SAF Tehnika AS INTEGRA24 Low Power Point-To-Point Transmitter User Manual

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User manual
Integra Full Outdoor Unit
VER 1.7
F W 1 .0 .8
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 © 2014 SAF Tehnika, JSC. All rights reserved.
SAF Tehnika JSC
Contents
Chapter 1: OVERVIEW ............................................................................................... 5
Technical specification .......................................................................................... 5
Preliminary RSL Threshold (dBm) and Link Capacity (Mbps)............................... 6
Maximum Tx Power ...................................................................................................... 7
High Performance antenna specification ................................................................. 7
Ethernet header compression ..................................................................................... 8
Labelling ................................................................................................................ 9
Microwave Radiation ........................................................................................... 10
Chapter 2: INSTALLATION ...................................................................................... 12
Integra FODU: assembling mounting bracket and installing with antenna on a
pole ...................................................................................................................... 12
Disassembled mounting bracket and tools required for assembly ................... 12
Changing polarization of Integra FODU and antenna ........................................... 13
Assembly procedure ................................................................................................... 14
Integra-S FODU: attaching to the antenna .......................................................... 17
Chapter 3: WEB GUI ................................................................................................. 20
Initial configuration .............................................................................................. 20
System requirements .................................................................................................. 20
Accessing Integra Web GUI ....................................................................................... 20
Main page ...................................................................................................................... 20
Over The Air ......................................................................................................... 24
Radio à Configuration ............................................................................................... 24
Networking .......................................................................................................... 26
Ethernet à VLAN......................................................................................................... 26
Ethernet à Rate limit.................................................................................................. 27
Ethernet à Port status and configuration.............................................................. 28
Synchronization à SyncE ......................................................................................... 29
Performance ........................................................................................................ 32
Alarm à Alarm status ................................................................................................ 32
Alarm à Alarm log ...................................................................................................... 32
Alarm à Alarm threshold configuration ................................................................. 34
Performance à Performance graph ....................................................................... 35
Ethernet à Ethernet switch statistics ..................................................................... 37
Over The Air à Equalizer graph................................................................................ 41
Over The Air à Constellation diagram .................................................................... 42
Over The Air à Modem performance ..................................................................... 45
System ................................................................................................................. 46
FW à Firmware upgrade ........................................................................................... 46
Configuration à IP configuration ............................................................................ 47
Configuration à SNMP configuration .................................................................... 48
Configuration à Configuration file .......................................................................... 50
Configuration à System configuration .................................................................. 51
Diagnostic à Loopback configuration ................................................................... 52
Diagnostic à Download troubleshooting file ........................................................ 52
SAF Tehnika JSC
Tools à License management ................................................................................ 53
Tools à Console ......................................................................................................... 54
About à About System.............................................................................................. 55
About à Copyright...................................................................................................... 55
Chapter 4: INTERFACES .......................................................................................... 57
RJ-45 port ........................................................................................................... 57
USB port............................................................................................................... 57
RSSI LED .............................................................................................................. 58
RSSI/audio port ................................................................................................... 59
