FCC ID: W9Z-INTEGRA24 Low Power Point-To-Point Transmitter

by: SAF Tehnika A/S latest update: 2016-05-12 model: INTEGRA24

Two grants have been issued under this FCC ID from 10/07/2014 to 05/12/2016 (this is the only release in 2016 for this grantee). Public details available include internal & external photos, frequency information, and manuals. some products also feature user submitted or linked drivers, password defaults, troubleshooting guides, instructions, & warrantee terms.

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all	frequencies		exhibits	applications
		manual

all exhibits 15
1 ~ 2016-05-12 7
2 ~ 2014-10-07 12

app s				submitted / available
1 2	User Manual	Users Manual	pdf	1.93 MiB	July 10 2014
1 2		Cover Letter(s)	pdf		December 05 2016
1 2		External Photos	pdf		December 05 2016
1 2		Cover Letter(s)	pdf		December 05 2016
1 2		ID Label/Location Info	pdf		December 05 2016
1 2		RF Exposure Info	pdf		December 05 2016
1 2		Cover Letter(s)	pdf		December 05 2016
1 2		Test Report	pdf		December 05 2016
1 2		Cover Letter(s)	pdf		July 10 2014
1 2		Cover Letter(s)	pdf		July 10 2014
1 2		Cover Letter(s)	pdf		July 10 2014
1 2		Cover Letter(s)	pdf		July 10 2014
1 2		Cover Letter(s)	pdf		July 10 2014
1 2		Cover Letter(s)	pdf		July 10 2014
1 2		Test Setup Photos	pdf		July 10 2014

exhibit
download
text

1 2

User Manual

Users Manual

pdf

1.93 MiB

July 10 2014

User manual Integra Full Outdoor Unit VER 1.7 FW 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.

- Connect the equipment into an outlet on a circuit different from that to which the Increase the separation between the equipment and receiver. 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 prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. Copyright Notice Copyright 2014 SAF Tehnika, JSC. All rights reserved. SAF Tehnika JSC 2 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 Configuration ............................................................................................... 24 Networking .......................................................................................................... 26 Ethernet VLAN......................................................................................................... 26 Ethernet Rate limit.................................................................................................. 27 Ethernet Port status and configuration.............................................................. 28 Synchronization SyncE ......................................................................................... 29 Performance ........................................................................................................ 32 Alarm Alarm status ................................................................................................ 32 Alarm Alarm log ...................................................................................................... 32 Alarm Alarm threshold configuration ................................................................. 34 Performance Performance graph ....................................................................... 35 Ethernet Ethernet switch statistics ..................................................................... 37 Over The Air Equalizer graph ................................................................................ 41 Over The Air Constellation diagram .................................................................... 42 Over The Air Modem performance ..................................................................... 45 System ................................................................................................................. 46 FW Firmware upgrade ........................................................................................... 46 Configuration IP configuration ............................................................................ 47 Configuration SNMP configuration .................................................................... 48 Configuration Configuration file .......................................................................... 50 Configuration System configuration .................................................................. 51 Diagnostic Loopback configuration ................................................................... 52 Diagnostic Download troubleshooting file ........................................................ 52 SAF Tehnika JSC 3 Tools License management ................................................................................ 53 Tools Console ......................................................................................................... 54 About About System .............................................................................................. 55 About 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 4 INTEGRA User Manual OVERVIEW Chapter 1: OVERVIEW Technical specification Integra General Concept / form factor FODU with antenna integration up to 1Gbps throughput with header compression*

Capacity 15GHz, 17GHz UL, 18GHz, 23GHz, 24GHz UL, 25-26GHz, 38GHz, 42GHz and more*

From 4QAM up to 1024QAM with hitless ACM 1+0, 2+0 link bonding Yes ETSI: from 3.5 MHz up to 56MHz FCC: from 5 MHz up to 60MHz Modulation Configurations ATPC Integra-S FODU slip-fit Channel bandwidth Frequency bands Ports Gigabit Ethernet Service ports 1x RJx45 2x SFP 3.5mm USB B LED Electrical with built-in PoE splitter Fiber Optics Audible alignment and RSSI Terminal Access Power On, Link Synchronization, RSL Ethernet Ethernet Managed Gigabit Switch functionality Management Performance monitoring Synchronization Carrier Ethernet functionality Max frame size Antenna Sizes Antenna Electrical & Mechanical Power consumption Temperature range Size, w/o mount Weight, w/o mount Mount Mount size Pole size Weight Built-in Carrier Ethernet Gigabit Network Processor 802.1Q VLANs with QoS/CoS including WRED, shaping and DWRR, Spanning Tree Protocol, Jumbo frames and more*

