:mm; hh:mm:ss; hh:mm
log perf clear
Use to clear performance log.
Performance 
 Ethernet 
 Ethernet switch statistics
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WEB GUI
Status mode
Press
button.
Modify mode (buttons appear at the bottom of the page)
1) Statistics for – time during which statistics have been gathered;
2) Rx detected – The total number of packets detected on port’s ingress;
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3)
4)
5)
6)
7)
8)
9)
10)
11)
12)
13)
14)
15)
16)
17)
18)
19)
20)
21)
22)
23)
24)
25)
26)
27)
28)
29)
WEB GUI
Rx dropped – The total number of packets dropped on port’s ingress;
Tx detected – The total number of packets detected on port’s egress;
Tx dropped – The total number of packets dropped on port’s egress;
Rx Bytes – Bytes on port’s ingress;
Tx Bytes – Bytes on port’s egress;
Rx 64 byte frames – The total number of 64 byte frames on port’s ingress;
Rx 65 - 127 byte frames – The total number of 65…127 byte frames on port’s
ingress;
Rx 128 - 255 byte frames – The total number of 128…255 byte frames on port’s
ingress;
Rx 256 - 511 byte frames – The total number of 256…511 byte frames on port’s
ingress;
Rx 512 - 1023 byte frames – The total number of 512…1023 byte frames on port’s
ingress;
Rx 1024 - Max byte frames – The total number of 1024…1522 byte frames on port’s
ingress;
Rx Undersize frames – The total number of packets received that were less than 64
octets long (excluding framing bits, but including FCS octets) and were otherwise
well formed;
Rx Oversize frames – The total number of packets received that were longer than
1522 octets (excluding framing bits, but including FCS octets) and were otherwise
well formed;
Tx 64 byte frames – The total number of 64 byte frames on port’s egress;
Tx 65 - 127 byte frames – The total number of 65…127 byte frames on port’s egress;
Tx 128 - 255 byte frames – The total number of 128…255 byte frames on port’s
egress;
Tx 256 - 511 byte frames – The total number of 256…511 byte frames on port’s
egress;
Tx 512 - 1023 byte frames – The total number of 512…1023 byte frames on port’s
egress;
Tx 1024 - Max byte frames – The total number of 1024…1522 byte frames on port’s
egress;
Tx Undersize frames – The total number of packets sent that were less than 64
octets long (excluding framing bits, but including FCS octets) and were otherwise
well formed;
Tx Oversize frames – The total number of packets transmitted that were longer than
1522 octets (excluding framing bits, but including FCS octets) and were otherwise
well formed;
Rx Good frames – The number of frames that have been received by this port from
its segment excluding fragmented and FCS error frames;
Rx Errors – The number of fragmented and FCS error frames;
Rx FIFO errors – The number of frames out of the sequence received by this port;
Rx CRC errors – The number of frames with wrong CRC received by this port;
Rx Broadcast frames – The total number of good packets received that were
directed to the broadcast address. Note that this does not include multicast
packets;
Rx Multicast frames – The total number of good packets received that were directed
to a multicast address. Note that this number does not include packets directed to
the broadcast address;
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WEB GUI
30) Rx Control frames – The total number of frames received as control frames;
31) Rx Length errors – The total number of frames received with incorrect length field;
32) Rx VLAN frames – The total number of frames received containing at least one
VLAN tag;
33) Rx Pause frames – The total number of frames received as control frames with valid
PAUSE opcodes;
34) Rx Op errors – The total number of frames recognized as control frames but contained an
Unknown Opcode;
35) Rx Frame errors – The total number of frames received with errors;;
36) Tx Good frames – The number of frames that have been transmitted by this port
from its segment excluding fragmented and FCS error frames;
37) Tx Errors – The number of fragmented and FCS error frames;
38) Tx FIFO err – The number of frames out of the sequence transmitted by this port;
39) Tx Broadcast frames – The total number of good packets transmitted that were
directed to the broadcast address. Note that this does not include multicast
packets;
40) Tx Multicast frames – The total number of good packets transmitted that were
directed to a multicast address. Note that this number does not include packets
directed to the broadcast address;
41) Tx Underrun errors – The number of packets transmitted that are less than the
allowed 64 octets minimum length. Underrun packets occur due to jam signals
generated by collisions, backpressure etc.;
42) Tx Control frames – The total number of frames transmitted as control frames;
43) Tx VLAN frames – The total number of frames transmitted containing at least one
VLAN tag;
44) Tx Pause frames – The total number of frames transmitted as control frames with valid
PAUSE opcodes;
45) Tx Single collisions – The total number of packets successfully transmitted by this
port that experienced exactly one collision;
46) Tx Multi collisions – The total number of frames successfully transmitted by this
port that experienced more than one collision;
47) Tx Deferred – The total number of frames transmitted by a this port for which the
first transmission attempt was delayed because the medium was busy;
48) Tx Late collisions – The total number of times that a collision was detected later
than 512 bit-times into the transmission of a frame;
49) Tx Excess collisions – The total number of frames that were not transmitted from
this port because 16 unsuccessful attempts were made to transmit the frame;
50) Tx Excess deferral – The total number of frames that deferred transmission for an
excessive period of time;
51) Tx Alignment errors – Asserted for received frames of size 64-bytes and greater
which contained an odd number of received nibbles and which also contained an
invalid FCS field;
52) Tx Carrier errors – A Number of frames transmitted in which the carrier signal was
lost or in which the carrier signal was not present;
53) Tx Collisions – The total number of collisions experienced by this port during packet
transmissions.
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WEB GUI
CLI commands (System 
 Tools 
 Console)
network port show statistics
Use to show Ethernet statistics on all ports.
network port reset statistics

Use to reset Ethernet statistics for a particular port or
all ports.
Performance 
 Over The Air 
 Modem graph
MODIFY button is deactivated in Modem graph page.
Modem graph can be activated in two modes – “constellation diagram” and “spectrum”.