CONTACTS .............................................................................................................. 60
SAF Tehnika JSC
INTEGRA User Manual
OVERVIEW
Chapter 1: OVERVIEW
Technical specification
Integra
Integra-S
Concept / form factor
FODU with antenna integration
FODU slip-fit
Capacity
up to 1Gbps throughput with header compression*
Frequency bands
15GHz, 17GHz UL, 18GHz, 23GHz, 24GHz UL, 25-26GHz, 38GHz, 42GHz
and more*
Modulation
From 4QAM up to 1024QAM with hitless ACM
Configurations
1+0, 2+0 link bonding
ATPC
Yes
Channel bandwidth
ETSI: from 3.5 MHz up to 56MHz
FCC: from 5 MHz up to 60MHz
General
Ports
Gigabit
Ethernet
Service
ports
1x RJx45
Electrical with built-in PoE splitter
2x SFP
Fiber Optics
3.5mm
Audible alignment and RSSI
USB B
Terminal Access
LED
Power On, Link Synchronization, RSL
Ethernet
Ethernet
Built-in Carrier Ethernet Gigabit Network Processor
Managed Gigabit Switch
functionality
802.1Q VLANs with QoS/CoS including WRED, shaping and DWRR,
Spanning Tree Protocol, Jumbo frames and more*
Management
SNMP v1/2c/3, SSH, HTTPS, Serial, Radius, Network Time Protocol
Performance monitoring
Performance graphs, constellation diagram, alarms, detailed counters
Synchronization
SyncE, IEEE 1588v2 PTP*
Carrier Ethernet
functionality
Provider Bridging, MEF9&14, High Efficiency Header Compression, AES
256-bit encryption, MPLS-TP*, OAM*
Max frame size
9600 bytes
Antenna
Sizes
0.3m / 1ft
0.6m / 2ft
Antenna
High Performance and Super High Performance*
External antenna
Electrical & Mechanical
Power consumption
Typical: 20W, Max: <35W
Temperature range
-33 ... +55 °C / -28 … +130 °F
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”
Weight, w/o mount
5 kg / 11 lbs
5 kg / 11 lbs
2.9 kg / 6.4 lbs
Mount
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
SAF Tehnika JSC
INTEGRA User Manual
OVERVIEW
Preliminary RSL Threshold (dBm) and Link Capacity (Mbps)
ETSI channels
3.5 MHz
Modulation
7 MHz
14 MHz
20 MHz
Eth
28 MHz
RSL
Eth
40 MHz
RSL
Eth
56 MHz
RSL
Eth
RSL
Eth
RSL
Eth
RSL
4QAM
-97
-95
-92
17
-91
25
-90
35
-89
50
RSL
-87
Eth
72
16QAM
-91
-88
16
-86
33
-85
51
-84
69
-82
98
-80
145
32QAM
-87
10
-85
20
-82
44
-81
64
-80
88
-78
125
-77
183
64QAM
-85
13
-82
27
-79
56
-78
85
-77
115
-76
165
-74
241
128QAM
-81
16
-78
33
-76
67
-75
102
-74
138
-73
198
-71
289
128QAM W
-79
17
256QAM
-75
39
-73
79
-72
119
-71
161
-69
231
-68
337
256QAM W
-73
41
90
-68
136
-68
184
-66
264
-64
385
512QAM
-70
512QAM W
-66
97
1024QAM
-65
153
-64
207
-62
298
-61
433
1024QAM W
-62
163
-61
220
-60
314
-58
456
FCC channels
Modulation
5 MHz
10 MHz
RSL Eth RSL Eth
20 MHz
RSL
Eth
25 MHz
RSL
Eth
30 MHz
RSL
Eth
40 MHz
RSL
50 MHz
60 MHz
Eth RSL Eth RSL Eth
5 -94 12 -91.5
24
-90
31
-90
37
-88
16QAM -89 10 -88 24
-85
49
-84
62 -83.5
73
-82 101 -81 127 -80 151
32QAM -85 12 -83 30
-81
62
-80
78
93
-78 129 -77 160 -76 190
64QAM -82 17 -80 40 -78.5
82
-77 104 -76.5 123
-75 170 -74 212 -73 251
128QAM -79 20 -77 48 -75.5
99
-74 124 -73.5 148
-72 204 -71 255 -71 301
4QAM -96
128QAM W -76 22
-80
51 -87
63 -86
74
256QAM
-74 56 -72.5 115
-71 145 -70.5 173
-69 238 -68 297 -67 351
256QAM W
-71 60
512QAM
-68.5 132
-68 166
1024QAM
-65.5 148
-64 187 -63.5 222
1024QAM W
-62.5 157 -61.5 198
SAF Tehnika JSC
-67 197 -65.5 272 -64 340 -64 401
-61 235
-62 306 -61 382 -60 451
-60 323 -58 409 -58 474
INTEGRA User Manual
OVERVIEW
Maximum Tx Power
Modulation
Tx power, dBm
15, 18, 23 GHz
17 GHz*
24 GHz*
38GHz
4 QAM
+20
-20 … +5
-20 … +5
+15
16 QAM
+19
-20 … +5
-20 … +5
+14
32 QAM
+18
-20 … +5
-20 … +5
+14
64 QAM
+17
-20 … +5
-20 … +5
+13
128 QAM
+17
-20 … +5
-20 … +5
+13
256 QAM
+16
-20 … +5
-20 … +5
+12
512 QAM
+15
-20 … +5
-20 … +5
+11
1024 QAM
+12
-20 … +5
-20 … +5
+10
* Max Tx power settings depend on national regulatory EIRP allowance and antenna size,
High Performance antenna specification
Size
0.3m
0.6m
XPD
dBi
Half power
beamwidth
dB
F/B ratio,
dB
15
32.1
4.3°
30
18
34.2
3.3°
23
35.3
15
Frequency,
GHz
Gain,
Compliance
ETSI
FCC
58
Class 3
N/A
30
61
Class 3
B2
3.0°
30
62
Class 3
37.5
2.4°
32
62.5
Class 3
N/A
18
39.1
1.9°
30
64.5
Class 3
23
41.4
1.6°
30
66.5
Class 3
Integra
SAF Tehnika JSC
Integra-S
INTEGRA User Manual
OVERVIEW
Ethernet header compression
Example shows that in 60MHz channel and 1024QAM modulation over 1Gbps throughput
can be achieved with Ethernet header compression of frame size of 64 bytes in 1+0
configuration, where link capacity is 465 Mbps:
Frame size,
bytes
Ethernet,
Mbps
64
1069.50
56.52
128
715.88
35.14
256
572.95
18.84
512
515.38
9.77
1024
489.38
4.98
1280
484.38
4.00
1518
481.27
3.38
Throughput gain, %
Table shows maximum improvement achieved, when compressing IP header, QinQ VLANs
headers, MAC addresses and Ethernet L1 overhead. Ethernet throughput for each frame size
can be calculated for any link capacity by using calculated gain from the table. For example,
at 465 Mbps radio capacity with Ethernet compression gain of 56.52% of 64 byte size
packets can achieve 1069 Mbps Ethernet throughput, i.e. 465 Mbps / (1 – 56.52%) = 1069
Mbps.
SAF Tehnika JSC
INTEGRA User Manual
OVERVIEW
Labelling
The label contains the following information (see samples in the picture below):
Product model name (“SAF Integra-18”). The FODU model name example is:
- SAF Integra-18 for 18GHz FODU,
- SAF Integra-23 for 23GHz FODU, etc
Product Number / Model Number (P/N or M/N) (D18B1R05LB): product/model number
contains various information about the unit. Please see translation below.
Serial Number (3794701 00009): the serial number uniquely identifies the unit.
P/N or M/N translation:
“D” designates Integra series product;
“18” designates frequency band (18 GHz) of the radio;
“B” designates Integra-B 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
“R” is reserved;
“05” designates the version number of the radio;
“L” designates low side radio;
“H” - high side radio
“B” designates B subband radio;
“A” - A subband radio;
“C” - C subband radio
Please note that frequency range is set from the central frequency of the first 3.5 MHz
channel to the central frequency of the last 3.5 MHz channel (see the diagram below).
Frequency range of subband B low side Integra 18 GHz FODU:
SAF Tehnika JSC
INTEGRA 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
Equivalent plane
wave power density
Seq (W/m2)
Average time period
50
10
68/f
(f in GHz)
1.05
68/f
(f in GHz)
occupational 41cm
general public 91cm
(min)
1.05
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.
