SAF Integra-X User Manual

User manual

Integra-X

VER 1.2

FW 3. 1 4.14

SAF Tehnika JSC 1

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 the 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 a 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. The 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 the one connected to the
receiver.

Consult the dealer or an experienced radio/TV technician for help.
This device complies with Industry Canada licence-exempt RSS standard(s). The 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 © 2019 SAF Tehnika, JSC. All rights reserved.

SAF Tehnika JSC 2

Contents

: OVERVIEW ............................................................................................ 5

Labeling ............................................................................................................... 5

Microwave Radiation .......................................................................................... 7

: INSTALLATION .................................................................................... 8

Initial setup in indoor environment upon delivery (“bench test”) .................... 9

Integra-X FODU: attaching to the antenna ...................................................... 11

Setting link polarization ................................................................................ 12

Attaching FODU to the antenna ................................................................... 12

Grounding connection .................................................................................. 14

Power connections ....................................................................................... 14

Note on antenna and XPIC alignment ......................................................... 15

Connecting FO interface using a fiber conduit kit .......................................... 15

WEB GUI ............................................................................................... 17

Initial configuration ........................................................................................... 17

Powering Integra-X FODU and connecting to PC ....................................... 17

Connecting Integra-X power supply ................................................................ 18

System requirements .................................................................................... 21

Ethernet management connection configuration ...................................... 22

Accessing Web GUI ....................................................................................... 22

Main page .......................................................................................................... 24

Modifying basic system parameters ........................................................... 25

Over The Air ....................................................................................................... 33

Over The Air  Radio  Configuration ....................................................... 33

Networking ........................................................................................................ 37

Networking  Ethernet  VLAN ................................................................. 37

Networking  Ethernet  Port status and configuration ......................... 39

Networking  Ethernet  Rate limit ........................................................... 41

Networking  Ethernet  MAC address table .......................................... 43

Performance ...................................................................................................... 45

Performance  Alarm  Alarm status ...................................................... 45

Performance  Alarm  Alarm event log.................................................. 46

Performance  Alarm  Sensor configuration ......................................... 49

Performance  Alarm  Alarm threshold configuration ......................... 51

Performance  Monitoring  Performance graph ................................... 53

Performance  Monitoring  Performance log ....................................... 55

Performance  Ethernet  Ethernet switch statistics ............................. 56

Performance  Ethernet  Actual throughput ......................................... 61

Performance  Ethernet  QoS statistics ................................................ 62

Performance  Over The Air  Equalizer graph ....................................... 63

Performance  Over The Air  Constellation diagram ............................ 64

Performance  Over The Air  Rx spectrum ............................................ 66

Performance  Over The Air  Modem performance ............................. 68

System ............................................................................................................... 69

System  FW  Firmware upgrade ........................................................... 69

System  Configuration  IP configuration ............................................. 72

System  Configuration  SNMP configuration ...................................... 74

SAF Tehnika JSC 3

System  Configuration  Configuration file ........................................... 77

System  Configuration  Users configuration ....................................... 80

System  Configuration  System configuration .................................... 82

System  Configuration  System services ............................................. 83

System  Diagnostic  Loopback configuration ..................................... 86

System  Diagnostic  Download troubleshooting file........................... 88

System  Tools  License management.................................................. 90

System  Tools  Console ........................................................................ 92

System  About  About System .............................................................. 93

System  About  Copyright ..................................................................... 94

System  About  Inventory ...................................................................... 95

: COMMAND LINE INTERFACE ........................................................... 96

Connecting to serial RS232 interface .............................................................. 96

Connecting to SSH ............................................................................................ 98

Connecting to Telnet ........................................................................................ 99

: FUNCTIONAL DESCRIPTION .......................................................... 100

ACM - Adaptive Coding and Modulation ....................................................... 100

Adaptive equalizer .......................................................................................... 101

FTP directory ................................................................................................... 101

RADIUS authentication ................................................................................... 102

Configuration of the Radius server authentication .................................. 102

Assigning administrator rights to RADIUS user ....................................... 103

: TOOLS .............................................................................................. 105

Link Layer Discovery tool ............................................................................... 105

MIB files ........................................................................................................... 110

: INTERFACES .................................................................................... 111

RJ-45 port ........................................................................................................ 111

2-wire DC power port ...................................................................................... 112

SFP ports ......................................................................................................... 113

USB port ........................................................................................................... 113

RSSI LED .......................................................................................................... 114

RSSI/audio port ............................................................................................... 115

Grounding connection .................................................................................... 118

Appendix A: Technical specifications ............................................................... 119

ABBREVIATIONS ................................................................................................. 125

CONTACTS .......................................................................................................... 127

SAF Tehnika JSC 4

INTEGRA-X User Manual OVERVIEW

Figure 1-2 The central frequency range for 5MHz bandwidth for 11GHz high

side radio.