1)
2)
3)
4)
Graph type – Allows choosing between “constellation” and “spectrum” graph types;
Data source – Indicates source of the signal;
Auto refresh – Allows disabling auto refresh of constellation/spectrum;
Automatic clear interval – Allows choosing how often is constellation automatically
cleared;
5) Quadrant view – Allows zooming constellation diagram to specific quadrant or part
of the quadrant;
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WEB GUI
6) Refresh – Allows refreshing constellation diagram/spectrum;
7) Clear – Allows clearing constellation diagram/spectrum.
Only a single user can see Constellation diagram and Spectrum curve at a time.
Constellation diagram
A constellation diagram is a representation of a signal modulated by the digital
modulation schemes 1024QAM, 512QAM, 256QAM, 128QAM, 64QAM, 32QAM, 16QAM, 8QAM
or 4QAM. It displays the signal as a two-dimensional scatter diagram in the complex plane at
symbol sampling instants. Measured constellation diagram can be used to recognize the type
of interference and distortion in a signal.
Constellation diagram (512QAM):
Examples of Integra-W/Integra-WS constellation diagrams under ideal conditions are
shown below:
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WEB GUI
For the purpose of analysing the received signal quality, some types of corruption are
evident in the constellation diagram. For example:
1) Gaussian noise is displayed as fuzzy constellation points:
2) Non-coherent single frequency interference is displayed as circular constellation
points:
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WEB GUI
3) Phase noise is displayed as rotationally spreading constellation points:
Spectrum
A spectrum curve is a representation received signal on the input of the modem. For this
reason spectrum signal levels will not correspond to actual radio receiver’s signal level. Signal
appearance will depend on configured channel bandwidth. Measured spectrum curve can be
used to recognize in-band interference or very powerful out-band interference (due to filters
applied).
Spectrum (80MHz):
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WEB GUI
Examples of Integra-W/Integra-WS spectrum curves in various channel bandwidths:
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WEB GUI
System
System 
 FW 
 Firmware upgrade
Status mode
button.
Press
Modify mode
1) Shows list of available firmware files;
2) Upgrade firmware – click on preferred firmware in the list and press “Upgrade
firmware” button to initiate firmware upgrade process.
Latest Integra-W/Integra-WS firmware can be downloaded in
https://saftehnika.com/en/downloads in “Firmwares” section. Login required.
3)
4)
5)
6)
Reboot – Reboots management CPU.
Delete – Deletes selected firmware file from the list.
Choose File – Press to browse for a firmware file on your hard disk drive.
Upload – Press to upload a firmware file to Integra-W/Integra-WS.
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WEB GUI
CLI commands (System 
 Tools 
 Console)
firmware info []
Use to show detailed information on current or specific
Integra-W/Integra-WS firmware.
Use to install firmware version uploaded. Note that
exact version needs to be entered. Check available
firmware versions using command “firmware list”.
Use to list uploaded firmware versions.
Use to remove firmware version uploaded. Note that
exact version needs to be entered. Check available
firmware versions using command “firmware list”.
Use to remove all uploaded firmware versions.
Use to check running firmware bank and bank that will
be used at the next boot.
Use to define bank that will be used at the next boot.
“fw1” and “fw2” subcommands set appropriate bank,
“toggle” forces to set other bank than the running one,
“fs” is factory defined emergency bank, which is used if
both “fw1” and “fw2” fail.
firmware install 
firmware list
firmware remove 
firmware remove.list
firmware switch
firmware switch

Integra series firmware upgrade via Web GUI
Firmware update package contains firmware file (.bin extension), release notes
and firmware upgrade instructions.
Latest Integra firmware update package can be downloaded in the following URL:
https://www.saftehnika.com/en/downloads (registration required)
Main method for firmware upgrade is upload via Web GUI, which automates the
whole firmware upgrade process. To perform software upgrade from Web GUI, please
follow these steps:
1) Go to “System 
 FW 
 Firmware upgrade”;
2) Press “MODIFY” button on right side of the page;
3) Press “Choose File” button, locate *.bin firmware file on your hard disk
(extracted from the firmware update package) and press “Open” button;
4) Press “Upload” button;
5) Select uploaded firmware from firmware list and press “Upgrade firmware”
button;
6) Confirm the upgrade and reboot the system.
Remote side should be upgraded first.
Please do not unplug power until firmware upgrade procedure is finished - Web
GUI will automatically reconnect and login page will appear.
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WEB GUI
Transition between out-band management and in-band management firmware versions
In-band management firmware version: management is available both on
dedicated management (MM) port and on data (LAN) ports. User traffic is available
only on data (LAN) ports.
Out-band management firmware version: management is available only on
dedicated management (MM) port. User traffic is available only on one of data (LAN)
ports. By default – LAN (TP) is enabled, while LAN (SFP) is disabled.
Upgrading from out-band management to in-band management firmware
version
- Follow instructions in section Integra series firmware upgrade via Web GUI.
- A single Ethernet cable should be interconnected between Integra LAN port
and CPE in order to avoid Ethernet loops
Upgrading from in-band management to out-band management firmware
version
- Follow instructions in section Integra series firmware upgrade via Web GUI.
- Management will be available only on dedicated management (MM) port,
thus in order to maintain management access after firmware upgrade,
management (MM) port should be interconnected with CPE on one side of the
link if management traffic is transmitted over the link (default setting). If
management traffic is not transmitted over the link, management (MM) port
should be interconnected with CPE on both sides of the link.
System 
 Configuration 
 IP
configuration
IP address configuration page is available in “System” menu (System
Configuration
IP
configuration).
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WEB GUI
Status mode
Press
button.
Modify mode
1) IP address – Indicates IP address of Integra-W/Integra-WS you are currently logged
in (status mode); allows specifying IP address of Integra-W/Integra-WS you are
currently logged in (modify mode). Default IP address is 192.168.205.10 or
192.168.205.11 – depending on which side the specific Integra-W/Integra-WS is –
low side has 192.168.205.10 IP address and high side – 192.168.205.11.
