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User Manual Part 1 | Users Manual | 5.14 MiB | September 26 2023 / October 02 2023 | |||
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User Manual Part 2 | Users Manual | 4.00 MiB | September 26 2023 / October 02 2023 | |||
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Label Sample | ID Label/Location Info | 699.41 KiB | September 26 2023 / October 02 2023 | |||
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Attestation Statements Part 2.911(d)(7) | Attestation Statements | 301.94 KiB | September 26 2023 / October 02 2023 | |||
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Confidentiality Letter | Cover Letter(s) | 163.42 KiB | September 26 2023 / October 02 2023 | |||
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Confidentiality Letter Internal Photos | Cover Letter(s) | 101.14 KiB | September 26 2023 / October 02 2023 | |||
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Family Approval Attestation | Cover Letter(s) | 119.96 KiB | September 26 2023 / October 02 2023 | |||
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LOA Letter | Cover Letter(s) | 297.51 KiB | September 26 2023 / October 02 2023 | |||
1 | Op Desc NDA | Operational Description | October 02 2023 | confidential | ||||
1 | Op Desc Software Security | SDR Software/Security Inf | September 26 2023 | confidential | ||||
1 | Operational Description | Operational Description | September 26 2023 | confidential | ||||
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RF Exposure | RF Exposure Info | 167.28 KiB | September 26 2023 / October 02 2023 | |||
1 | Schematics R00 ADG 01 | Schematics | September 26 2023 | confidential | ||||
1 | Schematics R00 CDM 01 | Schematics | October 02 2023 | confidential | ||||
1 | Schematics R00 CDN 01 | Schematics | September 26 2023 | confidential | ||||
1 | Schematics R04 ADG | Schematics | September 26 2023 | confidential | ||||
1 | Schematics R04 CDM | Schematics | September 26 2023 | confidential | ||||
1 | Schematics R06 ADG 00 | Schematics | September 26 2023 | confidential | ||||
1 | Schematics R06 CDM 00 | Schematics | September 26 2023 | confidential | ||||
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Submittal Letter | Cover Letter(s) | 106.23 KiB | September 26 2023 / October 02 2023 | |||
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TSUP | Test Setup Photos | 2.04 MiB | September 27 2023 / October 02 2023 | |||
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Test Report | Test Report | 1.97 MiB | September 26 2023 / October 02 2023 | |||
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Test Report Antenna | Test Report | 206.65 KiB | September 26 2023 / October 02 2023 |
1 | User Manual Part 1 | Users Manual | 5.14 MiB | September 26 2023 / October 02 2023 |
User manual Integra Integra-S Integra-G Integra-GS VER 2.37 F W 3 .20 .1 9 SAF Tehnika JSC 1 INTEGRA/-S/-G/-GS User Manual OVERVIEW 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 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 Such caused by unauthorized modifications modifications could void the user's authority to operate the equipment. this equipment. to 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 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:
in a residential interference Reorient or relocate the receiving antenna. Increase the separation between the equipment and the receiver. Connect the equipment to 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 license-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 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 le radiolectrique subi, mme si fonctionnement. le brouillage est susceptible d'en compromettre Copyright Notice Copyright 2023 SAF Tehnika, JSC. All rights reserved. SAF Tehnika JSC 2 INTEGRA/-S/-G/-GS User Manual OVERVIEW Contents Chapter 1: OVERVIEW Chapter 3: WEB GUI Chapter 2: INSTALLATION 6 Labeling ............................................................................................................... 6 Microwave Radiation .......................................................................................... 7 Integra-G 24 GHz FCC & IC IDs .......................................................................... 8 9 Package contents ............................................................................................... 9 Integra/Integra-G FODU: assembling mounting bracket and installing with an antenna on a pole .......................................................................................... 9 Disassembled mounting bracket and tools required for assembly ............ 9 Changing the polarization of Integra/Integra-G FODU and antenna ....... 10 Assembly procedure ............................................................................... 12 Antenna alignment .................................................................................. 14 Integra-S/Integra-GS 15-42GHz* FODU: attaching to the antenna ............... 16 Integra-S/Integra-GS 6-13GHz* FODU: attaching to the antenna ................. 18 Integra-S/Integra-GS 6-13GHz* 2+0 & OMT interconnection ........................ 21 Connecting FO interface using fiber conduit kit ............................................. 23 Integra-GS 6-13GHz* remote mount kit assembly ......................................... 24 Integra-GS 15-42GHz* remote mount kit assembly ....................................... 25 Initial setup in the indoor environment ........................................................... 26 27 Initial configuration ........................................................................................... 27 Powering Integra/Integra-S/Integra-G/Integra-GS FODU and connecting to PC ....................................................................................................... 27 PoE injector (P/N I0ATPI22) ................................................................... 27 Universal programmable PoE injector (P/N I0ATPI24/I0ATPI44) ........... 28 System requirements .............................................................................. 29 Ethernet management connection configuration ..................................... 30 Accessing Web GUI ................................................................................ 30 Main page ............................................................................................... 32 Modifying basic system parameters ........................................................ 34 Parameters on Main page....................................................................... 36 Over The Air ....................................................................................................... 38 Over The Air Radio Configuration .................................................. 38 Over The Air Modem Aggregation/protection configuration ........... 42 Interconnection schemes ........................................................................ 43 Over The Air Modem Header compression .................................... 51 Over The Air Security AES encryption ........................................... 53 Networking ........................................................................................................ 57 Networking Ethernet VLAN ............................................................ 57 Networking Ethernet VLAN rates ................................................... 59 Networking Ethernet Rate limit ...................................................... 61 Networking Ethernet MAC address table ....................................... 62 Networking Ethernet Static MAC Address ..................................... 64 Networking Ethernet Spanning Tree .............................................. 66 Networking Ethernet Port status and configuration ........................ 69 Networking Synchronization SyncE ............................................... 70 Networking QoS General QoS configuration ................................. 73 SAF Tehnika JSC 3 INTEGRA/-S/-G/-GS User Manual OVERVIEW Networking QoS 802.1p mapping .................................................. 75 Networking QoS DiffServ mapping ................................................ 77 Networking QoS CoSQ configuration ............................................ 78 Networking QoS MPLS EXP mapping ........................................... 81 Performance ...................................................................................................... 82 Performance Alarm Alarm status ................................................... 82 Performance Alarm Alarm event log .............................................. 83 Performance Alarm Sensor configuration ...................................... 85 Performance Alarm Alarm threshold configuration ........................ 87 Performance Monitoring Performance graph ................................. 90 Performance Monitoring Performance log ..................................... 91 Performance Ethernet Ethernet switch statistics ............................ 93 Performance Ethernet Actual throughput ....................................... 98 Performance Ethernet QoS statistics ............................................. 99 Performance Over The Air Equalizer graph ................................. 100 Performance Over The Air Constellation diagram ....................... 101 Performance Over The Air Rx spectrum ...................................... 104 Performance Over The Air Modem performance ......................... 106 System ............................................................................................................. 107 System FW Firmware upgrade .................................................... 107 System Configuration IP configuration ......................................... 109 System Configuration SNMP configuration .................................. 110 System Configuration Configuration file ....................................... 114 System Configuration Users configuration ................................... 117 System Configuration System configuration ................................ 119 System Configuration System services ....................................... 121 System Configuration Syslog ....................................................... 124 System Diagnostic Loopback configuration ................................. 126 System Diagnostic Download troubleshooting file ....................... 128 System Tools License management ............................................ 130 System Tools License management, steps on adding and activating a new license ........................................................................................ 131 System Tools Console ................................................................. 132 System About About System ....................................................... 133 System About Copyright .............................................................. 134 System About Inventory ............................................................... 134 136 Connecting to serial RS232 interface............................................................ 136 Connecting to SSH .......................................................................................... 138 Connecting to Telnet ...................................................................................... 139 140 Polarization Considerations ........................................................................... 140 Changing the radio side .................................................................................. 140 Radio configuration extra fields ................................................................. 141 Setting bandwidth to 60MHz ......................................................................... 142 143 Integra-G block diagram ................................................................................. 143 ACM (Adaptive Coding and Modulation) ...................................................... 143 ATPC (Automatic Transmit Power Control) ................................................. 147 Chapter 4: COMMAND LINE INTERFACE Chapter 6: FUNCTIONAL DESCRIPTION Chapter 5: 17/24GHz SAF Tehnika JSC 4 INTEGRA/-S/-G/-GS User Manual OVERVIEW Chapter 7: TOOLS AES - Advanced Encryption Standard ........................................................... 148 Header compression ...................................................................................... 149 Adaptive equalizer .......................................................................................... 151 Fragmentation and interleaving ..................................................................... 152 FTP directory ................................................................................................... 152 Firmware upgrade management with SNMP ............................................... 153 RADIUS authentication ................................................................................... 155 Configuration of the RADIUS server authentication .............................. 155 Assigning administrator rights to a RADIUS user ................................. 156 157 Link Layer Discovery tool ............................................................................... 157 MIB files ........................................................................................................... 162 163 RJ-45 port ........................................................................................................ 163 SFP ports ......................................................................................................... 164 USB port ........................................................................................................... 164 RSSI LED .......................................................................................................... 165 Integra-S/Integra-GS RSSI LED description ......................................... 166 RSSI/audio port ............................................................................................... 169 Grounding connection .................................................................................... 171 172 179 180 Appendix A: TECHNICAL SPECIFICATION ABBREVIATIONS CONTACTS Chapter 8: INTERFACES SAF Tehnika JSC 5 INTEGRA/-S/-G/-GS User Manual OVERVIEW Chapter 1: OVERVIEW Labeling 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 Integra 18GHz FODU, SAF Integra-GS-23 for Integra-GS 23GHz FODU, etc Product Number / Model Number (P/N or M/N) (D18B1R05LB): product/model number contains various information about the unit. Please see the translation below. Serial Number (3794701 00009): the serial number uniquely identifies the unit. P/N or M/N translation:
D designates Integra series product;
18 designates the frequency band (18 GHz) of the radio;
G - designates Integra-G/Integra-GS product type;
0 - <1ft (20cm) antenna diameter and ETSI Class 3;
2 - 2ft antenna diameter and ETSI Class 3;
3 - 3ft antenna diameter and ETSI Class 3;
4 - 4ft antenna diameter and ETSI Class 3;
5 - <1ft (20cm) antenna diameter and ETSI Class 4;
6 - 1ft antenna diameter and ETSI Class 4;
7 - 2ft antenna diameter and ETSI Class 4;
8 - 3ft antenna diameter and ETSI Class 4;
9 - 4ft antenna diameter and ETSI Class 4;
S - split-mount, without an integrated antenna. B designates Integra/Integra-S product type;
1 designates 1ft antenna diameter and ETSI Class 3;
R designates Integra with full capacity license;
05 designates the version number of the radio;
N - 10 Mbps Basic License;
L - 100 Mbps Basic License;
K - 220 Mbps Basic License;
X - without AES encryption H - high side radio L designates low side radio;
B designates B subband radio;
A - A subband radio;
C - C subband radio Please note that the 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). SAF Tehnika JSC 6 INTEGRA/-S/-G/-GS User Manual OVERVIEW The frequency range of subband B low side Integra 18 GHz FODU:
The minimum available bandwidth is 1.75 MHz*
* Inquire SAF representative for more information 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 Frequency range 5.8 GHz 24 GHz Exposure characteristics Equivalent plane wave power density Seq (W/m2) Average time period
(min) occupational 458 cm (181 in) general public 1025 cm (404 in) occupational 41 cm (16 in) general public 91 cm (36 in) 50 10 50 10 68/f1.05 (f in GHz) 68/f1.05 (f in GHz) 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 on 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. SAF Tehnika JSC 7 INTEGRA/-S/-G/-GS User Manual OVERVIEW 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 and ISED (Canada) specifies the Maximum Permissible Exposure (MPE) levels for the occupational/controlled environment and general public/uncontrolled environment, as shown in the table below. FCC MPE limits Frequency range Exposure characteristics Equivalent plane wave power density Seq (W/m2) 5.8 GHz 24 GHz occupational 458 cm (181 in) general public 1025 cm (404 in) occupational 41 cm (16 in) general public 91 cm (36 in) f/300 f/1500 50 10 Average time period
(min) 6 30 6 30 ISED (Canada) MPE limits Frequency range Exposure characteristics 5.8 GHz occupational 464 cm (183 in) general public 1041 cm (410 in) Equivalent plane wave power density Seq (W/m2) 0.64550.5 0.026190.6834 Average time period
(min) 6 30 Quite a few other documents specify or refer to exposure limits comparable to those given above, e.g.:
- 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 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) Integra-G 24 GHz FCC & IC IDs Integra-G 24 GHz:
FCC ID: W9Z-INTEGRA24 IC ID: 8855A-INTEGRA24 SAF Tehnika JSC 8 INTEGRA/-S/-G/-GS User Manual INSTALLATION Chapter 2: INSTALLATION Package contents Integra/Integra-G
- Integra FODU D**B1*****, D**B2*****, D**G1***** or D**G2*****,
- Mounting bracket D0SPKR02
- Locking key for Integra D0ALK001
- Kit of replacement parts D0AZIP01
- RJ-45 connector 8P shield solid FOACNR02
- Installation manual D0DB2RM1 Integra-S/Integra-GS
- Integra D**BS***** or D**GS*****
- Locking key for Integra-S D0ALK002
- RJ-45 connector 8P shield solid FOACNR02
- Installation manual D0DBSRM1 Integra/Integra-G FODU: assembling mounting bracket and installing with an antenna on a pole Disassembled mounting bracket and tools required for assembly 1 2 3 4 5 6 7 8 9 Parts of the disassembled mounting bracket
# Parts of the disassembled mounting bracket 1 2 Three M8x1.25x16 hex flange bolts are already attached to clamps for housing and pipe
[5]
One hex flange bolt M8x1.25x30, one M10x1.5 hex flange nut, and one M8x80 eye screw are already attached to clamps for housing and pipe [5]
3 One M8x80 eye screw SAF Tehnika JSC 9 INTEGRA/-S/-G/-GS User Manual INSTALLATION 4 M8x160 and M8x130 threaded rods 5 Clamps for housing and pipe interconnected with three M8x1.25x16 hex flange bolts [1]
and an eye screw for horizontal alignment [2]
6 Six M8x1.25 hex flange nuts 7 Three M8x1.25 hex nuts 8 One hex flange bolt M8x1.25x20 9 Mounting bracket clamp 11 13 10 12 14
# Parts of Integra/Integra-G FODU 10 Spacer hex flange nut 11 Lifting eye nut 12 Fixation plate 13 Side screw flange nuts 14 Grounding flange nut The numbers of the mounting bracket and Integra/Integra-G FODU parts in the next sections will be mentioned in square brackets [ ]. Changing the polarization of Integra/Integra-G FODU and antenna Tools required: 13mm (0.512) wrench (comes in the package) The default polarization for licensed frequency band radios is vertical. Integra series 17/24GHz FODUs should be installed in opposite polarizations. By default, Integra series 17/24GHz FODU radios are shipped with opposite polarizations pre-installed for low and high side units. SAF Tehnika JSC 10 INTEGRA/-S/-G/-GS User Manual INSTALLATION 1 Remove Integra/Integra-G FODU with an antenna from the mounting bracket. The default polarization is vertical. 2 Using 13mm wrench remove indicated nuts and fixation plate [10, 11, 12, 13, 14]. 3 Removed parts must be attached back with a 90-degree offset (see above). The gap between side screw flange nuts [13] and fastening angles should be 5mm. 4 View of Integra/Integra-G FODU with swapped polarization. 5 When polarization is changed, make sure that the drain hole cap located at the grounding flange nut is removed and inserted into the previous drain hole. SAF Tehnika JSC 11 INTEGRA/-S/-G/-GS User Manual INSTALLATION Assembly procedure Tools required: 13mm (0.512) wrench (comes in the package) 1 Using a 13mm wrench slightly loosen three hex flange bolts [1] and hex flange bolt, nut, and eye screw [2] interconnecting clamps for housing and pipe [5]. 2 Attach vertical alignment eye screw [3] to clamps for housing and pipe [5] using hex flange bolt [8] and screw on one hex nut [7] and two hex flange nuts [6]. Make sure that both eye screws are positioned as shown in the image (turned to the back side of the clamps). The gap between each two flange nuts on eye screws should be 15..20mm (0.6..0.8 in.). Do not tighten both hex flange bolts [8] and [2]. 3 Screw one hex flange nut [6] on each of the threaded rods [4]. Note that flange nuts should be screwed on exposing approx. 20mm (0.8 in.) of threaded rods. 4 Insert both threaded bolts into two available holes of the mounting clamp. Put hex nuts [7] on the other side of the clamp and screw on the threaded bolts until it is visible from the other side of the clamp no more than 2mm. Tighten hex flange nuts [6] with torsion 20...25 Nm. 5 Attach the mounting bracket clamp [9] on the longest threaded rod [4] as shown in the picture and afterward screw on the remaining two hex flange nuts [6] on both threaded rods. No parts should remain unassembled. Bracket clamps the following position support mast 55..120mm. Reversing clamps allow support of smaller masts 25..75mm. in 6 Unscrew the hex flange nut [6] from the shortest threaded rod [4]. Make sure that hex flange nuts on the longest threaded rod are not too far; otherwise, adjust the nuts position accordingly. Put another end of the mounting bracket clamp [9] on the free threaded rod and screw on the hex flange nut. SAF Tehnika JSC 12 INTEGRA/-S/-G/-GS User Manual INSTALLATION 7 Hex flange nuts should be evenly aligned on threaded bolts so that the mounting bracket clamp [9] is tightly attached to the pipe. Tighten hex flange nuts with torsion not exceeding 20 Nm. 8 View of the 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/Integra-G FODU. 10 Attach Integra/Integra-G FODU with the antenna to the mounting bracket so that side screws fit into the grooves of the housing clamp [5]. 11 Connect the vertical alignment eye screw [3] to the upper groove on Integra/Integra-G housing. 12 View of the assembled bracket on the mast pole with Integra/Integra-G FODU attached and secured. It is recommended to protect the installed radio from direct sunlight. SAF Tehnika JSC 13 INTEGRA/-S/-G/-GS User Manual INSTALLATION Antenna alignment Tools required: 13mm (0.512) wrench (comes in the package) 1 Before aligning the antenna, make sure that screws marked with red dots on the right side view of the mounting bracket are loosened -
hex flange nuts and bolts of azimuth and elevation eye screws, right side screw on Integra/Integra-G FODU, and hex flange bolt on azimuth angle indicator. 2 loosen following screws the Additionally marked with red dots on the left side view of the mounting bracket: the left side screw on Integra/Integra-G FODU and two hex flange bolts between both mounting bracket clamps for housing and pipe. For initial alignment make sure that elevation is approximately at zero degrees angle by adjusting hex flange nuts [9] on the vertical alignment eye screw so that Integra/Integra-G housing is parallel with the bracket. 3 4 Adjust the azimuth angle by manually moving the mounting bracket in the horizontal axis. Note that all azimuth position fixing hex flange bolts, as well as the horizontal alignment eye screw with flange bolts need to be loosened ensuring free movement in the horizontal axis. 5 Each notch corresponds to one degree of azimuth angle. The half distance between notches (each lip) corresponds to 0.5 degrees. 6 Fix the azimuth angle on the horizontal axis by adjusting the position of flange nuts [6] on both horizontal and vertical alignment eye screws. SAF Tehnika JSC 14 INTEGRA/-S/-G/-GS User Manual INSTALLATION 7 When alignment is finished tighten screws marked with red dots on the right side view of the 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 the tighten following screws Additionally marked with red dots on the left side view of the mounting bracket: the left side screw on Integra/Integra-G FODU and two hex flange bolts between both mounting bracket clamps for housing and pipe with torsion 20...25 Nm. SAF Tehnika JSC 15 INTEGRA/-S/-G/-GS User Manual INSTALLATION Integra-S/Integra-GS 15-42GHz* FODU: attaching to the antenna Parts of Integra-S/Integra-GS 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) 1 Using a size 5 allen wrench loosen one clamp completely and the second clamp by a half-
turn. 2 Integra-S/Integra-GS on the antenna Put adapter flange by hooking a half-turn loosened clamp at the top and leaving the completely loosened clamp at the bottom. Make sure the O-ring is in place and the adapter flange fits into the Integra-S/Integra-
GS transition flange socket. Note! The protective sticker should be removed before attaching Integra-
the S/Integra-GS FODU to the antenna. SAF Tehnika JSC 16 INTEGRA/-S/-G/-GS User Manual INSTALLATION 3 Secure the interconnection by tightening the bottom clamp (not fully). Make sure rotation of the Integra-S/Integra-GS is still possible. 4 Rotate Integra-S/Integra-GS to match the required polarization. 5 The sticker on the back lid indicates the polarization of Integra-S/Integra-GS. Adjust polarization so that the interface ports are located at the lower side of the Integra-
S/Integra-GS. the 6 Verify polarization accuracy with a level, by placing it on the top edge of the Integra-
S/Integra-GS housing 7 Secure the position of Integra-S/Integra-GS by fully tightening both fixation clamps.
* Integra-S/Integra-GS 15/18/17/23/24/26/32/38/42GHz are separate FODU models It is recommended to protect the installed radio from direct sunlight. The default polarization for licensed frequency band radios is vertical. SAF Tehnika JSC 17 INTEGRA/-S/-G/-GS User Manual INSTALLATION Integra-S/Integra-GS 6-13GHz* FODU: attaching to the antenna Integra-S/Integra-GS 6-13GHz* FODU features twisted polarization flange and the resulting signal polarization is determined by Interface on antenna/OMT. To change signal polarization, please rotate only the antenna interface, as the radio always remains in the vertical position. Always this side down 11 GHz Integra-S/Integra-GS, suited for both V and H polarization 6 GHz Integra-S/Integra-GS, suited for both V and H polarization Tools required: Size 5 Allen wrench, 240mm Level (not supplied) SAF Tehnika JSC 18 INTEGRA/-S/-G/-GS User Manual INSTALLATION Integra-S/Integra-GS 6-13GHz* FODU features a twisted polarization flange and the resulting signal polarization is determined by Interface on signal polarization, please rotate only the antenna interface, as the radio always remains in a vertical position. antenna/OMT. change To 1 2 Example of horizontal polarization interconnection. Example of vertical polarization interconnection. 3 Integra-S/Integra-GS on Put the antenna adapter flange by hooking a half-turn loosened clamp at the top and leaving the completely loosened clamp at the bottom. Make sure the O-ring is in place and the adapter flange fits into the Integra-S/Integra-GS transition flange socket. Note! The protective sticker should be removed before attaching the Integra-S/Integra-GS FODU to the antenna. 4 Tighten bottom fixation clamps. SAF Tehnika JSC 19 INTEGRA/-S/-G/-GS User Manual INSTALLATION 5 Use the air level to verify that Integra-S/Integra-
GS FODU is properly leveled. Tighten all four fixation clamps properly. 6 Final view of assembled 13GHz* 1+0 setup. Integra-S/Integra-GS 6-
* Integra-S/Integra-GS 6U/6L/7/8/10/11/13 are separate FODU models If any further assistance is required please contact techsupport@saftehnika.com SAF Tehnika JSC 20 INTEGRA/-S/-G/-GS User Manual INSTALLATION Integra-S/Integra-GS 6-13GHz* 2+0 & OMT interconnection Tools required: Size 5 Allen wrench, 240mm 10mm (0.394) wrench (not supplied) 8mm (0.315) wrench (not supplied) Level (not supplied) It is recommended to perform steps 1-2 on the ground. 1 Prepare Integra-S/Integra-GS 6-13GHz* FODU by loosening both bottom clamps (should not overlap the flange plate) and tightening both upper clamps (will be used as a hook). 2 Attach Integra-S/Integra-GS 6-13GHz* FODU to the OMT using both upper clamps Integra-
S/Integra-GS 6-13GHz* FODU features twisted polarization resulting signal polarization is determined by Interface on antenna/OMT. To change signal polarization, please rotate only the antenna interface, as the radio always remains in a vertical position flange and 3 Slightly tighten both bottom fixation clamps to secure FODU to the OMT. 4 Use the air level to verify that FODUs are properly leveled. Note that the radio position should be in parallel with the OMT. Thus, if the antenna is inclined or declined in elevation, the radio position should be kept at the same angle. SAF Tehnika JSC 21 INTEGRA/-S/-G/-GS User Manual INSTALLATION 5 Integra-S/Integra-GS fixation Tighten all 4 clamps on both FODUs. When properly attached theres a gap between FODUs, OMT, and antenna. 6 Final view of assembled Integra-S/Integra-GS 6-13GHz* 2+0 setup.
* Integra-S/Integra-GS 6U/6L/7/8/10/11/13 are separate FODU models For connecting Integra-S/-GS 15-42GHz to an OMT, please follow the instructions in Chapter Integra-S/Integra-GS 15-42GHz*
FODU: attaching to the antenna If any further assistance is required please contact techsupport@saftehnika.com SAF Tehnika JSC 22 INTEGRA/-S/-G/-GS User Manual INSTALLATION Connecting FO interface using fiber conduit kit 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 the conduit kit and put its parts in the following sequence (left FODU direction, right CPE direction). 4 Push the FO cable from the LC connector side through the conduit. 5 Connect LC connector to SFP module. 6 Tighten parts on both ends of the conduit. Fasten another end of the fiber conduit to the pole using included tie-wrap. Assembled view. SAF Tehnika JSC 23 INTEGRA/-S/-G/-GS User Manual INSTALLATION Integra-GS 6-13GHz* remote mount kit assembly Tools required: Size 5 Allen wrench 13mm (0.512) wrench (not supplied) 1 Assemble the mounting bracket using a 13mm wrench:
Screw one hex flange nut [4] on each of the four threaded rods [3]. Insert threaded rods into available holes of the mounting clamp [1]. Put hex nuts [4] on the other side of the clamp and screw on the threaded rods until these are visible from another side of the clamp, not more than 2mm. Tighten hex flange nuts with torsion 20...25 Nm. Attach two mounting bracket clamps [2] on threaded rods [3] as shown in the picture and afterward screw on the remaining four hex flange nuts [4] on all threaded rods. 2 Attach waveguide transition flange to the mounting bracket using size 5 Allen wrench:
Put the flat side of the transition flange [5] on the flat side of the mounting clamp [1] as shown in the picture and screw in four socket head screws [6] from another side of the clamp. Put two dowel pins [7] in the appropriate holes of the transition flange. Pins are sitting in holes very loose; therefore, perform the last action immediately before FODU installation. 3 View of the assembled mounting bracket on the thick pole mast:
Bracket clamps in support mast diameters of 55..120 mm. the following position 4 View of the assembled mounting bracket on the thin pole mast:
Bracket clamps in a reverse position support smaller mast diameters of 25...75mm.
*Integra-GS 6U/6L/7/8/10/11/13 are separate FODU models SAF Tehnika JSC 24 INTEGRA/-S/-G/-GS User Manual INSTALLATION Integra-GS 15-42GHz* remote mount kit assembly Tools required: Size 5 Allen wrench 13mm (0.512) wrench (not supplied) 1 Assemble Mounting Bracket using a 13mm wrench:
Screw one hex flange nut [4] on each of the four threaded rods [3]. Insert threaded rods into available holes of the mounting clamp [1]. Put hex nuts [4] on the other side of the clamp and screw on the threaded rods until these are visible from another side of the clamp, not more than 2mm. Tighten hex flange nuts with torsion 20...25 Nm. Attach two mounting bracket clamps [2] on threaded rods [3] as shown in the picture and afterward screw on the remaining four hex flange nuts [4] on all threaded rods. Attach flange mounting bracket using a size 5 Allen wrench:
the waveguide transition to the 2 Put the flat side of the transition flange [5] on the flat side of the mounting clamp [1] as shown in the picture and screw in four socket head screws [6] from another side of the clamp. Two screws [7] have to be screwed into the antenna flange of ODU (not shown here). Screws' heads serve as guiding pins while the ODU is attached to the transition flange [5]. 3 View of the assembled mounting bracket on the thick pole mast:
in Bracket clamps support mast diameters of 55..120 mm. the following position 4 View of the assembled mounting bracket on the thin pole mast:
Bracket clamps in a reverse position support smaller mast diameters of 25...75mm.