: OVERVIEW

Labeling

Each device has 2 identical labels: 1) on the front and 2) on the back of the device casing (

1-1

).

The label contains the following information - see a sample in

Figure 1-1 Integra-X labels

Product model name - “SAF Integra-X-11”. Number in the end indicates frequency band

supported by the device, in the example above it is 11 GHz.

The tunable frequency range of the particular unit. An example below shows available central

frequency range for 5 MHz channel bandwidth (

Figure 1-2

Figure 1-1 Integra-X labels

).

Figure

.

Integra-X label (
that frequency range is set from the central frequency of the first 5 MHz channel to the central
frequency of the last 5 MHz channel.

SAF Tehnika JSC 5

Figure 1-1

) indicates tunable Tx/Rx frequency range for 5MHz bandwidth, note

INTEGRA-X User Manual OVERVIEW

Product Number / Model Number (P/N or M/N) (D11XSR01HA): product/model number

contains various information about the unit. See the translation below:

“D11X” - designates Integra-X 11 GHz product;
“S” - designates Integra-X without an integrated antenna;

“R” – XPIC full license allowing unlimited 2.2 Gbps capacity (112MHz/4096QAM);

“K” - XPIC 1 Gbps license; *Contact SAF representatives for detailed licensing

information

“01” - designates the version number of the radio;
“H” - designates high side radio;

“L” - low side radio

“A” - designates radio diapason subband.

Serial Number (339870100002): the serial number uniquely identifies the unit.

SAF Tehnika JSC 6

INTEGRA-X User Manual OVERVIEW

Microwave Radiation

Figure 1-3 Microwave radiation exposure diagram

Integra-X conforms to both occupational and general public exposure limit guidelines and
restrictions to time-varying electric, magnetic and electromagnetic fields which are specified
or referred in the documents below:

- 1999/519/EC: Council Recommendation of July 12, 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 (withdrew in December 1999 by CENELEC)
´Human Exposure to Electromagnetic Fields (10 kHz – 300 GHz)´

SAF Tehnika JSC 7

INTEGRA-X User Manual INSTALLATION

Products and accessories

Qty

1. D11XS***** Integra-X, 11GHz

1

2. XSPR_2148 RJ45 CAT5 connector 4P

1

3. D0ALK003 Locking key for Integra-X

1

4. XSPR_184 2 pin RIA pluggable terminal block

1

Parts attached to Integra product

5. Diplexer flange, Frequency specific

1

6. MEBG_2893 O-ring AS-568-140

1

7. D0KBS001.003 Integra-X tensioner

4

8. D0KBS001.004 Socket Head screw M6x16

4

9. D0KBSL01.006 Integra-X fixator, ABS

4

10. D0APC001 Port cap

3

11. D0APCS01 Service cork assembly

1

12. D0ACGL01 Cable gland

1

If any further assistance is required please contact techsupport@saftehnika.com

: INSTALLATION

Please find

Figure 2-1

and

Table 2-1

below with the Integra-X package contents.

Figure 2-1 Integra-X package contents

Table 2-1 the Integra-X package content

SAF Tehnika JSC 8

INTEGRA-X User Manual INSTALLATION

Initial setup in indoor environment upon delivery (“bench test”)

Before Integra-X FODU installation on site it is highly recommended to check the delivered
package contents in safe indoor environment.

Here we also recommend performing initial setup and operational verification test (“bench
test”) – for detailed instructions please check video on SAF Tehnika Youtube channel: Integra

Configuration and Installation video series - EPISODE 1 of 2.

In each individual bench test use so many office paper packs that devices do not have any MSE
alarms and Rx level is kept around -40…-30 dBm. If necessary adjust also Tx power for devices.
As this is only a rough device general operation test with no antennas attached then devices
will show low XPD Estimated parameter values and corresponding alarms which for such

“paper pack” installation is normal and should be ignored. XPD could be improved till

recommended values above 25 dB by moving paper packs and Integras itself obtaining better
alignment between the devices.

As Integra devices emit high power microwave radiation it is recommended that devices are
powered on only when paper packs are placed between them. It is also recommended to keep
at least 1m distance from powered devices and not to look directly into their diplexer flanges
as concentrated microwave radiation is harmful to human eyes.