SNMP v1/2c/3, SSH, HTTPS, Serial, Radius, Network Time Protocol Performance graphs, constellation diagram, alarms, detailed counters SyncE, IEEE 1588v2 PTP*

Provider Bridging, MEF9&14, High Efficiency Header Compression, AES 256-bit encryption, MPLS-TP*, OAM*

9600 bytes 0.3m / 1ft High Performance and Super High Performance*

0.6m / 2ft External antenna Typical: 20W, Max: <35W

-33 ... +55 C / -28 +130 F 378 x 378 x 227 mm /

14.9 x 14.9 x 9 5 kg / 11 lbs 292 x 176 x 250 mm / 11.5 x 7 x 10 max 40 120 mm / 1.6 4.7 2.55 kg / 5.6 lbs 669 x 669 x 289 mm /

26.3 x 26.3 x 11.4 5 kg / 11 lbs 235 x 250 x 72 mm /

9.26 x 9.85 x 2.84 2.9 kg / 6.4 lbs Mount on antenna

* Inquire SAF representative for more information SAF Tehnika JSC 5 INTEGRA User Manual OVERVIEW Preliminary RSL Threshold (dBm) and Link Capacity (Mbps) ETSI channels Modulation 7 MHz 28 MHz 20 MHz 14 MHz 3.5 MHz 56 MHz RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth 50 -87 72 35 -89 25 -90 4 -95 8 -92 17 -91 4QAM -97 69 -82 98 -80 145 51 -84 16QAM -91 8 -88 16 -86 33 -85 88 -78 125 -77 183 64 -80 32QAM -87 10 -85 20 -82 44 -81 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 40 MHz 128QAM W -79 17

256QAM 256QAM W 512QAM 512QAM W 1024QAM 1024QAM W

-75 39 -73 79 -72 119 -71 161 -69 231 -68 337

-73 41

-70 90 -68 136 -68 184 -66 264 -64 385

-66 97

-65 153 -64 207 -62 298 -61 433

-62 163 -61 220 -60 314 -58 456

50 MHz 40 MHz 30 MHz 25 MHz 20 MHz FCC channels 5 MHz 10 MHz 60 MHz Modulation RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth RSL Eth

-88 51 -87 63 -86 74

-82 101 -81 127 -80 151

-78 129 -77 160 -76 190

-75 170 -74 212 -73 251

-72 204 -71 255 -71 301

-69 238 -68 297 -67 351

-67 197 -65.5 272 -64 340 -64 401

-62 306 -61 382 -60 451

-60 323 -58 409 -58 474 4QAM -96 5 -94 12 -91.5 24

-85 49 16QAM -89 10 -88 24

-81 62 32QAM -85 12 -83 30 64QAM -82 17 -80 40 -78.5 82 128QAM -79 20 -77 48 -75.5 99

- -74 56 -72.5 115

- -71 60

- -68.5 132

- -65.5 148

- -62.5 157 -61.5 198

-90 31

-90 37

-84 62 -83.5 73

-80 78

-80 93

-77 104 -76.5 123

-74 124 -73.5 148

-71 145 -70.5 173

-68 166

-64 187 -63.5 222

-61 235 256QAM 256QAM W 512QAM 1024QAM 1024QAM W 128QAM W -76 22

SAF Tehnika JSC 6 INTEGRA User Manual OVERVIEW Maximum Tx Power Modulation 15, 18, 23 GHz 4 QAM 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 512 QAM 1024 QAM

+20

+19

+18

+17

+16

+15

+12 Tx power, dBm 17 GHz*

-20 +5

-20 +5 24 GHz*

-20 +5

-20 +5 38GHz

+15

+14

+13

+12

+11

+10

* Max Tx power settings depend on national regulatory EIRP allowance and antenna size, High Performance antenna specification Size Frequency, GHz 0.3m 0.6m 15 18 23 15 18 23 Gain, dBi 32.1 34.2 35.3 37.5 39.1 41.4 Integra Half power beamwidth XPD dB F/B ratio, dB 4.3 3.3 3.0 2.4 1.9 1.6 30 30 30 32 30 30 58 61 62 62.5 64.5 66.5 Compliance FCC N/A B2 A N/A A A ETSI Class 3 Class 3 Class 3 Class 3 Class 3 Class 3 Integra-S SAF Tehnika JSC 7 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 64 128 256 512 1024 1280 1518 Ethernet, Mbps 1069.50 715.88 572.95 515.38 489.38 484.38 481.27 Throughput gain, %

56.52 35.14 18.84 9.77 4.98 4.00 3.38 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 8 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. 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 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;

R is reserved;

05 designates the version number of the radio;

L designates low side radio;

B designates B subband radio;

A - A subband radio;

C - C subband radio H - high side 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 9 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 Exposure characteristics Equivalent plane wave power density Seq (W/m2) Average time period