*Integra-GS 15/18/17/23/24/26/32/38/42GHz are separate FODU models SAF Tehnika JSC 25 INTEGRA/-S/-G/-GS User Manual INSTALLATION Initial setup in the indoor environment Integra-S/Integra-GS FODUs can be interconnected using a test kit (available for purchase as an optional accessory). P/N is DxxTST01, where xx frequency band, e.g. D11TST01 for 11GHz. The exception is 17 and 24GHz radios. The test kit consists of an adapter flange, waveguide-to-coaxial adapter, attenuators, and coaxial cable. In the case of 17 and 24 GHz radios a test tube (P/N D0S17TST01 or D0S24TST01) should be used:
SAF Tehnika JSC 26 INTEGRA/-S/-G/-GS User Manual WEB GUI Chapter 3: WEB GUI Initial configuration Powering Integra/Integra-S/Integra-G/Integra-GS FODU and connecting to PC Use Power over Ethernet (PoE) injector P/N I0ATPI22/24 with an appropriate power supply
(2260VDC, at least 80W). Please see the interconnection scheme below. Use 5-10 A rated type B circuit breaker in the chain between the 48 V power supply and the PoE injector. The Ethernet cable from the PoE injector should be connected to the RJ-45 port on Integra/Integra-S/Integra-G/Integra-GS FODU (LAN1). The total length of Ethernet cables from CPE to PoE injector (DATA port) and from Integra/Integra-S/Integra-G/Integra-GS to PoE injector (DATA+PWR port) combined should not exceed 100m. It is recommended to use outdoor-rated STP/FTP Ethernet cable Cat5e or better. When powered, the RSSI LED will light up a solid green color for approx. 20sec. Afterward, RSSI LED will go out for approx. 35sec. and eventually, start blinking indicating the current Rx level. Please refer to the chapter RSSI LED for further details on blinking patterns and corresponding Rx levels. PoE injector (P/N I0ATPI22) The injector has a built-in DC/DC converter which can be enabled with a switch at the back by switching it to the 54V position. In this mode, 22..60VDC input voltage will be converted to the 54VDC output voltage. It is required to use this mode when the input voltage is below 48V DC or when a longer Ethernet cable is used to ensure sufficient input voltage to the Integra/Integra-S/Integra-G/Integra-GS FODU (3657VDC). In 48V mode, the output voltage of the PoE injector is the same as the input voltage. In case the input voltage is between 22..36V DC, the output current is limited to 1.2A, which will not be sufficient for low-frequency band radios (6-13GHz). Use 36..60V DC input voltage instead. SAF Tehnika JSC 27 Gigabit EthernetDCPower over Ethernet INTEGRA/-S/-G/-GS User Manual WEB GUI Universal programmable PoE injector (P/N I0ATPI24/I0ATPI44) The I0ATPI24 and I0ATPI44 injectors are designed to operate with any PoE-capable product with a Fast Ethernet / Gigabit Ethernet interface. Built-in protection conforms to the IEC 61000-4-5 standard. The accepted input voltage is 2065VDC. The output voltage is stabilized to 54VDC. Interconnection scheme:
The front panel has 3 indication LEDs. LED3 indicates the position of DIP switch S1. Color indication of all LEDs must be ignored in Forced mode (DIP switch S4 in DOWN position). Load detected and voltage fed at the output of PoE injector (POWER GOOD) PoE controller detected and voltage fed at the output of PoE injector (POWER ON) Auto PoE mode if S4 is UP; see table below. The back panel has 4 switches to operate the PoE injector in different modes. No load at the output of the PoE injector
(OPEN) Short at the output of PoE injector
(SHORT) Manual PoE mode if S4 is UP; see table below. The appropriate Imax selection, while manual PoE mode is enabled (S1 UP, S4 UP), will provide the most effective surge protection for the radio. In case Imax exceeds the set value, upper LEDs (LED1&LED2) will blink in green color. Connecting a device in Manual or Forced modes will introduce approx. 5-second delay of LED indication. In case of Auto PoE mode is enabled (S1 position DOWN, S4 position UP) Imax mode (PD class) is negotiated automatically with the device connected. The position of DIP switches should be changed only while the PoE injector is turned off. Nr. S1 S2 S3 S4 Description 1 2 3 4 5 Auto PoE mode (PoE controller enabled). Imax= auto. Manual PoE mode (PoE controller disabled). Imax=750mA. Manual PoE mode (PoE controller disabled). Imax=1000mA. Manual PoE mode (PoE controller disabled). Imax=1250mA. Manual PoE mode (PoE controller disabled). Imax=1700mA. SAF Tehnika JSC 28 INTEGRA/-S/-G/-GS User Manual WEB GUI 6 Forced mode. Imax=2000mA. DIP switches S1, S2, and S3 are ignored. LED3 color will be blue or green depending on the position of S1. DIP switch position DOWN, DIP switch position UP, any position Recommended modes Mode Nr. 1 or 5* (Auto or Manual PoE mode. Imax= auto or Imax=1700mA);
* depending on HW revision Electrical specification Data rate Auto PoE mode Manual PoE mode Input Voltage Output Voltage Max Current Power Connector Ethernet Connectors Data Lines Power Lines Power Clamping Voltage Max data cable length Up to 1000 Mb/s Green indicator LED*
Blue indicator LED*
22 65 V 54 V 1.2 A (2236V DC), 1.6 A (3660V DC) 2ESDV-02P with screw locks Shielded RJ45 jacks Pins (1, 2), (3, 6), (4, 5) and (7, 8)
+ (1, 2) and (4, 5); - (3, 6) and (7, 8)
+/- 70 V 100 m
* Color indication can be disregarded in Forced mode (DIP S4 position DOWN), will indicate only Power ON. Mechanical specification Ports Dimensions (W/H/D):
Weight Enclosure Operating Temperature Mounting
** 2ESDV-02P plug with screw locks included. System requirements
-RJ45 - Data
-RJ45 - Data + Power
-DC - 2ESDV-02P socket with screw locks**
-Grounding screw 82 mm/41 mm/154 mm 0.4 kg Steel
-10C to + 50C
-With bracket (included)
-19 rack mounting shelf (p/n I0KTPI11.003)
-DIN-rail clip (p/n I0STPI11.01) To access the Integra/Integra-S/Integra-G/Integra-GS Web GUI you will need a PC with the following Web browser:
Google Chrome;
Mozilla Firefox;
Internet Explorer 8 (or above) SAF Tehnika JSC 29 INTEGRA/-S/-G/-GS User Manual WEB GUI 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. The IP address should be something other than the default low/high side IP addresses (192.168.205.10/192.168.205.11). After applying these settings, you are ready to connect to the Web GUI or establish a SSH/Telnet connection. Refer to Chapter 4: COMMAND LINE INTERFACE for the details on how to connect to other CLI interfaces (serial, SSH, Telnet). 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 D*******L*) 192.168.205.11 for high side FODU (P/N D*******H*) For secure connection use https:// prefix. 2. Press Enter key. 3. The login screen will appear. 4. Enter username and password. Default credentials are as follows:
Username: admin Password: changeme SAF Tehnika JSC 30 INTEGRA/-S/-G/-GS User Manual WEB GUI 5. Select Remember password if you want the browser to remember entered login credentials. 6. Press Log in button. Switch to secure connection (HTTPS) indicates that HTTP protocol is being used. Press on the link and you will be redirected to a secure HTTPS URL. Minimum supported horizontal resolution is 1024px. SAF Tehnika JSC 31 INTEGRA/-S/-G/-GS User Manual WEB GUI Main page After login you will be automatically redirected to the Main page of the Web GUI:
Web GUI is divided into 5 sections:
1 Top panel Shows information about the Integra/Integra-S/Integra-G/Integra-GS FODU you are connected to including:
Model name System name IP address Serial number Uptime Firmware version User name 2 Menu panel Allows navigating between the Main page (Main) and subpages of 4 sections:
Over the air (Radio/modem (NP) configuration) Networking (Ethernet configuration) Performance System 3 Main Web GUI window By default, the Main page (Main) is shown. Contents will change according to the menu panel selection. SAF Tehnika JSC 32 INTEGRA/-S/-G/-GS User Manual WEB GUI 4 MODIFY / SAVE / LOGOUT Allows modifying parameters in the main window. If none can be 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). The LOGOUT button will log out from the current session. 5 System summary Shows one to four (default value three) selected parameters of the local and remote systems, as well as Tx polarization (as read from the internal accelerometer). Values appear in red color in case of exceeding alarm threshold values Performance Alarm Alarm threshold configuration or in case of a warning (e.g. if loopback is active). Values appear in orange color in case alarm threshold values were exceeded during the last 15 seconds. The two square indicators show the number of active alarms on local and remote radios. The indicator is colored green if no alarms (0) are present, otherwise, it is colored red. SAF Tehnika JSC 33 INTEGRA/-S/-G/-GS User Manual WEB GUI Modifying basic system parameters To proceed with the initial configuration, press the MODIFY button and the entry fields will appear for adjustable values:
1 Tx power The available range depends on the radio model and selected modulation. The actual range will be indicated in the brackets. If a Variable Tx power bandwidth profile was selected, the available range is the maximum Tx power at 4QAM modulation when ACM downshift occurs. 2 Tx frequency The available range depends on the frequency band, subband, radio side, and channel bandwidth selected. The actual range will be indicated in the brackets. Tx frequency range indicates the range of central frequencies for the configured channel bandwidth. SAF Tehnika JSC 34 INTEGRA/-S/-G/-GS User Manual WEB GUI The default frequency range (indicated on the label) is defined for 3.5MHz channel bandwidth. 3 Profile filter options Allows filtering the bandwidth selection list by FCC or ETSI standard and with or without AES encryption enabled, as well as selecting All to disable filtering. If allowed by the license, AES-encrypted bandwidth options will be available. Please refer to the Over the AirSecurityAES encryption chapter for further details and activation steps of AES encryption. 4 Bandwidth profile Allows choosing between available channel bandwidth options along with the indication of fixed modulation or maximum modulation for ACM, bandwidth standard ETSI or FCC, AES encryption functionality, and Tx power mode fixed or variable in case ACM profile is chosen. Please refer to the Over the AirSecurityAES encryption chapter for further details and activation steps of AES encryption. 5 Modem profile Allows choosing between available modulations for the selected channel bandwidth. The FEC suffix indicates a better sensitivity mode (longer FEC overhead), while Weak FEC indicates a higher capacity mode (shorter FEC overhead). Weak FEC is available only for the highest modulation for the selected channel bandwidth. ACM stands for Adaptive Coding and Modulation and enables the adaptive modulation change according to MSE value. Modulation indicates maximum modulation, while the minimum is 4QAM. 6 State Allows enabling/disabling each of three available LAN ports. In case 2+0 aggregation is enabled, the LAN2 state is Restricted as it can be used only for interconnection between two Integra/Integra-S/Integra-G/Integra-GS FODUs. Please refer to the Over The Air Modem Aggregation configuration chapter for further details. 7 Execute By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. Rollback triggers when configuration changes applied interrupt management connectivity. For this reason, rollback will not work if the remote side of the link is not reachable. Pressing Execute for both applies changes made to the corresponding section both for local and remote side Integra/Integra-S/Integra-G/Integra-GS FODUs. SAF Tehnika JSC 35 INTEGRA/-S/-G/-GS User Manual WEB GUI Parameters on Main page 1) License remaining time shows the amount of time remaining for an active time-
limited license; in case of an unlimited time license, Unlimited is being shown. When the license expires, the modulation will drop to 4QAM FEC Limited, the link capacity will drop to 256Kbps and you will see a warning. 2) Radio side shows the radio side of the local and remote Integra-G. 3) Tx mute Tx shows if the transmitter is currently muted (Enabled) or active
(Disabled). 4) Tx power shows current transmitter power in dBm. will appear if the value is dynamically changed according to the current ACM modulation. Move the mouse over for an explanation. 5) ATPC shows if ATPC is enabled or disabled. 6) Duplex shift shows the margin between the transmitting and receiving frequencies. 7) Tx frequency shows the transmitting frequency. 8) Rx frequency shows the receiving frequency. 9) Rx level shows the current level of the received signal. It must not differ significantly from the previously calculated value. 10) Bandwidth shows the width of currently utilized bandwidth in MHz. 11) Modem profile Indicates currently configured modulation. The FEC suffix indicates a better sensitivity mode (longer FEC overhead), while WeakFEC indicates a higher capacity mode (shorter FEC overhead). WeakFEC is available only for the highest modulation in the selected channel bandwidth. An option with ACM (please refer to the chapter Integra-G block diagram The general internal block diagram of Integra-G is shown below. It has a built-in Gigabit Ethernet Network Processor that has three LAN ports: LAN1 - 1Gbps PoE-in SAF Tehnika JSC 36 INTEGRA/-S/-G/-GS User Manual WEB GUI port that you need to use for powering Integra-G, please refer to Powering Integra/Integra-S/Integra-G/Integra-GS FODU and connecting for more information, Error! Reference source not found. LAN2, and LAN3 SFP ports, please refer to SFP ports to see the SFP compatibility. To get more information about other interfaces, please refer to Chapter 8: INTERFACES section. to PC ACM (Adaptive Coding and Modulation) for further details) enables adaptive modulation change according to Signal Quality value. Modulation indicates maximum modulation, while the minimum is 4QAM. 12) ACM engine shows the status of the ACM engine. 13) Acquire status indicates the acquired status of the modem. During normal operation, Locked will be shown. 14) MSE shows Mean squared error value lower value means better signal quality. 15) FEC load shows the load of Forward Error Correction. 16) Current Rx modulation current received signal modulation. 17) Current Tx modulation current transmitted signal modulation. 18) Current Rx Ethernet capacity ingress capacity of the WAN port, depends on current Rx modulation and bandwidth. 19) Current Tx Ethernet capacity egress capacity of the WAN port, depends on current Tx modulation and bandwidth. 20) Port Name and interface type of the Ethernet port, RJ-45 or SFP/SFP+. 21) State Ethernet port state Enabled or Disabled. An exclamation mark designates the restricted state of the port. Move the mouse pointer over the icon to see the explanation. 22) Status Ethernet port status, up or down (if the port is enabled). SAF Tehnika JSC 37 INTEGRA/-S/-G/-GS User Manual WEB GUI Over The Air Over The Air Radio Configuration The Radio configuration page is available in the menu
(Over The Air RadioConfiguration). Refer to the chapter Radio configuration extra fields for a description of the extra fields of the 17/24 GHz Integra/Integra-S/Integra-G/Integra-GS FODUs. Status mode Press button. Modify mode SAF Tehnika JSC 38 INTEGRA/-S/-G/-GS User Manual WEB GUI 1) Tx power Indicates current Tx (transmit) power value (status mode); allows specifying Tx power value (modify mode). The available range depends on the radio model and selected modulation. The actual range will be indicated in the brackets. sign indicates that the Tx power value was adjusted by ATPC. Move the mouse over the sign for further details. 2) Tx frequency Indicates current Tx (transmit) frequency (status mode); allows specifying Tx frequency (modify mode). The available range depends on the frequency band, subband, radio side, and channel bandwidth selected. The actual range will be indicated in the brackets. Tx frequency range indicates the range of central frequencies for the configured channel bandwidth. The default frequency range (indicated on the label) is defined for 3.5MHz channel bandwidth. 3) Tx mute [ >=10 sec ] Indicates whether Tx mute is enabled or disabled (status mode); allows muting the transmitter to a limited time interval in seconds (modify mode). The minimum value is 10 seconds. Note that the transmitter will be muted only if a valid value in seconds is entered. 4) RSSI Audio Indicates whether RSSI audio is enabled or disabled (status mode);
allows disabling or enabling RSSI audio (modify mode). RSSI audio is available using the 3.5mm jack beside the USB port. By default, RSSI Audio is disabled. Please refer to the RSSI/audio port description for further details. 5) RSSI LED Indicates whether the RSSI LED is enabled or disabled (status mode);
allows disabling or enabling RSSI LED operation (modify mode). By default, the RSSI LED is enabled. Please refer to the RSSI LED section for further details. SAF Tehnika JSC 39 INTEGRA/-S/-G/-GS User Manual WEB GUI 6) RSSI LED mode Indicates which RSSI LED mode is active (status mode); allows selecting RSSI LED operation mode (modify mode). By default Mode 1 is enabled. Please refer to the RSSI LED section for further details. 7) ATPC Indicates whether ATPC (Automatic Transmit Power Control) is enabled
(status mode); allows enabling/disabling ATPC (modify mode). By default this feature is disabled. Please refer to the ATPC (Automatic Transmit Power Control) description for further details. 8) ATPC update period Indicates the ATPC update period (status mode); allows defining the period in seconds with which ATPC parameters are being updated
(modify mode). By default, the update period is 5 seconds. The range is 1..5 seconds. Please refer to the ATPC (Automatic Transmit Power Control) description for further details. 9) Tx power correction Indicates Tx power correction made by the ATPC function. Please refer to the ATPC (Automatic Transmit Power Control) description for further details. 10) Rx (remote) level range (-75..-40dBm) Indicates minimum and maximum Rx level of the remote side Integra/Integra-S/Integra-G/Integra-GS for ATPC operation (status mode); allows defining the minimum and maximum Rx level of the remote side Integra/Integra-S/Integra-G/Integra-GS (modify mode). There should be at least a 3dB difference between min and max values. ATPC Tx power correction will be performed only in case of exceeding these thresholds. Values should be defined between -75 and -40 dBm. Please refer to the ATPC (Automatic Transmit Power Control) description for further details. The Minimum Rx level threshold should be set at least 10dB above the sensitivity threshold to avoid ACM/ATPC switching loops. 11) Profile filter options Allows filtering the bandwidth selection list by standard (ETSI or FCC) or by AES encryption (with or without). All disables filtering. 12) Bandwidth profile Indicates currently configured channel bandwidth (status mode);
allows choosing between available profiles, as well as according to the standard of channel bandwidth ETSI or FCC, with or without AES encryption (modify mode). 13) Modem profile Indicates currently configured modulation (status mode); allows choosing between available modulations for selected channel bandwidth (modify mode). The FEC suffix indicates a better sensitivity mode (longer FEC overhead), while WeakFEC indicates a higher capacity mode (shorter FEC overhead). WeakFEC is available only for the highest modulation in the selected channel bandwidth. An option with ACM (please refer to the chapter Integra-G block diagram The general internal block diagram of Integra-G is shown below. It has a built-in Gigabit Ethernet Network Processor that has three LAN ports: LAN1 - 1Gbps PoE-in port that you need to use for powering Integra-G, please refer to Powering Integra/Integra-S/Integra-G/Integra-GS FODU and connecting for more information, Error! Reference source not found. LAN2, and LAN3 SFP ports, please refer to SFP ports to see the SFP compatibility. To get more information about other interfaces, please refer to Chapter 8: INTERFACES section. to PC SAF Tehnika JSC 40 INTEGRA/-S/-G/-GS User Manual WEB GUI ACM (Adaptive Coding and Modulation) for further details) enables adaptive modulation change according to MSE value. Modulation indicates maximum modulation, while the minimum is 4QAM. In case the current Tx power value is above the maximum value for any of the modulations, the maximum value will be indicated. 14) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. Pressing Execute for both applies changes made to the corresponding section both for local and remote side Integra/Integra-S/Integra-G/Integra-GS FODUs. CLI commands (Chapter 4: COMMAND LINE INTERFACE) radio [status]
Use to show radio status. radio power <Tx power>
Use to set Tx power in dBm. radio frequency <frequency>
Use to set Tx frequency in kHz. radio rssi-led {disable | enable
[mode {1|2|3}]}
radio rssi-led enable mode
{1|2|3} polarization <seconds>
radio tx-mute {<time>|disable}
radio factory radio upgrade <firmware>
Use to enable or disable RSSI LED operation. Use to enable the red RSSI LED's operation for n seconds. Its main purpose is an indication of polarization alignment accuracy +/- 3deg. Functionality may not be available in older HW revisions. Use to mute the transmitter to a 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 the radio firmware version. The firmware file must be located in the FTP directory. radio version Use to check the radio software version radio atpc [status]
radio atpc state
{enable|disable}
radio atpc delay <1..5>
radio atpc rx_level <-75..-43> <-
72..-40>
modem configuration set
<bandwidth> <min_mod>
<max_mod>
Use to check the status of ATPC (Automatic Transmit Power Control). Use to enable/disable ATPC. Use to define the ATPC update period. Use to define ATPC remote Rx thresholds. Use to set modem configuration bandwidth, minimum and maximum modulation. level min and max e suffix indicates AES. SAF Tehnika JSC 41 INTEGRA/-S/-G/-GS User Manual WEB GUI s suffix indicates ETSI or ETSI class 4L (for 56 MHz). _VP suffix indicates "Variable Tx power. _W suffix indicates Weak FEC modulation. modem configuration set factory Use to reset modem settings to factory defaults bandwidth and modulation will be reset to a minimum. modem loopback [{none | digital
<time>}]
Use to check, disable, or enable modem loopback for n seconds. modem allowed Use to check the list of available modem configurations. Over The Air Modem Aggregation/protection configuration Integra/Integra-S/Integra-G/Integra-GS 2+0 aggregation (link bonding) provides ACM-aware binding of user-available capacities of two parallel links each using an individual frequency pair. Traffic is split per-frame over two links on the modem level. 2+0 aggregation is not based on MAC-MAC connections. A single MAC address (e.g. router) can be used. Integra/Integra-S/Integra-G/Integra-GS link 2+0 synchronization/power/cable redundancy by reconfiguring to 1+0 operation mode in case of failure. aggregation features full Full 2+0 to 1+0 redundancy will operate only when an external switch is used. Please see below interconnection schemes c and d. Integra/Integra-S/Integra-G/Integra-GS 1+1 protection provides Hot Standby redundancy of user-available capacities of two parallel links each using the same frequency pair. Traffic is using only one link at a time. Transmitters of the second link will be automatically muted. Full 1+1 redundancy (including cables, power, HW protection) will be available only when an external switch is used. Please see below interconnection schemes c and d. Header compression cannot be used with 2+0 aggregation configured. Two pairs of Integra/Integra-G or Integra-S/Integra-GS FODUs are required. In the case of 2+0 aggregation with Integra-S/Integra-GS OMT, a dual-polarized antenna, or a coupler can be used. In the case of 1+1 HSB with Integra-S/Integra-GS, only a coupler can be used (as only a single frequency pair in the same polarization is being utilized). Necessary equipment for Integra/Integra-S/Integra-G/Integra-GS 2+0 or 1+1 1. 4 Integra/Integra-S/Integra-G/Integra-GS FODUs 2 low side, 2 high side;
2. 2 or 4 SFP modules and appropriate FO cables (multi-mode or single-mode) for on interconnection
(depending Integra/Integra-S/Integra-G/Integra-GS interconnection scheme a, b, c or d; see below);
3. Electrical or optical Ethernet cables (together with corresponding SFP modules) for 4. user traffic (depending on chosen interconnection scheme);
In the case of Integra-S/Integra-GS additionally, 4 antennas, or 2 antennas and OMT/couplers. Please refer to the chapter Integra-S/Integra-GS 6-13GHz* 2+0 &
OMT interconnection for instructions on Integra/Integra-S/Integra-G/Integra-GS installation to an antenna or an OMT. General configuration guide 1. Do not interconnect Integra/Integra-S/Integra-G/Integra-GS with each other and do not plug Integra/Integra-S/Integra-G/Integra-GS into switches before you have finished the configuration of each node. 2. Choose one link (low/high side radio) which will operate as the Master. The second link will operate as the Slave;
3. Configure radio/modem parameters for each link. Channel bandwidths must be the SAF Tehnika JSC 42 INTEGRA/-S/-G/-GS User Manual WEB GUI same (e.g. 40MHz) for both links. All other parameters can differ but keep in mind that in the 2+0 configuration frequencies must differ, but in the 1+1 configuration frequencies must be the same;
4. Both links should be polarized according to ACCP (Adjacent Channel Co-Polarized) or ACAP (Adjacent Channel Alternate-Polarized) principles. CCDP (Co-Channel Dual-Polarization) operation of both on the same frequency channel and opposite polarizations is not allowed. In the case of ACCP a guard band equal to BW should be introduced (e.g. 20MHz in the case of 80MHz channels). 5. Configure different IP addresses for all 4 Integra/Integra-S/Integra-G/Integra-GS FODUs. 6. The remote IP address for all units must be entered manually. To do that, remove the selection in the Auto checkbox and afterward enter the appropriate remote IP address in the menu IP configuration (please refer to Chapter System Configuration IP configuration). On both sides Master and Slave managements must be interconnected via an external switch or directly on LAN1 or LAN3 ports (in addition to LAN2 interconnection) for aggregation/protection to work. This connection is used to interchange 2+0/1+1 aggregation/protection statuses for proper operation. Interconnection schemes There are 4 possible interconnection schemes:
a 1. Mandatory fiber optic cable between LAN2
(optical) ports on both units. 2. Electrical Ethernet cable (1000Base-T) between PoE injectors (#1) DATA+PWR port and LAN1
(electrical) port of the Slave FODU. Both data and power are carried, therefore the total length of cables #2, #3, and #4 combined should not exceed 100m. 3. Electrical Ethernet cable (1000Base-T) between PoE injectors (#2) DATA+PWR port and LAN1
(electrical) port of Master FODU. Both data and power are carried, therefore the total length of cables #2, #3, and #4 combined should not exceed 100m. 4. Electrical Ethernet cable (1000Base-T) between PoE injectors (#1 and #2) DATA ports. Provides management access to Slave FODU. The total length of cables #2, #3, and #4 combined should not exceed 100m. 5. Fiber optic cable between LAN3 (optical) port of the Master or Slave FODU and CPE for both traffic and management traffic. Advantages: 1) external switch not required; 2) length of optical cable for traffic/management up to 10km. SAF Tehnika JSC 43 INTEGRA/-S/-G/-GS User Manual WEB GUI b 1. Mandatory fiber optic cable between LAN2
(optical) ports on both units. 2. Cable for powering Slave FODU. You can use a 2-
wire power cable with DC power adapter (P/N D0ACPW01) or a standard Ethernet cable with the PoE injector. Depending on power consumption cable length can be extended up to 700m. Refer to chapter RJ-45 port for details. 3. Electrical Ethernet cable (1000Base-T) between PoE injectors (#2) DATA+PWR port and LAN1
(electrical) port of the Master FODU. Both data and power are carried, therefore the total length of cables #3 and #5 combined should not exceed 100m. 4. Fiber optic cable between LAN3 (optical) ports on both units. Provides management access to the Slave FODU. 5. Electrical Ethernet cable (1000Base-T) between PoE injectors (#1 or #2) DATA port and CPE or both traffic and management traffic. The total length of cables #3 and #5 combined should not exceed 100m. Advantages: 1) external switch not required; 2) optical cable used only for interconnection between both FODUs; 3) only two cables are installed between FODUs and an indoor facility. c 1. Mandatory fiber optic cable between LAN2 (optical) ports on both units. 2. Cable for powering the Slave FODU. You can use a 2-wire power cable with a DC power adapter (P/N D0ACPW01) or a standard Ethernet cable with the PoE injector. Depending on power consumption cable length can be extended up to 700m. Refer to chapter RJ-45 port for details. 3. Cable for powering the Master FODU. You can use a 2-wire power cable with a DC power adapter (P/N D0ACPW01) or a standard Ethernet cable with the PoE injector. Depending on power consumption cable length can be extended up to 700m. Refer to chapter RJ-45 port for details. 4. Fiber optic cable between LAN3 (optical) port of the Slave FODU and external switch. Provides management access to the Slave FODU. If the Master link is down, traffic will be redirected through this cable. 5. Electrical Ethernet cable (1000Base-T) between the external switch and CPE for both traffic and management traffic. 6. Fiber optic cable between LAN3 (optical) port of the Master FODU and an external switch for both traffic and management traffic. Advantages: 1) solution provides the greatest cable length for powering Integra/Integra-S/Integra-
G/Integra-GS and the length of optical cable for traffic/management can be up to 10km. For details on the length of the power cable refer to chapter RJ-45 port; 2) Slave link will be able to reconfigure to 1+0 in case the Master unit goes down (2+0 redundancy). SAF Tehnika JSC 44 INTEGRA/-S/-G/-GS User Manual WEB GUI d 1. Mandatory fiber optic cable between LAN2
(optical) ports on both units. 2. Electrical Ethernet cable (1000Base-T) between PoE injectors (#1) DATA+PWR port and LAN1
(electrical) port of the Slave FODU. Both data and power are carried, therefore the total length of cables #2 and #6 combined should not exceed 100m. If the Master link is down, traffic will be redirected to this cable. 3. Electrical Ethernet cable (1000Base-T) between PoE injectors (#2) DATA+PWR port and LAN1
(electrical) port of the Master FODU. Both data and power are carried, therefore the total length of cables #3 and #4 combined should not exceed 100m. 4. Electrical Ethernet cable (1000Base-T) between injectors (#2) DATA port and external PoE switch. The total length of cables #3 and #4 combined should not exceed 100m. 5. Electrical Ethernet cable (1000Base-T) between the external switch and CPE for both traffic and management traffic. 6. Electrical Ethernet cable (1000Base-T) between PoE injectors (#1) DATA port and external switch. The total length of cables #2 and #6 combined should not exceed 100m. Advantages: 1) only a single fiber optic cable is required; 2) only two cables are installed between FODUs and indoor facility; 3) Slave link will be able to reconfigure to 1+0 in case the Master unit goes down (2+0 redundancy). Configuration in Web GUI Status mode Press button. SAF Tehnika JSC 45 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode Slave status after enabling aggregation SAF Tehnika JSC 46 INTEGRA/-S/-G/-GS User Manual WEB GUI Master status after enabling aggregation Press button. SAF Tehnika JSC 47 INTEGRA/-S/-G/-GS User Manual WEB GUI Master modify mode after enabling aggregation When all four Integra/Integra-S/Integra-G/Integra-GS FODUs are successfully configured and interconnected, the status of the Master unit should look as shown above. Explanation of status/configuration fields Aggregation configuration 1) Aggregation - Indicates whether aggregation is enabled or disabled. 2) Configured role Indicates the configured role (status mode); allows specifying aggregation role (modify mode). 3) Current role Indicates the current role. It may differ from the configured role in case Master protection is enabled, the alternate device is or was not available and reconfiguration to 1+0 configuration took place. 4) Mode 2+0 PLA for 2+0 Physical Layer Aggregation. 1+1 HSB for 1+1 Hot StandBy protection. Master protection 5) State Indicates whether Master protection is enabled or disabled (status mode);
allows enabling or disabling Master protection (modify mode). (For 1+1 configuration always in Enable state) 6) FSM state Indicates current Finite State Machines state. Will be visible only when Master protection is enabled. SAF Tehnika JSC 48 INTEGRA/-S/-G/-GS User Manual WEB GUI 8 states are possible Master, Slave, Active (transition to Passive, Slave, or Active Try), Passive (transition to Slave), Active Try (1+1 transition to Active Tx), Active Tx
(1+1 transmitting), Standby (ready for 1+1 protection), and TpDown (Slave state when Traffic port is down). In the case of TpDown aggregation port (LAN2) is shut down as well. Instance ID (065535) Indicates configured instance ID (status mode); allows entering instance ID (modify mode). Will be available only when Master protection is enabled. 7) Instance ID should be the same on all 4 devices in a single link. Instance ID should differ for other 2+0 links in the network. 8) Ethernet traffic port the Indicates which LAN port traffic/management port (status mode); allows setting LAN1 or LAN3 port as the traffic/management port (modify mode). is configured as Alarms 9) Indicates which alarms are active. If none, None is shown. Aggregation port link is down the link status of the aggregation port (LAN2) of the local device is down. AIS condition synchronization loss of Master or Slave device or link status of aggregation port (LAN2) of the remote device is down. Master protection data The status of all four units is shown. Local the unit you are currently connected to;
alternative unit interconnected with the local unit; remote unit on the remote side of the link synchronized to the local unit; remote alternate unit interconnected with the remote unit. The section is visible when aggregation is enabled. If no data is available N/D will be displayed in red color. 10) Reset timeout Allows resetting protection data refresh time counters. The button is available only in modify mode. 11) Configured role Indicates configured role;
12) Current role Indicates current role. May differ from the configured role in case Master protection is enabled, the alternate device is or was not available and reconfiguration to 1+0 configuration took place;
13) Timeout max Maximum refresh time of protection data in milliseconds;
14) Timeout last Most recent refresh time of protection data in milliseconds;
15) Index Aggregation data identifier. Value sequentially increments to 65535 and resets to 0;
16) Instance ID Indicates configured instance ID;
17) FSM state Indicates current Finite State Machines state. Will be visible only when Master protection is enabled. 18) LAN1 Indicates link status of LAN1 port up or down;
19) LAN2 Indicates link status of LAN2 port up or down;
20) LAN3 Indicates link status of LAN3 port up or down;
21) WAN Indicates link status of WAN port up or down;
22) MNG Indicates link status of MNG port up or down;
SAF Tehnika JSC 49 INTEGRA/-S/-G/-GS User Manual WEB GUI Traffic path 23) Clear counters - Allows resetting master and slave path counters. The button is available only in modify mode. 24) Transmitting For 2+0 configuration: Indicates whether Master, Slave, or both are transmitting traffic. For 1+1 configuration: Indicates whether the current role Master
(Local master) or Slave (Alternate Slave) is transmitting. 25) Receiving For 2+0 configuration: Indicates whether Master, Slave, or both are receiving traffic. For 1+1 configuration: Indicates whether the current role Master
(Local master) or Slave (Alternate Slave) is receiving. Master path counters 26) Splitter packets Indicates the number of packets transmitted by Master FODU. 27) Combiner packets Indicates the number of packets received by Master FODU. 28) FCS errors on air Indicates the number of FCS errors received by Master FODU. Slave path counters 29) Splitter packets Indicates the number of packets transmitted by Slave FODU. 30) Combiner packets Indicates the number of packets received by Slave FODU. 31) FCS errors on air Indicates the number of FCS errors received by Slave FODU. Slave path counters 32) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. Configuration example Configuration for both Slave FODUs For 2+0:
For 1+1:
192.168.205.100 192.168.205.200 SAF Tehnika JSC 50 INTEGRA/-S/-G/-GS User Manual WEB GUI 192.168.205.10 192.168.205.20 Configuration for both Master FODUs For 2+0:
For 1+1:
CLI commands (Chapter 4: COMMAND LINE INTERFACE) aggr status aggr status clear Use to show aggregation status, statistics, and alarms. Use to clear the aggregation statistics. Aggr role {none|master|slave}
Use to specify 2+0 aggregation role Master or Slave. none disables aggregation. Aggr role {none|master 1+1|
slave 1+1}
Use to specify 1+1 Hot StandBy role Master or Slave. none disables aggregation. Aggr force {none|master|slave}
Use to force traffic to transmit solely via Master or Slave FODU. Aggr mprot enable <id>
{LAN1|LAN3}
Use to enable master protection by specifying instance ID and traffic port LAN1 or LAN3. Aggr mprot disable aggr mprot data Use to disable master protection. Use to show master protection refresh data. aggr mprot data reset Use to reset master protection refresh data counters. aggr mprot smpdata Use to show the status of all 2+0 devices. aggr mprot state <state>
Use to change FSM state. For testing purposes only!