Figure 2-2 Integra-X link bench test with office paper packs

SAF Tehnika JSC 9

INTEGRA-X User Manual INSTALLATION

Figure 2-3 Recommended settings for Integra-X link bench test with office paper packs

SAF Tehnika JSC 10

INTEGRA-X User Manual INSTALLATION

Integra-X FODU always must be installed in a vertical position with handle up and cable ports
down.

Integra-X FODU: attaching to the antenna

Figure 2-4 Integra-X common view from antenna side

Figure 2-5 Tools for antenna attachment

Tools required for FODU mounting: Level (not supplied, optional), locking key for Integra-X (size

5 Allen wrench, 240mm, supplied, position 4 in

SAF Tehnika JSC 11

Table 2-1 the Integra-X package content

).

INTEGRA-X User Manual INSTALLATION

The antenna must be assembled according to the instructions from the antenna manufacturer,
supplied with the antenna.

Setting link polarization

For Integra-X there are both polarizations in use in XPIC mode and it is not possible to change
polarization by mechanical changes. For using Integra-X in one polarization configuration, see
page

26 “Set system working mode”

.

Attaching FODU to the antenna

You can see SAF2 antenna flange in picture

Figure 2-6 SAF2 antenna flange view

below:

Figure 2-6 SAF2 antenna flange view

Please follow the steps described in the next picture

antenna

SAF Tehnika JSC 12

:

Figure 2-7 Attaching Integra-X to the

INTEGRA-X User Manual INSTALLATION

1

Use the locking key. Screw in clamp tensioner
bolts but don't tighten, then loosen upper 2
bolts on handle side by 2 turns, and 2 on
bottom side by 4 turns.

2

Remove the protective sticker from the
FODU diplexer flange, check also SAF2
flange on the antenna for a sticker, if it
is not a permanent one, remove it.

3

Make sure that O-ring is in place. Holding
Integra-X by handle attach it to SAF2 flange by
hanging on upper tensioners, see right picture

4.

4

Hung Integra-X on upper tensioners on
SAF2 flange, then push lower part until
lower clamps hit on flange, make sure
that all 4 clamps are in the proper
position - “hang” the flange so that
FODU diplexer presses to SAF2 flange.

SAF Tehnika JSC 13

INTEGRA-X User Manual INSTALLATION

5

Tighten flange clamps so you can adjust
FODU leveling by rotating FODU on SAF2
flange.

6

Use air level to verify that FODU is
properly leveled. Tighten all 4 clamp
bolts with 3Nm/2.2 foot lbs force.

7

Assembled Integra-X view.

Grounding connection

Always provide a good connection from FODU grounding screw to tower/mast/building
grounding circuit. See page

Power connections

For Integra-X power connection diagrams please look to

connecting to PC

SAF Tehnika JSC 14

on page 17.

Figure 2-7 Attaching Integra-X to the antenna

118

for

Grounding connection”

.

Powering Integra-X FODU and

INTEGRA-X User Manual INSTALLATION

1

Fiber conduit kit.

2

Unscrew the cap of the SFP port (LAN2 or
LAN3) that will be used and install an SFP
module.

3

Disassemble conduit kit and put its parts
in the correct sequence on the cable.

4

Push FO cable with LC connector through
the conduit. Use protective covers for the
LC connector optics.

If any further assistance is required please contact techsupport@saftehnika.com

For cable diameter considerations please see subsections
of this document.

RJ-45 port

and

2-wire DC power port

Note on antenna and XPIC alignment

1) SAF recommend antenna alignment do with a single polarization, Channel A. See page

29 “Single polarization mode”

2) Use RSSI Channel A for multimeter signal on FODU, when aligning antenna, see page

115 “RSSI/audio port”

port to acquire fastest RRSI level change info. If you use WEB GUI, be aware that there
could be a delay for information change in your browser. To read RSSI in Volts vs
calculated dBm, see

3) For general antenna adjustment considerations please refer to:

https://www.saftehnika.com/files/downloads/611d60e5-6676-e211-bc32­0050569aa6cf/Antenna_alignment_White_Paper_SAF_Aug_2017.pdf.

4) Switch system to XPIC mode, check if Rx signals are within the 2dB margin for both

polarizations against calculated. XPD estimated (see page

window status”

25...40dB range, loosen all 4 FODU clamp bolts by ¾ to 1 turn. By rotating FODU on
SAF2 adapter, achieve XPD estimated between 25dB to 40dB. Fix FODU in this position
by tightening all 4 FODU clamp bolts with 3Nm/2.2 lbs-ft torque.