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.:
SAF Tehnika JSC
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INTEGRA User Manual
OVERVIEW
- 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
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INTEGRA User Manual
INSTALLATION
Chapter 2: INSTALLATION
Integra FODU: assembling mounting bracket and
installing with antenna on a pole
Disassembled mounting bracket and tools required for assembly
Parts of disassembled mounting bracket: 1 – three (3) M8x1.25x16 hex flange bolts
already attached to clamps for housing and pipe [7]; 2 – one (1) hex flange bolt M8x1.25x20;
3 – one (1) hex flange bolt M8x1.25x30, one (1) M10x1.5 hex flange nut and one (1) M8x80
eye screw already attached to clamps for housing and pipe [7]; 4 – one (1) M8x80 eye screw;
5 – two (2) M8x1.25 hex flange nuts already attached to M8x80 eye screw [3]; 6 – four (4)
M8x160 threaded rods; 7 – clamps for housing and pipe interconnected with three (3)
M8x1.25x16 hex flange bolts [1] and eye screw for horizontal alignment [3]; 8 – ten (10)
M8x1.25 hex flange nuts; 9 – two (2) mounting bracket clamps.
Parts of disassembled mounting bracket
Parts of Integra FODU: 10 – spacer hex flange nut; 11 – lifting eye nut; 12 – fixation
plate; 13 – side screw flange nuts; 14 – grounding flange nut.
10
12
11
13
14
Numbers of mounting bracket and Integra FODU parts in next sections will be mentioned in
square brackets [].
SAF Tehnika JSC
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INTEGRA User Manual
INSTALLATION
Changing polarization of Integra FODU and antenna
Tools required: 13mm (0.512”) wrench (comes in package)
Remove Integra FODU with antenna from
mounting bracket.
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.
View of Integra FODU with swapped
polarization.
30 cm antenna: when polarization is
changed, make sure that drain hole cap
located at grounding flange nut should be
removed and inserted in previous drain hole.
60 cm antenna: make sure that one of two
water drain holes is aligned with Integra
FODU’s grounding flange nut.
SAF Tehnika JSC
13
INTEGRA 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 [3] interconnecting clamps for housing
and pipe [7].
Screw on one hex flange nut [9] on each of
threaded rods [8]. Note that flange nuts should
be screwed on exposing approx. 15mm (0.6
in.) of threaded rods.
SAF Tehnika JSC
Attach vertical alignment eye screw [4] to clamps for
housing and pipe [7] using hex flange bolt [2] and
screw on two hex flange nuts [8]. 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 [3] and [2].
Screw on each threaded bolt into four available
threaded holes of mounting clamp. Note that threaded
bolt should be visible from other side of the clamp not
more than 2mm. Tighten hex flange nuts [9] with
torsion 20..25 N·m.
14
INTEGRA User Manual
Attach mounting bracket clamps [2] on two
threaded rods [8] as shown on the picture and
afterwards screw on remaining hex flange nuts
[9] on each of four threaded rods. No parts
should remain left not assembled.
INSTALLATION
Unscrew hex flange nuts [9] from both free threaded
bolts [8]. Make sure that hex flange nuts on opposite
threaded bolts are not too far; otherwise adjust bolts’
position accordingly. Put other end of mounting
bracket clamp [2] on free threaded bolt.
Hex flange nuts should be evenly aligned on
threaded bolts so that both mounting bracket
clamps [9] are tightly attached to the pipe.
Tighten hex flange nuts with torsion not
exceeding 20 N·m.
View of assembled mounting bracket on the mast
pole.
Make sure that both horizontal and vertical
alignment eye screws are turned to the mast
before attaching Integra FODU.
10
Attach Integra FODU with antenna to the mounting
bracket so that side screws fit into grooves of the
housing clamp [7].
Connect vertical alignment eye screw [4] to the
upper groove on Integra housing.
12
View of assembled bracket on the mast pole with
Integra FODU attached and secured.
11
Bracket clamps in following position support
mast ∅ 55..120mm. Reversing clamps allows
support of smaller masts ∅ 25..75mm.
SAF Tehnika JSC
15
INTEGRA User Manual
INSTALLATION
For extra protection from sun radiation it is
recommended to install sun shield to cover the radio
Antenna alignment
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 FODU
and hex flange bolt on azimuth angle indicator.
Additionally loosen following screws marked
with red dots on the left side view of mounting
bracket: left side screw on Integra FODU and
two hex flange bolts between both mounting
bracket clamps for housing and pipe.
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.
Adjust azimuth angle by manually moving
mounting bracket in horizontal axis. Note that
all azimuth position fixing hex flange bolts [8],
as well as horizontal alignment eye screw with
flange bolt [3] need to be loosened ensuring
free movement in horizontal axis.
SAF Tehnika JSC
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INTEGRA User Manual
INSTALLATION
Each notch corresponds to one degree of
azimuth angle. Half distance between notches
(each lip) corresponds to 0.5 degree.
Fix azimuth angle on horizontal axis by
adjusting position of flange nuts [9] on both
horizontal and vertical alignment eye screws.
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 FODU and hex flange bolt on
azimuth angle indicator with torsion 20..25
N·m.
Additionally tighten following screws marked
with red dots on the left side view of mounting
bracket: left side screw on Integra FODU and
two hex flange bolts between both mounting
bracket clamps for housing and pipe with
torsion 20..25 N·m.
Integra-S FODU: attaching to the antenna
Parts of Integra-S 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
17
INTEGRA User Manual
Using size 5 allen wrench loosen one clamp
completely and second clamp by a half-turn.
INSTALLATION
Put Integra-S 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-S
transition flange socket.
Note! Protective sticker should be removed
before attaching the Integra-S FODU to the
antenna.
Secure the interconnection by tightening the
bottom clamp (not fully). Make sure rotation
of the Integra-S is still possible.