Over The Air Modem Header compression In many applications such as Voice over IP (VoIP), interactive gaming, or messaging, the size of the header is significant compared to the size of the payload. Over the end-to-end SAF Tehnika JSC 51 INTEGRA/-S/-G/-GS User Manual WEB GUI connection comprised of multiple hops, these headers are significant, but they can be omitted over a single link. It is beneficial to compress those headers to provide high-capacity packet saving, achieve better bandwidth utilization, and efficiently use expensive resources. Reduction in packet loss and improved interactive response time are additional important benefits gained by header compression. In summary, header compression is the process of compressing excess protocol headers before transmitting them on a link and uncompressing them to their original state on reception at the other end of the link. For more details see Header Compression section in Chapter 6: FUNCTIONAL DESCRIPTION. Header compression cannot be used with 2+0 aggregation configured. Status mode Press button. Modify mode Status mode after enabling header compression Press button. SAF Tehnika JSC 52 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode after enabling header compression Explanation of status/configuration fields:
1) Header compression Indicates whether header compression is enabled or disabled. 2) Header compression profile Indicates which header compression profile is selected
(status mode); allows choosing compression profile and thus enabling header compression or disabling it using the None profile (modify mode). 3) Number of compressed flows for engine 1 Indicates the number of compressed entries for engine #1. The maximum is 2048. 4) Number of compressed flows for engine 2 Indicates the number of compressed entries for engine #2. The maximum is 2048. 5) Average compression gain - Net Indicates compression percentage between ingress and egress data. 6) Average compression gain - Gross Indicates compression percentage between ingress and egress data including GFP (Generic Framing Procedure) overhead. 7) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. Pressing Execute for both applies changes made to the corresponding section both for local and remote side Integra/Integra-S/Integra-G/Integra-GS FODUs. CLI commands (Chapter 4: COMMAND LINE INTERFACE) modem hc preset {none|default} Use to enable (preset default) or disable (preset none) header compression. modem hc statistics Use to show head compression statistics. Over The Air Security AES encryption Enabling AES encryption provides payload data encryption over the air using Advanced Encryption Standard (AES). For more details see AES - Advanced Encryption Standard section in Chapter 6:
FUNCTIONAL DESCRIPTION. SAF Tehnika JSC 53 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode Indicates current AES status enabled or disabled. 1) 2) AES 256 bit key (64 hexadecimal characters) Indicates AES key used. The key should be exactly 64 hexadecimal characters long. A dialog window will not allow more than 64 characters. 3) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. Activation of AES for Integra/Integra-S/Integra-G/Integra-GS FODU 1) Make sure the firmware version is V2.5.13 or later. 0) If required perform the firmware upgrade. Skip this step if the firmware version is V2.5.13 or later. a) Go to SystemFWFirmware upgrade on the remote side of the link. SAF Tehnika JSC 54 INTEGRA/-S/-G/-GS User Manual WEB GUI b) Press button. c) Locate *.bin firmware file on your hard disk drive. d) Upload selected *.bin firmware file. e) Select the uploaded *.bin firmware file from the list and press Upgrade firmware. The remote side should be upgraded first. f) Repeat steps a)-e) for the local side of the link. 2) Upload and activate license key enabling AES functionality Skip this step if the AES license is already uploaded. a) Go to SystemToolsLicense management on the remote side of the link. Press button. SAF Tehnika JSC 55 INTEGRA/-S/-G/-GS User Manual WEB GUI b) Locate *.lic license file on your hard disk drive. c) Upload selected *.lic license file. d) Select the uploaded *.lic license file from the list and press Activate. e) Repeat a)-e) for the local side of the link. 3) Set bandwidth with AES a) Go to Main page. b) Press c) Select the required bandwidth with AES and required modulation. button. d) Press Execute for both button. 4) Apply AES 256-bit key a) Go to Over The AirSecurityAES encryption on the remote side of the link. SAF Tehnika JSC 56 INTEGRA/-S/-G/-GS User Manual WEB GUI b) Press button. c) Enter a 64-symbol key consisting of hexadecimal values (0-9, A-F) or press Generate random key button. d) Select and copy the generated key. e) Press Execute configuration button. f) Repeat steps a)-e) for the local side of the link using the same copied AES key. CLI commands (Chapter 4: COMMAND LINE INTERFACE) modem aes key <64hexkey>
Use to set AES 256-bit key. modem aes Use to show AES state and key. Networking Networking Ethernet VLAN The VLAN configuration window provides the configuration of port-based Ethernet Virtual Local Area Networks (VLANs), allowing up to 4094 different VLAN IDs. It is possible to set VLAN IDs as tagged or untagged members on each LAN port. To add a VLAN tag to untagged packets in the ingress direction, Default VLAN (2) should be specified. By default, the Default VLAN value on all ports is VLAN ID 1. An example below shows a sample configuration with VLAN IDs 100-300 configured as tagged members on LAN2 and WAN ports (user traffic) and VLAN ID 500 as a tagged member on LAN2 and WAN ports and untagged member on MNG port (management traffic). SAF Tehnika JSC 57 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) VLAN mode Indicates VLAN operational mode. The default is Disable 802.1Q disabled. Change to Enable to enable 802.1Q VLAN support. Change to QinQ to enable 802.1ad QinQ VLAN support. As soon as you enable VLAN operational mode connectivity with untagged traffic will be lost. 2) Default VLAN Indicates Default VLAN IDs and VLAN priorities on LAN and WAN ports (status mode); allows specifying the default VLAN ID and priorities on each of LAN and WAN ports (modify mode). Specified VLAN ID and priority will be added to untagged ingress packets. VLAN priority will be removed from tagged egress packets on particular ports as well, but the VLAN ID will be removed according to the tagged/untagged configuration (see below) of that particular port. 3) Name Indicates configured (if assigned) VLAN ID or VLAN ID range names (status mode); allows entering a name for each entry, i.e. individual VLAN ID or VLAN ID range (modify mode). 4) VLAN ID (or range) (1 .. 4094) Indicates configured VLAN IDs and VLAN ID ranges
(status mode); allows entering individual VLAN IDs or VLAN ID ranges, e.g. 100-300, 500 (modify mode). 5) VLAN rates Indicates configured VLAN rate (status mode); allows selecting a defined VLAN rate (modify mode). Please refer to the chapter Networking Ethernet VLAN rates.
- T/U/D Indicates whether VLAN ID entries are configured in U - untagged (access) mode, T - tagged (trunk) mode, or D - disabled (status mode); allows changing VLAN SAF Tehnika JSC 58 INTEGRA/-S/-G/-GS User Manual WEB GUI mode on LAN and WAN ports (modify mode). On the LAN ports changing from T to U will change the previous untagged VLAN ID on the same port to T (trunk) mode and will highlight this change in yellow color. Note that only a single U (untagged) VLAN ID can be configured on each available port. 6) MNG indicates management VLAN ID (status mode); allows specifying which individual VLAN ID will be used for management access (modify mode). 7) Add Press Add to add entered individual VLAN ID or VLAN ID range or press red cross () to delete VLAN entry;
8) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network vlan set mng
<14094>
network vlan set mode
{disable|enable|qinq}
network vlan set mode qinq tpid <0x0001...0xFFFF>
network vlan set vid <14094>
add {tagged|untagged}
{LAN1|LAN2|LAN3}
network vlan set vid <14094>
delete {LAN1|LAN2|LAN3|WAN}
network vlan set vid <14094>
name <name>
network vlan set vid <14094>
rate <name>
network vlan set vid <14094>
remove network vlan set default priority
<07>
network vlan set default vid
<14094>
network vlan show summary network vlan show default network vlan show mng network vlan show mode network vlan show vids Use to set Management (MNG) VLAN ID. Use to set VLAN operation mode. disable packets ingress/egress unmodified;
enable packets are handled according to VLAN configuration; qinq - packets are handled according to VLAN configuration for QinQ. Use to set tag protocol identifier (TPID) for S-TAG. Use to add VLAN ID as a tagged (trunk) or untagged
(access) type on a specified port. Use to delete VLAN ID on a specified port. Use to name a VLAN ID. The same name can be applied for multiple VLAN IDs. Use to apply existing rate profile to a VLAN ID. Please refer to Chapter Networking Ethernet VLAN rates. Use to remove the defined rate profile from a VLAN ID. Use to set default VLAN priority value for untagged packets. Use to set default VLAN ID for untagged packets. Use to show general VLAN configuration summary. Use to show the configuration of untagged packets. Use to show Management (MNG) VLAN ID. Use to show current VLAN operational mode and custom EtherType ID. Use to show currently configured VLAN IDs on all ports. Networking Ethernet VLAN rates The VLAN rates page allows configuring rates for selected VLANs. SAF Tehnika JSC 59 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) Name Indicates whether the egress rate is enabled or disabled on a particular port
(status mode); allows enabling/disabling egress rate on a particular port (modify mode). 2) CIR (Mbps) Indicates configured rate CIR (Committed Information Rate) on a particular VLAN rate item in Mbps (status mode); allows setting rate CIR on a particular VLAN rate item in Mbps (modify mode). 3) CBS (kB) Indicates configured rate CBS (Committed Burst Size) on a particular VLAN rate item in kB (status mode); allows setting rate CBS on a particular VLAN rate item in kB (modify mode). 4) Add / Delete Press Add to add entered VLAN rate or press the red cross () to delete this entry;
5) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network vlan show rates network vlan set rate
{add|delete} <name> cir
<10001000000kbps> cbs
<32671kB>
Use to show created rate profiles. Use to create new or delete existing rate configuration profiles. Please refer to Chapter Networking Ethernet VLAN to apply the created rate profile to a VLAN ID. SAF Tehnika JSC 60 INTEGRA/-S/-G/-GS User Manual WEB GUI Networking Ethernet Rate limit The rate limit page allows configuring ingress and egress rates on available Ethernet switch ports. In case a license with an Ethernet rate limitation is applied, the Ethernet limitation will be indicated as the egress rate of the WAN port. Status mode Press button. Modify mode 1) Egress rate / Status Indicates whether egress rate is enabled or disabled on a particular port (status mode); allows enabling/disabling egress rate on a particular port (modify mode). SAF Tehnika JSC 61 INTEGRA/-S/-G/-GS User Manual WEB GUI 2) Egress rate / CIR Indicates configured egress rate CIR (Committed Information Rate) on a particular port in Mbps (status mode); allows setting egress rate CIR on a particular port in Mbps (modify mode). The default setting is 1000. 4) 3) Egress rate / CBS Indicates configured egress rate CBS (Committed Burst Size) on a particular port in kB (status mode); allows setting egress rate CBS on a particular port in kB (modify mode). The default setting is 2000. Ingress rate / Status Indicates whether ingress rate is enabled or disabled on a particular port (status mode); allows enabling/disabling ingress rate on a particular port (modify mode). Ingress rate / CIR Indicates configured ingress rate CIR (Committed Information Rate) on a particular port in Mbps (status mode); allows setting ingress rate CIR on a particular port in Mbps (modify mode). The default setting is 1000. Ingress rate / CBS Indicates configured ingress rate CBS (Committed Burst Size) on a particular port in kB (status mode); allows setting ingress rate CBS on a particular port in kB (modify mode). The default setting is 2000. 5) 6) 7) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network port show egress-rate
<port>
Use to show egress rate limit settings and the status of a particular port. network port show ingress-rate
<port>
Use to show ingress rate limit settings and the status of a particular port. network port set <port> egress-
rate cir <961000000kbps> cbs
<64125000kB>
Information Rate (CIR) and Use to set Committed Committed Burst Size (CBS) setting for egress rate limit on a particular port. network port set <port>
ingress-rate cir <961000000>
cbs <64125000>
Use to set Committed Information Rate (CIR) and Committed Burst Size (CBS) setting for ingress rate limit on a particular port. network port set <port> egress-
rate state {enable|disable}
Use to enable or disable egress rate limiting on a particular port. network port set <port>
ingress-rate state
{enable|disable}
Use to enable or disable ingress rate limiting on a particular port. Networking Ethernet MAC address table The MAC address table displays the forwarding table of MAC addresses learned by the switch (Dynamic) and manually entered (Static). SAF Tehnika JSC 62 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. SAF Tehnika JSC 63 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Use to clear the dynamic MAC address table on a particular port (Clear) or all ports simultaneously (Clear all). 2) Shows list of MAC address entries (status mode); allows clearing specific MAC address entries (modify mode). CLI commands (Chapter 4: COMMAND LINE INTERFACE) Use to show MAC table entries. Use to show MAC table statistics. network mac table show network mac table info network mac table clear vlan <vid> Use to clear MAC table entries for a specific VLAN ID. network mac table clear port
<port>
network mac table clear mac-
address <MAC>
network mac table clear all Use to clear a dynamic MAC address for all VLAN IDs and ports. Use to clear the whole dynamic MAC address table. Use to clear MAC table entries for a specific port. Networking Ethernet Static MAC Address Allows adding and editing static MAC address entries. SAF Tehnika JSC 64 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) Port Indicates ports of configured static MAC addresses (status mode); allows specifying the port for static MAC address (modify mode). 2) VLAN Indicates VLAN IDs of configured static MAC addresses (status mode);
allows specifying VLAN for static MAC address (modify mode). 3) Address Indicates configured static MAC addresses (status mode); allows specifying static MAC addresses (modify mode). 4) Action Allows adding a new static MAC address (Add), removing temporarily entered static MAC address (Remove), or deleting permanently entered static MAC address (Add). 5) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network mac static show network mac static add mac-address
<MAC> vlan <vlan> port <port>
network mac static delete mac-
address <MAC> vlan <vlan> port
<port>
Use to show static MAC address table. Use to add static MAC address for selected VLAN ID and port. Use to remove static MAC address from selected VLAN ID and port. SAF Tehnika JSC 65 INTEGRA/-S/-G/-GS User Manual WEB GUI Networking Ethernet Spanning Tree The Spanning Tree page provides the configuration of Rapid Spanning Tree Protocol (Rapid STP). Status mode Press button. SAF Tehnika JSC 66 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Bridge ID Indicates the configured value of Bridge ID (status mode); allows specifying the value of Bridge ID (modify mode). This parameter and MAC address determines whether a given Bridge is Root Bridge. The advantage is given to the combination of Priority and Address, which is numerically smaller. 2) Hello Time (1 100 sec) Indicates configured time gap between which the BPDU packets are being sent (status mode); allows specifying the value of Hello Time in seconds (modify mode). 3) Max Age (6 40 sec) Indicates configured time period, during which the received BPDU packets information is stored for a separate port (status mode); allows specifying the value of Max Age in seconds (modify mode). 4) Forward Delay (4 30 sec) Indicates configured time period that determines the time a separate port stays in Listening and Learning conditions (status mode); allows specifying the value of Forward Delay in seconds (modify mode). 5) RSTP operation Indicates configured status of RSTP (status mode); allows enable or disable RSTP operation (modify mode). Root information displays the data only when RSTP is enabled:
6) Root ID Indicates the Bridge ID of the current Root bridge;
7) Hello Time Indicates the current hello time;
8) Max Age Indicates the current max age;
9) Forward Delay Indicates the current forward delay;
10) Root Port Indicates elected root port is being shown;
11) Root Path Cost Indicates the path cost from the current bridge to the root bridge;
SAF Tehnika JSC 67 INTEGRA/-S/-G/-GS User Manual WEB GUI 12) Port status and configuration STP parameters of every port:
- RSTP state Indicates RSTP state of the particular port (status mode);
allows enable or disable RSTP operation for the particular port (modify mode);
- Port state Indicates port condition. Can be one of the following: Disabled, Blocking, Listening, Learning, or Forwarding;
- Role the role of the particular port. Can be one of the following: Root, Designated, Alternate, Backup, or Disabled;
- Priority Indicates Port Priority (status mode); allows specifying Port Priority
(modify mode). A combination of Priority, Port number, and Path Cost determines whether the port will be selected as the Root port or will be blocked on the occasion of a loop, etc;
- Path cost Indicates Path cost of the particular port (status mode); allows specifying Path cost for the particular port by setting Path cost value or by selecting Auto mode (modify mode). This parameter setting depends on the capacity of a separate port;
Edge displays that this particular port is Edge port;
- Point-to-point displays whether there is a point-to-point connection from the particular port or not;
13) Rx MSTP BPDUs Indicates how many MSTP BPDUs packets were received;
14) Rx RSTP BPDUs Indicates how many RSTP BPDUs packets were received;
15) RX Conf BPDUs Indicates how many STP BPDUs packets were received;
16) RX TCN BPDUs Indicates how many topology changing notification BPDUs packets were received;
17) Bad MSTP BPDUs Indicates how many bad MSTP BPDUs packets were received;
18) Bad RSTP BPDUs Indicates how many bad RSTP BPDUs packets were received;
19) Bad Conf BPDUs Indicates how many bad STP BPDUs packets were received;
20) Bad TCN BPDUs Indicates how many bad topology changing notifications BPDUs packets received;
21) Tx MSTP BPDUs Indicates how many MSTP BPDUs packets were sent;
22) Tx RSTP BPDUs Indicates how many RSTP BPDUs packets were sent;
23) Tx Conf BPDUs Indicates how many STP BPDUs packets were sent;
24) Tx TCN BPDUs Indicates how many topology changing notification BPDUs packets were sent;
25) Fwd Transitions Indicates how many times the port has been changed to forward status;
26) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) stp status stp bridgeID {0 | 4096 | 8192 | 12288
| 16384| 20480 | 24576 | 28672 |
32768 | 36864 | 40960 | 45056 |
49152 | 53248 | 57344 |61440}
Use to set the value of Bridge ID. Use to show the status of STP configuration. stp helloTime <1..100>
stp maxAge <6..40>
stp forwardDelay <4..30>
stp state {enable|disable}
Use to set the value of the time gap in seconds between which the BPDU packets are being sent. Use to set the time period in seconds, during which the received BPDU packets information is stored for a separate port. Use to set the time period that determines the time in seconds a separate port stays in Listening and Learning conditions. Use to enable or disable RSTP operation. SAF Tehnika JSC 68 INTEGRA/-S/-G/-GS User Manual WEB GUI Networking Ethernet Port status and configuration Shows the status of Ethernet switch ports, allows enabling and disabling the ports, Flow control, and modifying link speed/duplex. Status mode Press button. Modify mode 1) Port Indicates available switch ports. 2) State Indicates operation status of each LAN port (status mode); allows enabling/disabling each LAN port (modify mode). (Restricted) will be indicated on the LAN2 port if 2+0 aggregation or 1+1 protection is enabled. 3) Link status Indicates whether a link with the appropriate port is established as well as its link speed. 4) Link speed Indicates whether link speed is configured to automatic speed setting or manual (status mode); allows changing link speed to the manual setting (modify mode). LAN2 and LAN3 (SFP ports) support Auto Gigabit (1000FDX) only and cannot be modified. Maximum L2 frame size supported in 1000FDX mode is 9600B, while in 100FDX mode
(LAN1) 9070B. 5) Flow control Indicates whether flow control is enabled or disabled on a particular port (status mode); allows enabling/disabling flow control on each available port
(modify mode). The default setting is disabled. SAF Tehnika JSC 69 INTEGRA/-S/-G/-GS User Manual WEB GUI 6) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. SFP module specification will be shown at the bottom of the page if the SFP module is present and if the SFP module supports DOM. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network port show info network port show config network port set <port> admin-
state {enable|disable}
network port set LAN1 speed
{auto|100fdx|100hdx|10fdx|10hdx}
network port set <port> flow-
control {enable|disable}
Use to show the status of all ports. Use to show the configuration of all ports. Use to enable or disable a particular port. Use to change speed and duplex setting on LAN1 port. The default value is auto (auto-negotiation). Use to enable or disable flow control on a particular port. Networking Synchronization SyncE Synchronous Ethernet (SyncE) allows synchronizing the Ethernet switch clock to an external source clock by specifying an ingress port. Incorrect SyncE configuration may result in a loss of connectivity. Auto-negotiation will not function properly when the clock source ports on both Integra/Integra-S/Integra-G/Integra-G FODUs are pointing at each other (e.g. WAN-
WAN in a link or LAN-LAN in a back-to-back connection). Status mode Press button. SAF Tehnika JSC 70 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 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 Allows enabling or disabling SyncE operation. Configuration examples 1) Integra/Integra-S/Integra-G/Integra-GS link with an external clock source 2) Integra/Integra-S/Integra-G/Integra-GS back-to-back interconnection with an external clock source SAF Tehnika JSC 71 INTEGRA/-S/-G/-GS User Manual WEB GUI 3) Integra/Integra-S/Integra-G/Integra-GS as a master clock source Auto-negotiation will not function properly when the clock source ports on both Integra/Integra-S/Integra-G/Integra-GS FODUs 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 (Chapter 4: COMMAND LINE INTERFACE) network sync enable
{LAN1|LAN2|WAN}
Use to enable SyncE on a port connected to a clock source. The selected port will become slave, while other ports master. Auto-negotiation will not function properly between two slave ports. network sync disable Use to disable SyncE on all ports. network port show info
'SyncE_Act' and 'SyncE_Prio' field nonzero values indicate synchronous Ethernet activity. network sync status Enabled shows if SyncE is enabled;
SAF Tehnika JSC 72 INTEGRA/-S/-G/-GS User Manual WEB GUI 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 a clock source;
State clock status, "Locked" if SyncE operates normally;
State info additional information Networking QoS General QoS configuration The General QoS configuration page allows defining QoS queueing rules. Only one priority classification method (port/802.1p/DiffServ) can be enabled on a single port. Status mode Press button. SAF Tehnika JSC 73 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) CoSQ Indicates whether CoSQ (Class of Service Queue) is enabled on the egress direction of a particular port (status mode); allows enabling or disabling CoSQ on available ports (modify mode). CoSQ is enabled by default on the WAN port. 2) Port based priority Indicates whether port-based prioritization is enabled (status mode); allows enabling or disabling port-based prioritization on available ports
(modify mode). If enabled all packets on the egress of a port are put in a specified queue. 802.1p (PCP) and DiffServ (DSCP) values are ignored. Available values are 07 according to eight available priority queues from the lowest to the highest. 3) 802.1p Indicates whether the 802.1p mapping is enabled (status mode); allows enabling or disabling 802.1p mapping on available ports (modify mode). If enabled configured mapping (NetworkingQoS802.1p mapping) is taken into account. 4) DiffServ Indicates whether DiffServ prioritization is enabled (status mode); allows enabling or disabling DiffServ prioritization on available ports (modify mode). If enabled DSCP value is taken into account according to configured mapping
(NetworkingQoSDiffServ mapping). 5) Schedulers mode frame-based Indicates whether
(SP/RR/WRR Strict Priority/Round Robin/Weighted Round Robin) or byte-based scheduling schemes
(SP/DWRR Strict Priority/Deficit Weighted Round Robin) are available (status mode); allows switching between frame-based to byte-based scheduling schemes
(modify mode). A specific scheduling scheme can be set in NetworkingQoSCoSQ configuration. The schedulers mode specifies how frames are handled at egress flow. DWRR compared to WRR is configured in kilobytes (KB), rather than the number of frames passed. The default setting is the frame-based mode. 6) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network qos set <port> cosq state {enable|disable}
network qos set <port> vlan state {enable|disable}
network qos set <port> diffserv state {enable|disable}
network qos reset config
{LAN1|LAN2|LAN3|WAN|all}
Use to enable or disable CoSQ priority queues on a particular port. Use to enable or disable ingress 802.1p mapping on a particular port. Use to enable or disable ingress DiffServ mapping (DSCP) on a particular port. Use to reset QoS configuration on a particular port or all ports simultaneously. SAF Tehnika JSC 74 INTEGRA/-S/-G/-GS User Manual WEB GUI Use to enable or disable port-based priorities. network qos set <port> base state {enable|disable}
network qos set <port> base priority <07>
network qos set sched_mode
{frame|byte}
network qos show config
{LAN1|LAN2|LAN3|WAN|all}
network qos show info
{LAN1|LAN2|LAN3|WAN|all}
network qos show sched_mode Use to show CoSQ Scheduling Mode. Use to show QoS user configuration. Use to specify the queue of port-based priority. Use to select the schedulers mode frame (SP/RR/WRR) or byte (SP/DWRR). Use to show the actual status of QoS configuration. Networking QoS 802.1p mapping The 802.1p mapping page allows customizing the mapping of IEEE 802.1p priority tags and available QoS queues. Status mode Press button. SAF Tehnika JSC 75 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) VLAN priority Indicates PCP (Priority Code Point) values 0 7. 2) LAN1 Indicates to which egress queue packets will, according to 802.1p priority, be put in if 802.1p QoS prioritization is enabled on LAN1 port (status mode); allows modifying default mapping of priority values and queues (modify mode). 3) LAN2 Indicates to which egress queue packets will, according to 802.1p priority, be put in if 802.1p QoS prioritization is enabled on LAN2 port (status mode); allows modifying default mapping of priority values and queues (modify mode). 4) LAN3 Indicates to which egress queue packets will, according to 802.1p priority, be put in if 802.1p QoS prioritization is enabled on LAN3 port (status mode); allows modifying default mapping of priority values and queues (modify mode). 5) WAN Indicates to which egress queue packets will, according to 802.1p priority, be put in if 802.1p QoS prioritization is enabled on WAN port (status mode); allows modifying default mapping of priority values and queues (modify mode). 6) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network qos set <port> vlan priority <0..7> priority <0..7>
Use to change default 802.1p priority mapping. SAF Tehnika JSC 76 INTEGRA/-S/-G/-GS User Manual WEB GUI Networking QoS DiffServ mapping The DiffServ mapping page allows customizing the mapping of DSCP priority tags and available QoS queues. Status mode Press button. SAF Tehnika JSC 77 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) LAN1/LAN2/LAN3/WAN Tabs allow selecting a particular port. 2) The table shows the mapping between DSCP values and CoS queues (status mode);
allows modifying the default mapping of DSCP priority values and queues (modify mode). 3) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network qos set <port> diffserv dscp <0..63> priority <0..7>
Use to change default DiffServ priority (DSCP) mapping. Networking QoS CoSQ configuration The CoSQ configuration page allows modifying droplimit (buffer) size, queue weights or sizes (depending on queueing), and queueing scheduler. On the WAN port, it is possible to enable packet fragmentation and interleaving (by disabling low latency queues). SAF Tehnika JSC 78 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) LAN1/LAN2/LAN3/WAN Tabs allow selecting a particular port. SAF Tehnika JSC 79 INTEGRA/-S/-G/-GS User Manual WEB GUI 2) Scheduler Indicates whether CoSQ scheduler is enabled on the particular port. the NetworkingQoSGeneral QoS the CoSQ setting in Corresponds configuration page. to 3) CoSQ Mode Indicates which CoSQ scheduler mode is set on a particular port
(status mode); allows setting Strict Priority (SP); Round Robin (RR) or Weighted Round Robin (WRR) if Frame Based (SP/RR/WRR) schedulers mode is set or Strict Priority (SP) or Deficit Weighted Round Robin (DWRR) if Byte Based (SP/DWRR) is set in NetworkingQoSGeneral QoS configuration (modify mode). SP scheduler drains all packets queued in the highest priority queue before continuing to service lower priority queues. Such an approach can be used for latency-sensitive traffic. RR scheduler drains all queues consecutively with the same ratio
(1:1:1:1:1:1:1:1). Such an approach allows utilizing droplimit buffers of all available queues. WRR scheduler drains all queues consecutively according to the specified ratio
(queue weights) specified in a number of packets. The default ratio is equal for all queues (1:1:1:1:1:1:1:1). Such an approach allows for minimizing stacking delay for high-priority traffic and at the same time retaining traffic flow at lower-
priority queues. DWRR scheduler drains all queues consecutively according to the specified ratio (queue weights) specified in kilobytes (KB). Compared to WRR excess bandwidth used in the current pass is remembered and subtracted from the allocated weight in the next pass and as a result statistically over time bandwidth used by each queue will be closer to the configured value. Default ratio is equal for all queues (1:1:1:1:1:1:1:1). 4) Droplimit Indicates droplimit buffer size assigned for each queue (status mode);
allows modifying droplimit buffer size for each queue (modify mode). By default, a 2000KB droplimit buffer size is assigned for queue #0 (lowest priority) and 1000KB for all other queues. Maximum size 4000KB. Increasing buffer size increases data transmission latency. 5) Weight Indicates weights in packets or kilobytes configured for WRR or DWRR respectively (status mode); allows configuring weights in packets or kilobytes for WRR or DWRR respectively (modify mode). The default weight is set to 1 for each queue. The value range is 1..255. 6) Bandwidth limit Indicates whether the rate limit is enabled on any of the available queues (status mode); allows specifying rate limit value on any of the available queues (modify mode). The bandwidth limit is available only on LAN ports. 7) Low latency queues Indicates whether modem low latency queue is enabled for the priority queues (status mode); allows disabling low latency queues, thus enabling packet fragmentation and interleaving (modify mode). Please refer to Chapter Fragmentation and interleaving for further details. Low latency queues are available only on the WAN port. 8) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network qos set <port> cosq Use to set CoSQ scheduler mode on a particular port. SAF Tehnika JSC 80 INTEGRA/-S/-G/-GS User Manual WEB GUI scheduler mode
{sp|{{rr|wrr}|dwrr}}
network qos set <port> cosq scheduler weight <1..255>
queue <0..7>
network qos set <port> cosq droplimit <0..4000KB>
network qos set WAN cosq lowlatency {enable|disable}
queue <0..7>
network qos show info
{LAN1|LAN2|LAN3|WAN|all}
Use to assign a weight for a particular queue #. CoSQ scheduler should be enabled for that particular port and CoSQ scheduler mode should be set to WRR or DWRR. Use to set droplimit buffer size for a particular port. Use to enable or disable low latency queue, thus disabling or enabling packet fragmentation. This functionality is available for WAN port only and by default low latency queues are enabled therefore packet fragmentation is disabled. Use to show the actual status of QoS configuration. Networking QoS MPLS EXP mapping The MPLS EXP mapping page allows customizing the mapping of MPLS EXP priority bits and available QoS queues. Status mode Press button. SAF Tehnika JSC 81 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) MPLS EXP value Indicates MPLS EXP values 0 7;
2) Queue Indicates to which egress queue will packets with according MPLS EXP value be put (status mode); allows modifying default mapping of MPLS EXP values and queues (modify mode). 3) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. If Rollback on is selected, the configuration will be reverted in case erroneous configuration changes are applied. Performance Performance Alarm Alarm status Alarm status page summarizes current alarms by showing the date and time the alarm occurred and its name. 1) Date shows the date when the alarm was initiated;
2) Time shows the time when the alarm was initiated;