. Use a multimeter with RSSI cable (see page 115) at FODU RSSI

Figure 7-10

, parameter 18) should be 25...40dB. If XPD estimated is not in

for switching between system modes.

.

26 “XPIC mode main

Connecting FO interface using a fiber conduit kit

SAF Tehnika JSC 15

INTEGRA-X User Manual INSTALLATION

5

Remove protective covers from the LC
connector and connect the connector to
SFP module.

6

Tighten parts on both ends of the conduit
to weatherproof the assembly. Do not
break the cable.

7

Fasten another end of fiber conduit to
the pole using included tie-wrap.

8

Assembled view of the Integra-X with
optical cable conduit. Cables must always
be at the bottom of the Integra-X.

SAF Tehnika JSC 16

Figure 2-8 Optical cable conduit assembly

INTEGRA-X User Manual WEB GUI

WEB GUI

Initial configuration

Powering Integra-X FODU and connecting to PC

There are three options for powering the Integra-X FODU:

Option #1: PoE using SAF injector DXATPI01 through Integra-X LAN1 port. Along with power

connection, there is also Gigabit Ethernet connection to LAN1 port if needed. It is advised to
use SAF manufactured injectors as they are best suited for operation with Integra-X: in the case
of need for third-party injector use, please inquire SAF representatives about compatibility with
Integra-X device.

Option #2: use the separate 48V power supply and providing power to separate 2-wire power

port connection, please see
via optical cables to SFP/SFP+ ports LAN2 and (or) LAN3 or via twisted pair copper cable to
Gigabit Ethernet electrical port LAN1. Connection distances and mechanical specifications for
power cable and connector you can find in the subsection

Option #3: use both connections simultaneously for PoE and separate 48V PSU. Thus we get

a power line and power supply redundancy. There is no additional Integra-X configuration
needed in order to use redundant power scheme, but PoE injector must be switched to “Passive
120W” mode, see

Please find the interconnection diagram for options in

options

on the next page.

Table 3-2

Figure 7-2

. Status of an external PSU units must be monitored on PSU’s itself.

. In this case, data connection to Integra-X can be made

“2-wire DC power port”

Figure 3-1 Power connection to FODU, 3

.

SAF Tehnika JSC 17

INTEGRA-X User Manual WEB GUI

For Ethernet cables longer than 30 meters it is recommended to make grounding points each 20…30
meters.

DC

20...60V

To common
grounding

point

Gigabit
Ethernet

To 48VDC
positive/floating

ground power

supply

To tower

grounding

point

PoE

To tower

grounding

point

1 2

Data FO

cable to CPE

3

To 48VDC positive/

floating ground power

supply

DC

20...60V

To common
grounding
point

Power to FODU through

ETH cable

To tower

grounding

point

Gigabit

Ethernet

Data FO
cable to CPE

Connecting Integra-X power supply

Figure 3-1 Power connection to FODU, 3 options

SAF Tehnika JSC 18

INTEGRA-X User Manual WEB GUI

FAN FAIL

Fan failed, check fan.

TEMP

The unit temperature achieved 50°C, the fan must switch on.

On when the fan is working in normal operation.

DC ON

The input voltage is present, on in normal operation.

POE ON

Green, if PoE is active, off in passive modes, both normal,
see

Table 3-2

The position of DIP switches should be changed only while PoE injector is turned
off, the input voltage must be disconnected.

Option #1 - PoE injector (P/N DXATPI01)

Ethernet cable from PoE injector DXATPI01 should be connected to RJ-45 port on Integra-X
FODU (LAN1), see subsection
PoE injector (“DATA” port on PoE injector) and from Integra-X to PoE injector (“DATA+PWR”
port on PoE injector) should not exceed 100m. It is recommended to use outdoor rated
STP/FTP Ethernet cable Cat5e or better.

The DXATPI01 injector is designed to operate with any PoE capable product with a Fast
Ethernet/Gigabit Ethernet interface, compatible with Cat5e and Cat6. It has built-in PoE
controller, which complies with IEEE 802.3af, IEEE 802.3at, and PoE++. Built-in and tested
protection conform to the IEC 61000-4-5 standard.

The injector has a built-in, always enabled DC/DC converter. Accepted input voltage is
20…60VDC. The output voltage is stabilized to 56VDC.

Interconnection scheme with the FODU is shown in

options

.

RJ-45 port

. The combined length of Ethernet cables from CPE to

Figure 3-1 Power connection to FODU, 3

Figure 3-2 PoE front and rear panel view

The front panel, see

The rear panel, see
modes.