(min) 50 10 24GHz occupational 41cm general public 91cm 68/f1.05 (f in GHz) 68/f1.05 (f in GHz) 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 Exposure characteristics Equivalent plane wave power density Seq (W/m2) Average time period

(min) 24GHz occupational 41cm general public 91cm 50 10 6 30 Quite a few other documents specify or refer to exposure limits comparable to those given above, e.g.:

SAF Tehnika JSC 10 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 ber elektromagnetische Felder

- Bundesamt fr 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 11 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. 2 4 6 8 1 3 5 7 9 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 14 11 13 Numbers of mounting bracket and Integra FODU parts in next sections will be mentioned in square brackets []. SAF Tehnika JSC 12 INTEGRA User Manual INSTALLATION Changing polarization of Integra FODU and antenna Tools required: 13mm (0.512) wrench (comes in package) 1 Remove Integra FODU with antenna from mounting bracket. Default polarization is vertical. 3 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. 2 Using 13mm wrench remove indicated nuts and fixation plate [10, 11, 12, 13, 14]. 4 View of Integra FODU with swapped polarization. 5 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. 6 60 cm antenna: make sure that one of two water drain holes is aligned with Integra FODUs grounding flange nut. SAF Tehnika JSC 13 INTEGRA User Manual INSTALLATION Assembly procedure Tools required: 13mm (0.512) wrench (comes in package) 1 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]. 2 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]. 3 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. 4 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 Nm. SAF Tehnika JSC 14 INTEGRA User Manual INSTALLATION 5 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. Bracket clamps in following position support mast 55..120mm. Reversing clamps allows support of smaller masts 25..75mm. 6 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. 7 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 Nm. 8 View of assembled mounting bracket on the mast pole. 9 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]. 11 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. 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) 1 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. 2 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. 3 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 Integras housing is parallel with the bracket. 4 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 16 INTEGRA User Manual INSTALLATION 5 Each notch corresponds to one degree of azimuth angle. Half distance between notches

(each lip) corresponds to 0.5 degree. 6 Fix azimuth angle on horizontal axis by adjusting position of flange nuts [9] on both horizontal and vertical alignment eye screws. 7 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 Nm. 8 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 Nm. 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. 3 4 5 1 2 Tools required: Size 5 allen wrench Level (not supplied) SAF Tehnika JSC 17 INTEGRA User Manual INSTALLATION 1 Using size 5 allen wrench loosen one clamp completely and second clamp by a half-turn. 2 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. 3 4 Rotate Integra-S to match the required polarization. 5 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. 6 Verify polarization accuracy with a level, by placing it against the top edge of the Integra-S housing SAF Tehnika JSC 18 INTEGRA User Manual INSTALLATION 7 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 SAF Tehnika JSC 19 INTEGRA User Manual WEB GUI 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:

SAF Tehnika JSC 20 INTEGRA User Manual WEB GUI Web GUI is divided into 5 sections:

1 Top panel Shows information about Integra FODU you are connected to including:

IP address System name 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 SAF Tehnika JSC 21 INTEGRA User Manual WEB GUI 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:

SAF Tehnika JSC 22 INTEGRA User Manual WEB GUI 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. SAF Tehnika JSC 23 INTEGRA User Manual WEB GUI Over The Air Radio Configuration Radio configuration page is available in System menu (Over The AirRadioConfiguration). 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;

SAF Tehnika JSC 24 INTEGRA User Manual WEB GUI 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 WeakFEC indicates higher capacity mode (shorter FEC overhead). Weak FEC is available only for highest modulation in selected channel bandwidth. indicates better sensitivity mode (longer FEC overhead), while 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 radio power <Tx power>

radio frequency <frequency>

radio rssi-led <enable|disable>

radio tx-mute <time|disable>

radio factory Use to show radio status. Use to set Tx power in dBm. Use to set Tx frequency in kHz. Use to enables or disable RSSI LED operation. Use to mute transmitter on specific time in seconds or unmute. Use to reset radio settings to factory defaults Tx power will be disabled and frequencies set to factory defaults. Use to upgrade radio software version. Use to check radio software version Use to show radio interface counters. Use to set modem configuration bandwidth, minimum and maximum modulation. _W suffix indicates Weak FEC modulation. Use to reset modem settings to factory defaults bandwidth and modulation will be reset to minimum. radio upgrade radio version radio show-counters modem configuration set

<max_mod>

modem configuration set factory modem loopback <digital|none> 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 SAF Tehnika JSC 25 INTEGRA User Manual WEB GUI Networking Ethernet 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. SAF Tehnika JSC 26 INTEGRA User Manual WEB GUI Ethernet 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 <port> egress-rate show network port <port> egress-rate set cir <11000000> cbs