3) Alarm shows the name of the alarm. SAF Tehnika JSC 82 INTEGRA/-S/-G/-GS User Manual WEB GUI CLI commands (Chapter 4: COMMAND LINE INTERFACE) log sensor setlist Use to show alarm status. Performance Alarm Alarm event log Alarm event log shows 20 alarm entries per page and about 5000 alarm entries in total. The full alarm log can be downloaded by pressing on Alarm event log file. The last page of log entries is shown by default. Alarm entries are mostly distributed in two groups Set when the alarm appears and Reset when the 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. Status mode Press button. SAF Tehnika JSC 83 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Clear alarm log deletes all alarm log entries;
2) Toggle period selection opens/closes 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 the start of the alarm log, while >> to the end; Previous 20 navigates to the previous alarm log page showing 20 previous alarm log entries (if available), while Next 20 to next alarm log page showing 20 next alarm log entries (if available). 6) Shows the number of the currently viewed alarm log page. You can enter the specific page number to navigate to the required page;
7) Filter press to filter alarms from a certain source node (e.g. Radio);
8) Alarm event log file press the link to download the full alarm log text file. CLI commands (Chapter 4: COMMAND LINE INTERFACE) log event show last <#_of_entries> Use to show a certain number of last alarm log entries. log event show time <starttime>
[<endtime>]
log event show sensor <sensor>
[last <#_of_entries>] [time
<starttime> [<endtime>]]
Use to show entries from a certain time point. The following formats are supported:
YYYY-MM-DD/hh:mm:ss; MM-DD/hh:mm:ss;
MM-DD/hh:mm; hh:mm:ss; hh:mm Use to show entries for a specific sensor. Regarding subcommands last and time refer to the commands above. log event show module {modem|
psu | radio | system | alarm_only |
iman} [last <#_of_entries>] [time Use to show entries for a specific module. Regarding subcommands last and time refer to the commands above. SAF Tehnika JSC 84 INTEGRA/-S/-G/-GS User Manual WEB GUI
<starttime> [<endtime]]
log event clear log event configure
{enable|disable}
Use to clear alarm log Use to enable or disable the event log filter. log event configure dump <160>
log event configure pattern
<110>
log event configure status Use to configure duration in minutes during which filter is monitoring repetitions. Use to configure a number of log entry repetitions to be monitored. Use to display the current configuration of grouped repetitive alarm-event log entries (filter). Performance Alarm Sensor configuration The following section allows for specifying the behavior of available sensor parameters. After the firmware upgrade, it is required to reset the sensor configuration to default using Set all to default button and reconfigure sensors as required. It is not recommended to add License remaining time sensor parameter to performance
(perfd) type parameters. Status mode Press button. SAF Tehnika JSC 85 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Group description (name) Shows 5 groups of sensors divided by different group data destinations (event; perf; snmp), as well as indicates whether the group is enabled (State);
2) Ungrouped sensor list Shows the list of sensors not added to any of the existing groups (status mode); allows dragging to any of the existing groups, thus specifying how the sensor will be treated. Unchecking the checkbox next to the sensor disables the sensor (modify mode). 3) Add group Allows creating a new group with a custom name and description. Afterward, sensors from the ungrouped sensor list or other groups can be added to the group by dragging them in. 4) Remove group Allows deleting existing groups via a dialog window. 5) Set all to default Restores default settings for all groups and sensors. SAF Tehnika JSC 86 INTEGRA/-S/-G/-GS User Manual WEB GUI 6) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. CLI commands (Chapter 4: COMMAND LINE INTERFACE) log group info log group create <name>
<description>
log group mgmt <name> add destination {event|perf|snmp|syslog}
log group mgmt <name> add sensor
<sensor>
log group mgmt <name> config
{enable|disable}
log group mgmt <name> delete log group mgmt <name> remove destination {event|perf|snmp|syslog}
log group mgmt <name> remove sensor <sensor>
log sensor info log sensor list log default {all|group|sensors
[<sensor>]}
Use to show sensor group configuration. Use to create a new group. Use to add a destination for a group. Use to add a sensor to a group. Use to enable or disable a group. Use to delete a group. Use to remove a destination from a group. Use to remove a sensor from a group. Use to show current sensor status. Use to list all available sensors. Use to set group, individual sensor, or all sensor configuration to default. Performance Alarm Alarm threshold configuration The page provides a summary of the parameters alarm thresholds. All thresholds are predefined and some change dynamically according to the 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. SAF Tehnika JSC 87 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. SAF Tehnika JSC 88 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Indicates low, high, and delta values of the parameters (status mode); Low value, High value and Delta value fields for all parameters become editable when Default value is deselected (modify mode);
2) Set all to default resets Low value, High value and Delta value for all parameters to factory defaults;
3) Default value deselect to activate manual threshold modification;
4) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. CLI commands (Chapter 4: COMMAND LINE INTERFACE) log sensor info log sensor mgmt <sensor>
control {enable|disable}
log sensor mgmt <sensor>
thold <min> <max> <delta>
log sensor mgmt <sensor>
time <030>
log default {all| group|
sensors [sensor]}
log sensor list Use to show the configuration of sensor thresholds. Use to enable or disable a sensor. Use to set sensors min, max thresholds, and delta values manually. Use to set sensor hysteresis time in seconds. Will be used to show a value in orange color indicating that the sensor value recently exceeded its thresholds. Use to set group, individual sensor, or all sensor configuration to default. Use to list all available sensors. SAF Tehnika JSC 89 INTEGRA/-S/-G/-GS User Manual WEB GUI Performance Monitoring Performance graph The Performance graph allows visualizing various parameters over a chosen time period as curves. Available parameters will depend on the Sensor Configuration. Any two parameters can be shown at a time. By default Rx level (dBm) and MSE (dB) are selected. Not all sensors available in Sensor Configuration can be displayed in the Performance graph. MODIFY button is deactivated in the Performance graph page. SAF Tehnika JSC 90 INTEGRA/-S/-G/-GS User Manual WEB GUI 1) Left axis sensor Allows choosing a sensor parameter colored in red and displayed on the left axis. 2) Right axis sensor Allows choosing a sensor parameter colored in blue and displayed on the right axis. 3) Sensor log step Allows choosing graph granularity 1, 15, or 60 minutes. 4) Indicates start and end date/time of period displayed and allows selecting a specific period to show. 5) Period length Indicates the length of the currently displayed period. 6) Renew Press to show the most recent data. 7) Get data Press to apply selected time interval changes. 8) Left and right sliders allow you to zoom the currently selected time period. Performance Monitoring Performance log Allows viewing and downloading performance log. MODIFY button is deactivated on the Performance log page. SAF Tehnika JSC 91 INTEGRA/-S/-G/-GS User Manual WEB GUI 1) Select sensors Allows choosing the sensor parameters to be displayed in the performance log. 2) Select fields Allows choosing the parameter fields to be displayed in the performance log. Minimum and Maximum represent the minimum and maximum values in the specified sensor log step, while Average displays the average value;
Threshold seconds will show the number amount of seconds in a chosen time interval when the parameter exceeded minimum or maximum alarm thresholds; No data (s) and Not available (s) show respectively the time when there was no data of according parameter and it was not available. 3) Sensor log step Allows choosing log step 1, 15, or 60 minutes. 4) Indicates start and end date/time of period displayed and allows selecting a specific period to show. 5) Period length Indicates the length of the currently displayed period. 6) Log entries per page Allows choosing 20, 50, or 100 entries per page for Paged representation. 7) One page Will display the performance log on a single page in a separate tab. 8) Paged Will display the performance log divided into pages in a separate tab. 9) Download XML Press to download the performance log in an extensible markup language (.xml) file. CLI commands (Chapter 4: COMMAND LINE INTERFACE) log perf show
{1M|15M|60M} last
<11440> <sensor>
log perf show
{1M|15M|60M} time
<start_time> <end_time>
<sensor>
Use to show a specified number of last performance log entries with the specified sensor log step. Use to show entries for a certain time frame. Following formats are supported: YYYY-MM-DD/hh:mm:ss;
MM-DD/hh:mm:ss; MM-DD/hh:mm; hh:mm:ss; hh:mm SAF Tehnika JSC 92 INTEGRA/-S/-G/-GS User Manual WEB GUI log perf clear Use to clear performance log. Performance Ethernet Ethernet switch statistics SAF Tehnika JSC 93 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode SAF Tehnika JSC 94
1 | User Manual Part 2 | Users Manual | 4.00 MiB | September 26 2023 / October 02 2023 |
INTEGRA/-S/-G/-GS User Manual WEB GUI Press button. Modify mode (buttons appear at the bottom of the page) 1) Statistics for time during which statistics have been gathered;
Ingress Pkts. Packets that ingress on the port;
2) Ingress Bytes Bytes that ingress on the port;
3) 4) Egress Pkts. Packets that egress on the port;
5) Egress Bytes Bytes that egress on the port;
6) Total Multicast Pkts. 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;
7) Total Broadcast Pkts. The total number of good packets received that were directed to the broadcast address. Note that this does not include multicast packets;
8) Total Pkts. 64 Octets The total number of packets (including bad packets) that were 64 octets in length (excluding framing bits but including FCS octets);
9) Total Pkts. 65 to 127 Octets 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);
10) Total Pkts. 128 to 255 Octets 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);
11) Total Pkts. 256 to 511 Octets 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);
12) Total Pkts. 512 to 1023 Octets 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);
13) Total Pkts. 1024 to 1518 Octets 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);
14) Total Oversize Pkts. The total number of packets that were longer than 1522 octets
(excluding framing bits but including FCS octets) and were otherwise well formed;
15) Rx Oversize Pkts. The total number of packets received that were longer than 1522 octets (excluding framing bits but including FCS octets) and were otherwise well formed;
16) Tx Oversize Pkts. The total number of packets transmitted that were longer than 1522 octets (excluding framing bits but including FCS octets) and were otherwise well formed;
17) Total Octets The total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets);
18) Total Pkts. The total number of packets (including bad packets, broadcast packets, and multicast packets) received and transmitted;
19) Tx No Errors The number of frames that have been transmitted by this port from its segment excluding fragmented and FCS error frames;
20) Rx No Errors The number of frames that have been received by this port from its segment excluding fragmented and FCS error frames;
SAF Tehnika JSC 95 INTEGRA/-S/-G/-GS User Manual WEB GUI 21) Total Pkts. 1519 to 1522 Octets 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);
22) In. Octets The total number of octets received on the interface, including framing characters;
23) Out. Octets The total number of octets transmitted out of the interface, including framing characters;
24) Dot1 Port In Frames 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;
25) Dot1 Port Out Frames 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.;
26) Received Pkts. 64 Octets The total number of packets (including bad packets) received that were 64 octets in length (excluding framing bits but including FCS octets);
27) Transmitted Pkts. 64 Octets The total number of packets (including bad packets) transmitted that were 64 octets in length (excluding framing bits but including FCS octets);
28) Received Pkts. 65 to 127 Octets 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);
29) Transmitted Pkts. 65 to 127 Octets The total number of packets (including bad packets) transmitted that were between 65 and 127 octets in length inclusive
(excluding framing bits but including FCS octets);
30) Received Pkts. 128 to 255 Octets The total number of packets (including bad packets) received that were between 128 and 255 octets in length inclusive
(excluding framing bits but including FCS octets);
31) Transmitted Pkts. 128 to 255 Octets The total number of packets (including bad packets) transmitted that were between 128 and 255 octets in length inclusive
(excluding framing bits but including FCS octets);
32) Received Pkts. 256 to 511 Octets The total number of packets (including bad packets) received that were between 256 and 511 octets in length inclusive
(excluding framing bits but including FCS octets);
33) Transmitted Pkts. 256 to 511 Octets The total number of packets (including bad packets) transmitted that were between 256 and 511 octets in length inclusive
(excluding framing bits but including FCS octets);
34) Received Pkts. 512 to 1023 Octets The total number of packets (including bad packets) received that were between 512 and 1023 octets in length inclusive
(excluding framing bits but including FCS octets);
35) Transmitted Pkts. 512 to 1023 Octets The total number of packets (including bad packets) transmitted that were between 512 and 1023 octets in length inclusive
(excluding framing bits but including FCS octets);
36) Received Pkts. 1024 to 1518 Octets The total number of packets (including bad packets) received that were between 1024 and 1518 octets in length inclusive
(excluding framing bits but including FCS octets);
SAF Tehnika JSC 96 INTEGRA/-S/-G/-GS User Manual WEB GUI 37) Transmitted Pkts. 1024 to 1518 Octets The total number of packets (including bad packets) transmitted that were between 1024 and 1518 octets in length inclusive
(excluding framing bits but including FCS octets);
38) In. Broadcast Pkts. The number of packets, delivered by this sub-layer to a higher
(sub-)layer, which were addressed to a broadcast address at this sub-layer;
39) Out. Broadcast Pkts. The total number of packets that higher-level protocols requested to be transmitted, and which were addressed to a broadcast address at this sub-layer, including those that were discarded or not sent;
40) In. Multicast Pkts. The number of packets, delivered by this sub-layer to a higher
(sub-)layer, which were addressed to a multicast address at this sub-layer. For a MAC layer protocol, this includes both Group and Functional addresses;
41) Out. Multicast Pkts. The total number of packets that higher-level protocols requested be transmitted, and which were addressed to a multicast address at this sub-layer, including those that were discarded or not sent. For a MAC layer protocol, this includes both Group and Functional addresses;
42) Dot3 In. Pause Frames A count of MAC Control frames received on this interface with an opcode indicating the PAUSE operation. This counter does not increment when the interface is operating in half-duplex mode. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ifCounterDiscontinuityTime.;
43) Dot3 Out. Pause Frames A count of MAC Control frames transmitted on this interface with an opcode indicating the PAUSE operation. This counter does not increment when the interface is operating in half-duplex mode. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ifCounterDiscontinuityTime;
44) EtherStatsUndersize Pkts. The total number of packets received that were less than 64 octets long (excluding framing bits, but including FCS octets) and were otherwise well formed;
45) Fragments The total number of packets received that were less than 64 octets in length (excluding framing bits but including FCS octets) and had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error). Note that it is entirely normal for etherStatsFragments to increment. This is because it counts both runts (which are normal occurrences due to collisions) and noise hits;
46) CRC Align. Errors The total number of packets received that had a length (excluding framing bits but including FCS octets) of between 64 and 1518 octets, inclusive, but had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error);
47) Jabbers The total number of packets received that were longer than 1518 octets
(excluding framing bits but including FCS octets), and had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error). Note that this definition of jabber is different than the definition in IEEE-802.3 section 8.2.1.5 (10BASE5) and section 10.3.1.4 (10BASE2). These documents define jabber as the condition where any packet exceeds 20 ms. The allowed range to detect jabber is between 20 ms and 150 ms;
48) Ingress BPS Indicates byte per second rate on the input of the port;
49) Ingress PPS Indicates packet per second rate on the input of the port;
50) Egress BPS Indicates byte per second rate on the exit of the port;
51) Egress PPS Indicates packet per second rate on the exit of the port;
SAF Tehnika JSC 97 INTEGRA/-S/-G/-GS User Manual WEB GUI 73) Clear all statistic Clears statistics on all switch ports;
74) Clear Clears statistics on a particular port. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network port show statistics Use to show Ethernet statistics on all ports. network port reset statistics
{LAN1|LAN2|LAN3|MNG|WAN|all}
Use to reset Ethernet statistics for a particular port or all ports. Performance Ethernet Actual throughput Shows ingress and egress traffic statistics on all available switch ports. MODIFY button is deactivated on this page. Ingress Mbps Indicates megabit per second rate on the input of the port;
Ingress pps Indicates packet per second rate on the input of the port;
1) 2) 3) Egress Mbps Indicates megabit per second rate on the exit of the port;
4) Egress pps Indicates packet per second rate on the exit of the port. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network port show throughput Use to show current throughput on all ports. SAF Tehnika JSC 98 INTEGRA/-S/-G/-GS User Manual WEB GUI Performance Ethernet QoS statistics Status mode Press button. Modify mode (buttons appear at the bottom of the page) 1) QoS statistics for all 8 available priority queues, indicating passed and dropped packets and bytes. Elapsed time is indicated as well. 2) Clear all statistic Allows clearing QoS statistics on all switch ports. 3) Clear Allows clearing QoS statistics on individual switch ports. CLI commands (Chapter 4: COMMAND LINE INTERFACE) network qos show statistics
{all|LAN1|LAN2|LAN3|WAN}
Use to check QoS statistics on all available ports. network qos reset statistics
{all|LAN1|LAN2|LAN3|WAN}
Use to clear QoS statistics on a specific switch port or all ports simultaneously. SAF Tehnika JSC 99 INTEGRA/-S/-G/-GS User Manual WEB GUI Performance Over The Air Equalizer graph The Equalizer graph window shows adaptive equalizer taps coefficients, which at a set time moment minimize the multipath fading effect in the channel. For more details see Adaptive Equalizer section in Chapter 6: FUNCTIONAL DESCRIPTION. MODIFY button is deactivated on Equalizer graph page. An example of equalizer taps coefficients and its frequency response in case of normal operation is shown below:
During normal operation, the frequency response curve is smooth at the center and the central equalizer tap is higher, while side towers evenly decrease. If equalizer taps and frequency response curve significantly differ from the one above, it may be an indication of multipath issues, which must be inspected with the use of precise and accurate path profiling. Higher taps mainly on the right side indicate a weaker reflected signal compared to the main signal, while higher taps mainly on the left side a stronger reflected signal. Below is an example of Equalizer graph in a link aligned to the reflected signal:
SAF Tehnika JSC 100 INTEGRA/-S/-G/-GS User Manual WEB GUI Performance Over The Air Constellation diagram A constellation diagram is a representation of a signal modulated by the digital modulation schemes 1024QAM, 512QAM, 256QAM, 128QAM, 64QAM, 32QAM, 16QAM, or 4QAM. It displays the signal as a two-dimensional scatter diagram in the complex plane at symbol sampling instants. A measured constellation diagram can be used to recognize the type of interference and distortion in a signal. MODIFY button is deactivated on the Constellation diagram page. Only a single user can see Constellation at a time. SAF Tehnika JSC 101 INTEGRA/-S/-G/-GS User Manual WEB GUI 1) Allows choosing how often is constellation automatically cleared;
2) Manually clear current constellation;
3) Allows zooming to one of 4 constellation quadrants. Examples of Integra/Integra-S/Integra-G/Integra-GS constellation diagrams under ideal conditions are shown below:
SAF Tehnika JSC 102 INTEGRA/-S/-G/-GS User Manual WEB GUI To analyze the received signal quality, some types of distortion and degradation may be evident in the constellation diagram. For example:
1) Gaussian noise is displayed as fuzzy constellation points:
SAF Tehnika JSC 103 INTEGRA/-S/-G/-GS User Manual WEB GUI 2) Non-coherent single-frequency interference is displayed as circular constellation points:
3) Phase noise is displayed as rotationally spreading constellation points:
Performance Over The Air Rx spectrum A spectrum curve is a representation of the received signal on the input of the modem. For this reason, spectrum signal levels will not correspond to the actual radio receivers signal level. The signal appearance will depend on configured channel bandwidth. A measured spectrum curve can be used to recognize in-band interference or very powerful out-band interference (due to filters applied). MODIFY button is deactivated on the Rx spectrum page. Only a single user can see Rx Spectrum at a time. SAF Tehnika JSC 104 INTEGRA/-S/-G/-GS User Manual WEB GUI Spectrum (60MHz):
Examples of Integra/Integra-S/Integra-G/Integra-GS spectrum curves in various channel bandwidths:
SAF Tehnika JSC 105 INTEGRA/-S/-G/-GS User Manual WEB GUI Performance Over The Air Modem performance The Modem performance section shows modem statistics according to ITU-T G.826. Status mode Press button. Modify mode (buttons appear at the bottom of the page) 1) Count time the time during which statistics are gathered;
2) Errored Block (EB) Number of blocks having at least one-bit error;
3) Errored Second (ES) Number of seconds during which errored blocks were registered;
4) Severely Errored Seconds (SES) Number of seconds that contain 30% errored blocks or one or more defects;
5) Background Block Error (BBE) Number of errored blocks that are not part of SES;
6) Total Block number - Number of blocks received which are not part of SES;
7) Errored Second Ratio (ESR) The ratio of ES to total seconds;
8) Severely Errored Second Ratio (SESR) The ratio of SES to total seconds;
9) Background Block Error Ratio (BBER) The ratio of BBE to total seconds;
10) Uptime time in seconds during which the link was synchronized;
11) Unavailtime time in seconds during which the link was not synchronized;
12) Clear Clears all counters. CLI commands (Chapter 4: COMMAND LINE INTERFACE) modem performance modem performance clear Use to check modem statistics according to ITU-T G.826. See the detailed description above. Use to clear modem statistics. SAF Tehnika JSC 106 INTEGRA/-S/-G/-GS User Manual WEB GUI System System FW Firmware upgrade Upload the .bin firmware file and upgrade the firmware version on the Firmware upgrade page. Status mode Press button. Modify mode 1) Shows a list of available firmware files;
2) Upgrade firmware click on the preferred firmware in the list and press Upgrade firmware button to initiate the firmware upgrade process. If the existing Integra/Integra-S/Integra-G/Integra-GS firmware version is older than V2.5.13, firmware must be upgraded to V2.5.13 (link) before the upgrade to the latest firmware version. SAF Tehnika JSC 107 INTEGRA/-S/-G/-GS User Manual WEB GUI The latest Integra/Integra-S/Integra-G/Integra-GS firmware can be downloaded at https://saftehnika.com/en/downloads in Firmwares section. Registration and login are required. 3) Reboot Reboots Integra/Integra-S/Integra-G/Integra-GS (cold restart). 4) Delete Deletes selected firmware file from the list. 5) Choose File Press to browse for a firmware file on your hard disk drive. 6) Upload Press to upload a firmware file to Integra/Integra-S/Integra-G/Integra-GS. A maximum of 3 firmware files can be stored. You can delete unnecessary firmware files using Delete button Integra series firmware upgrade via Web GUI The firmware update package contains a firmware file (.bin extension), release notes, and firmware upgrade instructions. If the existing Integra/Integra-S/Integra-G/Integra-GS firmware version is older than V2.5.13, firmware must be upgraded to V2.5.13 (link) before the upgrade to the latest firmware version. The main method for firmware upgrade is upload via Web GUI, which automates the whole firmware upgrade process. To perform a software upgrade from Web GUI, please follow these steps:
1) Go to System FW Firmware upgrade;
2) Press MODIFY button on the right side of the page;
3) Press Choose File button, locate *.bin firmware file on your hard disk (extracted from the firmware update package), and press Open button;
4) Press Upload button;
5) Select uploaded firmware from the firmware list and press Upgrade firmware button;
6) Confirm the upgrade and reboot of the system. The remote side must be upgraded first. Please do not unplug power until the firmware upgrade procedure is finished - Web GUI will automatically reconnect and the login page will appear. CLI commands (Chapter 4: COMMAND LINE INTERFACE) firmware info [<version>]
firmware install <version>
firmware list firmware remove <version>
Use to show detailed information on current or specific Integra/Integra-S/Integra-G/Integra-GS firmware. Use to install the firmware version uploaded. Note that the exact version needs to be entered. Check available firmware versions using the command firmware list. Use to list uploaded firmware versions. Use to remove the firmware version uploaded. Note that the exact version needs to be entered. Check available SAF Tehnika JSC 108 INTEGRA/-S/-G/-GS User Manual WEB GUI firmware remove.list firmware switch firmware upload <file>
firmware switch
{fs|fw1|fw2|toggle}
firmware versions using the command firmware list. Use to remove all uploaded firmware versions. Use to check the running firmware bank and bank that will be used at the next boot. Use to upload firmware files from the FTP directory. Use to define the bank that will be used at the next boot. fw1 and fw2 subcommands set appropriate bank, toggle forces to set another bank than the running one, fs is the factory-defined emergency bank, which is used if both fw1 and fw2 fail. system reboot Use to perform a cold reboot of the radio unit. System Configuration IP configuration Status mode Press button. Modify mode SAF Tehnika JSC 109 INTEGRA/-S/-G/-GS User Manual WEB GUI 1) IP address Indicates the IP address of the Integra/Integra-S/Integra-G/Integra-GS you are currently logged in (status mode); allows specifying the IP address of the Integra/Integra-S/Integra-G/Integra-GS you are currently logged in to (modify mode). The Default IP address is 192.168.205.10 or 192.168.205.11 depending on which low side has Integra/Integra-S/Integra-G/Integra-GS side 192.168.205.10 IP address and high side 192.168.205.11. the specific is Integra/Integra-S/Integra-G/-Integra-GS IP addresses need to be on the same subnet. 2) 3) IP Mask Indicates the IP mask of the Integra/Integra-S/Integra-G/Integra-GS you are currently logged in (status mode); allows specifying the IP mask of the Integra/Integra-S/Integra-G/Integra-GS you are currently logged in to (modify mode). The default IP mask is 255.255.255.0. IP gateway Indicates the gateway address of the Integra/Integra-S/Integra-
G/Integra-GS you are currently logged in to (status mode); allows specifying the gateway address of the Integra/Integra-S/Integra-G/Integra-GS you are currently logged in (modify mode). By default, the gateway is not specified (blank). 4) Ethernet MAC address shows the MAC address of the Integra/Integra-S/Integra-
G/Integra-GS you are currently connected to. 5) Remote IP address shows the IP address of the remote (far-end) Integra/Integra-
S/Integra-G/Integra-GS. By default, the remote IP address is being retrieved automatically and therefore the Auto checkbox is selected. In modify mode you can unselect the Auto option and enter the remote IP address manually. 6) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. CLI commands (Chapter 4: COMMAND LINE INTERFACE) system ip addr [<IP>]
system ip gw [{<IP>|clear}]
system ip mask [<mask>]
system ip mac system ip cfg {<ip address>
<mask> | <ip address> <mask>
<gateway> | <ip address/CIDR> |
<ip address/CIDR> <gateway>}
system remoteip show system remoteip auto Use to show/set the IP address of the management CPU. Use to show/manage the IP address of the gateway. Use to show/set subnet mask. Use to show the MAC address of the management CPU. Use to set the IP address and subnet or optionally IP address, subnet mask, and gateway simultaneously. Use to show the remote IP address. Use to set automatic retrieving of the remote IP address. Use to define remote IP address (deactivates automatic retrieving of the remote IP address). Use to ping an IP address. system remoteip set <IP>
system diag ping <IP_address>
System Configuration SNMP configuration The SNMP configuration pages provide the configuration of SNMP communities, host, and trap addresses. The SAF NMS system will work only when SNMP is properly configured. Relevant MIB files can be downloaded directly from Integra/Integra-S/Integra-
G/Integra-GS Web GUI. See (7) below. SAF Tehnika JSC 110 INTEGRA/-S/-G/-GS User Manual WEB GUI SNMPv1/v2c setup Status mode Press button. SAF Tehnika JSC 111 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Read community Indicates currently specified read community for SNMPv1/v2c
(status mode); allows specifying read community for SNMPv1/v2c of the agent to enable parameters to be read (modify mode). The default read community name is saf-public. 2) Write community Indicates currently specified write community for SNMPv1/v2c
(status mode); allows specifying write community for SNMPv1/v2c of the agent to enable parameters to be written (modify mode). The default write community name is saf-private. 3) Trap community Indicates currently specified trap community for SNMPv1/v2c
(status mode); allows specifying trap community for SNMPv1/v2c for trap authentication in monitoring applications (modify mode). The default trap community name is saf-traps. 4) List of SNMP managers Shows the list of configured SNMPv1/v2c host IP addresses (status mode); allows adding/deleting SNMPv1/v2c host IP addresses
(modify mode). Specified IP addresses have access to read and modify configuration parameters using the appropriate read-and-write community names. 5) List of trap v1 managers Shows a list of configured SNMPv1 trap IP addresses
(status mode); allows adding/deleting SNMPv1 trap IP addresses (modify mode). The Integra/Integra-S/Integra-G/Integra-GS management controller sends SNMPv1 traps to the Trap Manager with the IP address specified here;
6) List of trap v2c managers Shows a list of configured SNMPv2c trap IP addresses
(status mode); allows adding/deleting SNMPv2c trap IP addresses (modify mode). SAF Tehnika JSC 112 INTEGRA/-S/-G/-GS User Manual WEB GUI The Integra/Integra-S/Integra-G/Integra-GS management controller sends SNMPv2c traps to the Trap Manager with the IP address specified here. 7) Download MIB file Click to download Integra/Integra-S MIB files. 8) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. SNMPv3 setup SNMPv3 primarily is improved with security settings. It does not rely on SNMP community names as it is in versions 1 and v2c. Status mode Press button. Modify mode 1) SNMP users Shows the list of configured SNMPv3 users;
2) User name (<=31 characters) Enter SNMPv3 authentication user name. Length can be up to 31 symbols;
3) Authentication password
(8..31 characters) Enter SNMPv3 authentication password. Length can be between 8 and 31 symbols;
SAF Tehnika JSC 113 INTEGRA/-S/-G/-GS User Manual WEB GUI 4) Privacy password (8..31 characters) Enter SNMPv3 data encryption password (AES protocol is used on the SNMP agents side). Length can be between 8 and 31 symbols;
5) Access Select Read for read-only access or Write for read-write access;
6) Add/Delete Use to add or delete selected user name. To delete user names from the list, click on the required user name in the list above;
7) Hide passwords(-s) Uncheck to display passwords for selected SNMPv3 user;
8) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS;
9) SNMPv3 security settings Shows SNMPv3 security settings used;
10) Download MIB file Click to download Integra/Integra-S/Integra-G/Integra-GS MIB files. System Configuration Configuration file Shows saved and running configurations, highlighting differences between both (unsaved changes). SAF Tehnika JSC 114 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode SAF Tehnika JSC 115 INTEGRA/-S/-G/-GS User Manual WEB GUI 1) Download Press to download the system configuration txt file and save it on your hard drive. 2) All/VLAN Select All to restore the complete configuration or VLAN to restore only VLAN configuration. 3) Choose File Press to browse for a saved configuration file on your hard disk drive. 4) Cfg import Press to upload a configuration file to the Integra/Integra-S/Integra-
G/Integra-GS. Uploaded configuration overwrites the saved configuration. 5) Cfg restore Press to restore saved system configuration, i.e. unsaved changes will be discarded!