Passive modes, see
the equipment. In case P
LEDs to blink until the current will be returned below P

Connecting the device in passive modes will introduce approx. 5-second delay of LED
indication.

Figure 3-2

Figure 3-2

Table 3-2

exceeds set value, the PoE injector will switch off/on, causing the

max

, has indication LEDs, for more info see

Table 3-1 PoE injector LED status

, has 4 switches in order to operate the PoE injector in different

rows Nr 3 and 4, provide the most effective surge protection for

.

max

Table 3-1

.

SAF Tehnika JSC 19

INTEGRA-X User Manual WEB GUI

Nr. A B C D

Description

1

↑ ↓ ↑

×

PoE++ mode. PoE++ controller enabled, P

max

mode (PD class) is negotiated automatically with
the PD connected. (P

max

=90W)

2

↑ ↑ ↑

×

PoE 120W, PoE++ controller enabled, P

max

=120W,

it is recommended mode for the Integra-X

3

↑ ↓ ↓

×

Passive 15W, PoE controller disabled, P

max

=15W

4

↑ ↑ ↓

×

Passive 120W, PoE controller disabled,
P

max

=120W

5

↓ × ×

×

Fan Test, for the testing fan in low temperatures.

Electrical Specifications

Data rate

Up to 1000 Mb/s

DC/DC Mode

Always active

Input Voltage, nominal range

20 – 60 V

Input Voltage, maximum peak value

65 V

Output Voltage, stabilized

56 V

Max Output Current in Auto PoE++ mode

2.2 A

Switchable Current limits in PoE passive
modes

0.3A(@15W) and 2.7A(@120W)
Power Connector

2ESDV-02P with screw locks

Ethernet Connectors

Shielded RJ45 jacks

Data Lines

Pins (1, 2), (3, 6), (4, 5) and (7, 8)

Power Lines

+ (1, 2) and (4, 5); - (3, 6) and (7, 8)

Power Clamping Voltage

+/- 70 V

Max data cable length

100 m

Table 3-2

↓ — DIP switch position DOWN, ↑ — DIP switch position UP, × — any position

Recommended mode for Integra-X

Mode Nr. 2 (PoE 120W mode. I

Injector P/N DXATPI01 specifications

Table 3-3 Electrical specifications of DXATPI01

= auto).

max

SAF Tehnika JSC 20

INTEGRA-X User Manual WEB GUI

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 +55ºC

Cooling

Temperature controlled fan built-in

Stationary use

Climatic Class 3.1E compliant (ETSI ETS 300 019-1-3),
IP 20; weather protected locations

Mounting

-With bracket (included)

-19” rack mounting shelf (p/n I0KTPI11.003)

-DIN-rail clip (p/n I0STPI11.01)

The PoE injector must be configured in the “Passive 120W” mode (see ) to provide Option #3
functionality. In case of power connection failover to the PoE injector which is set in any of PoE modes

(refer to

Table 3-2

) PoE injector will perform the standard PoE negotiation process with the Integra-

X and there will be an interruption in the operation of the link.

Google Chrome;
Mozilla Firefox;
Internet Explorer 8 (or above)

Minimum supported horizontal resolution is 1366px.

Table 3-4 Mechanical specifications of DXATPI01

** 2ESDV-02P plug with screw locks included.

Option #2 – customer provided a 48V power supply

The Integra-X can be powered using 36…57V DC on the Integra-X power connector described
in subsection
connect the cable to Integra-X. The power consumption of Integra-X is up to 105W. It is
recommended to use

Option #3 –PoE injector DXATPI01 and customer provided 48V power supply

The Integra-X works from the source with the highest voltage. PoE injector must be configured

in “Passive 120W” mode, refer to

the second source, switching will happen without interruption.
For proper power cable selection please check

2-wire DC power port

Table 7-3

on page

Table 3-2

. Use 2-pin pluggable terminal block (P/N XSPR_184) to

112

to find suitable cable diameter and length.

. If the source fails, Integra-X will continue work from

Table 7-2

and

Table 7-3

.

System requirements

To access the Integra-X Web GUI you will need a PC with one the following Web browser:

SAF Tehnika JSC 21

INTEGRA-X User Manual WEB GUI

For secure connection use

https://

prefix.

Figure 3-3 LAN adapter setup

Figure 3-4 Browser’s address field

Ethernet management connection configuration

Before proceeding with the initial link setup in the Web GUI, you must adjust the IPv4 settings
of your LAN adapter to 192.168.205.0 subnet (see
The IP address should be something other than the default low/high side IP addresses
(192.168.205.10/192.168.205.11).

Figure 3-3 LAN adapter setup for example

).

After applying these settings you are ready to connect to the Web GUI or establish an
SSH/Telnet connection. Refer to
to connect to other CLI interfaces (serial, SSH, Telnet).

Chapter 4: COMMAND LINE INTERFACE

for the details on how

Accessing Web GUI

1) Launch your browser and in the address field enter the IP address of a FODU. Default IP
addresses are as follows:

192.168.205.10 for low side FODU (P/N D11XS***L*)

192.168.205.11 for high side FODU (P/N D11XS***H*)

2) Press “Enter” key.

SAF Tehnika JSC 22

INTEGRA-X User Manual WEB GUI

“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 1366px.

Figure 3-5 Login screen

3) The login screen will appear, see

Figure 3-5

:

4) Enter the username and password. Default credentials are as follows:

Username: admin
Password: changeme

5) Select “Remember password” if you want the browser to remember entered login

credentials.

6) Press “Log in” button.

SAF Tehnika JSC 23

INTEGRA-X User Manual WEB GUI

Alarms appear in red color in case of exceeding alarm threshold values or in case of a
warning (e.g. if loopback is active).

Values appear in orange color in case the alarm threshold values were exceeded during
the last 15 seconds.

If you do not save the configuration after modification, it will be lost after the FODU restart.

Figure 3-6 Main page

Main page

After login, you will be automatically redirected to the Main page of the Web GUI, see

3-6

.

Web GUI is divided into 5 sections:

1)

Top panel

2)

Menu panel

sections:

3)

Main WEB GUI window

change according to menu panel selection and chosen system working mode, see
page 26 for

– Shows information about the Integra-X FODU you are connected to:

 Model name
 System name
 IP address
 Serial number
 Uptime
 Firmware version
 User name

- Allows navigating between the Main page (“Main”) and subpages of 4

 Main
 Over the air (Radio/modem configuration)
 Networking (Ethernet configuration)
 Performance
 System

- by default, the Main page (“Main”) is shown. Contents will

XPIC mode

and page 29 for

Single polarization mode

.

Figure

4)

MODIFY/SAVE/LOGOUT

modified, the MODIFY button appears inactive. After modification, the SAVE button
becomes active and indicates a number of unsaved changes as well as their type
(when moving the cursor over the button). Pressing the LOGOUT button will log out
from the current session. This panel is visible in all pages.

SAF Tehnika JSC 24

- Allows modifying parameters in the window. If none can be

INTEGRA-X User Manual WEB GUI

5)

System Summary

two green rounded rectangles near “Local” and “Remote”. In case of active alarms on
device the rectangle will become red and indicate the number of current alarms. It is
possible to check active alarms on Local device in details by clicking on Local side
rectangle which will open “Performance\Alarm status” page with list of all current
alarms on Local side device, see section
Section below alarm rectangles shows one to four (default value – three) selected
sensor parameters for the Local and Remote devices:

– This panel is visible in all pages. During normal operation, there are

Performance  Alarm  Alarm status

.

Figure 3-7 System summary section of Integra-X WEB GUI

It is possible to change “System summary” sensor view by pressing the EDIT button,
see

Figure 3-88

1) Choose from the sensors shown in the System Summary panel.

2) Choose up to 4 sensors for display or set to the default 3 sensors.

below.

Figure 3-8 System Summary edit

Modifying basic system parameters

Modify the system parameters from the main page by pressing ”Modify” button in 4), see

3-6 Main page

SAF Tehnika JSC 25

. From here you can do initial link configuration and set system working mode.

Figure

INTEGRA-X User Manual WEB GUI

Set system working mode

Initially, the XPIC mode is enabled. Press the Modify button and entry fields will appear for
changing values. It is possible to switch system working modes between XPIC and single
channel configuration (use Channel A for single vertical polarization and Channel B for single
horizontal polarization) from the Main menu only, see

Figure 3-9 Changing System working mode

XPIC mode

Figure 3-99

below.

Choose XPIC in System configuration, see

XPIC mode main window status

For main page “XPIC WEB GUI” see

Figure 3-10

Figure 3-9 Changing System working mode

, information explained below.

.

Figure 3-10 XPIC mode status Main page

Local and Remote sides of the link are represented. For XPIC four columns are shown – Local
A&B channels and Remote A&B channels. In case of single Channel (polarization) mode only
two columns will be shown for corresponding channel – Local and Remote. For configuring
single Channel, see “

1)

License remaining time

minimum (2Mbps). If the time limitation is not active, “Unlimited” will be shown. Refer to

chapter

2)

Mode

3)

Tx capacity

scheme, bandwidth, and system operational mode.

SAF Tehnika JSC 26

System  Tools  License management

– system working mode, XPIC or single polarization.

Single polarization mode

– time left until the capacity of the system will be limited to the

– maximum available Tx capacity according to the configured modulation

” on page 29.

for more details.

INTEGRA-X User Manual WEB GUI

4)

Rx capacity

schema, current bandwidth, and system configuration.

5)

Radio side

modifiable and factory hardware preset value which is indicated also on device label.

6)

Tx mute

power off. It may be effective when diagnosing interference existence – when transmitter

power of one side is off, you should not observe significant RSL on the other side. Link is

interrupted during Tx mute.

7)

Tx power

8)

Duplex shift

modifiable and factory hardware preset value;

9)

Tx frequency

10)

Rx frequency

duplex shift.

11)

Rx level

update frequency. Rx level needs to be according to the link budget calculation within ±2dB

margin.

12)

Bandwidth

13)

Modem profile

modulation.

14)

Acquire status

margins); Sweep = the link is not established (Rx level is below the sensitivity threshold,

MSE is degraded or there’s configuration/firmware mismatch on both sides of the link).

15)

FEC locked

amount of corrected errors is significantly higher compared to uncorrected errors.

16)

MSE

– Mean Square Error indication, see ACM description in “

Modulation

17)

FEC load

18)

XPD estimated

polarizations, readings 25…40dB is OK for normal operation.

19)

Current Rx modulation –

modulation can differ from the configured maximum modulation (point 13).

20)

Current Tx modulation –

modulation can differ from the configured maximum modulation (point 13).

21)

Current Rx Ethernet capacity

current received capacity can differ from the maximum available capacity, see ACM

description in

22)

Current Tx Ethernet capacity

transmitted capacity can differ from the maximum available capacity, see ACM

description in

23)

Port

– Name and connection type of the Ethernet port, RJ-45 or SFP/SFP+.

24)

State

25)

Status

- maximum link available Rx capacity with configured maximal modulation

– “Low” or “High” side, depends on working frequencies of the link, not

– Tx mute status, configurable in

– currently configured Tx power.

– radio duplex shift, the difference between Tx and Rx frequencies, not

– currently set Tx frequency for the local radio.

– receiving frequency for the local radio. Determined by the Tx frequency and

– current Rx level for the corresponding polarization. Value updating with browser

– currently configured bandwidth.

– currently configured modem profile, in this case, 128QAM fixed

– Locked = the link is established (Rx level and MSE are within acceptable

– shows whether Forward Error Correction algorithm is working and the

“Over The Air

” page. Allows turning transmitter

ACM - Adaptive Coding and

”.

– Forward Error Correction load.

– cross-polarization discrimination between the two orthogonal

received signal modulation, in case ACM is enabled, current

transmitted signal modulation, in case ACM is enabled, current

- current available Rx capacity, in case ACM is enabled, the

“ACM - Adaptive Coding and Modulation”

- current available Tx capacity, in case ACM is enabled, current

“ACM - Adaptive Coding and Modulation”

– Ethernet port state –Enabled or Disabled.

– Ethernet port status, up or down (if the port is enabled).

.

.

SAF Tehnika JSC 27

INTEGRA-X User Manual WEB GUI

Figure 3-11 XPIC mode modify Main window

XPIC mode main window modify

In XPIC mode configuration changes are applied for “Local A” column only, see below

3-11 XPIC mode modify Main window

when the “Execution configuration” button will be pressed. For detailed description look point
7 below.

. “Local B” column configuration will automatically adjust

Figure

1)

System working mode

see page

2)

Tx power

profile. The actual range will be indicated in the brackets.

3)

Tx frequency

range indicates the range of central frequencies for the configured channel bandwidth.

4)

Bandwidth profile

XPIC options have “XPIC” suffix.

5)

Modem profile

along with the indication of fixed modulation or maximum modulation for ACM.

6)

State

7)

Execute

section apply only to the local side A and B channels. If
in case of incorrect configuration of the radio link which caused it to stop working, last
saved or default configuration will be restored on device.

29.

- the available range depends on the radio model and selected modem

- The available frequency range is indicated in the brackets. TX frequency

- Allows enabling/disabling each of three available LAN ports.

- By pressing

Execute for both -

and remote side Integra-X FODUs A and B channels. If
configuration will be reverted in case erroneous configuration changes are applied.

SAF Tehnika JSC 28

– choose XPIC mode. For Single polarization mode configuration

- Allows choosing between available channel bandwidth options,

- Allows choosing between available channel modem profile options

„Execute configuration”,

applies changes made to the corresponding section both for local

changes made to the corresponding

„Rollback on”

„Rollback on”

is selected, then

is selected, the

INTEGRA-X User Manual WEB GUI

Rollback procedure is triggered only when management connectivity of the devices has
been lost due to the applied configuration changes. For this reason,

„Rollback on”

option
should be selected only when radio link between Local and Remote site has been already
established and synchronized. Rollback will not work in case Remote side of the link has
not been reachable before configuration change took affect and selection of this option
will even display pop-up internal error message in Integra-X WEB GUI.

If you do not save the configuration after modification, it will be lost after the FODU
restart. Indication on unsaved configuration will be shown in always visible
MODIFY/SAVE/LOGOUT section on right top part of the WEB GUI page with red
circle on SAVE button and white number indicating amount of unsaved

configuration changes on the device:

Single polarization mode

For single polarization operation choose Channel A for Vertical or Channel B for Horizontal
polarization, see “

Single polarization mode main window status

Set system working mode

” on page 26.

Figure 3-12 Single polarization Main status page

Local and Remote sides of the link are represented. In the single Channel (polarization) mode,
only two columns will be shown – Local for Channel A or B and Remote for Channel A or B. For
configuring XPIC mode, see

1)

License remaining time

XPIC mode

on page 26.

– time left until the capacity of the system will be limited to the
minimum (2Mbps). If the time limitation is not active, “Unlimited” will be shown. Refer to
the Chapter

2)

Mode

“System  Tools  License management”

– system working mode, choose Channel A for the Vertical polarization, Channel B

for the Horizontal polarization. For XPIC configuration see

3)

Tx capacity

– maximum available Tx capacity according to the configured modulation

scheme, bandwidth, and system operational mode.

4)

Rx capacity

- maximum link available Rx capacity with configured maximal modulation

schema, current bandwidth, and system configuration.

5)

Radio side

– “Low” or “High” side, depends on working frequencies of the link, not

modifiable.

6)

Tx mute

– Tx mute status, configurable in

“Over The Air”

power off. It may be effective when diagnosing interference existence – when transmitter

SAF Tehnika JSC 29

for further details.

XPIC mode

on page 26.

page. Allows turning transmitter

INTEGRA-X User Manual WEB GUI

power of one side is off, you should not observe significant RSL on the other side. Link is
interrupted during Tx mute.

7)

Tx power

8)

Duplex shift

modifiable.

9)

Tx frequency

10)

Rx frequency

shift.

11)

Rx level

frequency. Rx level needs to be according link budget calculation within ±2dB margin.

12)

Bandwidth

13)

Modem profile

modulation.

14)

Acquire status

margins); Sweep = the link is not established (Rx level is below the sensitivity threshold,
MSE is degraded or there’s configuration/firmware mismatch on both sides of the link).

15)

FEC locked

errors is significantly higher compared to uncorrected errors.

16)

MSE

Modulation

17)

FEC load

18)

Current Rx modulation –

modulation can differ from the configured maximum modulation (point 13).

19)

Current Tx modulation –

modulation can differ from the configured maximum modulation (point 13).

20)

Current Rx Ethernet capacity

current received capacity can differ from the configured maximum capacity, see ACM

description in “

21)

Current Tx Ethernet capacity

transmitted capacity can differ from the configured maximum capacity, see ACM
description in “

22)

Port

23)

State

24)

Status

– currently configured Tx power.

– radio duplex shift, the difference between Tx and Rx frequencies, not

– currently set Tx frequency for local radio.

– receiving frequency for local radio. Determined by Tx frequency and duplex

– current Rx level for the current polarization. Value updating with browser update

– currently configured bandwidth.

– currently configured modem profile, in this case, 128QAM fixed

– Locked = the link is established (Rx level and MSE are within acceptable

– forward Error Correction algorithm is working and the amount of corrected

– Mean Square Error indication, see ACM description in “

”.

– Forward Error Correction load.

received signal modulation, in case ACM is enabled, current

transmitted signal modulation, in case ACM is enabled, current

- current available Rx capacity, in case ACM is enabled, the

ACM - Adaptive Coding and Modulation

- current available Tx capacity, in case ACM is enabled, current

ACM - Adaptive Coding and Modulation

– Name and connection type of the Ethernet port, RJ-45 or SFP/SFP+.

– Ethernet port state –Enabled or Disabled.

– Ethernet port status, up or down (if the port is enabled).

”.

”.

ACM - Adaptive Coding and

SAF Tehnika JSC 30