The sticker on the back lid indicates the
polarization of the Integra-S. Adjust
polarization so that the interface ports are
located at the lower side of the Integra-S.
SAF Tehnika JSC
Rotate Integra-S to match the required
polarization.
Verify polarization accuracy with a level, by
placing it against the top edge of the
Integra-S housing
18
INTEGRA User Manual
INSTALLATION
Secure the position of the Integra-S by fully
tightening both fixation clamps.
For extra protection from sun radiation it is
recommended to install sun shield to cover the radio
If any further assistance is required please contact
techsupport@saftehnika.com
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Chapter 3: WEB GUI
Initial configuration
System requirements
Operating system:
•
•
Microsoft Windows XP / Vista / 7 / 8;
Linux
Web browser:
•
•
•
Google Chrome;
Mozilla Firefox;
Internet Explorer 8 (or above)
Accessing Integra Web GUI
1. Launch your browser and in address field enter Integra FODU IP address. Default IP
addresses are as follows:
• 192.168.205.10 for low side Integra FODU (P/N D*******L*)
• 192.168.205.11 for high side Integra FODU (P/N D*******H*)
2. Press “Enter” key (PC) or “Return” (Mac).
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.
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 FODU you are connected to including:
•
•
•
•
•
System name
IP address
Serial number
Uptime
Firmware version
2 Menu panel
Allows navigating between Main page (“Main”) and subpages of 4 sections:
• Over the air (radio configuration)
• Networking (Ethernet configuration)
• Performance
• System
3 Main Web GUI window
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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 type (when moving cursor over the button).
5 System summary
Shows two selected parameters of local and remote systems and Tx polarization (reading
from internal accelometer
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 3.5MHz channel bandwidth.
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
maximum modulation, as well as according standard of channel bandwidth – ETSI or FCC.
5 Modulation
Allows choosing between available modulations for selected channel bandwidth.
“FEC” suffix indicates better sensitivity mode (longer FEC overhead), while “Weak FEC”
indicates higher capacity mode (shorter FEC overhead).
“Weak FEC” is available only for highest modulation for selected channel bandwidth.
6 State
Allows enabling/disabling each of three available LAN ports.
7 Execute
By pressing „Execute configuration” changes made to the corresponding section apply only
for the local side Integra. 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 Integras.
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Over The Air
Radio à Configuration
Radio configuration page is available in “System” menu (Over The
AiràRadioàConfiguration).
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 3.5MHz channel
bandwidth.
3) Tx mute [ >=10 sec ] – allows muting transmitter to limited time interval in seconds.
Minimum value is 10 seconds. Note that transmitter will be muted only if valid value in
seconds is entered;
4) RSSI Audio – allows disabling/enabling RSSI audio operation on 3.5mm jack beside
USB port. By default RSSI Audio is enabled;
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5) RSSI LED – allows disabling/enabling RSSI LED operation. By default RSSI LED is
enabled. Please refer to RSSI LED section for further explanation;
6) RSSI LED mode – allows selecting RSSI LED operation mode. By default Mode 1 is
enabled. Please refer to RSSI LED section for further explanation;
7) Standard – Allows choosing whether only FCC, ETSI or both channel bandwidth
options are visible in “Configuration” selection field.
8) Bandwidth – Allows choosing between available channel bandwidth options along
with indication of maximum modulation, as well as according standard of channel
bandwidth – ETSI or FCC.
9) Modulation – Allows choosing between available modulations for selected channel
bandwidth.
“FEC” suffix indicates better sensitivity mode (longer FEC overhead), while
“WeakFEC” indicates higher capacity mode (shorter FEC overhead).
“Weak FEC” is available only for highest modulation in selected channel bandwidth.
10) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra. 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 Integras.
CLI commands:
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 show-counters
Use to show radio interface counters.
modem configuration set
 

Use to set modem configuration – bandwidth, minimum
and maximum modulation. “_W” suffix indicates “Weak
FEC” 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 performance
Use to check modem statistics according to ITU-T G.826.
Refer to description on Modem performance for further
explanation.
Use to check list of available modem configurations.
modem allowed
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Networking
Ethernet à VLAN
The VLAN configuration window provides configuration of port-based Ethernet Virtual
Local Area Networks (VLANs), allowing using up to 4095 different VLAN IDs. It is possible to
set VLAN IDs as tagged or untagged members on each LAN port.
In order to add VLAN tag to untagged packets on ingress direction, according “Default
VLAN” (2) should be specified. By default “Default VLAN” value on all ports is VLAN ID 1.
An example below shows sample configuration with VLAN IDs 100-300 configured as
tagged members on LAN2 and WAN ports (user traffic) and VLAN ID 500 as tagged member
on LAN2 and WAN ports, and untagged member on MNG port (management traffic).
1) VLAN state – enable or disable 802.1Q support;
2) Default VLAN – specify default VLAN ID on each of LAN and WAN ports – indicating
VLAN ID to be added to untagged packets entering particular port;
3) VID (1 .. 4094) – enter VLAN ID (or range) to be added;
4) TAGGED MEMBER – specify ports on which VLAN ID will be trunked;
5) UNTAGGED MEMBER – specify ports on which VLAN ID will be tagged/untagged
(access type);
6) MNG – specify which individual VLAN ID will be used for management access;
7) Add / Delete – Press “Add” to add entered individual VLAN ID or range of VLAN IDs
or press red cross (×) to delete VLAN entry;
8) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra. If „Rollback on” is selected, configuration will be
reverted in case erroneous configuration changes are applied.
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Ethernet à Rate limit
1) CIR – Enable or disable CIR (Commited Information Rate) on available ports and
specify CIR value in Mbps;
2) CBS – Enable or disable CBS (Commited Burst Size) on available ports and specify
CBS value in Mbps;
3) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra. If „Rollback on” is selected, configuration will be
reverted in case erroneous configuration changes are applied.
network port  egress-rate
show
Use to show committed information rate (CIR) and
committed burst size (CBS) setting on particular port.
network port  egress-rate
set cir <1…1000000> cbs
<1…1000000>
Use to set committed information rate (CIR) and
committed burst size (CBS) setting on particular port.