Restoring configuration overwrites running configuration with the saved configuration. 6) Cfg factory Resets system configuration to factory defaults. 7) Saved configuration Shows saved system configuration. 8) Running configuration Shows currently running system configuration. Distinct sections in saved and running configurations are highlighted in color. To examine particular differences expand highlighted sections of configuration by clicking on the down arrow of the appropriate configuration section. CLI commands (Chapter 4: COMMAND LINE INTERFACE) configuration factory configuration factory aggr configuration factory modem configuration factory sysd configuration factory sync_e configuration factory netsys
{mac-table|port-
state|qos|rate|vlan}
configuration load configuration status configuration store configuration download configuration import {all | VLAN}
<filename>
Use to reset system configuration to factory defaults. Use to reset aggregation configuration to factory defaults. Use to reset modem configuration to factory defaults. Use to reset the whole system configuration to factory defaults. Use to reset SyncE configuration to factory defaults. Use to reset whole Ethernet configuration to factory defaults or particular sections using subcommands mac-table for MAC table; port-state for port state configuration; qos for QoS configuration; rate for rate limit configuration; vlan for VLAN configuration. Use to restore saved system configuration, i.e. unsaved changes will be discarded!
Use to check whether the running configuration is saved. Use to save the running configuration. Use to create a copy of the saved configuration file as a txt file in the FTP directory. Use to restore the configuration from a txt file stored in the FTP directory. SAF Tehnika JSC 116 INTEGRA/-S/-G/-GS User Manual WEB GUI System Configuration Users configuration Integra/Integra-S/Integra-G/Integra-GS features 2 default user accounts admin (full control) and guest (read-only). Status mode Press button. SAF Tehnika JSC 117 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Users Shows the list of available users (Username), full name (if specified), permissions, and whether the user is active (enabled). 2) Press New to create a new user or click on a user from the list and choose to modify (Change) or delete the user (Delete). New user / Selected user 3) Name (2..32 characters) Enter a user name. The length is between 2 and 32 characters;
4) Full name (4..32 characters) Enter the full name of the user (New user) or modify the existing users name. The length is between 4 and 32 characters;
5) Permission Select read-only or read/write permissions. A user with read/write permissions can change the configuration, while a user with read-only permissions can monitor link status only;
6) Enable Enable or disable the user;
7) Enter new password (4..32 characters) Enter a new password. The length is between 4 and 32 characters;
8) Confirm new password (4..32 characters) Confirm new password. The length is between 4 and 32 characters;
9) Hide password Uncheck to display the entered password in plaintext. 10) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. By default, the password for the admin account is changeme, while no password is defined for the guest account (user disabled). CLI commands (Chapter 4: COMMAND LINE INTERFACE) system user info system user mgmt <username>
access {r|w}
system user mgmt <username>
delete system user mgmt <username>
Use to show information on the current user. Use to set read (r) or write (w) access right for particular <username>. Use to delete particular <username>. admin user cannot be deleted. Use to enable or disable particular <username>. SAF Tehnika JSC 118 INTEGRA/-S/-G/-GS User Manual WEB GUI
{enable|disable}
system user mgmt <username>
info system user mgmt <username>
password <password>
system user new <username>
<password> {r|w} <fullname>
system user factory system password change
<password>
system password reset Use to show information on particular <username>. Use to set password for particular <username>. Use to create new user with specified <username>,
<password>, <fullname> and read (r) or write (w) permissions. Use to reset all users to factory defaults. Use to change the password for the current user. Use to reset all passwords to default. System Configuration System configuration Specify DNS servers, time settings, and system/location names. DNS servers have to be added before adding domain names to the NTP list. SAF Tehnika JSC 119 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) System name Allows entering a preferable system name. The maximum length of the system name cannot exceed 16 symbols. The default name is SAF. SAF Tehnika JSC 120 INTEGRA/-S/-G/-GS User Manual WEB GUI 2) Location name Allows entering preferable system location name. The maximum length of the location name cannot exceed 16 symbols. By default, the system location is not specified. 3) Timezone Allows specifying the time zone. 4) Time (YY-MM-DD hh:mm:ss) Allows changing system date and time manually by entering date and time in a specific syntax. 5) Set local machine time Press to force the system to use the time set on your PC, from which you are connected to the Web GUI. 6) List of DNS servers - Allows adding or deleting IP addresses of DNS servers. 7) Possibility to resolve domain names to check if DNS requests are working. 8) NTP client Allows enabling or disabling the NTP (Network Time Protocol) client. 9) List of NTP servers Allows adding or deleting IP addresses or domain names of NTP servers. 10) Obtain time from NTP server Press to force the system to obtain the time from an NTP server. 11) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. CLI commands (Chapter 4: COMMAND LINE INTERFACE) system datetime [<datetime>]
system name [<name>]
system location [<location>]
system uptime system ntp status system dns dig <domain_name>
system dns server add
<IP_address>
system dns server remove
<IP_address>
system dns server clear system ntp {enable|disable}
system ntp server add
<IP_address|domain _name>
system ntp server remove
<IP_address|domain_name>
system ntp server clear system ntp timezone [<-12:00 ... 14:00>]
system ntp sync Use to show/set system time and date. Use YYYY-MM-
DD/hh:mm:ss syntax for date/time. Use to show/define system name. Use to show/define system location. Use to show system uptime since the last system start. Use to show NTP status. Use to resolve the domain name. Use to add an IP address of a DNS server. Use to remove an IP address of a DNS server. Use to clear the list of DNS servers. Use to enable or disable NTP client. Use to add an IP address or a domain name of an NTP server. Use to remove an IP address or a domain name of an NTP server. Use to clear the list of NTP servers. Use to show/define the UTC time zone. Use to force the system to obtain the time from an NTP server. System Configuration System services Define Web GUI connection parameters and centralized user management (RADIUS). Refer to Chapter RADIUS authentication for an example of RADIUS configuration. SAF Tehnika JSC 121 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. SAF Tehnika JSC 122 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) HTTP Allows disabling or enabling HTTP access to Web GUI. By default, HTTP access is enabled. 2) HTTP port Allows specifying TCP port for Web GUI access via HTTP. By default TCP port 80 is defined. 3) HTTPS Allows disabling or enabling HTTPS access to Web GUI. By default, HTTPS access is enabled. 4) HTTPS port Allows specifying TCP port for Web GUI access via HTTPS. By default TCP port 443 is defined. 5) Redirect HTTP to HTTPS Allows enabling automatic redirect from HTTP to HTTPS. 6) HTTPS certificate state Indicates whether a self-signed SAF certificate (Internal) is used or the customers custom-defined (External). 7) HTTPS certificate (PEM) Allows defining custom HTTPS certificate private key
(PEM). 8) RADIUS - Allows enabling or disabling RADIUS (Remote Authentication Dial-In User Service). By default, RADIUS is disabled. 9) RADIUS port Allows specifying RADIUS port. By default port 1812 is defined. 10) RADIUS server IP address Allows specifying RADIUS server IP address. 11) Set RADIUS password Allows specifying RADIUS password. 12) Confirm RADIUS password Allows confirming RADIUS password. 13) SSH - Allows enabling or disabling SSH (Secure Shell). By default, SSH is enabled. 14) SSH port Allows specifying SSH port. By default port 22 is defined. SAF Tehnika JSC 123 INTEGRA/-S/-G/-GS User Manual WEB GUI 15) SSH Login banner Allows specifying SSH Login banner displayed after successful SSH login. 16) Telnet - Allows enabling or disabling Telnet. By default, Telnet is disabled. 17) Telnet port Allows specifying Telnet port. By default port 23 is defined. 18) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. 19) Reboot Reboots Integra/Integra-S/Integra-G/Integra-GS (cold restart). CLI commands (Chapter 4: COMMAND LINE INTERFACE) Use to show status or enable/disable HTTP service. Use to show/change the port number for HTTP service. system service http
[{enable|disable}]
system service http port [<port>]
system service https
[{enable|disable}]
system service https port [<port>] Use to show/change the port number for HTTPS service. system service redirect
[{enable|disable}]
system radius status system radius {enable|disable}
system radius addr <IP_address> Use to define RADIUS server IP address. Use to show status or enable/disable HTTP redirection to HTTPS. Use to show RADIUS configuration status. Use to enable or disable RADIUS configuration. Use to show status or enable/disable HTTPS service. system radius port <port>
system radius secret <psw>
system service ftp
[{enable|disable}]
system service ssh status system service ssh
[{enable|disable}]
system service ssh port {set
<port>|reset}
system service telnet status system service telnet
[{enable|disable}]
system service telnet port {set
<port>|reset}
Use to define a port number of a RADIUS server. By default port 1812 is defined. Use to define RADIUS server password. Use to show status or enable/disable FTP service. Use to show the status of SSH service. Use to enable/disable SSH service. Use to define/reset a port number of SSH service. By default port 22 is defined. Use to show the status of TELNET service. Use to enable/disable TELNET service. Use to define/reset the port number of the TELNET service. By default port 23 is defined. System Configuration Syslog Integra/-S/-G/-GS supports the Syslog standard for system management message logging and sending to a monitoring Syslog server. SAF Tehnika JSC 124 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) Syslog service allows enabling 2) Facility code allows selecting facility code for the Syslog messages from the device. Messages with different facility codes may be handled differently on the Syslog server. The following facility codes are possible:
Syslog service on the device;
or disabling a. 16 (local0);
b. 17 (local1);
c. 18 (local2);
d. 19 (local3);
e. 20 (local4);
f. 21 (local5);
g. 22 (local6);
h. 23 (local7);
3) Server severity allows selecting maximal severity (priority) level for sensor log event messages that will be sent from the device to the Syslog server. Each sensor has 4 log event types that trigger Syslog message sending:
SAF Tehnika JSC 125 INTEGRA/-S/-G/-GS User Manual WEB GUI a. set indicates the time when the current sensor value comes out of the normal value range or the current sensor value is not valid at all;
b. reset indicates the time when the current sensor value comes back to normal value range from the previous set event state;
c. down indicates the time when the sensor stops receiving data about the parameter it monitors, for example, due to some hardware fault;
d. up indicates the time when the sensor recovers data reception about the parameter it monitors from the previous down event state;
Additionally, each event type can have one of 8 severity levels:
a. 0 (emerg);
b. 1 (alert);
c. 2 (crit);
d. 3 (error);
e. 4 (warn);
f. 5 (notice);
g. 6 (info);
h. 7 (debug);
By default all sensors have the following severity levels for each of their 4 event types:
reset notice;
a. set alert;
b. c. down alert;
d. up notice;
Log event severity can be changed with the CLI command log sensor mgmt <sensor>
message <event> <severity>. 4) Syslog label allows selecting additionally textual labeling/tagging for Syslog messages;
5) Syslog server IP allows configuring an IP address for the Syslog server where the device should send Syslog messages;
6) Syslog server port allows configuring port that the device should use for Syslog message sending. 7) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. CLI commands (Chapter 4: COMMAND LINE INTERFACE) log syslog cfg log syslog disable log syslog enable log syslog facility <facility code>
log syslog ip <IP address>
log syslog label <syslog_label>
log syslog port <syslog_port>
log syslog severity <severity>
log group mgmt <name> add destination {event|perf|snmp|syslog}
log group mgmt <name> remove destination {event|perf|snmp|syslog}
log sensor mgmt <sensor> message
<event> <severity>
Use to show current Syslog configuration Use to disable Syslog message sending Use to enable Syslog message sending Use to set facility code for Syslog messages Use to set an IP address for the Syslog server Use to set label/tag for Syslog messages Use to set a port for the Syslog server Use to set the maximal severity level for Syslog messages that will be sent from the device Use to add a destination for a group. Use to remove a destination from a group. Use to set the severity level for sensor event log messages System Diagnostic Loopback configuration Loopback configuration allows verifying system operation. SAF Tehnika JSC 126 INTEGRA/-S/-G/-GS User Manual WEB GUI Status mode Press button. Modify mode 1) Modem loopback Indicates whether modem loopback is active (status mode);
Allows enabling modem loopback by changing status to On and specifying loopback duration time (modify mode). During modem loopback, the signal is looped back to the local end after the modem and Integra/Integra-S/Integra-G/Integra-GS should be able to synchronize to itself. Both MSE and FEC load should not generate an alarm (values should not be colored in red). When loopback is activated, Loopback duration time countdown timer will appear. 2) By pressing Execute configuration, changes made to the corresponding section apply only to the local side Integra/Integra-S/Integra-G/Integra-GS. While modem loopback is active Modem loopback: Enabled, digital indication will be shown on the Main status page. Below is an example of the Main status page during modem loopback:
SAF Tehnika JSC 127 INTEGRA/-S/-G/-GS User Manual WEB GUI CLI commands (Chapter 4: COMMAND LINE INTERFACE) modem loopback modem loopback digital
<10..1000000>
modem loopback digital none Use to show modem loopback status. Use to enable modem loopback for a specified time in seconds. Use to disable modem loopback. System Diagnostic Download troubleshooting file By navigating to the Download troubleshooting file a .tar.gz archive containing various troubleshooting data files will be automatically generated and downloaded to your PC. When contacting SAF technical support team (techsupport@saftehnika.com) regarding troubleshooting issues, please provide the troubleshooting file. SAF Tehnika JSC 128 INTEGRA/-S/-G/-GS User Manual WEB GUI Clicking on the link will download the troubleshooting file archive package to your hard disk drive (Downloads folder of your browser). Contents:
conf config.txt constell.bmp devel.tar.gz eventlog.txt Perflog.xml Subfolder with last configuration files. Saved system configuration file Snapshot of modem constellation graph. For debugging only Alarm-event log file Performance log with maximum 1440 entries for 1, 15, and 60-minute intervals spectrum.bmp Snapshot of modem Rx spectrum graph. troubleshoot.html Information on currently running firmware and stored firmware files; system configuration including Web services, RADIUS, IP address, user, NTP configuration, and inventory info; SNMP v1/v2c/v3 configuration; alarm status, alarm threshold, and sensor configurations; radio status, configuration, and counters; currently active license and added license files; modem including modem status and configuration, counters, list of allowed modem profiles, header compression; Ethernet configuration and counters of LAN, WAN and MNG ports. SAF Tehnika JSC 129 INTEGRA/-S/-G/-GS User Manual WEB GUI System Tools License management Provides a list of available licenses, time left for each license, and license upload controls. Status mode Press button. SAF Tehnika JSC 130 INTEGRA/-S/-G/-GS User Manual WEB GUI Modify mode 1) Available licenses shows a list of available licenses, remaining time, and version;
2) Select active license automatically selects the currently active license from the list;
3) Activate Select a license from the list and press Activate to switch to the preferable license;
4) Choose file&Upload Press to browse for a license file (*.lic) on your hard disk drive. Press Upload to upload a license file (*.lic) to the Integra/Integra-S/Integra-
G/Integra-GS;
5) Selected shows version and time of currently selected license;
6) Modem shows modem settings of the currently selected license;
7) Ethernet shows the Ethernet rate limitation of the currently selected license. CLI commands (Chapter 4: COMMAND LINE INTERFACE) license list license list active license file list license file add <filename>
license file activate <filename>
license file restriction
<filename>
Use to list available licenses. Use to view the settings of a currently active license. Use to list available license files. Use to add uploaded the license file to the license file list from the FTP directory. Use to activate previously added license file. Use to view the settings of a license file. System Tools License management, steps on adding and activating a new license For activating a license please follow these steps:
1) Open the License management page in Web GUI System/Tools/License management SAF Tehnika JSC 131 INTEGRA/-S/-G/-GS User Manual WEB GUI 2) Press MODIFY button. 3) Press Choose File or Browse (depending on the browser used), navigate to the license file (*.lic), select it, and press Upload 4) Choose the uploaded license from the list and press Activate button. If a new license supports the current modem configuration, no configuration changes will be applied and link synchronization will not be disrupted. If the modem was configured to a modem configuration that is not supported by the new license key, the modem will be reconfigured to the maximum allowed configuration in the chosen channel bandwidth. When the license expires, the modulation will drop to 4QAM FEC Limited and the link capacity will drop to 256Kbps. When the license expires, the next license in the list needs to be activated manually. Version 1 licenses always have an Unlimited Ethernet rate limit. System Tools Console Provides CLI functionality in Web GUI. SAF Tehnika JSC 132 INTEGRA/-S/-G/-GS User Manual WEB GUI Use syntax <command> ? to see information on subcommands. Use ENTER key to execute entered command. A list of valid CLI commands can be found at the end of each Web GUI page description. Refer to Chapter 4: COMMAND LINE INTERFACE for details on how to connect to other CLI interfaces (serial, SSH, Telnet). System About About System Provides a short description of Integra/Integra-S/Integra-G/Integra-GS series products. SAF Tehnika JSC 133 INTEGRA/-S/-G/-GS User Manual WEB GUI System About Copyright Displays copyright information. System About Inventory Displays hardware-related information. SAF Tehnika JSC 134 INTEGRA/-S/-G/-GS User Manual WEB GUI CLI commands (Chapter 4: COMMAND LINE INTERFACE) product info system number Use to show detailed information on the Integra/Integra-
S/Integra-G/Integra-GS FODU. Use to show the Integra/Integra-S/Integra-G/Integra-GS serial number. SAF Tehnika JSC 135 INTEGRA/-S/-G/-GS User Manual COMMAND LINE INTERFACE Chapter 4: COMMAND LINE INTERFACE Command-line interface (CLI) is available via 4 individual interfaces:
- Secure Shell (SSH);
- Telnet;
- Serial terminal;
- Web GUI (System Tools Console, partial functionality) The available CLI commands are found in CLI commands tables in each corresponding Web GUI page section in Chapter 3: WEB GUI. For SSH, Telnet, or serial connection you can use any client supporting corresponding interfaces (e.g. PuTTY, Tera Term, etc.). CLI commands are not case-sensitive. A User can abbreviate commands and parameters as long as they contain enough letters to be distinguished from any other currently available commands or parameters. Useful CLI keyboard shortcuts can be printed by CLI command help. Note that on the Console page in Web GUI (System Tools Console) those shortcuts will not work. Connecting to serial RS232 interface To connect to an Integra/Integra-S/Integra-G/Integra-GS serial terminal, you will require a USB cable with a USB Type B connector. Please refer to Chapter USB port for pinouts. To connect the PC to the RS232 management port, using serial terminal-emulation software
(e.g. PuTTY), use the following parameters:
Baud rate: 115200 Data bits: 8 Parity: None Stop bits: 1 Data flow control: None Below are connection steps with PuTTY - Windows freeware software. 1. Open PuTTY and go to Serial category. Specify the COM port number you will be using, and change Speed (baud) to 115200 and Flow control to None:
SAF Tehnika JSC 136 INTEGRA/-S/-G/-GS User Manual COMMAND LINE INTERFACE 2. Press Open and after pressing Enter key following login dialog should appear:
3. Enter username and password. Default credentials are as follows:
login: admin password: changeme 4. After successful login SAF> prompt should appear (prompt will differ if the system name is not the default one):
5. Press Ctrl+C to log off from the current session. Closing the PuTTY window does not log off from the current serial terminal session. SAF Tehnika JSC 137 INTEGRA/-S/-G/-GS User Manual COMMAND LINE INTERFACE Connecting to SSH The SSH connection to the Integra/Integra-S/Integra-G/Integra-GS FODU is carried out using an Ethernet management connection. Please refer to the chapter Ethernet management connection configuration for Ethernet management port connection details. You can use any SSH client. Below are connection steps with PuTTY - Windows freeware software. 1. Open PuTTY, choose Connection Type: SSH, enter the IP address, and make sure that the correct port number is used (22 by default):
2. Press Open, and enter login credentials (default user name is admin and password -
changeme). After successful login, the following prompt should appear:
3. Enter username and password. Default credentials are as follows:
login: admin password: changeme 4. After successful login SAF> prompt should appear (prompt will differ if the system name is not the default one):
SAF Tehnika JSC 138 INTEGRA/-S/-G/-GS User Manual COMMAND LINE INTERFACE Connecting to Telnet A Telnet connection to the Integra/Integra-S/Integra-G/Integra-GS FODU is carried out using the Ethernet management connection. Please refer to Chapter Ethernet management connection configuration for Ethernet management port connection details. By default Telnet service is disabled. See the chapter System Configuration System services on how to manage system services. You can use any Telnet client. Below are connection steps with PuTTY - Windows freeware software. 1. Open PuTTY, choose Connection Type: Telnet, enter the IP address, and make sure that the correct port number is used (23 by default). 2. Press Open to connect. After a successful connection following prompt should appear:
3. Enter username and password. Default credentials are as follows:
login: admin password: changeme 4. After successful login SAF> prompt should appear (prompt will differ if the system name is not the default one):
SAF Tehnika JSC 139 INTEGRA/-S/-G/-GS User Manual 17/24GHz Chapter 5: 17/24GHz Polarization Considerations Polarizations at both ends of the link must be opposite for the 17/24 GHz Integra/
Integra-S/Integra-G/Integra-GS FODUs. For example:
If High side radio is installed in Horizontal polarization, then Low side radio must be installed in Vertical polarization:
Changing the radio side 1) Access the Web GUI of the remote side radio first. Check its current radio side value on the Main page:
2) Go to System -> Console and execute the command radio side high to change the radio side to High (in this particular example) or radio side low to change the radio side to Low. You will lose the connection to your remote side now. 3) Access the Web GUI of the local side radio. Check its current radio side value on the Main page:
4) Go to System -> Console for the local side unit and execute the command radio side low to change the radio side to Low (in this particular example) or radio side high to change the radio side to High. The connection to your remote side now will be restored. 5) Save the configuration on both radios. SAF Tehnika JSC 140 INTEGRA/-S/-G/-GS User Manual 17/24GHz Radio configuration extra fields This chapter describes only the differences in the configuration for the 17/24 GHz Integra/Integra-S/Integra-G/Integra-GS FODUs. For the configuration in general, refer to the chapter Over The Air Radio Configuration. Status mode Press button. Modify mode 1) Duplex shift Indicates the value between the transmitter frequency and receiver frequency (status mode); allows specifying the value of duplex shift in MHz (modify mode) 2) Antenna Indicates the set size of the installed antenna (status mode); allows specifying the diameter of the installed antenna in cm (modify mode). Max Tx power settings depend on national regulatory EIRP allowance and antenna size. Available values - 20, 30, 60, 99, 120 cm. 3) Country Indicates the set country code (status mode); allows specifying the country code (modify mode). Max Tx power settings depend on national regulatory EIRP allowance and antenna size. Available values - AU, AT, BE, BG, CA, CY, CZ, DK, EE, FI, FR, DE, GR, HU, IE, IR, IT, LV, LT, LU, MT, NL, PL, PT, RO, SK, SI, ES, SE, UK, US, Custom. CLI commands (Chapter 4: COMMAND LINE INTERFACE) radio duplex-shift [<value>]
Use to show/define the value of the duplex shift in kHz. radio eirp set <antenna> <country>
Use to define antenna size in cm and country code. radio [status]
Use to show radio status and existing values. SAF Tehnika JSC 141 INTEGRA/-S/-G/-GS User Manual 17/24GHz Setting bandwidth to 60MHz This chapter describes only the differences in setting 60 MHz bandwidth for the 17/24 GHz Integra/Integra-S/Integra-G/Integra-GS FODUs. For the configuration in general, refer to the chapter Over The Air Radio Configuration. 1) Access the Web GUI. Configure the Tx frequency to 17130MHz (17GHz) or 24080MHz