<11000000>

Use to show committed information rate (CIR) and committed burst size (CBS) setting on particular port. Use to set committed information rate (CIR) and committed burst size (CBS) setting on particular port. SAF Tehnika JSC 27 INTEGRA User Manual WEB GUI Ethernet 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 network status config network port <port> set admin-

state <enable|disable>

Use to show status of all ports. Use to show configuration of all ports.. Use to enable or disable particular port. SAF Tehnika JSC 28 INTEGRA User Manual WEB GUI network port <port> set mtu

<60..9600>

network port <port> set speed

<auto|100fdx|100hdx|10fdx|10hdx>

Use to change supported L2 frame size on particular port. Default value is 9600 bytes. Use to change speed and duplex setting on particular port. Default value is auto (autonegotiation). Synchronization 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) Port - Indicates SyncE source port (if enabled);

2) State Indicates if SyncE is enabled;

3) Status Indicates Locked if SyncE is operating normally;

4) Source port configuration allows specifying SyncE source port;

5) Disable/Enable Disable or Enable SyncE operation. Configuration examples 1) Integra link with an external clock source SAF Tehnika JSC 29 INTEGRA User Manual WEB GUI 2) Integra back-to-back interconnection with an external clock source 3) Integra as a master clock source SAF Tehnika JSC 30 INTEGRA User Manual WEB GUI 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 <port>

network sync disable network sync status network status info 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. Disable SyncE on all ports. 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

'SyncE_Act' and 'SyncE_Prio' field nonzero values indicate synchronous ethernet activity. SAF Tehnika JSC 31 INTEGRA User Manual WEB GUI Performance Alarm Alarm status Alarm status page summarizes current alarms by showing date and time the alarm occurred and its name. 1) Date shows date when alarm was initiated;

2) Time shows time when alarm was initiated;

3) Alarm shows name of the alarm. Alarm 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. SAF Tehnika JSC 32 INTEGRA User Manual WEB GUI 1) Clear alarm log deletes all alarm log entries;

2) Toggle period selection opens period selection controls;

3) Load the latest data refreshes alarm log and shows last 20 log entries;

4) List of alarm log entries entry number, date and time, source node, status and event name;

5) Navigation controls. << navigates to start of alarm log, while >> to the end;

Previous 20 navigates to previous alarm log page showing 20 previous alarm log entries, while Next 20 to next alarm log page showing 20 next alarm log entries

(if available). 6) Shows number of currently viewed alarm log page. In Web GUI only last 20 pages

(400 entries) are shown. Download alarm log to view full list;

7) Filter press to filter alarms from certain source node (e.g. Radio);

8) Alarm event log file press on the link to download full alarm log text file. SAF Tehnika JSC 33 INTEGRA User Manual WEB GUI Alarm Alarm threshold configuration Page provides summary of parameters alarm thresholds. All thresholds are predefined and some change dynamically according to system configuration. Thresholds can be modified if required. Alarm activates when current value exceeds low-delta or high+delta values. Alarm deactivates when current value exceeds low+delta or high-delta values. Press button to enter configuration mode. SAF Tehnika JSC 34 INTEGRA User Manual WEB GUI 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 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. SAF Tehnika JSC 35 INTEGRA User Manual WEB GUI 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. SAF Tehnika JSC 36 INTEGRA User Manual WEB GUI Ethernet Ethernet switch statistics SAF Tehnika JSC 37 INTEGRA User Manual WEB GUI IngressPackets Packets that ingress on the port;

IngressBytes Bytes that ingress on the port;

1) 2) 3) EgressPackets Packets that egress on the port;

4) EgressBytes Bytes that egress on the port;

5) 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;

6) EtherStatsBroadcastPkts The total number of good packets received that were directed to the broadcast address. Note that this does not include multicast packets;

7) EtherStatsPkts64Octets The total number of packets (including bad packets) that were 64 octets in length (excluding framing bits but including FCS octets);

8) 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);

9) 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);

10) 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);

11) 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);

12) 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);

13) EtherStatsOversizePkts The total number of packets that were longer than 1518 octets (excluding framing bits, but including FCS octets) and were otherwise well formed;

14) 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;

15) 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;

16) EtherStatsOctets The total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets);

17) EtherStatsPkts The total number of packets (including bad packets, broadcast packets, and multicast packets) received and transmitted;

18) EtherStatsTXNoErrors The number of frames that have been transmitted by this port from its segment excluding fragmented and FCS error frames;

19) EtherStatsRXNoErrors The number of frames that have been received by this port from its segment excluding fragmented and FCS error frames;

20) 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) ;

21) IfInOctets The total number of octets received on the interface, including framing characters;

SAF Tehnika JSC 38 INTEGRA User Manual WEB GUI 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