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Ethernet à Port status and configuration
1) Port – Lists available switch ports;
2) State – shows operation status of each port;
3) Link status – shows whether link with appropriate port is established and according
link speed;
4) Link speed – shows whether link speed is configured to automatic speed setting or
manual. Note that manual setting is available only for electric Ethernet port (LAN1).
In order to adjust Ethernet port settings, press MODIFY button
1) Port – lists available switch ports;
2) State – enable or disable port;
3) Link status – shows whether link with appropriate port is established and according
link speed;
4) Link speed – allows manually adjusting link speed (available only for LAN1 port).
5) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra. If „Rollback on” is selected, configuration will be
reverted in case erroneous configuration changes are applied.
network status info
Use to show status of all ports.
network status config
Use to show configuration of all ports..
network port  set adminstate 
Use to enable or disable particular port.
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network port  set mtu
<60..9600>
Use to change supported L2 frame size on particular
port. Default value is 9600 bytes.
network port  set speed

Use to change speed and duplex setting on particular
port. Default value is “auto” (autonegotiation).
Synchronization à SyncE
Synchronous Ethernet (SyncE) allows synchronizing Ethernet switch clock to an external
source clock by specifying an ingress port.
Incorrect SyncE configuration may result in a loss of connectivity.
1)
2)
3)
4)
5)
Port - Indicates SyncE source port (if enabled);
State – Indicates if SyncE is enabled;
Status – Indicates “Locked” if SyncE is operating normally;
Source port configuration – allows specifying SyncE source port;
Disable/Enable – Disable or Enable SyncE operation.
Configuration examples
1) Integra link with an external clock source
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2) Integra back-to-back interconnection with an external clock source
3) Integra as a master clock source
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Autonegotiation will not function properly when the clock source ports on both Integras are
pointing at each other (e.g. WAN-WAN in a link or LAN-LAN in a back-to-back connection).
SyncE will function properly on LAN2 and LAN3 ports only with appropriate SFP modules.
CLI commands:
network sync enable 
Enable SyncE on a port connected to a clock source. The
selected port will become “slave”, while other ports –
“master”. Autonegotiation will not function properly between
two “slave” ports.
network sync disable
Disable SyncE on all ports.
network sync status
Enabled – shows if SyncE is enabled;
Polling failed – indicates last data polling failure;
Speed Grade – shows Ethernet speed on LAN1 port 1000BASE-T(1G) or 100BASE-T(100M);
Port – current port used as clock source;
State – clock status, "Locked" if SyncE operates normally;
State info – additional info
network status info
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'SyncE_Act' and 'SyncE_Prio' field nonzero values indicate
synchronous ethernet activity.
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Performance
Alarm à 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.
Alarm à Alarm log
Alarm log shows 20 latest alarm entries per page and about 400 latest alarm entries in
total. Full alarm log can be downloaded by pressing on “Alarm event log file”. Last 20 log
entries are 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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1)
2)
3)
4)
5)
6)
7)
8)
WEB GUI
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;
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
entries, while “Next 20” – to next alarm log page showing 20 next alarm log entries
(if available).
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;
Filter – press to filter alarms from certain source node (e.g. Radio);
Alarm event log file – press on the link to download full alarm log text file.
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Alarm à 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.
Press
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1) Default value – deselect to activate manual threshold modification;
2) When “Default value” is deselected, “Low value”, “High value” and “Delta value” fields
for all parameters become editable;
3) Set all to default – resets “Low value”, “High value” and “Delta value” for all
parameters to factory defaults;
4) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra.
Performance à Performance graph
Performance graph allows visualising various parameters over chosen time period as
curves. It is possible to choose between System Uptime (s), System CPU temperature (C), Rx
level (dBm), Radio temperature (C), Radial MSE (dB), Carrier offset (Hz), Modem temperature
(C), PSU power (W) and PSU voltage (V). Any two parameters can be shown at a time. By
default Rx level (dBm) and Radial MSE (dB) are selected.
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1) Parameters – choose the required parameters; Rx level (dBm) and Radial MSE (dB)
are selected by default;
2) Toggle period selection – opens period selection controls;
3) Show the latest data – shows last 200 entries with 1min interval (3h20min);
4) Allows specifying start date and time;
5) Allows specifying interval granularity – 1min, 15min or 60min.
6) Left and right sliders allow to “zoom” currently selected time period.