(24GHz) if it is low side unit. If it is a high side unit, configure the Tx frequency to 17270MHz
(17GHz) or 24220MHz (24GHz). 2) Configure the Duplex shift to 140 MHz. 3) Configure the Bandwidth profile by selecting the needed 60 MHz profile (ETSI/FCC, with/without AES, G-series/Legacy). 4) Configure the Modem profile and press Execute for both. 5) Save the configuration on both radios. SAF Tehnika JSC 142 INTEGRA/-S/-G/-GS User Manual TOOLS Chapter 6: FUNCTIONAL DESCRIPTION Integra-G block diagram The general internal block diagram of Integra-G is shown below. It has a built-in Gigabit Ethernet Network Processor that has three LAN ports: LAN1 - 1Gbps PoE-in port that you need to use for powering Integra-G, please refer to Powering Integra/Integra-S/Integra-
G/Integra-GS FODU and connecting to PC for more information, Error! Reference source not found. LAN2, and LAN3 SFP ports, please refer to SFP ports to see the SFP compatibility. To get more information about other interfaces, please refer to Chapter 8: INTERFACES section. ACM (Adaptive Coding and Modulation) ACM technology allows operators to achieve high-capacity data transmission over microwave links and improve link utilization. This reduces both operational and capital expenditures for maintaining high-capacity links. ACM can maintain the highest link spectral efficiency possible at any given time in any link condition. In traditional voice-dominated wireless backhaul transmission networks, service availability levels of 99.995% are the norm. However, newer services such as Internet browsing, video streaming, and video conferencing can operate at more relaxed availability levels. With the use of QoS prioritizing ACM can allocate the required availability based on the priority. As a result, high-priority services such as voice enjoy 99.995% availability, while low-priority services like video streaming are allocated lower priorities. Use of QoS prioritizing defines which services should be transmitted under any link condition and which services should be adapted whenever the link condition is degraded and the link payload is decreased. For example, when bad weather has decreased the channel capacity of a link, ACM maintains high-priority services such as voice data with full bandwidth capacity while adapting the bandwidth capacity of low- and mid-priority services such as Internet browsing. SAF Tehnika JSC 143 INTEGRA/-S/-G/-GS User Manual TOOLS Traffic can be mapped into different priorities, which define the level of service for each application. The figure below illustrates how different services such as rich voice and video are mapped into different classes of availability (CoA) such as 99.995% or 99.687%. The implementation of multiple priorities increases the available capacity up to 10 times that of standard links. When conditions are clear, the wireless link operates at maximum capacity and provides all services with the full data rate. When link conditions are poor during harsh rain, for example predefined high-availability services such as voice are not affected. However, the capacity of low-priority services is adapted dynamically to the changing link conditions. This is done by provisioning bandwidth according to the link conditions and traffic priority. An ACM profile defines the link parameters (modulation) for a given range of the MSE
(Mean Square Error), which is the inverse of SNR (Signal to Noise Ratio). The MSE range of each profile defines the threshold for switching from one ACM profile to another. Each ACM profile has a different spectral efficiency, derived from its modulation and FEC mode. FEC mode can be Weak or Strong depending on FEC overhead size smaller or weaker respectively. As a result, Weak FEC mode provides higher throughput (510%) sacrificing 2-
4dB of sensitivity, and vice versa for StrongFEC. To maintain linearity, Tx power decreases for higher modulations. Tx power difference between 4QAM and 1024QAM is 8dB. The receiver continuously monitors the link condition based on MSE value. Once the MSE exceeds the threshold of the current ACM profile, an ACM switching process will be initiated. In the case of degradation in the link performance, the new ACM profile will include lower modulation, decreasing the link bitrate. The ACM switching rate is hitless, meaning that no data will be lost during a change of ACM profiles. MSE values for ACM downshift and upshift can be found in the table below. MSE for ACM (fixed / variable power, dB) 16QAM SF4QAM SF 4QAM SF16QAM SF 32QAM SF16QAM SF 16QAM SF32QAM SF 64QAM SF32QAM SF 32QAM SF64QAM SF 128QAM SF64QAM SF 3.5 MHz
-17.9 / -19.9
-19.9 / -22.3
-22.1 / -23.7
-24.0 / -24.3
-24.6 / -25.7
-26.1 / -27.4
-28.3 / -28.6 5 MHz
-18.0 / -19.7
-19.4 / -20.9
-22.2 / -23.3
-23.6 / -25.5
-24.3 / -25.3
-26.0 / -27.5
-27.5 / -28.7 SAF Tehnika JSC 144 INTEGRA/-S/-G/-GS User Manual TOOLS 64QAM SF128QAM SF 128QAM WF128QAM SF 128QAM SF128QAM WF 16QAM SF4QAM SF 4QAM SF16QAM SF 32QAM SF16QAM SF 16QAM SF32QAM SF 64QAM SF32QAM SF 32QAM SF64QAM SF 128QAM SF64QAM SF 64QAM SF128QAM SF 256QAM SF128QAM SF 128QAM SF256QAM SF 256QAM WF256QAM SF 256QAM SF256QAM WF 16QAM SF4QAM SF 4QAM SF16QAM SF 32QAM SF16QAM SF 16QAM SF32QAM SF 64QAM SF32QAM SF 32QAM SF64QAM SF 128QAM SF64QAM SF 64QAM SF128QAM SF 256QAM SF128QAM SF 128QAM SF256QAM SF 512QAM SF256QAM SF 256QAM SF512QAM SF 512QAM WF512QAM SF 512QAM SF512QAM WF 16QAM SF4QAM SF 4QAM SF16QAM SF 32QAM SF16QAM SF 16QAM SF32QAM SF 64QAM SF32QAM SF 32QAM SF64QAM SF 128QAM SF64QAM SF 64QAM SF128QAM SF 256QAM SF128QAM SF 128QAM SF256QAM SF 512QAM SF256QAM SF 256QAM SF512QAM SF 1024QAM SF512QAM SF 512QAM SF1024QAM SF 1024QAM WF1024QAM SF 1024QAM SF1024QAM WF 20 MHz FCC
-16.7 / -17.9
-18.4 / -20.2
-20.5 / -20.8
-22.3 / -23.4
-23.5 / -23.9
-25.2 / -26.5
-26.3 / -27.0
-28.2 / -29.4
-24.8 / -30.5
-31.6 / -33.5
-32.6 / -33.6
-34.3 / -36.0
-36.1 / -36.8
-37.5 / -39.0
-38.6 / -38.8
-39.9 / -39.9
-29.7 / -30.5
-31.5 / -30.5
-32.3 / -32.0 7 MHz
-18.0 / -18.9
-19.5 / -20.5
-21.5 / -22.9
-23.2 / -25.0
-24.3 / -24.4
-25.9 / -26.5
-26.9 / -27.5
-28.5 / -29.7
-30.3 / -31.6
-32.0 / -35.2
-32.9 / -34.1
-34.3 / -35.5
-29.1 / -30.9
-31.4 / -30.9
-32.7 / -32.0 10 MHz
-18.0 / -18.5
-19.1 / -20.4
-21.8 / -22.2
-23.2 / -24.4
-23.8 / -23.4
-25.5 / -26.3
-27.5 / -27.4
-28.9 / -29.7
-30.4 / -31.1
-31.9 / -34.1
-33.3 / -33.6
-34.9 / -34.9 14 MHz
-18.2 / -18.3
-19.6 / -20.3
-21.7 / -21.3
-23.4 / -23.5
-23.7 / -23.8
-25.5 / -26.2
-27.1 / -27.3
-28.7 / -29.9
-30.1 / -31.2
-31.8 / -34.7
-33.3 / -34.3
-34.7 / -36.5
-36.5 / -37.3
-38.1 / -39.1 20 MHz ETSI
-16.7 / -18.2
-18.3 / -19.9
-20.6 / -21.6
-22.7 / -23.5
-23.2 / -24.2
-25.2 / -26.5
-26.5 / -27.1
-28.2 / -29.2
-29.8 / -30.5
-31.3 / -34.1
-32.9 / -33.7
-34.5 / -35.9
-36.4 / -37.0
-37.8 / -39.0
-38.3 / -38.8
-39.6 / -40.2 25 MHz
-16.2 / -17.5
-18.8 / -20.3
-20.9 / -21.2
-22.5 / -23.6
-23.2 / -23.8
-25.2 / -25.8
-26.2 / -26.9
-27.7 / -28.5
-29.4 / -30.1
-31.3 / -32.9
-32.8 / -33.1
-34.3 / -34.8
-36.4 / -36.4
-37.5 / -38.2
-38.0 / -37.7
-39.6 / -39.0 SAF Tehnika JSC 145 INTEGRA/-S/-G/-GS User Manual TOOLS 16QAM4QAM 4QAM16QAM 32QAM16QAM 16QAM32QAM 64QAM32QAM 32QAM64QAM 128QAM64QAM 64QAM128QAM 256QAM128QAM 128QAM256QAM 512QAM256QAM 256QAM512QAM 1024QAM512QAM 512QAM1024QAM 2048QAM1024QAM 1024QAM2048QAM 16QAM4QAM 4QAM16QAM 32QAM16QAM 16QAM32QAM 64QAM32QAM 32QAM64QAM 128QAM64QAM 64QAM128QAM 256QAM128QAM 128QAM256QAM 512QAM256QAM 256QAM512QAM 1024QAM512QAM 512QAM1024QAM 2048QAM1024QAM 1024QAM2048QAM 28 MHz 30 MHz 40 MHz FCC
-17.0 / -17.5
-18.6 / -19.9
-20.2 / -20.9
-22.6 / -23.2
-22.9 / -23.6
-24.7 / -25.3
-26.5 / -26.7
-27.9 / -28.6
-29.6 / -30.1
-31.3 / -33.1
-32.8 / -33.1
-34.5 / -35.2
-36.3 / -36.1
-36.5 / -37.9
-38.1 / -38.4
-39.4 / -39.0
-17.2 / -17.5
-18.8 / -19.6
-21.2 / -20.7
-22.5 / -23.0
-24.1 / -23.6
-25.5 / -25.6
-27.0 / -26.9
-28.0 / -28.6
-29.9 / -30.1
-31.4 / -33.1
-33.2 / -32.8
-34.5 / -35.0
-36.2 / -36.4
-37.4 / -38.1
-39.3 / -38.1
-40.5 / -39.0
-16.9 / -17.9
-18.7 / -19.7
-20.8 / -21.7
-22.5 / -23.6
-23.6 / -23.7
-24.9 / -25.4
-26.9 / -26.6
-28.2 / -28.8
-30.0 / -30.3
-31.3 / -32.4
-32.9 / -33.1
-34.3 / -34.6
-36.2 / -36.0
-37.1 / -37.6
-39.4 / -37.5
-40.0 / -38.4 50 MHz 56 MHz 60 MHz FCC
-17.3 / -17.8
-18.7 / -19.7
-20.8 / -20.8
-22.3 / -23.1
-23.4 / -23.9
-24.2 / -25.6
-26.7 / -26.8
-27.9 / -28.7
-29.8 / -30.1
-30.9 / -32.6
-32.7 / -33.1
-33.9 / -34.8
-36.0 / -36.1
-36.8 / -37.5
-39.1 / -37.5
-39.7 / -38.6
-17.3 / -17.1
-18.5 / -19.5
-20.8 / -20.6
-22.2 / -22.8
-23.8 / -23.2
-24.7 / -25.1
-26.6 / -27.2
-27.7 / -28.2
-29.7 / -29.5
-30.8 / -32.1
-33.0 / -32.5
-33.9 / -34.4
-35.9 / -35.6
-36.8 / -37.1
-38.7 / -37.1
-39.3 / -38.0
-17.2 / -18.1
-18.5 / -19.1
-20.8 / -20.9
-21.9 / -22.6
-23.7 / -23.7
-24.8 / -25.1
-27.1 / -27.1
-27.9 / -27.8
-29.7 / -29.5
-30.9 / -31.8
-32.6 / -32.8
-34.0 / -34.6
-36.1 / -35.9
-36.7 / -37.1
-38.9 / -37.2
-39.3 / -38.1 40 MHz ETSI
-17.1 / -17.4
-18.8 / -19.5
-20.9 / -20.9
-22.4 / -23.0
-23.7 / -23.4
-24.8 / -25.3
-26.9 / -26.6
-28.0 / -28.8
-30.0 / -30.5
-31.6 / -32.5
-32.7 / -33.1
-34.2 / -34.8
-36.1 / -36.1
-37.1 / -37.5
-39.4 / -37.5
-39.9 / -38.6 60 MHz ETSI
-17.6 / -18.0
-18.0 / -18.4
-21.0 / -21.0
-22.1 / -22.0
-23.6 / -23.9
-24.9 / -24.4
-26.6 / -27.1
-27.8 / -28.1
-29.8 / -31.0
-30.9 / -30.4
-33.0 / -32.9
-33.8 / -34.3
-36.3 / -35.5
-36.7 / -36.5
-38.9 / -37.0
-39.3 / -38.2 For example, the link is configured to 2048QAM modulation in 60MHz FCC bandwidth. To operate with the highest modulation (and maximum capacity), MSE should be <-38.9dB in fixed ACM mode or <-37.2dB in variable ACM mode. If MSE exceeds this threshold, ACM will downshift to 1024QAM StrongFEC. Degrading further below -36.1/-35.9dB will downshift to 512QAM modulation. The last ACM downshift will happen after exceeding -17.2/-18.1dB and the link will lose synchronization when MSE reaches -6.8dB. When MSE improves, upshift thresholds will be used. ACM will upshift back to 2048QAM modulation when MSE exceeds -39.3/-38.1dB in fixed ACM and variable ACM modes respectively. Alternatively, ACM can also be used to increase the link distance, resulting in added link spectral efficiency. The same concept is implemented as previously, with the margins that were kept for 99.995-percent bandwidth availability now used to increase the link distance. SAF Tehnika JSC 146 INTEGRA/-S/-G/-GS User Manual TOOLS Whenever the link conditions are degraded, the system will switch to an ACM profile with lower spectral efficiency to maintain link synchronization. The following real-world example the benefits of ACM. Consider an illustrates Integra/Integra-S/Integra-G/Integra-GS link operating at 23 GHz with 60 MHz channel spacing and an integrated antenna with 40.5 dBi (60cm/2ft) gain. The link is operating in a moderate rain zone G (30mm/h) at a distance of 11.3 kilometers (7 miles). The system operation is set to a minimal payload of 74Mbps (4QAM) Ethernet for 99.999%
annual availability. Most of the time system would operate at a full capacity of 474Mbps (1024QAM) instead of 74 Mbps (4QAM). The system automatically monitors MSE and changes the capacity without interrupting the data transmission and losing any frames (hitless). In comparison, a system using 1024QAM without ACM and providing similar capacity would offer only 99.964% of availability. You would have to decrease the distance, decrease modulation, or increase antenna sizes to achieve 99.999% availability for the given link. This example demonstrates how the new technology, based on an ACM mechanism, can play a key role in the development of cost-effective next-generation wireless access networks, by taking advantage of traffic evolution from synchronous TDM traffic to packet IP-
based traffic. ATPC (Automatic Transmit Power Control) ACM can be implemented together with automatic transmit power control (ATPC). ATPC reduces the average transmitted power as well as co-channel interference (CCI), and adjacent-channel interference (ACI), which is caused by extraneous power from a signal in an adjacent channel. It also enables a more efficient and cost-effective network frequency plan and deployment, as well as eliminating some of the receivers upfade problems by changing the transmitted power according to the link momentary conditions. The lower average Tx power also extends the equipments mean time between failures. ATPC can be used together with ACM to control the transmitted power in any given ACM profile. Different configurations can be implemented to achieve maximal spectral efficiency or minimal transmitted power using both features in combination. One implementation could target maximal spectral efficacy by trying to reach the highest ACM profile, while the other is SAF Tehnika JSC 147 INTEGRA/-S/-G/-GS User Manual TOOLS willing to compromise on some of the spectral efficiency enabling CCI and ACI reduction. In any chosen configuration, ATPC reduces the average transmitted power, benefiting each ACM profile and any link condition. Integra receives information about the Rx level from the far-end Integra through the service channel. Depending on the received Rx level parameter, the local Integra adjusts the transmitter power per the algorithm shown below. AES - Advanced Encryption Standard Encryption helps to protect information by transforming the original message, called plaintext into an encoded message, called ciphertext. For example, the plaintext message This is text, encoded might look like Rtx5$h. AES (Advanced Encryption Standard) is a standardized version of Rijndael cipher algorithm. The AES algorithm is capable of using cryptographic keys of 128, 192, and 256 bits to encrypt and decrypt data in blocks of 128 bits. Based on key size AES is named AES-128, AES-192, or AES-256. SAFs AES-256 encryption fully complies with Federal Information Processing Standards Publication 197 (2001). SAF Tehnika JSC 148 INTEGRA/-S/-G/-GS User Manual TOOLS The plaintext input 128-bit block is arranged in the form of a 4 x 4 square matrix of bytes. This block is copied into the state array, which is modified at each stage of encryption or decryption. After the final stage, the output state is copied to an output matrix. Encryption/decryption starts with an initial single transformation (AddRoundKey), followed by 13 rounds each containing four distinct transformation functions: byte substitution
(perform a byte-by-byte substitution of the block), ShiftRows (permutation), AddRoundKey
(bitwise XOR of the current block with a portion of the round key), and MixColumns (a substitution that makes use of arithmetic over bytes). The final round contains only the first three transformations of the above. Each transformation takes 4 x 4 matrices as input and produces a 4 x 4 matrix as output. The key expansion function generates 15 round keys to be used at rounds. Each round key serves as one of the inputs to the AddRoundKey transformation. Header compression In many applications such as Voice over IP (VoIP), interactive gaming, or messaging, the size of the header is significant compared to the size of the payload data. Over the end-to-end connection comprised of multiple hops, these headers are significant, but they can be omitted over a single link. It is beneficial to compress those headers to provide high-capacity packet saving, achieve better bandwidth utilization, and efficiently use expensive resources. Reduction in packet loss and improved interactive response time are additional important benefits gained by header compression. Header compression is accomplished by identifying packets with a recurring pattern of their header fields. Such header fields with recurring values are omitted and replaced with a much shorter tag (2 to 4 bytes). The tag that replaces the mask is known as a compression tag. SAF Tehnika JSC 149 INTEGRA/-S/-G/-GS User Manual TOOLS Packet Header Compression Header compression engine enables the compression of the following protocols over the radio link:
VLAN IPv4 IPv6 UDP TCP Header compression creates a compression gain which is the ratio between the original packet capacity and the compressed packet capacity. The compression gain achieved depends on the header and packet size, and the recurrence of the various packet types. For example, compressing Layer 2 and Layer 3 headers of a 128-byte long Ethernet frames yields more than 37% compression gain (this includes IFG, Preamble and FCS removal, and GFP-
added encapsulation), e.g. instead of 460 Mbps without Header compression, tests show 633 Mbps with Header Compression. In this example packets had Layer2+VLAN(0x8100)+VLAN(0x8100)+IPv4+TCP headers. See the picture below (header fields in white are not subject to compression). Besides, the removal of Layer1 Preamble (7 bytes), start frame delimiter (1 byte), FCS (4 bytes), and Interframe Gap (12 bytes) takes place. A handshake mechanism between the transmitter and the receiver ensures that header compression is synchronized on both sides of the link. The receiving side is removing the compression headers and reconstructing the original header fields. Header Replacement At the transmitter, the header is removed and replaced by the compression tag. One of the bits in the GFP header indicates to the receiver if the packet is compressed. The receiver uses compression tags to search the database for the original header fields. It then replaces the compressed tags with the original header fields. In case the original packet CRC was removed, a new CRC is recalculated at the MAC. Example with the same as above (2x802.1Q VLAN + IPv4 + TCP) 128-bytes frame:
SAF Tehnika JSC 150 INTEGRA/-S/-G/-GS User Manual TOOLS Header Compression Statistics The average compression gain is calculated by reading the byte counters in a resolution period of 1s. The compression measure the net compression gain and the gross compression gain:
Net compression gain represents the compression ratio in the percentage of the outgoing bytes of the header compression block to the incoming bytes. Gross compression represents the compression ratio in percentage between incoming bytes and outgoing bytes including the PLA and the GFP overheads. Adaptive equalizer The Integra/Integra-S/Integra-G/Integra-GS features an adaptive equalizer, which is a filter that automatically adapts to the time-varying properties of a communication channel with selective fading, having a target to compensate the inequalities in frequency response, mitigating the effects of multipath propagation. In wireless telecommunications, using QAM modulation this filter equalizes not only a separate quadrature channel, but provides cancellation of cross-interference between them. In Integra/Integra-S/Integra-G/Integra-GS, the adaptive equalizer is realized as a complex-
arithmetic 40-taps digital FIR (Finite Impulse Response) filter. In other words, the equalizer is in application to IF a selective frequency amplifier and attenuator, a device, which
(Intermediate Frequency) band-limited signal is schematically shown in the picture below:
SAF Tehnika JSC 151 INTEGRA/-S/-G/-GS User Manual TOOLS Fragmentation and interleaving When transmitting delay or jitter-sensitive traffic, like, for example, Voice over IP, it must be transmitted across the network within a specific amount of time to ensure high quality. The problem is that a high-priority packet needs to be transmitted across the link at the same time the link is committed to transmitting some large packet. Without fragmentation and interleaving active, the high-priority packet will wait behind this large packet until it is sent completely and this could introduce a delay that will make the VoIP packet unusable for an active VoIP conversation. Packet fragmentation and interleaving allow for reducing delays and jitters by splitting packets into fragments and interrupting the transmission of low-priority fragments. To achieve the best results packet fragmentation and interleaving should be enabled on lower-
priority queues. As result, packets and packet fragments are arranged and transmitted according to the priorities. The fragmented datagrams are reassembled at the receiving side. The figure below illustrates the process of fragmentation and interleaving. When large low-
priority packets and small high-priority (like voice) packets arrive at the same time, the large packets are fragmented into small fragments, which are then added to the queues along with the high-priority packets. The price for using fragmentation and interleaving is that it creates an extra overhead. Depending on the size of fragments produced overhead is approx. 1-3%. The resulting latency decrease might reach up to 1.5%. FTP directory The FTP directory of Integra/Integra-S/Integra-G/Integra-GS can be used in combination with CLI commands to backup/restore system configuration, upload another FW version, and upload a new license file. The FTP directory is a separate area of internal memory in Integra/Integra-S/Integra-
G/Integra-GS. The FTP directory function is deactivated by every restart of Integra/Integra-S/Integra-
G/Integra-GS and all files from this special area are wiped out. 1) Use CLI command system service ftp enable to activate the FTP directory function. 2) After system service ftp is enabled it is possible to connect to Integra/Integra-
S/Integra-G/Integra-GS by using your favorite FTP client. The username is anonymous and the password is empty. Here is an example of an FTP connection to Integra/Integra-S/Integra-G/Integra-GS using FileZilla:
SAF Tehnika JSC 152 INTEGRA/-S/-G/-GS User Manual TOOLS FTP area has several sub-directories separating every sub-function:
cfg firmware lic mdm misc For managing system configuration backup/restore files. More information in Chapter System Configuration Configuration file. For uploading firmware files. For more information see Chapter System FW Firmware upgrade and CLI commands of Chapter Over The Air Radio Configuration. For uploading license files. For more information see Chapter System Tools License management For service use only. For service use only. After finishing your work with the FTP directory, deactivate it by CLI command system service ftp disable. Firmware upgrade management with SNMP The firmware upgrade procedure can be performed using a set of SNMP read/write variables. This allows optimizing the process for a large number of radio units in a network. The following steps describe the whole process. 1) Enable setting integraBsystemServicesFtpSwitch variable to 2. server FTP the by
(SNMP SET command) 2) Check if the FTP server is enabled by reading (SNMP GET command) the following variable: integraBsystemServicesFtpSwitch. 4) 3) Transfer the required firmware file (bin file inside the FW package archive) to the
"firmware" folder in the FTP directory (for more information, refer to Chapter FTP directory). Use the following FTP address: ftp://anonymous@DEVICE_IP:/firmware/
(where DEVICE_IP should be substituted with the IP address of Integra/Integra-
S/Integra-G/Integra-GS). setting upload the Initiate integraBsystemServicesFwUpload variable to 1. Only a single firmware file is allowed to be present in the "firmware" folder during the upload. Please note that the command execution usually takes up to 30 seconds, and SNMP read/write requests will return the timeout error during this time. In about 30 seconds, the newly uploaded firmware should be seen in integraBsystemServicesFwAvailView list (see the next step) and available for installation. transferred firmware the file by of SAF Tehnika JSC 153 INTEGRA/-S/-G/-GS User Manual TOOLS 5) View information about the firmware versions already available for installation by integraBsystemServicesFwAvailView variable: you will get a string index numbers and names of all firmware versions available for reading containing installation (n1: candfw1; n2: candfw2; etc.). 7) 6) As the memory allocated for the firmware files is limited, the upload can fail if there are several firmware versions already uploaded (a maximum of 5 files are permitted). The unnecessary items can be removed with integraBsystemServicesFwRemove variable (setting to n", where n is the index number of selected firmware file from integraBsystemServicesFwAvailView list). All items can be removed by setting integraBsystemServicesFwRemoveAll variable to 1". Install the required candidate firmware by setting integraBsystemServicesFwInst variable to n", where n is the index number of the selected firmware file from integraBsystemServicesFwAvailView list. Please note that the installation execution usually takes up to 30 seconds, and SNMP read/write requests will return the timeout error during this time. In integraBsystemServicesReboot to 1. reboots, check the current FW version by the system seconds, reading system setting initiate reboot about 9) After 30 8) by integraBsystemServicesFwCurrInfo variable. 10) As additional functionality, a user can switch between two firmware banks (fw1 and fw2) using integraBsystemServicesFwSwitchNext variable (setting to 1/2 for fw1/fw2 bank accordingly). This will change the firmware bank that will be used during the next startup. The currently used firmware bank can be viewed by reading integraBsystemServicesFwSwitchRunning variable. The firmware bank selected for the next startup can be checked by reading integraBsystemServicesFwSwitchNext variable. Please note that when the firmware is installed it is assigned to a vacant bank (not occupied by the previously running firmware); this bank will be selected for the next startup automatically. The description of the relevant OIDs is given in the table below:
integraBsystemServicesReboot
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.1) integraBsystemServicesFtpSwitch
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.2) integraBsystemServicesFwCurrInfo
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.3) integraBsystemServicesFwAvailView
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.4) integraBsystemServicesFwRemove
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.5) integraBsystemServicesFwRemoveAll
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.6) integraBsystemServicesFwUpload
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.7) integraBsystemServicesFwInst
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.8) integraBsystemServicesFwSwitchRunning
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.9) WRITE Set "1" to initiate a system reboot. READ-WRITE Status and on/off switch for the FTP server (set "1/2 to disable/enable). READ-ONLY Currently running FW information. READ-ONLY WRITE WRITE WRITE WRITE List of the uploaded FW files available for installation. Set n to remove the n-th FW file from the uploaded FW list. Set 1 to remove all FW files from the uploaded FW list. Set "1" to start the upload and make the FW available for installation. Set n to install the n-th FW file from the uploaded FW list. READ-ONLY Currently running FW bank. integraBsystemServicesFwSwitchNext