Integra-W/Integra-WS IP addresses need to be in the same subnet.
2) IP Mask – Indicates IP mask of Integra-W/Integra-WS you are currently logged in
(status mode); allows specifying IP mask of Integra-W/Integra-WS you are currently
logged in (modify mode). Default IP mask is 255.255.255.0.
3) IP gateway – Indicates gateway address of Integra-W/Integra-WS you are currently
logged in (status mode); allows specifying gateway address of Integra-W/IntegraWS you are currently logged in (modify mode). By default gateway is not specified
(blank).
4) Ethernet MAC address – shows the MAC address of Integra-W/Integra-WS you are
currently connected to.
5) Remote IP address – shows IP address of remote (far-end) Integra-W/Integra-WS.
By default remote IP address is being retrieved automatically and therefore “Auto”
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WEB GUI
checkbox is selected. In modify mode you can unselect “auto” option and enter
remote IP address manually.
6) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS.
CLI commands (System 
 Tools 
 Console)
system ip addr 
system ip gw 
system ip mask 
system ip mac
system ip cfg 
 or 
  or  or  
system remoteip show
system remoteip auto
system remoteip set 
system diag ping 
Use to set IP address of management CPU.
Use to set IP address of gateway.
Use to set subnet mask.
Use to show MAC address of management CPU.
Use to set IP address and sub or optionally IP address,
subnet mask and gateway simultaneously.
Use to show remote IP address.
Use to set automatic retrieving of remote IP address.
Use to define remote IP address.
Use to ping an IP address.
System 
 Configuration 
 SNMP configuration
The SNMP configuration pages provide configuration of SNMP communities, host and
trap addresses. SAF NMS system will work only when SNMP is properly configured.
Relevant MIB files can be downloaded directly from Web GUI. See (7) below.
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WEB GUI
Status mode
Press
button.
Modify mode
1) SNMP v1 setup / SNMP v2c setup – Allows switching between status/configuration
of SNMP v1 and v2c.
2) Read community – Indicates currently specified read community for SNMP v1 or v2c
(status mode); allows specifying read community for SNMP v1 or v2c of the agent to
enable parameters to be read (modify mode). Default read community name is “safpublic”.
3) Write community – Indicates currently specified write community for SNMP v1 or
v2c (status mode); allows specifying write community for SNMP v1 or v2c of the
agent to enable parameters to be written (modify mode). Default write community
name is “saf-private”.
4) Trap community – Indicates currently specified trap community for SNMP v1 or v2c
(status mode); allows specifying trap community for SNMP v1 or v2c for trap
authentication in monitoring applications (modify mode). Default trap community
name is “saf-traps”.
5) List of SNMP managers – Shows list of configured SNMP host IP addresses (status
mode); allows adding/deleting SNMP host IP addresses (modify mode). Specified IP
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WEB GUI
addresses have access to read and modify configuration parameters using
appropriate read and write community names.
6) List of trap v1/v2c managers – Shows list of configured SNMP trap IP addresses
(status mode); allows adding/deleting SNMP trap IP addresses (modify mode). The
Integra-W/Integra-WS management controller sends SNMP traps to the Trap
Manager with IP address specified here.
7) Download MIB file – Click to download Integra-W/Integra-WS MIB files.
8) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
CLI commands (System 
 Tools 
 Console)
snmp manager [add|del ]
snmp manager readcommunity [set|del ]
snmp manager writecommunity [set|del ]
snmp traps trap-community
[set|del ]
snmp traps trapv1manager
[set|del ]
snmp traps trapv2manager
[set|del ]
snmp showconfig active
snmp showconfig stored
Use to check, add or delete IP addresses of SNMP
v1/v2c managers.
Use to check, set or delete name of SNMP v1/v2c read
community.
Use to check, set or delete name of SNMP v1/v2c write
community.
Use to check, set or delete name of SNMP v1/v2c trap
community.
Use to check, set or delete IP addresses of SNMP v1
trap managers.
Use to check, set or delete IP addresses of SNMP v2c
trap managers.
Use to check currently active SNMP configuration.
Use to check saved SNMP configuration.
System 
 Configuration 
 Configuration file
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WEB GUI
Status mode
Press
button.
Modify mode
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WEB GUI
1) Download configuration file – Press to download system configuration txt file and
saving it on your hard drive.
2) Choose File – Press to browse for a saved configuration file on your hard disk drive.
3) Upload – Press to upload a configuration file to Integra-W/Integra-WS.
Uploaded configuration overwrites saved configuration.
4) Restore uploaded configuration file – Press to restore uploaded system
configuration. If configuration was not uploaded, saved configuration will be
restored, i.e. unsaved changes will be discarded!
Restoring configuration overwrites running configuration with saved configuration.
5) Load factory configuration file – Resets system configuration to factory defaults.
6) Saved configuration – Shows saved system configuration.
7) Running configuration – Shows currently running system configuration.
Distinct sections in saved and running configurations are highlighted with orange colour.
In order to examine particular differences expand highlighted sections of configuration by
clicking on down arrow of appropriate configuration section.
CLI commands (System 
 Tools 
 Console)
configuration factory
configuration factory aggr
configuration factory modem
configuration factory netsys
{mac-table|portstate|qos|rate|vlan}
configuration factory sync_e
configuration factory sysd
configuration load
configuration status
configuration store
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Use to reset system configuration to factory defaults.
Use to reset aggregation configuration to factory
defaults.
Use to reset modem configuration to factory defaults.
Use to reset whole Ethernet configuration to factory
defaults or particular sections using subcommands –
“mac-table” for MAC table; “port-state” for port state
configuration; “qos” for QoS configuration; “rate” for
rate limit configuration; “vlan” for VLAN configuration.
Use to reset SyncE configuration to factory defaults.
Use to reset whole system configuration to factory
defaults.
Use to load uploaded system configuration. If no
configuration was uploaded via Web GUI, command will
restore saved configuration, thus discarding unsaved
changes.
Use to check whether running configuration is saved.
Use to save running configuration.
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WEB GUI
System 
 Configuration 
 Password configuration
Status mode
Press
button.
Modify mode
1) User name – Choose between “admin” and “guest” user accounts. “guest” user has
monitoring privileges and cannot apply configuration changes.
By default password for “admin” account is ‘changeme’, while no password is
defined for “guest” account (user disabled).
2)
3)
4)
5)
Enter new password – Enter new password.
Confirm new password – Confirm new password.
Hide password – Uncheck to display entered password in plaintext.
By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
CLI commands (System 
 Tools 
 Console)
system user info
system user mgmt 
access 
system user mgmt 
delete
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Use to show information on current user.
Use to set read (“r”) or write (“w”) access right for
particular .
Use to delete particular . “admin” user
cannot be deleted.
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system user mgmt 

system user mgmt 
info
system user mgmt 
password 
system user new 
  
system user factory
system password change

system password reset
WEB GUI
Use to enable or disable particular .
Use to show information on particular .
Use to set password for particular .
Use to create new user with specified ,
,  and read (“r”) or write (“w”)
permissions.
Use to reset user to factory defaults.
Use to change password for current user.
Use to reset all passwords to default.
System 
 Configuration 
 System configuration
Status mode
Press
button.
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WEB GUI
Modify mode
1) System name – Allows entering preferable system name. Maximum length of the
system name cannot exceed 16 symbols. Default name is ‘SAF’.
2) Location name – Allows entering preferable system location name. Maximum length
of the location name cannot exceed 16 symbols. By default system location is not
specified.
3) Timezone – Allows specifying GMT time zone.
4) Time (YY-MM-DD hh:mm:ss) – Allows changing system date and time manually by
entering date and time in specific syntax.
5) Set local machine time – Press to force system to use the time set on your PC or
laptop, from which you are connected to the Web GUI.
6) NTP client – Allows enabling or disabling NTP (Network Time Protocol) client.
7) List of NTP servers – Allows adding or deleting IP addresses of NTP servers.
8) Obtain time from NTP server – Press to force system to obtain the time from a NTP
server.
9) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS. If „Rollback on” is selected,
configuration will be reverted in case erroneous configuration changes are applied.
CLI commands (System 
 Tools 
 Console)
system datetime 
system name 
system location 
system uptime
system ntp status
system ntp 
system ntp server add

system ntp server remove

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Use to enter system time and date. Use “YYYY-MMDD/hh:mm:ss” syntax for date/time.
Use to define system name.
Use to define system location.
Use to show system uptime since last system start.
Use to display NTP status.
Use to enable or disable NTP client.
Use to add an IP address of a NTP server.
Use to remove an IP address of a NTP server.
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system ntp server clear
system ntp timezone <-12:00 ...
14:00>
system ntp sync
WEB GUI
Use to clear list of NTP servers.
Use to specify GMT timezone.
User to force system to obtain the time from a NTP
server.
System 
 Configuration 
 System services
Status mode
Press
button.
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WEB GUI
Modify mode
1) HTTP – Allows disabling or enabling HTTP access to Web GUI. By default HTTP
access is enabled.
2) HTTP port – Allows specifying TCP port for Web GUI access via HTTP. By default
TCP port 80 is defined.
3) HTTPS – Allows disabling or enabling HTTPS access to Web GUI. By default HTTPS
access is enabled.
4) HTTPS port – Allows specifying TCP port for Web GUI access via HTTPS. By default
TCP port 443 is defined.
5) Redirect HTTP to HTTPS – Allows enabling automatic redirect from HTTP to HTTPS.
6) RADIUS - Allows enabling or disabling RADIUS (Remote Authentication Dial In User
Service). By default RADIUS is disabled.
7) RADIUS port – Allows specifying RADIUS port. By default port 1812 is defined.
8) RADIUS server IP address – Allows specifying RADIUS server IP address.
9) Set RADIUS password – Allows specifying RADIUS password.
10) Confirm RADIUS password – Allows confirming RADIUS password.
11) Hide password - Uncheck to display entered password in plaintext.
12) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS.
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WEB GUI
System 
 Diagnostic 
 Loopback configuration
Status mode
Press
button.
Modify mode
1) Modem loopback – Indicates whether modem loopback is active (status mode);
Allows enabling modem loopback by changing status to “On” and specifying
loopback duration time (modify mode). During modem loopback signal is looped
back to local end after the modem and Integra-W/Integra-WS should be able to
synchronize to itself. Both Radial MSE and LDPC stress should not generate an
alarm (values should not be coloured in red). When loopback is activated, “Loopback
duration time” countdown timer will appear.
2) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra-W/Integra-WS.
Below is an example of Main status page during modem loopback:
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While modem loopback is active “Modem loopback: Enabled, digital” indication
will be shown on Main status page.
CLI commands (System 
 Tools 
 Console)
modem loopback digital
<10..1000000>
modem loopback digital none
Use to enable modem loopback for specified time in
seconds.
Use to disable modem loopback.
System 
 Diagnostic 
 Download troubleshooting file
Clicking on the link will download troubleshooting file archive package to your hard disk
drive (“Downloads” folder of your browser).
Contents:
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WEB GUI
config.txt
Saved system configuration file
devel.tar
For debugging only
Ethernet.switch.html
Ethernet configuration
eventlog.txt
Alarm-event log file
Firmwares.html
Information on currently running firmware and stored
firmware files.
Licenses.html
Information on currently active license and added license
files
Modem.html
Information on modem including modem status and
configuration, counters, list of allowed modem profiles,
header compression
NetworkStatistic.html
Ethernet counters of LAN, WAN and MNG ports
Perflog.xml
Performance log with maximum 1440 entries for 1, 15 and
60 minute intervals
Performance.html
Information on alarm status, alarm threshold and sensor
configurations
Radio.html
Information on radio status, configuration and counters
SNMP.html
Information on SNMP v1/v2c configuration
System.html
Information on system configuration including Web services,
RADIUS, IP address, user, NTP configuration and inventory
info
System 
 Tools 
 License management
Provides list of available licenses, time left for each license and license upload controls.
Status mode
Press
button.
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WEB GUI
Modify mode
1) Shows list of available licenses and remaining time.
2) Activate – Select license from the list and press “Activate” to switch to preferable
license.
3) Choose file – Press to browse for a license file (*.lic) on your hard disk drive.
4) Upload – Press to upload a license file (*.lic) to Integra-W/Integra-WS.
If new license supports previously running modem configuration, no changes will be applied.
If previously modem was configured to modem configuration, which is not supported by new
license key, modem will be reconfigured to the maximal allowed configuration in chosen
channel bandwidth.
When license expires modulation will drop to “4QAM Limited” and link capacity
will drop to 256Kbps.
When license expires next license in the list needs to be activated manually.
CLI commands (System 
 Tools 
 Console)
license list
license list active
license list sequence 

license file list
license file add 
license file activate 
license file deactivate

SAF Tehnika JSC
Use to list available licenses.
Use to view settings of currently active license.
Use to move available licenses up or down the list.
When current license expires, next license below the
expired license in the list will be used.
Use to list available license files.
Use to add uploaded license file to license file list.
Use to activate license file.
Use to deactivate license file.
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WEB GUI
System 
 Tools 
 Console
Use syntax “ ?” to see information on subcommands.
Use 
 ENTER key to execute entered command.
List of valid CLI commands can be found at the end of each Web GUI page description.
Refer to Chapter 4: COMMAND LINE INTERFACE for details how to connect to other CLI
interfaces (serial, SSH, Telnet).
System 
 About 
 About System
Provides short description of Integra-W/Integra-WS series products.
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WEB GUI
CLI commands (System 
 Tools 
 Console)
product info
system number
Use to show detailed information on Integra-W/IntegraWS FODU.
Use to show Integra-W/Integra-WS serial number.
System 
 About 
 Copyright
Displays copyright information.
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WEB GUI
System 
 About 
 Inventory
Displays inventory information.
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COMMAND LINE INTERFACE
Chapter 4: COMMAND LINE INTERFACE
Command line interface (CLI) is available via 4 individual interfaces:
Secure Shell (SSH);
Telnet;
Serial terminal;
Web GUI (System
Tools
Console, partial functionality)
The available CLI commands are found in “CLI commands” tables in appropriate Web GUI
page sections in Chapter 3: WEB GUI.
For SSH, Telnet or serial connection you can use any client supporting according interfaces
(e.g. PuTTY, Tera Term etc.).
CLI commands are not case sensitive.
A User can abbreviate commands and parameters as long as they contain
enough letters to be distinguished from any other currently available commands
or parameters.
Connecting to serial RS232 interface
In order to connect to Integra-W/Integra-WS serial terminal you will require USB cable with
USB Type B connector. Please refer to Chapter USB port for pinouts.
To connect the PC to the RS232 management port, using serial terminal-emulation
software (e.g. PuTTY), use the following parameters:
•
•
•
•
•
Baud rate: 115200
Data bits: 8
Parity: None
Stop bits: 1
Data flow control: None
Below are connection steps with PuTTY - Windows freeware software.
1. Open PuTTY and go to “Serial” category. Specify your COM port number you will be
using, change “Speed (baud)” to “115200” and “Flow control” to “None”:
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COMMAND LINE INTERFACE
2. Press “Open” and after pressing “Enter” key following login dialog should appear:
3. Enter username and password. Default credentials are as follows:
•
•
login: admin
password: changeme
4. After successful login “SAF>” prompt should appear (if system name is default,
otherwise prompt will differ):
5. Press “Ctrl+C” to log off from current session.
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COMMAND LINE INTERFACE
Closing PuTTY window does not log off from current serial terminal session.
Connecting to SSH
SSH connection to Integra-W/Integra-WS FODU is carried out using Ethernet
management connection. Please refer to Chapter “Ethernet management connection” for
Ethernet management port connection details.
You can use any SSH client. Below are connection steps with PuTTY - Windows freeware
software.
1. Open PuTTY, choose “Connection Type”: “SSH”, enter IP address and make sure that
correct port number is used (“22” by default):
2. Press “Open”, enter login credentials (default user name is admin and password changeme). After successful login following prompt should appear:
Connecting to Telnet
Telnet connection to Integra-W/Integra-WS FODU is carried out using Ethernet
management connection. Please refer to Chapter “Ethernet management connection” for
Ethernet management port connection details.
You can use any Telnet client. Below are connection steps with PuTTY - Windows freeware
software.
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COMMAND LINE INTERFACE
1. Open PuTTY, choose “Connection Type”: “Telnet”, enter IP address and make sure that
correct port number is used (“23” by default):correct port number is used (“23”correct
port number is used (“23” by default)
2. Press “Open”, enter login credentials (default user name is admin and password changeme). After successful login following prompt should appear:
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TOOLS
Chapter 5: 17/24GHz
Setting bandwidth to 60MHz
1) Access Web GUI of remote side radio first. Configure the Tx frequency to 17130MHz
(17GHz) or 24080MHz (24GHz) if it is low side unit or to 17270MHz (17GHz) or 24220MHz
(24GHz) if it is high side unit. Press “Execute for both”.
2) Go to “System -> Console” (still for remote radio) and execute command “radio duplexshift 140000”. You will lose the connection with your remote side now.
3) Access Web GUI of local side radio. Configure the Tx frequency to 17130MHz (17GHz)
or 24080MHz (24GHz) if it is low side unit or to 17270MHz (17GHz) or 24220MHz (24GHz) if
it is high side unit. Press “Execute for both”.
4) Go to “System -> Console” for local side unit and execute command “radio duplex-shift
140000”.
5) Save the configuration on both radios.
Setting bandwidth to 80MHz
1) Access Web GUI of remote side radio first. Configure the Tx frequency to 17140MHz
(17GHz) or 24090MHz (24GHz) if it is low side unit or to 17260MHz (17GHz) or 24210MHz
(24GHz) if it is high side unit. Press “Execute for both”.
2) Go to “System -> Console” (still for remote radio) and execute command “radio duplexshift 120000”. You will lose the connection with your remote side now.
3) Access Web GUI of local side radio. Configure the Tx frequency to 17140MHz (17GHz)
or 24090MHz (24GHz) if it is low side unit or to 17260MHz (17GHz) or 24210MHz (24GHz) if
it is high side unit. Press “Execute for both”.
4) Go to “System -> Console” for local side unit and execute command “radio duplex-shift
120000”.
5) Save the configuration on both radios.
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TOOLS
Chapter 6: TOOLS
Link Layer Discovery tool
Link Layer Discovery Client is a command line application for Microsoft Windows operating
systems (Windows Vista/7/8). It sends requests to Link Layer Discovery server application
which runs on all Integra series radios.
The client is used to discover Integra series radios and reset its passwords or settings.
WinPCAP should be installed.
The application is started via the command line – Start menu
Run. Type “cmd” and press
enter. Command line console window should appear.
The default directory in the console is the current user directory. To change it, type:
cd 
For example – cd c:\recoverytool
Put the downloaded “recovery” file into your default user directory. If the file is put in any
other directory (for example, c:\recoverytool), change the console directory by using the
above console command.
Run the recovery tool by typing “recovery” without quotes in the console and press ENTER.
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TOOLS
Available commands and network adapter list should be shown. To scan for Integra devices,
the command should be run as follows:
recovery 
For example:
recovery \DEVICE\NPF_{CF93C592-8233-4EDD-9502-AB9E2CC4063A}
To copy the interface address from network adapter list, click the right mouse button over
the console and select “Mark”,
then by holding the left button select the interface address.
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TOOLS
After selecting, release the left button and click the mouse right button anywhere on the
console. The address should be copied. Paste it by clicking the right button on the command
line after typing “recovery” and selecting “Paste”. The result should be similar as in the
below images.
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TOOLS
The recovery tool will now scan for Integra devices. Available devices and their information
will appear in the console. If they do not, retry the command after a while, the devices may
take some time to boot up after power down.
Use the MAC address of the device with the reset command to reset this specific device.
The MAC address can be copied the same way as the interface address.
The device is reset by using the required reset command with the recovery tool:
recovery  reset  
Where  - network interface form the network adapter list
 - required Integra device address
 - variants of what reset is to be made
Different reset choices are available depending on the reset requirement. The commands are
available in the reset command list. Use the command after the MAC address of the device
as shown in the previous reset command example.
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TOOLS
For example, to reset users and passwords on Integra device #1, enter the following
command:
recovery \DEVICE\NPF_{1A985EC4-7237-4281-BE59-8D5DEEDB5E81} reset 0004A6813122
acc
Make sure the command is run within 3 minutes after Integra reboot (RK1 fresh:true in the
console), if not, the following error will occur. The recovery tool will continue to retry the
command.
Power down the device and power it up again, the reset should be completed soon.
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TOOLS
If the reset is successful, it will be shown in the command console.
If the reset cannot be completed, try powering down the device, powering it up again and
retry the reset procedure in less than 3 minutes after the power up.
MIB files
Relevant MIB files can be downloaded directly from Integra-W/WS Web GUI. See
Chapter “System 
 Configuration 
 SNMP configuration” for further details.
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TOOLS
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INTERFACES
Chapter 7: INTERFACES
RJ-45 ports (MNG & LAN)
RJ-45 ports (MNG & LAN) comply with IEEE 802.3-2005 1000Base-T Ethernet and IEEE
802.3at, LTPoE++ Power over Ethernet standards. MNG port additionally complies with
100Base-T Ethernet standard.
For some HW revisions PoE may be available on data (LAN(TP)) port only.
The pinouts are as follows:
Pin
Data
PoE
Bi-directional A+
Bi-directional ABi-directional B+
Bi-directional C+
Bi-directional CBi-directional BBi-directional D+
Bi-directional D-
VB1+
VB1+
VB1VB2+
VB2+
VB1VB2VB2-
In case Ethernet cable is used for power & data (with PoE injector), combined Ethernet cable
length from PoE injector to Integra-W/Integra-WS FODU and from PoE injector to CPE is
limited to 100m / 328ft.
In case SFP interface (LAN) is configured for data traffic, it is possible to use RJ-45 port
solely for power supply. Two options are possible:
1) Ethernet cable with PoE injector.
Please refer to table below for maximum Ethernet cable length from PoE injector to
Integra-W/Integra-WS FODU based on AWG wire size and Integra-W/Integra-WS
FODU power consumption.
AWG
26
24
22
Lmax @ 45W
202m / 662ft
321m / 1053ft
510m / 1674ft
Lmax @ 40W
227m / 745ft
361m / 1184ft
574m / 1884ft
Lmax @ 35W
259m / 851ft
413m / 1353ft
656m / 2153ft
2) 2-wire power cable together with DC power adapter cable for Integra-W/Integra-WS
(P/N D0ACPW01).
Please refer to the tables below for maximum power cable length based of AWG wire
size or cross-section and Integra-W/Integra-WS FODU power consumption.
AWG
24
22
20
18
16
14
Lmax @ 45W
80m / 263ft
127m / 419ft
203m / 666ft
322m / 1058ft
512m / 1682ft
815m / 2675ft
Lmax @ 40W
90m / 296ft
143m / 471ft
228m / 749ft
362m / 1190ft
576m / 1892ft
917m / 3010ft
Lmax @ 35W
103m / 338ft
164m / 538ft
260m / 856ft
414m / 1360ft
659m / 2163ft
1048m / 3440ft
Cross-section area
0.25mm2
0.5mm2
0.75mm2
Lmax @ 45W
101m / 331ft
201m / 659ft
302m / 990ft
Lmax @ 40W
113m / 370ft
226m / 741ft
339m / 1112ft
Lmax @ 35W
129m / 423ft
259m / 849ft
388m / 1273ft
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INTEGRA-W/INTEGRA-WS User Manual
1.0mm2
1.5mm2
402m / 1318ft
603m / 1978ft
INTERFACES
452m / 1482ft
679m / 2227ft
517m / 1696ft
776m / 2545ft
Maximum cable length calculation is done using copper resistance.
SFP port (LAN)
SFP port provides SFP transceiver connectivity.
SFP port complies to the following Gigabit Ethernet standards:
1000BASE-SX, 1000BASE-LX, 1000Base-T (note: 1000FDX only).
USB port
USB port provides serial terminal access to CLI. Socket is B type.
RSSI LED
RSSI LED can be activated in three operational modes – Mode 1, Mode 2 and Mode 3. By
default RSSI LED is enabled in Mode 1. For further details please refer to Radio configuration
page.
Corresponding Rx signal levels and LED blinking pattern for each mode is represented in
the figure below:
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INTERFACES
RSSI/audio port
RSSI (Received Signal Strength Indicator) port is used to adjust the alignment of antenna
for best performance (for both rough and fine adjustment); this can be done using digital
multimeter or headphones connected to the RSSI port. RSSI port is 3.5mm socket. The output
of the RSSI port is DC voltage and audio frequency and varies depending on received signal
level. Both are linear curves.
In order to connect a voltmeter you will require appropriate RSSI cable (P/N D0ACRS01):
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INTERFACES
The following charts and tables show typical relationship of the received signal level (Rx
level) displayed by Integra-W/Integra-WS vs. RSSI port output voltage (RSSI – Received
Signal Strength Indicator) and audio frequency. The RSSI port is located on FODU. The
evaluated Rx level has the error +/-2 dB.
Output voltage
Output audio frequency
SAF Tehnika JSC
Rx level
(dBm)
RSSI
voltage (V)
-90
-85
-80
-75
-70
-65
-60
-55
-50
-45
-40
-35
-30
-25
-20
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
Rx
level
(dBm)
Audio
frequency
(Hz)
-100
-96
-92
-88
-84
-80
-76
-72
-68
-64
-60
-56
-52
-48
-44
-40
-36
-32
-28
-24
-20
100
145
190
235
280
325
370
415
460
505
550
595
640
685
730
775
820
865
910
955
1000
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TECHNICAL SPECIFICATION
Appendix A: TECHNICAL SPECIFICATION
Integra-W
Integra-WS
FODU with antenna integration
FODU slip-fit
General
Concept / form factor
883 Mbps at 112 MHz 1024 QAM
Capacity
643 Mbps at 80 MHz 1024 QAM
(for Integra-WS 17GHz and 24GHz)
Frequency bands
6GHz*, 11GHz, 15GHz, 17GHz UL, 18GHz, 23GHz, 24GHz UL, 25GHz, 26GHz,
28GHz*, 32GHz*, 38GHz, 42GHz and more*
Modulation
From 4QAM up to 1024QAM with hitless ACM
Configurations
1+0
ATPC
Yes*
Channel bandwidth
Frequency stability
ETSI: from 56 MHz up to 112 MHz
FCC: from 40 MHz up to 80 MHz
± 10 ppm
Ports
Gigabit
Ethernet
Service
ports
2x RJ-45
Electrical with built-in PoE splitter and surge arrestor
1x SFP
Alternative to 1xRJ-45
3.5mm
Audible alignment and RSSI
USB B
RS232 serial over USB B-Type
LED
Power On, Link Synchronization, RSL
Ethernet
Ethernet
Unmanaged Gigabit Ethernet
Gigabit Switch functionality
Transparent
Management
SNMP v1/2c/3*, SSH, Telnet, HTTPS, Serial, RADIUS, Network Time Protocol
Performance monitoring
Performance graphs, constellation diagram, alarms, detailed counters
Synchronization
SyncE*, IEEE 1588v2 PTP*
Carrier Ethernet
functionality
Transparent
Jumbo frames
Yes, 9600 bytes
Antenna
Sizes
0.3m / 1ft
0.6m / 2ft
Antenna
High Performance and Super High Performance*
External antenna
Electrical
Power consumption
Power range
Integra
PoE
Injector1
Temperature range
31...74 W depending on model and frequency band. See table below.
36 … 57 V DC
36 … 60 V DC all Integra models; 22...60 V DC models with ≤50 W consumption
-33 ... +55 °C / -28 … +130 °F
Voltage range using I0ATPI24 Power over Ethernet Injector
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TECHNICAL SPECIFICATION
Mechanical specification
Integra-W
Antenna
Integra-WS
0.3m / 1ft
0.6m / 2ft
External antenna
Mechanical & Enviromental
Antenna performance
High Performance and Super High Performance2
Stationary use
Conforms to ETSI EN 300 019 Class 4.1, IP66, NEMA 4X
Size, w/o mount
378 x 378 x 227 mm /
14.9” x 14.9” x 9”
669 x 669 x 289 mm /
26.3” x 26.3” x 11.4”
235 x 250 x 72 mm /
9.26” x 9.85” x 2.84”
Size, Integra -WS 17/24
GHz UL
N/A3
N/A3
235 x 250 x 111 mm /
9.26” x 9.85” x 4.37”
Size, 6/7/11 GHz
N/A
N/A
Weight, w/o mount
5 kg / 11 lbs
5 kg / 11 lbs
2.9 kg / 6.4 lbs
Weight, Integra -WS
17/24 GHz UL
N/A3
N/A3
4.9 kg / 10.8 lbs
Weight, 6/7/11 GHz
N/A
N/A
6.5 kg / 14.3 lbs
Mount
280 x 437 x 100 mm /
11.02” x 17.2” x 3.9”
Mount size
292 x 176 x 250 mm / 11.5” x 7” x 10” max
Pole size
Ø 40 – 120 mm / Ø 1.6” – 4.7”
Weight
2.55 kg / 5.6 lbs
Mount on antenna
Inquire SAF representative for more information
Among Integra-W family, only Integra-WS model with external antenna is currently available for 17/24 GHz unlicensed
bands.
Power consumption at 48V DC4
L6 GHz
U6, 7
GHz
11
GHz
15 GHz
17
GHz
18
GHz
23
GHz
24
GHz
38 GHz
70W5
64W
51W
31W5
31W
32W5
38W5
Power consumption for Integra radio shown only. For power consumption of complete system add up to 8% (at 48V DC
input) for PoE in DC/DC mode, around 4W for 100m cable (depends on cable) and approx. 1W for SFP transceiver, if
used.
Preliminary data
Integra-W preliminary RSL Threshold (dBm) and Link Capacity
(Mbps)
ETSI channels
56 MHz
112 MHz6
FCC channels
40 MHz
50 MHz
60 MHz
80 MHz
100 MHz6
Modulation RSL Mbps RSL Mbps RSL Mbps RSL Mbps RSL Mbps RSL Mbps RSL Mbps
4QAM -82.0
-79.0 176 -83.5
63 -83.0
78 -82.0
96 -80.5
128 -79.5
168
8QAM -78.0 134 -75.0 265 -79.5
94 -78.5
118 -77.5
144 -76.5
192 -75.5
252
16QAM -75.5 178 -72.0 359 -77.0
126 -76.0
157 -75.0
192 -74.0
257 -72.5
336
32QAM -72.5 224 -69.5 441 -74.0
157 -73.0
197 -72.0
240 -70.5
321 -69.5
420
64QAM -69.5 269 -66.5 530 -71.0
189 -70.0
236 -69.0
288 -68.0
385 -67.0
504
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TECHNICAL SPECIFICATION
128QAM -66.5 314 -63.5 618 -68.0
220 -67.0
276 -66.5
336 -64.5
450 -64.0
588
256QAM -63.5 359 -60.5 707 -65.0
252 -64.0
315 -63.5
385 -62.0
514 -60.5
672
512QAM -60.5 404 -57.0 795 -62.0
284 -61.0
355 -60.0
433 -58.5
578 -57.5
756
1024QAM -57.0 449 -53.5 883 -58.5
315 -57.5
394 -57.0
481 -55.0
643 -54.0
840
6 100
MHz and 112 MHz channel bandwidths are available for all Integra-W /-WS models except 17GHz and 24GHz UL.
Maximum Tx Power for Integra-W and Integra-WS
Tx power, dBm
Modulation
L6
GHz
U6
GHz
11 GHz
15, 18, 23,
25, 26 GHz
17 GHz8,
24 GHz8
28, 32 GHz7
38
GHz
42
GHz
4 QAM
+33
+31
+28
+22
-26 … +5
+22
+17
+11
16 QAM
+32
+30
+27
+21
-26 … +5
+21
+17
+11
32 QAM
+32
+30
+27
+21
-26 … +5
+21
+17
+11
64 QAM
+31
+29
+26
+20
-26 … +5
+20
+16
+9
128 QAM
+31
+29
+26
+20
-26 … +5
+20
+16
+9
256 QAM
+30
+28
+25
+19
-26 … +5
+19
+15
+8
512 QAM
+30
+28
+25
+19
-26 … +5
+19
+15
+8
1024 QAM
+28
+26
+23
+17
-26 … +5
+17
+14
+7
Preliminary data.
Max Tx power settings depend on EIRP allowed by national regulatory and antenna size.
High Performance integrated antenna specification
Size
Half power
beamwidth
XPD
dB
F/B
ratio, dB
32.1
4.3°
30
17
33.4
3.5°
18
34.2
3.3°
23
35.3
24
36.1
26
38
42
Frequency,
GHz
Gain,
15
0.3m
dBi
Compliance
ETSI
FCC
58
Class 3
N/A
30
60
Class 3
B2
30
61
Class 3
B2
3.0°
30
62
Class 3
2.6°
30
62
Class 3
N/A
36.6
2.5°
30
63
Class 3
N/A
40.1
1.6°
30
61
Class 3B
40.8
1.5°
30
60
Class 3
15
37.5
2.4°
30
62.5
Class 3
N/A
17
38.2
2.3°
30
65
Class 3
18
39.1
1.9°
30
64.5
Class 3
23
41.4
1.6°
30
66.5
Class 3
0.6m
24
41.1
1.4°
30
66
Class 3
N/A
26
41.6
1.5°
30
68
Class 3
38
45.2
0.9°
30
64
Class 3B
42
46
0.8°
30
65
Class 3
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TECHNICAL SPECIFICATION
15-42 GHz
Integra-W
15, 18-23, 26-42 GHz
17, 24 GHz
Integra-WS
6-13 GHz
CONTACTS
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24a, Ganibu dambis, Riga, LV-1005, Latvia, EU
sales@saftehnika.com
www.saftehnika.com

---

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Modify Date                     : 2017:06:01 20:14:40-05:00
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Producer                        : PDF Printer / www.bullzip.com / FPG / Freeware Edition
Creator Tool                    : UnknownApplication
Metadata Date                   : 2017:06:01 20:14:40-05:00
Document ID                     : uuid:7d0436b5-1aba-11e7-0000-620530af5608
Instance ID                     : uuid:3541a371-563a-4173-9eba-73e5b5e64aa4
Format                          : application/pdf
Title                           : Microsoft Word - Integra-W_Integra-WS_FODU_UM_V 1 2a.docx
Creator                         : egvi
Page Count                      : 97

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