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Ethernet à Ethernet switch statistics
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1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
12)
13)
14)
15)
16)
17)
18)
19)
20)
21)
WEB GUI
IngressPackets – Packets that ingress on the port;
IngressBytes – Bytes that ingress on the port;
EgressPackets – Packets that egress on the port;
EgressBytes – Bytes that egress on the port;
EtherStatsMulticastPkts – 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;
EtherStatsBroadcastPkts – The total number of good packets received that were
directed to the broadcast address. Note that this does not include multicast
packets;
EtherStatsPkts64Octets – The total number of packets (including bad packets) that
were 64 octets in length (excluding framing bits but including FCS octets);
EtherStatsPkts65to127Octets –The total number of packets (including bad packets)
that were between 65 and 127 octets in length inclusive (excluding framing bits but
including FCS octets);
EtherStatsPkts128to255Octets – The total number of packets (including bad
packets) that were between 128 and 255 octets in length inclusive (excluding
framing bits but including FCS octets);
EtherStatsPkts256to511Octets – The total number of packets (including bad
packets) that were between 256 and 511 octets in length inclusive (excluding
framing bits but including FCS octets);
EtherStatsPkts512to1023Octets – The total number of packets (including bad
packets) that were between 512 and 1023 octets in length inclusive (excluding
framing bits but including FCS octets);
EtherStatsPkts1024to1518Octets –The total number of packets (including bad
packets) that were between 1024 and 1518 octets in length inclusive (excluding
framing bits but including FCS octets);
EtherStatsOversizePkts – The total number of packets that were longer than 1518
octets (excluding framing bits, but including FCS octets) and were otherwise well
formed;
EtherRxOversizePkts – The total number of packets received that were longer than
1518 octets (excluding framing bits, but including FCS octets) and were otherwise
well formed;
EtherTxOversizePkts – The total number of packets transmitted that were longer
than 1518 octets (excluding framing bits, but including FCS octets) and were
otherwise well formed;
EtherStatsOctets – The total number of octets of data (including those in bad
packets) received on the network (excluding framing bits but including FCS octets);
EtherStatsPkts – The total number of packets (including bad packets, broadcast
packets, and multicast packets) received and transmitted;
EtherStatsTXNoErrors – The number of frames that have been transmitted by this
port from its segment excluding fragmented and FCS error frames;
EtherStatsRXNoErrors – The number of frames that have been received by this port
from its segment excluding fragmented and FCS error frames;
EtherStatsPkts1519to1522Octets – The total number of packets (including bad
packets) that were between 1519 and 1522 octets in length inclusive (excluding
framing bits but including FCS octets) ;
IfInOctets – The total number of octets received on the interface, including framing
characters;
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22) IfOutOctets – The total number of octets transmitted out of the interface, including
framing characters;
23) Dot1dTpPortInFrames – The number of frames that have been received by this port
from its segment. Note that a frame received on the interface corresponding to this
port is only counted by this object if and only if it is for a protocol being processed
by the local bridging function, including bridge management frames;
24) Dot1dTpPortOutFrames – The number of frames that have been transmitted by this
port to its segment. Note that a frame transmitted on the interface corresponding to
this port is only counted by this object if and only if it is for a protocol being
processed by the local bridging function, including bridge management frames.;
25) ReceivedPkts64Octets – The total number of packets (including bad packets)
received that were 64 octets in length (excluding framing bits but including FCS
octets);
26) TransmittedPkts64Octets – The total number of packets (including bad packets)
transmitted that were 64 octets in length (excluding framing bits but including FCS
octets);
27) ReceivedPkts65to127Octets – The total number of packets (including bad packets)
received that were between 65 and 127 octets in length inclusive (excluding framing
bits but including FCS octets);
28) TransmittedPkts65to127Octets – The total number of packets (including bad
packets) transmitted that were between 65 and 127 octets in length inclusive
(excluding framing bits but including FCS octets);
29) ReceivedPkts128to255Octets – The total number of packets (including bad
packets) received that were between 128 and 255 octets in length inclusive
(excluding framing bits but including FCS octets);
30) TransmittedPkts128to255Octets – The total number of packets (including bad
packets) transmitted that were between 128 and 255 octets in length inclusive
(excluding framing bits but including FCS octets);
31) ReceivedPkts256to511Octets – The total number of packets (including bad
packets) received that were between 256 and 511 octets in length inclusive
(excluding framing bits but including FCS octets);
32) TransmittedPkts256to511Octets – The total number of packets (including bad
packets) transmitted that were between 256 and 511 octets in length inclusive
(excluding framing bits but including FCS octets);
33) ReceivedPkts512to1023Octets – The total number of packets (including bad
packets) received that were between 512 and 1023 octets in length inclusive
(excluding framing bits but including FCS octets);
34) TransmittedPkts512to1023Octets – The total number of packets (including bad
packets) transmitted that were between 512 and 1023 octets in length inclusive
(excluding framing bits but including FCS octets);
35) ReceivedPkts1024to1518Octets – The total number of packets (including bad
packets) received that were between 1024 and 1518 octets in length inclusive
(excluding framing bits but including FCS octets);
36) TransmittedPkts1024to1518Octets – The total number of packets (including bad
packets) transmitted that were between 1024 and 1518 octets in length inclusive
(excluding framing bits but including FCS octets);
37) IfInBroadcastPkts – The number of packets, delivered by this sub-layer to a higher
(sub-)layer, which were addressed to a broadcast address at this sub-layer;
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38) IfOutBroadcastPkts – The total number of packets that higher-level protocols
requested be transmitted, and which were addressed to a broadcast address at this
sub-layer, including those that were discarded or not sent;
39) IfInMulticastPkts – The number of packets, delivered by this sub-layer to a higher
(sub-)layer, which were addressed to a multicast address at this sub-layer. For a
MAC layer protocol, this includes both Group and Functional addresses;
40) IfOutMulticastPkts – The total number of packets that higher-level protocols
requested be transmitted, and which were addressed to a multicast address at this
sub-layer, including those that were discarded or not sent. For a MAC layer protocol,
this includes both Group and Functional addresses;
41) Dot3InPauseFrames – A count of MAC Control frames received on this interface with
an opcode indicating the PAUSE operation. This counter does not increment when
the interface is operating in half-duplex mode. Discontinuities in the value of this
counter can occur at re-initialization of the management system, and at other times
as indicated by the value of ifCounterDiscontinuityTime.;
42) Dot3OutPauseFrames – A count of MAC Control frames transmitted on this
interface with an opcode indicating the PAUSE operation. This counter does not
increment when the interface is operating in half-duplex mode. Discontinuities in the
value of this counter can occur at re-initialization of the management system, and at
other times as indicated by the value of ifCounterDiscontinuityTime;
43) EtherStatsUndersizePkts – 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;
44) EtherStatsFragments – The total number of packets received that were less than 64
octets in length (excluding framing bits but including FCS octets) and had either a
bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a
bad FCS with a non-integral number of octets (Alignment Error).
Note that it is entirely normal for etherStatsFragments to increment. This is
because it counts both runts (which are normal occurrences due to collisions) and
noise hits;
45) EtherStatsCRCAlignErrors – The total number of packets received that had a length
(excluding framing bits, but including FCS octets) of between 64 and 1518 octets,
inclusive, but but had either a bad Frame Check Sequence (FCS) with an integral
number of octets (FCS Error) or a bad FCS with a non-integral number of octets
(Alignment Error);
46) EtherStatsJabbers – The total number of packets received that were longer than
1518 octets (excluding framing bits, but including FCS octets), and had either a bad
Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad
FCS with a non-integral number of octets (Alignment Error).
Note that this definition of jabber is different than the definition in IEEE-802.3
section 8.2.1.5 (10BASE5) and section 10.3.1.4 (10BASE2). These documents define
jabber as the condition where any packet exceeds 20 ms. The allowed range to
detect jabber is between 20 ms and 150 ms;
47) Clear all statistic – Clears statistics on all switch ports;
48) Clear – Clears statistics on particular port.
network status statistics
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Over The Air à Equalizer graph
Integra features adaptive equalizer, which is a filter that automatically adapts to timevarying properties of a communication channel with selective fading, having a target to
compensate the inequalities in frequency response, mitigating the effects of multipath
propagation. In wireless telecommunications, using QAM modulation this filter equalizes not
only a separate quadrature channel, but provides a cancellation of cross-interference
between them.
In Integra the adaptive equalizer is realized as complex-arithmetic 40-taps digital FIR
(Finite Impulse Response) filter. In other words, equalizer is a selective frequency amplifier
and attenuator, a device, which application to IF (Intermediate Frequency) band-limited
signal is schematically shown in the picture below:
Equalizer graph window shows adaptive equalizer taps’ coefficients, which at a set time
moment minimize multipath fading effect in channel.
Example of equalizer taps’ coefficients and its frequency response in case of a normal
operation is shown below:
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During normal operation frequency response curve is smooth at the centre and central
equalizer tap is higher, while side towers evenly decrease. If equalizer taps and frequency
response curve significantly differs from the one above, it may be indication of multipath
issue, which must be inspected with use of precise and accurate path profiling. Higher taps
mainly on the right side indicate a weaker reflected signal compared to the main signal,
while higher taps mainly on the left side – stronger reflected signal.
Over The Air à Constellation diagram
A constellation diagram is a representation of a signal modulated by the digital
modulation schemes 256QAM, 128QAM, 64QAM, 32QAM, 16QAM 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.
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1) Allows choosing how often is constellation automatically cleared;
2) Manually clear current constellation;
3) Allows zooming to one of 4 constellation quadrants.
Examples of CFIP constellation diagrams under ideal conditions are shown below:
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:
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2) Non-coherent single frequency interference is displayed as circular constellation
points:
3) Phase noise is displayed as rotationally spreading constellation points:
4) Amplitude compression causes the corner points to move towards the centre:
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Over The Air à Modem performance
Modem performance sections shows modem statistics according to ITU-T G.826.
1) Count time – time during which statistics are gathered;
2) Errored Block (EB) – Number of blocks having at least one bit error;
3) Errored Second (ES) – Amount of seconds during which errored blocks were
registered;
4) Severely Errored Seconds (SES) – Amount of seconds which contain 30% errored
blocks or one or more defects;
5) Background Block Error (BBE) – Amount of errored blocks which are not part of SES;
6) Total Block number - Amount of blocks received which are not part of SES;
7) Errored Second Ratio (ESR) – The ratio of ES to total seconds;
8) Severely Errored Second Ratio (SESR) – The ratio of SES to total seconds;
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INTEGRA User Manual
9)
10)
11)
12)
WEB GUI
Background Block Error Ratio (BBER) – The ratio of BBE to total seconds;
Uptime – time in seconds during which link was synchronized;
Unavailtime – time in seconds during which link was not synchronized;
Clear – Clears all counters.
modem performance
Check modem statistics according to ITU-T G.826.
See detailed description above.
System
FW à Firmware upgrade
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;
3) Reboot – Reboots management CPU;
4) Delete – Deletes selected firmware file from the list;
5) Choose File – Press to browse for a firmware file on your hard disk drive;
6) Upload – Press to upload a firmware file to Integra.
firmware info
firmware install 
firmware list
firmware remove 
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Use to show detailed information on Integra 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”.
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firmware switch
firmware switch

WEB GUI
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.
Configuration à IP configuration
IP address configuration page is available in “System” menu (SystemàConfigurationàIP
configuration).
1) IP address - allows specifying IP address of Integra you are currently logged in.
Default IP address is 192.168.205.10 or 192.168.205.11 – depending on which side
the specific Integra is – low side has 192.168.205.10 IP address and high side –
192.168.205.11;
Integra IP addresses need to be in the same subnet..
2) IP Mask – allows specifying IP mask of Integra you are currently logged in. Default
IP mask is 255.255.255.0;
3) IP gateway – allows specifying gateway of Integra you are currently logged in. By
default gateway is not specified;
4) Ethernet MAC address – shows the MAC address of Integra you are currently
connected to;
5) Remote IP address – shows IP address of remote (far-end) Integra. By default
remote IP address is being retrieved automatically and therefore “Auto” checkbox is
selected. Unselect it to enter remote IP address manually;
6) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra.
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system ip addr 
system ip gw 
system ip mask 
system ip mac
system remoteip show
system remoteip auto
system remoteip set 
WEB GUI
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 show remote IP address.
Use to set automatic retrieving of remote IP address.
Use to define remote IP address.
Configuration à 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.
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INTEGRA User Manual
WEB GUI
1) Read community – specifies the SNMP v1/v2c community name of the agent to
enable parameters to be read;
2) Write community – specifies the SNMP v1/v2c community name of the agent to
enable parameters to be written;
3) Trap community – specifies the SNMP v1/v2c trap community name for trap
authentication in monitoring applications;
4) List of SNMP managers – shows the list of IP addresses of the management
terminal with the installed Trap Manager software, based on SNMP v1/v2c platform.
The Integra’s management controller sends SNMP traps to the Trap Manager with IP
address specified here. The SNMP Trap Manager is a PC with installed SNMP trap
management software;
5) List of trap V1 managers – shows the list of IP addresses of SNMP v1 hosts; adds or
deletes the host IP address to the Integra SNMP v1 host table. If the SNMP host
connected to the Integra is not added to the SNMP v1 host table, Integra will not
respond to the SNMP requests from that host;
6) List of trap v2c managers – shows the list of IP addresses of SNMP v2c hosts; adds
or deletes the host IP address to the Integra SNMP v2c host table. If the SNMP host
connected to the Integra is not added to the SNMP v2c host table, Integra will not
respond to the SNMP requests from that host;
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INTEGRA User Manual
WEB GUI
7) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra. If „Rollback on” is selected, configuration will be
reverted in case erroneous configuration changes are applied.
Configuration à Configuration file
1) Download configuration file – allows downloading system configuration file and
saving it on your hard drive;
2) Upload configuration file – allows uploading system configuration file from your
hard disk drive to Integra;
3) Restore uploaded configuration file – restores uploaded system configuration;
4) Load factory configuration file – resets system configuration to factory defaults.
configuration factory
configuration load
configuration status
configuration store
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Use to reset system configuration to factory defaults.
Use to load uploaded system configuration.
Use to check whether running configuration is saved.
Use to save running configuration.
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WEB GUI
Configuration à System configuration
1) Enter new password (4..30 characters) – Allows defining preferable password for
‘admin’ account. Maximal length of the password name cannot exceed 30 symbols.
By default password for ‘admin’ account is ‘changeme’. Admin account has full
control of the configuration process.
2) Hide password – Hides typed in password. This option unchecked will display typed
in password in plaintext;
3) System name (<=16 characters) – allows entering preferable system name.
Maximum length of the system name cannot exceed 16 symbols. Default name is
‘SAF’;
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 – forces system to use the time set on your PC or laptop,
from which you are connected to the Web GUI;
6) Location – allows entering preferable system location name. Maximum length of the
location name cannot exceed 16 symbols. By default system location is not
specified;
7) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra. If „Rollback on” is selected, configuration will be
reverted in case erroneous configuration changes are applied.
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INTEGRA User Manual
system datetime 
system name 
system location 
system user access
system password 
system uptime
WEB GUI
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 current user rights.
Use to define password for current user.
Use to show system uptime since last system start.
Diagnostic à Loopback configuration
1) Modem loopback – check to activate modem loopback, during which signal is looped
back to local end after the modem and Integra should be able to synchronize to itself;
2) By pressing „Execute configuration” changes made to the corresponding section
apply only for the local side Integra.
Diagnostic à Download troubleshooting file
Downloads troubleshooting file to your hard disk drive. Note that for proper diagnostics
additionally alarm log file (“PerformanceàAlarmàAlarm logàAlarm event log file”) needs to
be downloaded.
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INTEGRA User Manual
WEB GUI
Tools à License management
Provides list of available licenses, time left for each license and license upload.
1) License list shows available license and time left;
2) Activate – Select license from the list and press “Activate” to switch to preferable
license;
3) Choose file – Locate license file (*.lic) on your hard drive;
4) Upload – After locating license file use “Upload” button to add license to license list.
If new license supports previously running modem configuration, no changes will be applied.
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INTEGRA User Manual
WEB GUI
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 FEC Limited” and link capacity
will drop to 256Kbps.
When license expires next license in the list needs to be activated manually.
license list
license file list
license file add 
license file activate 
license file deactivate 
Use to list available licenses.
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.
Tools à Console
Use syntax “ ?” to see information on subcommands.
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INTEGRA User Manual
WEB GUI
Use 8 ENTER key to execute entered command.
List of valid CLI commands can be found at the end of each Web GUI page description.
About à About System
Provides short description of Integra series products.
product info
system number
Use to show detailed information on Integra FODU.
Use to show Integra’s serial number.
About à Copyright
Provides copyright information.
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INTEGRA User Manual
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WEB GUI
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INTEGRA User Manual
INTERFACES
Chapter 4: INTERFACES
RJ-45 port
RJ-45 port complies with IEEE 802.3-2005 1000Base-T, 100Base-T and 10Base-T
Ethernet and IEEE 802.3at, LTPoE++ Power over Ethernet standards.
The pinouts of that socket are as follows:
Pin
Data
PoE
Bi-directional A+ VB1+
Bi-directional A- VB1+
Bi-directional B+ VB1-
Bi-directional C+ VB2+
Bi-directional C- VB2+
Bi-directional B- VB1-
Bi-directional D+ VB2-
Bi-directional D- VB2-
USB port
USB port provides serial terminal access to CLI. Socket is B type.
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INTEGRA User Manual
INTERFACES
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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INTEGRA User Manual
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.
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INTEGRA User Manual
INTERFACES
The following charts and tables show typical relationship of the received signal level (Rx
level) displayed by CFIP 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
Rx level
(dBm)
-90
-85
-80
-75
-70
-65
-60
-55
-50
-45
-40
-35
-30
-25
-20
Rx
level
(dBm)
Output audio frequency
CONTACTS
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-100
-96
-92
-88
-84
-80
-76
-72
-68
-64
-60
-56
-52
-48
-44
-40
-36
-32
-28
-24
-20
RSSI
voltage (V)
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
Audio
frequency
(Hz)
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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24a, Ganibu dambis, Riga, LV-1005, Latvia, EU
sales@saftehnika.com
www.saftehnika.com

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