(.1.3.6.1.4.1.7571.100.1.1.7.1.4.14.10) READ-WRITE The next startup FW bank (set "1/2" to change the FW bank for the next startup) SAF Tehnika JSC 154 INTEGRA/-S/-G/-GS User Manual TOOLS RADIUS authentication Configuration of the RADIUS server authentication Always check your RADIUS server documentation before modifying the RADIUS configuration. RADIUS vendor ID for Integra equipment is 7571. The configuration of the FreeRADIUS software based on the Linux system (Ubuntu) is given below as an example. Keep in mind that there could be differences in command syntax and file locations between FreeRADIUS software versions, always check the FreeRADIUS documentation. 1) Add new user data to the users` configuration file: /etc/freeradius/users. Add the following line to the users` list:
user_1 Cleartext-Password := pass_1 where user_1 is a user name and pass_1 is a password. 2) Add client
(Integra) data by file:
editing
/etc/freeradius/clients.conf. Add the following lines specifying Integra IP address and the RADIUS secret:
configuration clients`
the client 192.168.205.10 {
secret = radiuspass_1
where 192.168.205.10 is the IP address of Integra, radiuspass_1 is the RADIUS secret word. 3) Restart FreeRADIUS. 4) Set up the RADIUS configuration in Integra Web GUI:
a. Open the RADIUS server configuration page (System Configuration System services). b. Configure the RADIUS port, RADIUS server IP address, and RADIUS secret parameters according to your setup. RADIUS server should belong to the same subnet as Integra and should have the same secret word as Integra. SAF Tehnika JSC 155 INTEGRA/-S/-G/-GS User Manual TOOLS 5) Execute a configuration, save the configuration changes and reboot Integra. 6) Log in to Integra using the secure HTTPS connection. 7) Proceed to assigning administrative rights to a user if needed, see next chapter Assigning administrator rights to a RADIUS user. You can log in with users defined both locally and on the RADIUS server. Assigning administrator rights to a RADIUS user 1) Add the corresponding attribute to the main FreeRADIUS dictionary file. Open the file:
/etc/freeradius/dictionary and add the following line under the Miscellaneous attributes:
ATTRIBUTE SAF-User-Level 52 string 2) For providing the specified attribute to the user that must be granted administrator rights open the users` configuration file: /etc/freeradius/users and insert the following line below the definition of the user name and password:
SAF-User-Level = admin For example:
user_1 Cleartext-Password := pass_1 SAF-User-Level = admin 3) Restart FreeRADIUS. 4) Log in to Integra using the secure HTTPS connection. SAF Tehnika JSC 156 INTEGRA/-S/-G/-GS User Manual TOOLS Chapter 7: TOOLS Link Layer Discovery tool The Link Layer Discovery Tool is a command-line application for MS Windows. It sends requests to the LLD server application which runs on all Integra series devices. The tool is used to discover Integra/Integra-S/Integra-G/Integra-GS/ Integra-W/Integra-WS devices and reset their passwords or settings. The application runs on the following version of Windows: Windows Vista, Windows 7, Windows 8, and Windows 10. WinPCAP must be installed to use the Link Layer Discovery Tool. The Link Layer Discovery Tool for the Integra series can be downloaded at https://saftehnika.com/en/downloads in Tools section. Login required. 1) Unzip the LLD.zip file you downloaded to a directory of your choice, for example, C:\SAF\LLD\ . 2) The application is started via the command prompt (Start menuRuntype cmdpress ENTER). The Command-line console window should appear. 3) The default directory in the console is the current user directory. To change it, type:
cd <directory path>
For example: cd c:\saf\lld 4) Run the recovery tool by typing lld without quotes in the console prompt and pressing ENTER. SAF Tehnika JSC 157 INTEGRA/-S/-G/-GS User Manual TOOLS 5) Available commands and the network adapter list should be shown. To scan for Integra devices, the command should be run as follows:
lld <network interface>
For example:
lld \DEVICE\NPF_{A67EA6B7-1686-4E98-BA19-2A7E5B205DCF}
To copy the interface address from the network adapter list, click the right mouse button over the console and select Mark:
Then by holding the left button select the interface address:
SAF Tehnika JSC 158 INTEGRA/-S/-G/-GS User Manual TOOLS After selecting, release the left button and click the mouse right button anywhere on the console. The address should be copied. Type lld and paste the address by clicking the right button anywhere on the console:
The result should be similar as shown in the image below:
SAF Tehnika JSC 159 INTEGRA/-S/-G/-GS User Manual TOOLS 6) Press ENTER and the recovery tool will now scan for Integra devices. Available devices and their information will appear in the console. Make sure that the device has finished booting up. 7) Use the MAC address of the device with the reset command to reset this specific device. The MAC address can be copied the same way as the interface address. SAF Tehnika JSC 160 INTEGRA/-S/-G/-GS User Manual TOOLS 8) The device is reset by using the required reset command with the recovery tool:
lld <interface> reset <MAC> <reset command>
where <interface> network interface from the network adapter list
<MAC> required Integra device address
<reset command> reset options Different reset options are available depending on the reset requirement. Reboot and store options are also available. The store option saves the device's current configuration so it will be restored after the system reboot. The commands are available in the reset command list. Use the command after the MAC address of the device as shown in the previous reset command example. For example, to reset users and passwords on Integra device #1, use:
lld \DEVICE\NPF_{A67EA6B7-1686-4E98-BA19-2A7E5B205DCF} reset 0004A6813773 acc Make sure the command is run within 3 minutes after Integra reboot (RK1 fresh must be true in the console), otherwise the error shown in the screenshot below error will occur. The recovery tool will continue to retry the command. Power down the Integra device and power it up again, the reset should be completed soon. SAF Tehnika JSC 161 INTEGRA/-S/-G/-GS User Manual TOOLS If the reset cannot be completed, redo step 8). 9) Store changes by command (must be done within the time frame of 3 minutes after boot) or by using WEB GUI (any time before the Integra device is powered off) SAVE button. For example, lld \DEVICE\NPF_{A67EA6B7-1686-4E98-BA19-2A7E5B205DCF} reset 0004A6813773 store MIB files Relevant MIB files can be downloaded directly from the Integra/Integra-S/Integra-G/Integra-
GS Web GUI. See Chapter System Configuration SNMP configuration for further details. SAF Tehnika JSC 162 INTEGRA/-S/-G/-GS User Manual INTERFACES Chapter 8: INTERFACES RJ-45 port The RJ-45 port complies with IEEE 802.3-2005 1000Base-T, 100Base-T, and 10Base-T Ethernet and LTPoE++ Power over Ethernet standards. The pinouts of that socket are as follows:
Pin Data 1 2 3 4 5 6 7 8 Bi-directional A+
Bi-directional A-
Bi-directional B+
Bi-directional C+
Bi-directional C-
Bi-directional B-
Bi-directional D+
Bi-directional D-
PoE VB1+
VB1+
VB1-
VB2+
VB2+
VB1-
VB2-
VB2-
PoE power polarity can be reversed. In case an Ethernet cable is used for power & data (with PoE injector), the combined Ethernet cable length from the PoE injector to Integra/Integra-S/Integra-G/Integra-GS FODU and from PoE injector to CPE is limited to 100m / 328ft. In case SFP interfaces on LAN2 / LAN3 ports are used as the data interface, it is possible to use the LAN1 port solely for the power supply. Two options are possible:
1) Ethernet cable with PoE injector. Please refer to the table below for the maximum Ethernet cable length from the PoE injector to Integra/Integra-S/Integra-G/Integra-GS FODU based on AWG wire size and Integra/Integra-S/Integra-G/Integra-GS FODU power consumption. AWG 26 24 22 Lmax @ 75W 129m / 423ft 205m / 673ft 326m / 1071ft Lmax @ 55W 176m / 577ft 280m / 918ft 445m / 1460ft Lmax @ 35W 277m / 907ft 440m / 1442ft 699m / 2294ft 2) 2-wire power cable together with a DC power adapter cable for the Integra/Integra-
S/Integra-G/Integra-GS (P/N D0ACPW01). Please refer to the tables below for maximum power cable length based on AWG wire size or cross-section area and Integra/Integra-S/Integra-G/Integra-GS FODU power consumption. AWG 24 Lmax @ 75W Lmax @ 55W 51m / 168ft 70m / 229ft Lmax @ 35W 110m / 361ft SAF Tehnika JSC 163 INTEGRA/-S/-G/-GS User Manual INTERFACES 22 20 18 16 14 82m / 268ft 111m / 365ft 132m / 423ft 180m / 589ft 206m / 675ft 281m / 920ft 329m / 1080ft 449m / 1473ft 175m / 574ft 282m / 926ft 441m / 1446ft 705m / 2314ft 527m / 1728ft 718m / 2356ft 1129m / 3703ft Cross-section area Lmax @ 75W Lmax @ 55W Lmax @ 35W 0.25mm2 0.5mm2 0.75mm2 1.0mm2 1.5mm2 64m / 211ft 88m / 288ft 129m / 422ft 175m / 575ft 193m / 633ft 263m / 863ft 251m / 824ft 342m / 1124ft 376m / 1232ft 512m / 1681ft 138m / 452ft 276m / 904ft 413m / 1356ft 538m / 1766ft 805m / 2641ft The maximum cable length calculation is done using copper resistance. SFP ports SFP ports provide SFP transceiver connectivity. Both SFP ports comply with the following Gigabit Ethernet standards:
1000BASE-SX, 1000BASE-LX, 1000Base-T (note: 1000FDX only). Inquire SAF representative about compatible SFP modules. In the case of third-party modules, inquire SAF representative about the testing possibility. USB port USB port provides serial terminal access to CLI. The socket is B type. SAF Tehnika JSC 164 INTEGRA/-S/-G/-GS User Manual INTERFACES RSSI LED The RSSI LED can be activated in three operational modes Mode 1, Mode 2, and Mode 3. By default, RSSI LED is enabled in Mode 1. For further details please refer to the chapter Over The Air Radio Configuration. Corresponding Rx signal levels and LED blinking pattern for each mode is represented in the figure below:
SAF Tehnika JSC 165 INTEGRA/-S/-G/-GS User Manual INTERFACES Integra-S/Integra-GS RSSI LED description The 15-42 GHz Integra-S/Integra-GS FODUs have a dual-color RSSI LED. The RSSI LED can blink either in green or red color. The blinking pattern is as given in the figure above and is the same for both colors. (Functionality may not be available in older HW revisions.) A red RSSI LED warns about mistakes in the FODU installation. It turns red in the following circumstances:
1) If the polarization offset from the vertical polarization axis (zero-degree level) is more than 3 degrees to both sides. SAF Tehnika JSC 166 INTEGRA/-S/-G/-GS User Manual INTERFACES 2) If the polarization offset from the horizontal polarization axis (zero-degree level) is more than 3 degrees to both sides. 3) If the elevation angle of the Integra-S/Integra-GS FODU will differ for more than +/-20 degrees from the zero-degree elevation angle SAF Tehnika JSC 167 INTEGRA/-S/-G/-GS User Manual INTERFACES 4) If the FODU will be installed with its interfaces upwards. 5) If the FODU will be placed on any surface horizontally. Note that 17&24 GHz Integra-S/Integra-GS FODUs must be installed in opposite polarizations SAF Tehnika JSC 168 INTEGRA/-S/-G/-GS User Manual INTERFACES RSSI/audio port The RSSI (Received Signal Strength Indicator) port is used to adjust the alignment of the antenna for best performance (for both rough and fine adjustment); this can be done using a digital multimeter or headphones connected to the RSSI port. The RSSI port is a 3.5mm socket. The output of the RSSI port is DC voltage and an audio frequency and varies depending on the received signal level. Both are linear curves. Note that in the case of Integra-S/-GS 6-13GHz RSSI/audio port is separated from the USB port and is located in the last fifth socket:
To connect a voltmeter you will require the appropriate RSSI cable (P/N D0ACRS01):
RSSI cable has a 3.5mm RSSI/audio jack with the pinout shown below:
SAF Tehnika JSC 169 INTEGRA/-S/-G/-GS User Manual INTERFACES The following charts and tables show the typical relationship of the received signal level (Rx level) displayed by the Integra/Integra-S/Integra-G/Integra-GS vs. the RSSI port output voltage
(RSSI Received Signal Strength Indicator) and audio frequency. The RSSI port is located on the FODU. The evaluated Rx level has an error of +/-2 dB. Output voltage Rx level
(dBm)
-90
-85
-80
-75
-70
-65
-60
-55
-50
-45
-40
-35
-30
-25
-20 RSSI voltage (V) 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 SAF Tehnika JSC 170 INTEGRA/-S/-G/-GS User Manual INTERFACES Output audio frequency Rx level
(dBm
-100
-96
-92
-88
-84
-80
-76
-72
-68
-64
-60
-56
-52
-48
-44
-40
-36
-32
-28
-24
-20 Audio frequency
(Hz) 100 145 190 235 280 325 370 415 460 505 550 595 640 685 730 775 820 865 910 955 1000 Grounding connection Always provide a good connection from the FODU grounding screw to the tower/mast/building grounding circuit or body. You must choose one, the most convenient, of 2 screws for grounding connection. SAF Tehnika JSC 171 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION Appendix A: TECHNICAL SPECIFICATION General Integra-G Concept / form factor FODU (Full-outdoor unit), directly mounted to the antenna Frequency bands Radio standards 6GHz, 7GHz, 8GHz, 11GHz, 13GHz, 15GHz, 17GHz UL, 18GHz, 23GHz, 24GHz UL, 25GHz, 26GHz, 28GHz, 38GHz, and more*
EN 302 217-2 v3.1.1, EN 300 t+40-2 v1.4.1, FCC CFR 47 Part 101, Industry Canada RSS-GEN and relevant SRSP Specifications Frequency stability 10 ppm Capacity Up to 1Gbps* with HC at 1+0 or 2+0 474 Mbps at 60 MHz 1024QAM (legacy v.) 491 Mbps at 60 MHz 2048QAM Max modulation 1024QAM (legacy) 2048QAM Configurations 1+0, 2+0 link bonding, 1+1 HSB ACM and ATPC Yes Channel bandwidth Ports Gigabit Ethernet ETSI: from 1.75* MHz, up to 56 MHz FCC: from 5 MHz, up to 60 MHz 1x RJ-45 Electrical with built-in PoE splitter and surge arrestor 2x SFP Fiber Optics 3.5mm Audible alignment and RSSI USB B RS232 serial over USB B-Type LED Power On, Link Synchronization, RSL, Polarization accuracy*
GbE Network Processor built-in Service ports Ethernet Ethernet MAC Table size 32K entries VLAN 802.1Q 4096 VLANs, QinQ Quality of Service 8 level 802.1p, 64 level DSCP, CoS, MPLS-TP exp bit Spanning Tree Prot. 802.1d-2004 RSTP Synchronization SyncE Carrier Ethernet MEF9&14, HC, Packet Fragmentation Jumbo frames Yes, 9600 bytes Encryption AES 256-bit**, licensed feature Management SNMP v1/2c/3, SSH, Telnet, HTTPS, Serial, RADIUS, Network Time Protocol In-band MNG over the same ETH port Perf. monitoring Performance graphs, constellation diagram, alarms, detailed counters Electrical Power consumption 28...74 W depending on model and frequency band. See the table below. Voltage range Integra PoE Injector1 3660 V DC all Integra models; 22...60 V DC models with 50 W consumption 3657 V DC
* Inquire SAF representative for more information
** Integra-G is FIPS 197 (Federal Information Processing Standards) validated and placed on the validated product list, Validation No.: AES 5899: https://csrc.nist.gov/Projects/Cryptographic-Algorithm-Validation-Program/Validation/Validation-List/AES 1 Voltage range using I0ATPI24 / I0ATPI44 Power over Ethernet Injector SAF Tehnika JSC 172 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION Mechanical & environmental specification Integra Model Antenna type Antenna interface Integra-G External antenna (default) 0.3m / 1ft, integrated 0.6m / 2ft, integrated SAF2R 613 GHz SAF2 1538 GHz Integrated antenna, factory assembled with radio
(discontinued solution, no more available) Stationary use Conforms to ETSI EN 300 019 Class 4.1, NEMA 4X IP class IP66: Integra-G 6...13 GHz models and Integra-W. IP67: Integra-G 1538 GHz Relative Humidity 15 to 90-100% @ 30C Temperature range
-33...+55 C / -28+130 F Size, 15GHz and higher, w/o mount 235 x 250 x 72 mm / 9.26 x 9.85 x 2.84 378 x 378 x 227 mm /
14.9 x 14.9 x 9 669 x 669 x 289 mm /
26.3 x 26.3 x 11.4 Size, Integra -W 17/24 GHz UL 235 x 250 x 111 mm / 9.26 x 9.85 x 4.37 Size, 613 GHz 280 x 437 x 100 mm /
11.02 x 17.2 x 3.9 N/A N/A N/A N/A Weight, w/o mount 2.9 kg / 6.4 lbs 5 kg / 11 lbs 5 kg / 11 lbs Weight, Integra -W 17/24 GHz UL 4.9 kg / 10.8 lbs Weight, 613 GHz 6.5 kg / 14.3 lbs N/A N/A N/A N/A Mount size 292 x 176 x 250 mm / 11.5 x 7 x 10 max Mount Pole size Mount on antenna 40 120 mm / 1.6 4.7 Weight 2.55 kg / 5.6 lbs
* Inquire SAF representative for more information Power consumption and rated current at 36 57 V DC2 Model Integra-G Power [W]
@ 3657V DC Current [A] @
36 V DC Current [A] @
48 V DC Current [A] @
57 V DC L6 GH z U6, 7, 8 GHz 11, 13 GHz 15 GHz 17 GHz 18 GHz 23 GHz 24 GHz 25, 26, 28 GHz 38 GHz 74 69 65 40 35 45 3 41 38 45 47 2.1 1.9 1.8 1.1 1.0 1.3 1.1 1.1 1.3 1.3 1.5 1.4 1.4 0.8 0.7 1.0 0.9 0.8 0.9 1.0 1.3 1.2 1.1 0.7 0.6 0.8 0.7 0.7 0.8 0.8 2 Power consumption of Integra radio shown only. For power consumption of the complete system add up to 8% (at 48V DC input) for PoE in DC/DC mode, around 4W for 100m cable (depending on cable), and approx. 1W for SFP transceiver, if used. 3 Both Standard and HP product versions SAF Tehnika JSC 173 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION Exterior design of Integra-G models Solution with integrated antenna,15 GHz and higher, outdated design General design, 15GHz and higher 6GHz 13GHz models Maximum Tx Power [dBm] for Integra-G 1) For all ETSI channels, and FCC 60 MHz channels in fixed and variable Tx power modes:
Fix Fixed Tx power mode for all channels mentioned above, and Variable Tx power mode for ETSI 14 MHz channels. Var - Variable Tx power mode for all ETSI channels, except 1.75, 3.5, 7, and 14 MHz, and for the FCC 60 MHz channel. Modulation L6, U6, 7, 8 GHz 11 GHz 13 GHz 15 GHz, 18 GHz HP4 18, 23, 26, 28 GHz 17 GHz5, 24 GHz5 38 GHz Fix Var Fix Var Fix Var Fix Var Fix Var Fixed Variable 14 MHz Var 4 QAM 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 512 QAM
+31
+30
+29
+28
+26
+25
+24
+23
+23
+22
+21
+20
+20
+19
+18
+17
-22 +5
-22 +5
-22 +5
-22 +5
+28
+27
+26
+27 +23 +22 +20
+25 +22 +20 +19
+24 +21 +19 +18
+19
+17
+16
+17 +16
-22 +5
+16 +14
-22 +5
+15 +13
-22 +5 1024 QAM 2048 QAM6
+23
+22
+18
+17
+15
+14
+12
+11
-22 +5
-22 +5
+15
+14
+14
+13
+13
+12
+11
+10
+9
+15
+14
+13
+12
+12
+11
+10
+15
+14
+13
+12
+11
+9
+8
+7
+6 2) For FCC 5 to 50 MHz channels in fixed Tx power mode:
Frequency band L6, U6, 7, 8 GHz 11 GHz 13 GHz 15 GHz, 18 GHz HP4 18, 23, 25, 26, 28 GHz 17 GHz5, 24 GHz5 38 GHz BW, MHz Modulation 50 40 30 25 20 10 5 50 40 30 25 20 10 5 50 40 30 25 20 10 5 50 40 30 25 20 10 5 50 40 30 25 20 10 5 5 60 5 60 4 QAM +30 +29 +27 +25 +24 +22 +25 +24 +22 +22 +21 +19 +19 +18 +16 -22 +5 16 QAM +30 +29 +27 +25 +24 +22 +25 +24 +22 +22 +21 +19 +19 +18 +16 -22 +5 32 QAM +29 +29 +27 +24 +24 +22 +24 +24 +22 +21 +21 +19 +18 +18 +16 -22 +5 64 QAM +28 +28 +27 +23 +23 +22 +23 +23 +22 +20 +20 +19 +17 +17 +16 -22 +5 128 QAM +28 +28 +27 +23 +23 +22 +23 +23 +22 +20 +20 +19 +17 +17 +16 -22 +5
+15
+14
+14
+13
+13 256 QAM +27 +27 512 QAM +26 +26 1024 QAM +23 +23 2048 QAM6 +22 -
+27
+22 +22
+22
+22 +22
+22
+19
+19 +19
+21 +21
- +21 +21
- +18 +18
+18 +18
- +18 +18
- +15 +15
+17
- +17
- +14
+16 +16
+15 +15
+16
-22 +5
+12
-22 +5
+11
+12 +12
-22 +5
+10
+11
-22 +5
+9
SAF Tehnika JSC 174 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION 3) For FCC 5 to 60 MHz channels in variable Tx power mode:
Frequency band L6, U6, 7, 8 GHz 11 GHz 13 GHz 15 GHz, 18 GHz HP4 18, 23, 25, 26, 28 GHz 38 GHz BW, MHz Modulation 60 50 40 30 25 20 10 5 60 50 40 30 25 20 10 5 60 50 40 30 25 20 10 5 60 50 40 30 25 20 10 5 60 50 40 30 25 20 10 5 60 50 40 30 25 20 10 5 4 QAM +31 +30 +29 +27 +26 +25 +24 +22 +26 +25 +24 +22 +23 +22 +21 +19 +20 +19 +18 +16 +15 +14 +13 +11 16 QAM +30 +30 +29 +27 +25 +25 +24 +22 +25 +25 +24 +22 +22 +22 +21 +19 +19 +19 +18 +16 +14 +14 +13 +11 32 QAM +29 +29 +29 +27 +24 +24 +24 +22 +24 +24 +24 +22 +21 +21 +21 +19 +18 +18 +18 +16 +13 +13 +13 +11 64 QAM +28 +28 +28 +27 +23 +23 +23 +22 +23 +23 +23 +22 +20 +20 +20 +19 +17 +17 +17 +16 +12 +12 +12 +11 128 QAM +27 +27 +27 +27 +22 +22 +22 +22 +22 +22 +22 +22 +19 +19 +19 +19 +16 +16 +16 +16 +11 +11 +11 +11 256 QAM +25 +25 +25 +27
+20 +20 +20 +22
+20 +20 +20 +22
+17 +17 +17 +19
+14 +14 +14 +16
+9 +9 +9 +11 512 QAM +24 +24 +24 1024 QAM +23 +23 +23 2048 QAM6 +22 +22
+19 +19 +19
- +19 +19 +19
+18 +18 +18
- +18 +18 +18
+17 +17
- +17 +17
+16 +16 +16
+15 +15 +15
+14 +14
+13 +13 +13
+12 +12 +12
+11 +11
+8 +8 +8
+7 +7 +7
+6 +6
4 Integra-G 18 GHz HP version has 3dB higher Tx power than standard version 5 Max Tx power settings depend on EIRP allowed by national regulatory and antenna size. 6 2048QAM modulation is available only for Integra-G, not supported by legacy models Integra-G RSL Thresholds at BER 10-6 and Total Payload Capacity (Mbps) for ETSI channels 6, 7, 8 Band-
width, MHz 6GHz 7GHz 8GHz 11GHz 13GHz 15GHz 17GHz 18GHz 23GHz 24GHz 26GHz 28GHz 38 GHz Modulation Guaranteed RSL Threshold, dBm 4QAM StrongFEC
-100
-99 16QAM StrongFEC 1.75 8 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 128QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 3.5 32QAM StrongFEC
-93
-89
-86
-84
-82
-97
-90
-86 64QAM StrongFEC
-83.5 128QAM StrongFEC
-80
-93.5
-89.5
-86.5
-83.5
-81
-96
-90.5
-86.5
-83.5
-80.5 128QAM WeakFEC
-77.5
-78
-100
-93.5
-89.5
-86.5
-83.5
-79.5
-97
-90.5
-86.5
-83.5
-80.5
-76.5
-99
-92
-88
-85.5
-82
-79
-96
-89
-85
-82.5
-79
-76
-93
-78
-78.5
-76.5
-74.5
-75
-73.5
-74.5 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC
-94
-87
-84
-94.5
-94
-87.5
-88.5
-86.5
-84.5
-84.5
-83.5 7 64QAM StrongFEC
-80.5
-81.5
-81.5
-80.5 128QAM StrongFEC 256QAM StrongFEC 256QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC
-77
-74
-72
-91
-85
-80
-78
-75 256QAM StrongFEC
-71.5 512QAM StrongFEC
-68.5 512QAM WeakFEC
-65.5 14 20 4QAM StrongFEC
-89
-67.5
-71.5
-92
-90.5
-85.5
-81.5
-72.5
-69.5
-84
-80
-77
-74
-71
-67
-66.5
-64.5
-78.5
-78.5
-75.5
-74.5
-73
-91
-85
-81
-72
-68
-66
-90
-99.5
-93
-89
-86
-83
-81
-98.5
-91.5
-87
-84.5
-80.5
-76.5
- 96.5
-95.5
-97
-90.5
-86
-83.5
-79.5
-78
-94
-88.5
-87.5
-99
-92.5
-88.5
-85.5
-81.5
-79.5
-96
-89.5
-85.5
-82.5
-78.5
-76.5
-94
-80.5
-77.5
-74.5
-72.5
-84.5
-87.5
-82.5
-80.5
-83.5
-83
-80.5
-76.5
-75
-91
-84
-81.5
-77.5
-73.5
-93
-86
-80
-76
-73
-70
-90
-78
-75
-71
-69
-88
-83.5
-81.5
-84.5
-79
-77
-74
-71
-67
-64
-77
-75
-72
-80.5
-78.5
-75.5
-65
-68.5
-61.5
-65.5
-90
-86
-83
-80
-78
-94
-88
-84
-81
-77
-72
-91
-85
-80.5
-78.5
-71
-67
-63
-61
-99
-92
-87.5
-84.5
-80
-78
-96
-89
-84.5
-81.5
-77
-75
-93
-86
-82
-80
-77
-72
-71
-82
-78
-76
-73
-99.5
-92.5
-88.5
-86
-82.5
-80.5
-96.5
-89.5
-85.5
-83
-79.5
-77.5
-98.5
-92.5
-87.5
-85
-81.5
-79.5
-95.5
-89.5
-84.5
-82
-78.5
-76.5
-93.5
-92.5
-87
-86
-83.5
-82.5
-80.5
-77.5
-79
-76
-73.5
-72.5
-71.5
-91
-84
-80
-78
-69
-90
-83.5
-79
-77
-74.5
-73.5
-98
-92
-87
-85
-82
-79
-95
-89
-84
-82
-79
-76
-93
-86
-83
-80
-76.5
-73
-71
-90
-84
-79
-77
-74
-91
-87.5
-91
-88,5
-88.5
-88.5
-87
-89.5
-68.5
-71.5
-69.5
-71
-70.5
-70.5
-67
-63
-86
-67.5
-67.5
-65
-89
-64
-89.5
-67
-64
-89 Capacity, Mbps
-G modes Legacy modes 1.9 3.9 4.9 6.6 7.9 8.6 4 8 10 13 16 17 8 16 20 27 33 39 41 17 33 44 56 67 79 90 97 25
-95
-89
-85
-82
-79
-77
-92
-86
-82
-79
-76
-74
-90.5
-84
-80
-77.5
-74
-71
-69
-87
-81
-77
-74
-71
-69
-65
-62
-86 SAF Tehnika JSC 175 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION Band-
width, MHz 6GHz 7GHz 8GHz 11GHz 13GHz 15GHz 17GHz 18GHz 23GHz 24GHz 26GHz 28GHz 38 GHz Modulation Guaranteed RSL Threshold, dBm Capacity, Mbps
-G modes Legacy modes 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC
-83
-80
-77
-74 256QAM StrongFEC
-70,5 512QAM StrongFEC
-67,5 1024QAM StrongFEC 1024QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 28 128QAM StrongFEC 256QAM StrongFEC
-64
-62
-88
-82
-79
-76
-73
-70 512QAM StrongFEC
-66.5 1024QAM StrongFEC 1024QAM WeakFEC 2048QAM StrongFEC
-63
-61
-59 4QAM StrongFEC
-86.5 40 56 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 256QAM StrongFEC 512QAM StrongFEC 1024QAM StrongFEC 1024QAM WeakFEC 2048QAM StrongFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 256QAM StrongFEC 512QAM StrongFEC 1024QAM StrongFEC 1024QAM WeakFEC
-81
-77
-74
-71
-68
-65
-61
-59
-58
-85
-79
-75
-72
-70
-67
-63
-60
-58
-84
-80
-77
-74
-71
-68
-64
-62
-89
-83
-79
-76
-73
-70
-66
-63
-60
-87
-81
-77
-74
-71
-68
-65
-61
-58
-85
-79.5
-75.5
-73
-69.5
-66
-63.5
-60
-84.5
-80.5
-83
-79
-81
-78
-77.5
-76,5
-74.5
-74.5
-73
-71.5
-82.5
-80
-83.5
-78
-76
-73
-76.5
-79.5
-74
-70.5
-77
-74
-81
-77
-75
-72
-71.5
-69,5
-67.5
-69.5
-68
-70.5
-68.5
-63.5
-62.5
-66.5
-59.5
-61.5
-59
-58
-85.5
-56
-86
-79.5
-78.5
-79.5
-76.5
-75.5
-75.5
-67.5
-67
-64.5
-62,5
-60.5
-89
-83
-80
-61
-88
-77.5
-76.5
-75.5
-65
-61
-58
-87
-77
-74
-81.5
-79.5
-73.5
-71.5
-70.5
-68.5
-66.5
-70
-67
-62.5
-60.5
-87
-82
-78
-75
-72
-68
-65.5
-65
-62
-59.5
-58
-85
-73.5
-70.5
-67
-64
-71
-70
-65
-62
-59
-61.5
-60.5
-59
-58.5
-56.5
-54
-86
-80
-76
-74
-70
-67
-64
-60
-84
-84.5
-78
-74
-71
-68
-64
-61
-58
-78.5
-74.5
-72
-68.5
-65.5
-62
-58.5
-57
-66
-63
-60
-87
-81
-77
-75
-72
-68
-65
-73
-70.5
-66.5
-63.5
-60
-57
-56
-84
-78
-74
-71
-69
-65
-62
-58
-55
-64.5
-67.5
-65.5
-60.5
-64.5
-62
-58
-85
-79
-75
-72
-69
-66
-62.5
-59.5
-88
-84
-82.5
-79.5
-78.5
-75.5
-75.5
-73.5
-72.5
-70.5
-69.5
-67.5
-63.5
-60.5
-59.5
-54.5
-59
-64
-61
-57
-83
-78.5
-74.5
-72
-69
-66
-63
-82
-77
-73
-70
-59
-57
-83
-77
-73
-71
-67
-64
-61
-57
-55
-54
-81
-75
-71.5
-69
-66
-62
-59
-56
-54
-86.5
-81
-77
-74
-71
-68
-65
-85
-79
-75
-72
-69
-66
-63
-59
-82.5
-82.5
-79.5
-78.5
-75.5
-72.5
-70.5
-66
-62.5
-60.5
-86.5
-81.5
-77.5
-79
-76
-73
-71
-66
-62
-60
-87
-81
-77
-74.5
-74.5
-71.5
-68
-64.5
-61.5
-58.5
-58
-85
-71
-68
-64
-61
-59
-57
-85.5
-75.5
-73
-70
-67
-63.5
-60
-58
-85
-78
-74
-72
-69
-65
-62
-58
-56
-54
-83
-79.5
-79
-76.5
-75.5
-75.5
-73
-73.5
-73.5
-70.5
-83
-79
-77
-73
-70
-67
-63
-61
-88
-82
-78
-75
-72
-69
-65
-62
-60
-59
-85.5
-80
-76
-73
-70
-67
-69.5
-66.5
-63.5
-63.5
-70
-65
-63
-59
-67
-63.5
-60.5
-56.5
-57.5
-55
-61.5
-59.5
-60.5
-59.5
-59
-57.5
-58.5
-57.5
-55.5
-56.5
-58
-56
-84
-83.5
-78.5
-78
-74.5
-73.5
-72.5
-67.5
-69.5
-71
-68
-64.5
-65.5
-64.5
-61.5
-62.5
-61
-57.5
-59.5
-57.5
-56
-84
-78
-74
-71
-68
-65
-62
-58
-52.5
-81
-75
-72
-69
-65
-62
-59
-55
-54
-57.5
-55.5
-55.5
-55.5 2048QAM StrongFEC
-56
-57
-57
-54.5
-53.5 6 2048QAM modulation is available only for Integra-G, not supported by legacy models. 71024QAM modulation with Weak FEC setting is available for legacy models or in legacy modes only. 81.75 MHz bandwidth is available on all Integra-G models but tested upon request on customized product only. Please ask SAF representative for more information.
-52.5
-55.5
-54.5
--55
-54
-54
-52
-55 51 64 85 102 119 136 153 163 35 69 88 115 138 161 184 207 220 50 98 125 165 198 231 264 298 314 72 145 183 241 289 337 385 433 456 34 69 87 114 137 160 183 206 226 50 98 125 165 198 231 264 298 327 71 144 183 238 286 334 382 430 472 SAF Tehnika JSC 176 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION Integra-G RSL Thresholds at BER 10-6 and Total Payload Capacity (Mbps) for FCC channels 6, 7 6GHz 7GHz 8GHz 11GHz 13GHz 15GHz 17GHz 18GHz 23GHz 24GHz 26GHz 28GHz 38 GHz Capacity, Mbps
-G modes Legacy modes Guaranteed RSL Threshold, dBm
-94
-87
-92.5
-95
-86.5
-88.5
-83.5
-82.5
-84.5
-80.5
-79.5
-81.5
-94
-88
-84
-81
-77.5
-76.5
-78.5
-77.5
-95.5
-94.5
-89
-85
-82
-79
-87.5
-83.5
-81
-78
-95
-88
-84
-81
-78
-73.5
-76.5
-75.5
-76.5
-75.5
-75.5
-74
-91
-89
-92
-84.5
-82.5
-85.5
-81
-78
-75
-72
-69
-79
-76
-73
-69
-82.5
-79.5
-76.5
-72.5
-66.5
-70.5
-90
-84
-80
-78
-75
-71
-68
-92
-91.5
-91.5
-85.5
-84.5
-82
-79
-76
-81
-78
-75
-72.5
-71.5
-85
-81
-78
-75
-71
-69.5
-68.5
-68.5
-76.5
-76.5
-75.5
-73.5
-73.5
-70.5
-70.5
-72
-69
-76
-73
-70
-91
-88.5
-88.5
-88.5
-89
-86.5 BW, MHz Modulation 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC
-96
-89
-85
-96
-96.5
-89.5
-86.5
-85.5
-85.5
-95
-88
-84 64QAM StrongFEC
-82.5
-82.5
-80.5
-81.5 5 128QAM StrongFEC 128QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC
-79
-77
-92
-86
-82
-79.5
-79.5
-78.5
-77
-92.5
-77
-94
-86.5
-86.5
-76.5
-91
-85
-82.5
-82.5
-81.5
-95.5
-89
-85
-82
-79
-77
-92.5
-86
-82 10 64QAM StrongFEC
-79.5
-80
-80
-79
-79.5
-88.5
-89.5 128QAM StrongFEC 256QAM StrongFEC 256QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 20 128QAM StrongFEC
-76
-73
-70
-89
-83
-80
-77
-74 256QAM StrongFEC 512QAM StrongFEC
-70.5
-67.5 1024QAM StrongFEC 1024QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 25 128QAM StrongFEC 256QAM StrongFEC
-64
-62
-88
-82
-79
-76
-73
-70 512QAM StrongFEC
-66.5 1024QAM StrongFEC 1024QAM WeakFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 256QAM StrongFEC 512QAM StrongFEC 1024QAM StrongFEC 1024QAM WeakFEC 2048QAM StrongFEC
-63
-61
-88
-82
-78
-76
-72
-69
-66
-63
-61
-59 4QAM StrongFEC
-86.5 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 256QAM StrongFEC 512QAM StrongFEC 1024QAM StrongFEC 1024QAM WeakFEC 2048QAM StrongFEC
-81
-77
-74
-71
-68
-65
-61
-60
-58
-85
-80 30 40
-90
-84
-80
-77
-74
-71
-68
-64
-62
-83
-79
-76
-73
-70
-67
-63
-61
-88
-82
-79
-76
-73
-69
-66
-62
-60
-87
-81
-77
-74
-71
-68
-65
-61
-58
-86
-80
-84.5
-80.5
-83
-79
-81
-78
-77.5
-76.5
-74.5
-74.5
-73
-71.5
-71.5
-69.5
-67.5
-67.5
-67
-64.5
-62.5
-60.5
-61
-88
-83.5
-82.5
-65
-61
-58
-88
-81
-79.5
-78.5
-76.5
-76.5
-75.5
-74
-73.5
-72.5
-70.5
-69.5
-69.5
-65.5
-66.5
-65.5
-63.5
-61.5
-61.5
-59.5
-87
-63
-59
-58
-87
-81.5
-79.5
-77.5
-76.5
-89
-83
-79
-76.5
-74.5
-73
-71.5
-69.5
-68.5
-74
-70
-67
-66.5
-65.5
-62.5
-62.5
-61.5
-60
-60
-58
-85
-73.5
-70.5
-67
-64
-59
-57
-60.5
-87
-82
-78
-75
-72
-68
-65.5
-58.5
-86
-80
-61.5
-60.5
-71
-70
-65
-62
-59
-54
-83
-79
-76
-73
-70
-66
-63
-60
-88
-82
-78
-75
-72
-69
-66
-62
-58
-87
-81
-77
-74
-71
-68
-65
-61
-58
-56
-79
-76
-73
-70
-64
-58
-55
-53
-85
-78
-56.5
-86
-85.5
-79.5
-78.5
-76.5
-75.5 50 4QAM StrongFEC 16QAM StrongFEC
-84.5
-85.5
-78.5
-78
-91
-85
-81
-79
-75
-73
-89
-82
-78
-76
-73
-70
-66
-86
-80
-77
-73
-71
-67.5
-64
-61
-58
-85
-79
-75
-72
-69
-66
-63
-60
-57
-84
-78
-74
-71.5
-69
-65
-62
-58
-56
-54
-82
-77
-73
-70
-67
-64
-61 244 5 10 12 17 20 22 12 24 30 40 48 56 60 24 49 62 82 99 115 132 148 157 31 62 78 104 124 145 166 187 198 37 73 93 123 148 173 197 222 235 51 101 129 170 204 238 272 306 323 63 130
-86
-80
-83.5
-76.5
-79.5
-81
-77
-74
-76.5
-74.5
-70.5
-73.5
-71.5
-67
-70.5
-68.5
-64.5
-67.5
-65.5
-60.5
-64.5
-62.5
-62.5
-59.5
-88
-82.5
-85
-80
-77
-89
-83
-79
-77
-73
-70
-67
-63
-61
-88
-82
-88.5
-88
-82.5
-82.5
-78.5
-75.5
-72.5
-69.5
-66
-62.5
-60.5
-87.5
-79
-76
-73
-70
-66
-62
-60
-87
-81.5
-81.5
-75.5
-78.5
-78.5
-77.5
-76.5
-73.5
-75.5
-74.5
-72.5
-70.5
-72.5
-71.5
-69.5
-66.5
-68
-65
-69
-66
-68.5
-65.5
-64.5
-63.5
-61.5
-62.5
-61.5
-60.5
-59.5
-88
-84.5
-60
-87
-59.5
-86.5
-86.5
-78.5
-81.5
-79
-75
-73
-70
-81.5
-80.5
-77.5
-76.5
-75
-74.5
-71.5
-71.5
-78.5
-75.5
-72.5
-69
-67.5
-68.5
-67.5
-66.5
-64.5
-65
-64.5
-62.5
-61.5
-61.5
-60.5
-59.5
-60.5
-78
-75
-72
-68
-61
-59
-81
-77
-74
-71
-68
-64
-60
-58.5
-57.5
-85.5
-61
-59
-57
-85
-79.5
-79
-75.5
-75.5
-72.5
-72.5
-69.5
-70
-66.5
-65.5
-58.5
-85.5
-80
-76
-73
-70
-67
-58
-85
-79
-73
-70
-66
-63
-59
-57
-85
-75
-72
-69
-66
-62
-59
-57
-54.5
-83
-77
-73
-70
-67
-58
-86
-80.5
-77
-74
-71
-67
-57
-83
-78
-74
-72
-69
-66
-63
-59
-66.5
-64.5
-61
-64.5
-57.5
-61.5
-63.5
-63.5
-63
-60.5
-59.5
-59.5
-56.5
-55
-54
-82
-76
-59.5
-57.5
-58.5
-58
-57.5
-55.5
-57.5
-55
-56.5
-55.5
-85
-82.5
-85.5
-79.5
-77
-79.5
-84
-78
-56
-84
-78
-53
-81.5
-76 336 63 128 SAF Tehnika JSC 177 INTEGRA/-S/-G/-GS User Manual TECHNICAL SPECIFICATION BW, MHz Modulation 6GHz 7GHz 8GHz 11GHz 13GHz 15GHz 17GHz 18GHz 23GHz 24GHz 26GHz 28GHz 38 GHz Capacity, Mbps Guaranteed RSL Threshold, dBm
-G modes Legacy modes 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 256QAM StrongFEC 512QAM StrongFEC 1024QAM StrongFEC 1024QAM WeakFEC 2048QAM StrongFEC 4QAM StrongFEC 16QAM StrongFEC 32QAM StrongFEC 64QAM StrongFEC 128QAM StrongFEC 256QAM StrongFEC 512QAM StrongFEC 1024QAM StrongFEC 1024QAM WeakFEC 2048QAM StrongFEC
-76
-73
-70
-67
-64
-61
-59
-57
-84
-79
-75
-72
-70
-66
-63
-60
-58
-56 60
-76
-73.5
-70
-67
-63.5
-61
-57
-85
-79.5
-75.5
-73
-69.5
-66
-63
-59
-76
-74
-71
-67
-64
-60
-57.5
-74.5
-74.5
-72.5
-69
-65.5
-63
-60
-57
-56
-71
-68
-64
-61
-57
-55
-85.5
-83.5
-84.5
-80
-76
-73
-70
-67
-63
-60
-78
-74.5
-71.5
-68.5
-65
-62.5
-58.5
-57
-54
-77
-73
-71
-68
-64
-61
-58
-54
-56
-57
-75
-72
-69
-66
-63
-58
-55
-53
-84
-78
-74
-71
-68
-65
-62
-58
-55
-54
-72
-69
-66
-63
-59
-56
-54
-52.5
-81
-75
-71
-69
-66
-62
-59
-55
-53
-52
-75.5
-72
-70
-66
-56
-85
-78.5
-75
-72
-69
-66
-59
-57
-55
-73
-71
-68
-54
-82
-76
-73
-70
-67
-75.5
-74.5
-74.5
-72.5
-72.5
-71.5
-69.5
-64.5
-66.5
-68
-65
-62
-63.5
-62
-63
-60
-58.5
-59.5
-58.5
-57.5
-55.5
-57.5
-56
-56.5
-55.5
-84
-83.5
-83.5
-78.5
-77
-77.5
-74.5
-73.5
-71.5
-71
-69
-67.5
-72
-69
-65
-62
-58
-56
-55
-74
-71
-68
-65
-61
-57
-69.5
-66.5
-63
-60
-56
-54
-52
-81
-75
-71
-69
-65
-62
-59
-54.5 163 212 254 297 339 382 420 74 149 190 247 297 347 397 447 163 216 258 301 344 385 410 74 151 190 251 301 351 401 451 474
-64.5
-65.5
-64.5
-62.5
-61.5
-62.5
-61
-57.5
-58.5
-57.5
-55.5
-56.5
-55.5
-55.5
-53
-53
-55.5
-54.5
-54
-51.5 491 6 2048QAM modulation is available only for Integra-G, not supported by legacy models 7 1024QAM modulation with Weak FEC setting is available for legacy models or in legacy modes only SAF Tehnika JSC 178 INTEGRA/-S/-G/-GS User Manual ABBREVIATIONS ABBREVIATIONS ACI Adjacent-Channel Interference ACM Adaptive Coding and Modulation ATPC Automatic Transmit Power Control BER Bit-Error Ratio CCI Co-Channel Interference CLI Command-Line Interface CPU Central Processing Unit CRC Cyclic Redundancy Check DC Direct Current DiffServ Differentiated Services DSCP - Differentiated Services Code Point ETSI European Telecommunications Standards Institute FCC - The Federal Communications Commission FCS - Frame check sequence FEC Forward Error Correction FO Fiber Optics FODU Full Outdoor Unit FTP File Transfer Protocol GUI Graphical User Interface IEEE - Institute of Electrical and Electronics Engineers IF Intermediate Frequency ISP Internet Service Provider ITU-T International Telecommunication Union Telecommunication Standardization Sector LAN Local Area Network LED Light-Emitting Diode MAC Media Access Control MSE Mean Square Error NMS Network Management System PC Personal Computer MAC Media Access Control MSE Mean Square Error NMS Network Management System PC Personal Computer PLL Phase-Locked Loop PoE - Power over Ethernet QAM - Quadrature amplitude modulation QoS Quality of Service RSL Received Signal Level RSS Radio Standards Specification RSSI Received Signal Strength Indicator Rx Receive SNMP - Simple Network Management Protocol SNR Signal-to-Noise Ratio STP Spanning Tree Protocol TCP/IP Internet Protocol Suite (Transmission Control Protocol / Internet Protocol) TDM Time-Division Multiplexing TFTP Trivial File Transfer Protocol TM Tide Mark TP Twisted Pair TS Threshold Seconds Tx Transmit USB Universal Serial Bus VLAN Virtual Local Area Network WAN Wide Area Network SAF Tehnika JSC 179 CONTACTS SAF Tehnika JSC 24a, Ganibu dambis, Riga, LV-1005, Latvia, EU techsupport@saftehnika.com www.saftehnika.com SAF Tehnika JSC 180
1 | Label Sample | ID Label/Location Info | 699.41 KiB | September 26 2023 / October 02 2023 |
Label samples of the equipment under tests Radio model number: SAF Integra-5G8. Date taken: 2023-07-04. Pic. 1, 2. Label placement Label is always placed:
Between the rips in the middle of the heatsink on the front side of the product, assuming the front side is where the antenna flange is located. On the left upper corner of the back side of the product, if wire handle is located on the top but connectors - on the bottom. Rogers Labs, Inc. 4405 West 259th Terrace Louisburg, KS 66053 Phone/Fax: (913) 837-3214 Revision 1 SAF Tehnika AS Model: Integra-5G8 Test: 230709 Test to: 47CFR, Part 15E, 15.407 and Canada RSS-247 Issue 2 File: LabelSmpl_Integra-5G8.pdf Date: July 4, 2023 FCC: W9Z-INTEGRA5G8 IC: 8855A-INTEGRA5G8 Page 1 of 3 Pic. 3. Label sample of the L (Low) side radio. Pic. 4. Label sample of the H (High) side radio. Rogers Labs, Inc. 4405 West 259th Terrace Louisburg, KS 66053 Phone/Fax: (913) 837-3214 Revision 1 SAF Tehnika AS Model: Integra-5G8 Test: 230709 Test to: 47CFR, Part 15E, 15.407 and Canada RSS-247 Issue 2 File: LabelSmpl_Integra-5G8.pdf Date: July 4, 2023 FCC: W9Z-INTEGRA5G8 IC: 8855A-INTEGRA5G8 Page 2 of 3 Pic. 5. Printed label sample of the L (Low) side radio. Rogers Labs, Inc. 4405 West 259th Terrace Louisburg, KS 66053 Phone/Fax: (913) 837-3214 Revision 1 SAF Tehnika AS Model: Integra-5G8 Test: 230709 Test to: 47CFR, Part 15E, 15.407 and Canada RSS-247 Issue 2 File: LabelSmpl_Integra-5G8.pdf Date: July 4, 2023 FCC: W9Z-INTEGRA5G8 IC: 8855A-INTEGRA5G8 Page 3 of 3
1 | Attestation Statements Part 2.911(d)(7) | Attestation Statements | 301.94 KiB | September 26 2023 / October 02 2023 |
SAF Tehnika AS 24a, Ganibu dambis Riga, LV-1005, Latvia www.saftehnika.com VAT No.: LV40003474109 Phone: +371 67046840 Fax: +371 67046840 E-mail: info@saftehnika.com Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 USA Date: September 19, 2023 Ref: Attestation Statements Part 2.911(d)(7) Filing FCC ID: W9Z-INTEGRA5G8 SAF Tehnika AS, FRN: 0018662312 (the applicant) certifies that, as of the date of the filing of the application, SAF North America LLC is our designated U.S. agent for service of process for the above referenced FCC ID. SAF Tehnika AS accepts to maintain an agent for no less than one year after the grantee has terminated all marketing and importation or the conclusion of any Commission-related proceeding involving the equipment. SAF North America LLC accepts, as of the date of the filing of the application, the obligation of the designated U.S. agent for service of process for the above referenced FCC ID. Designated U.S. Agent Information:
Name: SAF North America LLC Address: 3250 Quentin Street, Unit 128, Aurora CO 80011 FRN: 0025802372 Contact Person: Peteris DCarlo Tel.: (303) 501-9425 Email: peteris.dcarlo@saftehnika.com Sincerely, SAF Tehnika AS Aivis Danovskis SAF North America LLC Peteris DCarlo
(U.S. Agent signature) DocuSign Envelope ID: B751AA05-942D-44B3-9F58-38F0F88ACFF5
1 | Attstn Stmt Part 2.911(d)(5)(ii) | Attestation Statements | 236.76 KiB | September 26 2023 / October 02 2023 |
SAF Tehnika AS 24a, Ganibu dambis Riga, LV-1005, Latvia www.saftehnika.com VAT No.: LV40003474109 Phone: +371 67046840 Fax: +371 67046840 E-mail: info@saftehnika.com Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 USA Date: September 8, 2023 Ref: Attestation Statements Part 2.911(d)(5)(ii) Filing FCC ID: W9Z-INTEGRA5G8 SAF Tehnika AS (the applicant) certifies that, as of the date of the filing of the application, the applicant is not identified on the Covered List (as a specifically named entity or any of its subsidiaries or affiliatesas) as an entity producing covered equipment. Sincerely, Aivis Danovskis Product Manager
1 | Attstn Stmt part 2.911(d)(5)(i) | Attestation Statements | 182.85 KiB | September 26 2023 / October 02 2023 |
SAF Tehnika AS 24a, Ganibu dambis Riga, LV-1005, Latvia www.saftehnika.com VAT No.: LV40003474109 Phone: +371 67046840 Fax: +371 67046840 E-mail: info@saftehnika.com Federal Communications Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21046 USA Date: September 8, 2023 Ref: Attestation Statements Part 2.911(d)(5)(i) Filing FCC ID: W9Z-INTEGRA5G8 SAF Tehnika AS (the applicant) certifies that the equipment for which authorization is sought is not covered equipment prohibited from receiving an equipment authorization pursuant to section 2.903 of the FCC rules. Sincerely, Aivis Danovskis Product Manager
1 | Confidentiality Letter | Cover Letter(s) | 163.42 KiB | September 26 2023 / October 02 2023 |
ROGERS LABS, INC. 4405 West 259th Terrace Louisburg, KS 66053 September 13, 2023 Timco Engineering Inc. 849 NW State Road 45 Newberry, FL 32669 Applicant:
SAF Tehnika AS 24a, Ganibu dambis, Riga Latvia LV-1005 FCC ID: W9Z-INTEGRA5G8 FCC Rules: 15E U-NII-3 Point to Point 5 GHz transceiver Dear Sirs:
SAF Tehnika AS requests that the material in the Schematics, Block Diagram, Operational Description, and Internal Photographs be withheld from public disclosure pursuant to Sections 0.457 and 0.459 of the Commissions Rules following grant of the application. In support of this request, SAF Tehnika AS submits the following:
Long Term Confidential Files Include Schematics Schematics Schematics Schematics Schematics Schematics Block Diagram Operational Description Internal Photograph Conf Schem D0M6LTXG01_R04_CDM.pdf Conf Schem D0MMDS02_R06_ADG_00.pdf Conf Schem D0MMDS02_R06_CDM_00.pdf Conf Schem D0M6LTXG01_R04_ADG.pdf Conf Schem D0M6LRXG01_R00_ADG_01.pdf Conf Schem D0M6LRXG01_R00_CDM_01.pdf Conf_Block_Diagram_Integra-5G8.pdf Conf_IntPho_Integra-5G8.pdf Conf_IntPho_Integra-5G8.pdf 1. Identification of the specific information for which confidential treatment is sought:
The materials set forth in the Schematics, Block Diagram, Operational Description, and Internal Photographs which are segregated from the non-confidential exhibits of the application, are those for which confidentiality is sought. 2. Identification of the Commission proceeding in which the information was submitted or a description of the circumstances giving rise to the submission:
The proceeding is that involving the application for equipment authorization (certification) under FCC ID: W9Z-INTEGRA5G8 File: INTEGRA5G8 Conf Request Letter Page 1 of 2 3. Explanation of the degree to which the information is commercial or financial, or contains a trade secret or is privileged:
This material includes a detailed theory of operation, circuit diagrams, (schematic diagrams) and any detail detailed confidential information which is not publicly available. As such, this material is treated as highly confidential business information. 4. Explanation of the degree to which the information concerns a service that is subject to competition:
The material for which confidentiality is sought is employed in the design and manufacture of this transmitting equipment that is offered on a highly competitive basis. Customers for this equipment have a variety of competing sources. 5. Explanation of how disclosure of the information could result in substantial competitive harm:
Disclosure would, in effect, give away the fruits of the labors of SAF Tehnika AS engineering personnel, who have designed the equipment and the manufacturing process. Disclosure would also offer competitors additional unwarranted insight into the state of the product development, thereby allowing competitors an advantage, not available to SAF Tehnika AS. Internal photos should be held confidential for a permanent amount of time. The device is sealed, and disassembly would destroy the product. The device will not be accessible by general public and is only serviceable by SAF Tehnika AS or authorized representatives directly. Releasing internal photos will reveal company secrets and take away any competitive advantage in the market. 6. Identification of any measures taken by the submitting party to prevent unauthorized disclosure:
The information for which confidential treatment is sought is kept confidential by SAF Tehnika AS and not made available to third parties except pursuant to non-disclosure agreements. 7. Identification of whether the information is available to the public and the extent of any previous disclosure of the information to third parties:
To the knowledge of those preparing this application, the information has not been disclosed publicly heretofore. While the general theory of operation of this equipment has been the subject of numerous disclosures in industry and standards groups as well as in rule making proceedings of the FCC, the protection sought is narrowly drawn and pertains to certain specific implementations of this radio technology. 8. Justification of the period during which the submitting party asserts that the material should not be available for public disclosure:
This material should not be disclosed for at least 25 years. While improvements in design are made relatively frequently, disclosure of the design information would lead to insights into both design and manufacturing techniques that could have an adverse competitive effect for many years to come. As such, it is important that the design not be made available to unauthorized persons who might attempt to use knowledge of the design to compromise the applications for which the equipment will be employed. Should you require any further information, please contact the undersigned. Thank you for your consideration in this matter. Sincerely, Scot Rogers File: INTEGRA5G8 Conf Request Letter Page 2 of 2
1 | Confidentiality Letter Internal Photos | Cover Letter(s) | 101.14 KiB | September 26 2023 / October 02 2023 |
ROGERS LABS, INC. 4405 West 259th Terrace Louisburg, KS 66053 September 12, 2023 SAF Tehnika AS 24a, Ganibu dambis, Riga Latvia LV-1005 RE: Confidentiality Request FCC ID: W9Z-INTEGRA5G8 To Whom It May Concern:
This letter serves as an official request for confidentiality status under sections 0.457 and 0.459 of CFR 47. We have requested that the following listed items, which are required to be submitted with this application, be permanently withheld from public review. Schematics Block Diagram Operational Description Internal Photographs The material for which confidentiality is sought is employed in the design and manufacture of this transmitting equipment that is offered on a highly competitive basis. Customers for this equipment have a variety of competing sources. Disclosure would, in effect, give away the fruits of the labors of SAF Tehnika AS engineering personnel, who have designed the equipment and the manufacturing process. Disclosure would also offer competitors additional unwarranted insight into the state of the product development, thereby allowing competitors an advantage, not available to SAF Tehnika AS. The information which confidentiality is being requested is not available or accessible to the public and available only to those held under a Non-Disclosure Agreement. Internal photos should be held confidential for a permanent amount of time. The device is sealed, and disassembly would destroy the product. The device will not be accessible by general public and is only serviceable by SAF Tehnika AS or authorized representatives directly. Releasing internal photos or User Manual will reveal company secrets and take away any competitive advantage in the market. Please contact me if there is any information you may need. Sincerely, Scot Rogers
1 | Family Approval Attestation | Cover Letter(s) | 119.96 KiB | September 26 2023 / October 02 2023 |
SAF Tehnika AS 24a, Ganibu dambis VAT No.: LV40003474109 Phone: +371 67046840 Riga, LV-1005, Latvia Fax: +371 67046840 www.saftehnika.com E-mail: info@saftehnika.com Date: September 19, 2023 Innovation, Science and Economic Development Canada 3701 Carling Ave., Bldg. 94 Ottawa, ON, K2H 8S2 Applicant:
Company Name:
Company Address: 24a, Ganibu dambis SAF Tehnika AS Riga, Latvia, LV-1005 Equipment: Integra-5G8 IC: 8855A-INTEGRA5G8 Family Approval Cover Letter To whom it may concern SAF Tehnika AS does hereby state the equipment D06GSR18L, D06GSR18H are electrically identical, are produced using the same Printed Circuit Boards, Transmit and Receive modules and Diplexer, as well as they use the same firmware. D06GSR18L, D06GSR18H are in fact the Low and High Side Radios of Integra-5G8 product, and the only difference between them are different transmit (Tx) and receive
(Rx) ranges, which are set during the manufacturing process and cannot be modified by user. Sincerely Aivis Danovskis Product Manager
1 | LOA Letter | Cover Letter(s) | 297.51 KiB | September 26 2023 / October 02 2023 |
SAF Tehnika AS VAT No.: LV40003474109 24a, Ganibu dambis Phone: +371 67046840 Riga, LV-1005, Latvia Fax: +371 67046840 www.saftehnika.com E-mail: info@saftehnika.com October 10, 2017 Federal Communications Commission Equipment Approval Services 445 12th Street, SW Washington, DC 20554 To Whom It May Concern:
Pursuant to 47 CFR 2.911, SAF Tehnika AS has authorized Mr. Scot Rogers, of Rogers Labs, Inc. to act on SAF Tehnika AS behalf for the sole and express purpose of processing applications for equipment authorization. As such, Mr. Rogers is authorized to sign forms, letters of application, request confidentiality, and exchange data and information relating to these matters and submittals. Rogers Labs, Inc. is authorized to receive and exchange data between our company and the authorizing agency. All acts carried out by Rogers Labs, Inc. on our behalf shall have the same effects as our own. For instances where our authorized agent signs the application for certification on our behalf, I acknowledge that all responsibility for complying with the terms and conditions for certification, as specified by regulation still resides with SAF Tehnika AS. This Authorization is in effect until notified to the contrary by SAF Tehnika AS. Aivis Danovskis Product Manager SAF Tehnika AS
1 | Submittal Letter | Cover Letter(s) | 106.23 KiB | September 26 2023 / October 02 2023 |
ROGERS LABS, INC. 4405 West 259th Terrace Louisburg, KS 66053 Phone / Fax (913) 837-3214 September 13, 2023 Timco Engineering Inc. 849 NW State Road 45 Newberry, FL 32669 Federal Communications Commission Equipment Approval Services P.O. Box 35815 Pittsburgh, PA 15251-3315 Applicant:
SAF Tehnika AS 24a, Ganibu dambis, Riga Latvia LV-1005 FCC ID: W9Z-INTEGRA5G8 FCC Rules: 15E U-NII-3 Point to Point 5 GHz transceiver Gentlemen The form 731 and application have been electronically submitted and any attachments will be uploaded to your site to be used in obtaining grant of certification. Permanent SAF Tehnika AS requests that the material in the Schematics, Block Diagram, Operational Descriptions, and Internal Photograph be withheld from public disclosure pursuant to Sections 0.457 and 0.459 of the Commissions Rules following grant of the application. Schematics Schematics Schematics Schematics Schematics Schematics Block Diagram Operational Description Internal Photograph Conf Schem D0M6LTXG01_R04_CDM.pdf Conf Schem D0MMDS02_R06_ADG_00.pdf Conf Schem D0MMDS02_R06_CDM_00.pdf Conf Schem D0M6LTXG01_R04_ADG.pdf Conf Schem D0M6LRXG01_R00_ADG_01.pdf Conf Schem D0M6LRXG01_R00_CDM_01.pdf Conf_Block_Diagram_Integra-5G8.pdf Conf_IntPho_Integra-5G8.pdf Conf_IntPho_Integra-5G8.pdf Should you require any further information, please contact the undersigned. Thank you for your consideration in this matter. Sincerely, Scot Rogers Rogers Labs, Inc. File: INTEGRA5G8 Submittal letter Page 1 of 1
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2023-10-02 | 5727.5 ~ 5847.5 | NII - Unlicensed National Information Infrastructure TX | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2023-10-02
|
||||
1 | Applicant's complete, legal business name |
SAF Tehnika AS
|
||||
1 | FCC Registration Number (FRN) |
0018662312
|
||||
1 | Physical Address |
24a, Ganibu Dambis
|
||||
1 |
Riga, N/A LV-1005
|
|||||
1 |
Latvia
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
t******@timcoengr.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
W9Z
|
||||
1 | Equipment Product Code |
INTEGRA5G8
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
A**** D****
|
||||
1 | Title |
Product Manager
|
||||
1 | Telephone Number |
+3716********
|
||||
1 | Fax Number |
+3716********
|
||||
1 |
a******@saftehnika.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | NII - Unlicensed National Information Infrastructure TX | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Point-To-Point Digital Transmission System | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output Power listed is the maximum conducted output power. Professional installation is required. Device is intended for point-to-point applications. The antenna(s) used for this transmitter must be installed and operated so as to provide a separation distance of at least 1024 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi-transmitter product procedures. Operators must be informed of operating requirements for satisfying RF exposure compliance. This device supports 5, 10, 20, 25 and 30 MHz bandwidth modes. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Rogers Labs, Inc.
|
||||
1 | Name |
S******** R****
|
||||
1 | Telephone Number |
913-8********
|
||||
1 | Fax Number |
913-8********
|
||||
1 |
r******@pixius.net
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15E | 5727.50000000 | 5847.50000000 | 1.0000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC