®
FibeAir RFU-C
Installation Guide
Part ID: BM-0133-0 Doc ID: DOC-00017708 Rev a.01 November 2008
Notice This document contains information that is proprietary to Ceragon Networks Ltd. No part of this publication may be reproduced, modified, or distributed without prior written authorization of Ceragon Networks Ltd. This document is provided as is, without warranty of any kind.
Registered TradeMarks Ceragon Networks® , FibeAir® and CeraView® are registered trademarks of Ceragon Networks Ltd. Other names mentioned in this publication are owned by their respective holders.
TradeMarks CeraMapTM, ConfigAirTM, PolyViewTM, EncryptAirTM, CeraMonTM, EtherAirTM, and MicroWave FiberTM, are trademarks of Ceragon Networks Ltd. Other names mentioned in this publication are owned by their respective holders.
Statement of Conditions The information contained in this document is subject to change without notice. Ceragon Networks Ltd. shall not be liable for errors contained herein or for incidental or consequential damage in connection with the furnishing, performance, or use of this document or equipment supplied with it.
Information to User Any changes or modifications of equipment not expressly approved by the manufacturer could void the user’s authority to operate the equipment and the warranty for such equipment. Copyright © 2008 by Ceragon Networks Ltd. All rights reserved.
Corporate Headquarters: Ceragon Networks Ltd. 24 Raoul Wallenberg St. Tel Aviv 69719, Israel Tel: 972-3-645-5733 Fax: 972-3-645-5499 Email:
[email protected] North American Headquarters: Ceragon Networks Inc. 10 Forest Avenue, Paramus, NJ 07652, USA Tel: 1-201-845-6955 Toll Free: 1-877-FIBEAIR Fax: 1-201-845-5665 Email:
[email protected]
www.ceragon.com
European Headquarters: Ceragon Networks (UK) Ltd. 4 Oak Tree Park, Burnt Meadow Road North Moons Moat, Redditch, Worcestershire B98 9NZ, UK Tel: 44-(0)-1527-591900 Fax: 44-(0)-1527-591903 Email:
[email protected] APAC Headquarters: Ceragon Networks APAC (S'pore) Pte Ltd 100 Beach Road #27-01/03 Shaw Towers Singapore 189702 Tel.: 65 65724170 Fax: 65 65724199
Contents Chapter 1 Installation .................................................................................... 1-1 General ................................................................................................................................ 1-1 Installation Components ................................................................................................... 1-2 1+0 Direct Mount Installation ............................................................................................ 1-3 1+1 Direct Mount Installation ............................................................................................ 1-5 1+0 Remote Mount Installation ......................................................................................... 1-8 1+1 Remote Mount Installation ....................................................................................... 1-10 Media Device (Antenna Mount) Losses ......................................................................... 1-13 Direct Mount for Nokia FlexiHopper Antennas ............................................................. 1-14 Antenna Connection ........................................................................................................ 1-15 Antenna Adapter .............................................................................................................. 1-16 Packing.............................................................................................................................. 1-17 Transportation .................................................................................................................. 1-17 Inspection ......................................................................................................................... 1-17
Chapter 2 Acceptance & Commissioning Procedures ............................... 2-1 General ................................................................................................................................ 2-1 Site Acceptance Procedure............................................................................................... 2-2 1+0 Commissioning Procedure ........................................................................................ 2-7 1+1 Commissioning Procedure ........................................................................................ 2-9 2+0 XPIC Commissioning Procedure............................................................................. 2-12 FibeAir RFU-C Commissioning Log............................................................................... 2-15
Appendix A Frequency Information .............................................................A-1 General ................................................................................................................................A-1 RFU Frequency Bands.......................................................................................................A-1 6-8 GHz Frequency Channels ...........................................................................................A-8
Safety Precautions & Declared Material Fiber Optic Line Precautions
!
Before turning on the equipment, make sure that the fiber optic cable is intact and is connected to the transmitter.
!
Do not attempt to adjust the laser drive current.
!
Do not use broken or non-terminated fiber optic cables/connectors or look straight at the laser beam. ATTENTION: The laser beam is invisible!
!
The use of optical devices with the equipment will increase eye hazard. CLASS 1 LASER PRODUCT Complies with IEC 60 825-1:1993 + A1:1997 + A2:2001, and EN 60825-1:1994 + A1:1996 + A2:2001
General Equipment Precautions
!
Use of controls, adjustments, or performing procedures other than those specified herein, may result in hazardous radiation exposure.
!
When working with a FibeAir IDU, note the following risk of electric shock and energy hazard: Diconnecting one power supply disconnects only one power supply module. To isolate the unit completely, disconnect all power supplies.
!
Machine noise information order - 3. GPSGV, the highest sound pressure level amounts to 70 dB (A) or less, in accordance with ISO EN 7779.
Safety Precautions & Declared Material (continued)
Static electricity may cause body harm, as well as harm to electronic components inside the device. Anyone responsible for the installation or maintainance of the FibeAir IDU must use an ESD Wrist Strap. ESD protection measures must be observed when touching the IDU. To prevent damage, before touching components inside the device, all electrostatic must be discharged from both personnel and tools.
RoHS Compliance Declaration 电子信息产品有毒有害物质申明 Electronic Information Products Declaration of Hazardous/Toxic Substances 危害物质 Hazardous Substance 成分名称 Component
单板 / 电路模块 PCB/Circuit Modules 结构件 Mechanical Parts 电缆 Cables
铅 Lead (Pb)
汞 Mercury (Hg)
镉 Cadmium (Cd)
六价铬 Hexavalent Chromium (Cr VI)
多溴联苯 Polybrominated Biphenyls (PBB)
多溴二苯醚 Polybrominated Diphenyl Ethers (PBDE)
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Précautions de sécurité Précautions relatives à la ligne à fibre optique
!
Avant de mettre l'équipement en marche, s'assurer que le câble à fibre optique est intact et branché à l'émetteur.
!
Ne pas essayer de régler le courant de commande du laser.
!
Ne pas utiliser de câble/connecteur à fibre optique cassé ou sans terminaison et ne pas regarder directement le faisceau laser. ATTENTION : le faisceau laser est invisible !
!
L’utilisation de dispositifs optiques avec l'équipement augmente le danger pour les yeux.
PRODUIT LASER DE CLASSE 1 Conforme aux normes CEI 60 825-1:1993 + A1:1997 + A2:2001, et EN 60825-1:1994 + A1:1996 + A2:2001 Précautions générales relatives à l'équipement
!
L’utilisation de commandes ou de réglages ou l'exécution de procédures autres que celles spécifiées dans les présentes peut engendrer une exposition dangereuse aux rayonnements.
!
L’usage de FibeAir IDU s’accompagne du risque suivant d'électrocution et de danger électrique : le débranchement d'une alimentation électrique ne déconnecte qu'un module d'alimentation électrique. Pour isoler complètement l'unité, il faut débrancher toutes les alimentations électriques.
!
Bruit de machine d’ordre - 3. GPSGV, le plus haut niveau de pression sonore s'élève à 70 dB (A) au maximum, dans le respect de la norme ISO EN 7779.
Sicherheitsmaßnahmen Vorsichtsmaßnahmen bei faseroptischen Leitungen
!
Vergewissern Sie sich vor dem Einschalten der Anlage, dass das faseroptische Kabel unbeschädigt und mit dem Sender verbunden ist.
!
Versuchen Sie nicht, den Laser-Antriebsstrom zu regulieren.
!
Verwenden Sie keine defekten oder gespleißten faseroptischen Kabel/Stecker und sehen Sie nicht direkt in den Laserstrahl. ACHTUNG: Der Laserstrahl ist unsichtbar!
!
Durch den Einsatz optischer Geräte zusammen mit der Anlage erhöht sich das Gesundheitsrisiko für die Augen.
LASERPRODUKT DER KLASSE 1 Entspricht den Normen IEC 60 825-1:1993 + A1:1997 + A2:2001 sowie EN 60825-1:1994 + A1:1996 + A2:2001 Allgemeine Vorsichtsmaßnahmen für die Anlage
!
Wenn andere Steuerelemente verwendet, Einstellungen vorgenommen oder Verfahren durchgeführt werden als die hier angegebenen, kann dies gefährliche Strahlung verursachen.
!
Beachten Sie beim Arbeiten mit FibeAir IDU das folgende Stromschlag- und Gefahrenrisiko: Durch Abtrennen einer Stromquelle wird nur ein Stromversorgungsmodul abgetrennt. Um die Einheit vollständig zu isolieren, trennen Sie alle Stromversorgungen ab.
!
Maschinenlärminformations-Verordnung - 3. GPSGV, der höchste Schalldruckpegel beträgt 70 dB(A) oder weniger gemäß EN ISO 7779.
Chapter 1: Installation General This guide provides installation procedures for FibeAir RFU-C: About FibeAir RFU-C RFU-C is a state-of-the-art Radio Frequency Unit which is fully software configurable and supports a broad range of capacities and interfaces. The RFU supports low to high capacities for traditional voice and Ethernet services, as well as PDH/SDH/SONET or hybrid Ethernet and TDM interfaces. This innovative platform uses an “on-the-fly” upgrade method, whereby network operators only buy capacity as needed, benefiting from savings on initial investments and OPEX. Traffic capacity throughput and spectral efficiency are optimized with the desired channel bandwidth. For maximum user choice flexibility, channel bandwidths can be selected together with a range of modulations of from QPSK to 256 QAM. High spectral efficiency is ensured using the same bandwidth for double the capacity, via two carriers, with vertical and horizontal polarizations. This feature is implemented by a built-in XPIC mechanism. RFU-C works together with two types of indoor units. For PDH/SDH/SONET, the RFU works with the FibeAir 1500R indoor unit. For Ethernet, RFU-C works with the FibeAir IP-10 indoor unit. Together, FibeAir RFU-C and FibeAir 1500R/IP-10 IDUs provide a powerful, reliable, and comprehensive solution for a variety of wireless network scenarios and requirements.
RFU-C works with:
FibeAir 1500R
FibeAir IP-10
RFU-C operating in co-channel dual polarization (CCDP) mode, using the cross polarization interference canceller (XPIC) algorithm, two carriers signals can be transmitted over a single channel, using vertical and horizontal polarization. This enables double capacity in the same spectrum bandwidth. Required Tools The following tools are required for the RFU-C installation: Socket key wrench metric set Adjustable wrench
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Installation Components The following illustrations show the components involved in the installation procedures.
RFU-C
Coupler Holder with Coupler
V/H Twist
Remote Pole Mount Kit
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1+0 Direct Mount Installation To install RFU-C in a direct mount 1+0 configuration, do the following: 1. If needed, change the antenna polarization by rotating the RFU-C in accordance with the relevant antenna installation guide. Vertical Pole
Horizontal Pole
2. Spread grease on the O-ring supplied with the antenna. 3. Place the O-ring in its location on the antenna transition. 4. Remove the sticker from the RFU-C antenna interface. 5. Mount the RFU-C on the antenna according to the system configuration, and make sure that the twist is set for the desired polarization (horizontal or vertical).
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6. Insert four screws and washers provided with the kit, and tighten them.
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1+1 Direct Mount Installation To install RFU-C in a direct mount 1+1 configuration, do the following: 1. If needed, change the antenna polarization according to the relevant antenna installation guide. 2. Spread grease on the two O-rings supplied with the kit and place them in their locations. 3. Mount the twist on the coupler according to the relevant antenna polarization (as shown in the illustrations below), using four screws and washers supplied with the kit.
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4. Spread grease on the O-ring supplied with the antenna. 5. Place the O-ring on the antenna transition. 6. Mount the coupler holder on the antenna using the screws and washers supplied with the kit.
7. Spread grease on the O-rings supplied with the holder coupler kit. 8. Place one O-ring on each side of the coupler. 9. Remove the sticker from both RFU-C antenna interfaces. 10. Mount both RFU-Cs on the holder coupler. 11. For each RFU-C, insert four screws and washers, and tighten them, as shown in the following illustration.
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1+0 Remote Mount Installation 1. Mount the Ceragon remote mount device on the pole, as shown in the following illustration.
2. Remove the sticker from the RFU-C antenna interface. 3. Mount the RFU-C on the Ceragon remote mount device.
4. Insert four screws and washers, and tighten them. 5. Spread grease on the O-ring supplied with the flexible waveguide.
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6. Place the O-ring in the flexible waveguide flange groove. 7. Spread grease on the O-ring supplied with the flexible waveguide. 8. Place the O-ring in the other end of the flexible waveguide flange groove. 9. Mount the flexible waveguide on the antenna, and tighten the screws and washers.
6-13 GHz
15-38 GHz
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1+1 Remote Mount Installation 1. Mount the Ceragon remote mount device on the pole.
2. Mount the coupler holder on the Ceragon remote mount device using the screws and washers supplied with the kit.
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3. Spread grease on the O-rings supplied with the coupler holder kit. 4. Remove the sticker from both RFU-C antenna interfaces. 5. Place one O-ring on each side of the coupler. 6. Mount both RFU-Cs on the coupler holder. 7. For each RFU-C, insert four screws and washers, and tighten them.
8. Spread grease on the O-ring supplied with the flexible waveguide. 9. Place the O-ring in the flexible waveguide flange groove. 10. Mount the flexible waveguide on the Ceragon coupler, and tighten the screws and washers. 11. Spread grease on the O-ring supplied with the flexible waveguide. 12. Place the O-ring in the other end of the flexible waveguide flange groove. 13. Mount the flexible waveguide on the antenna, and tighten the screws and washers.
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Mediation Device (Antenna Mount) Losses Configuration
1+0
Mount
Path
Direct Remote Direct
1+1 HSB
2+0 XPIC
Per Terminal Losses (dB) 6-8 GHz
11 GHz
13-15 GHz
18 GHz
23-32 GHz
38 GHz
-
0.1
0.1
0.1
0.1
0.1
0.1
-
0.5
0.5
1.2
1.5
1.5
1.5
Main-Main
1.4
1.4
1.4
1.4
1.6
1.8
Sec-Main, Main-Sec
6
6
6
6
6
6
Main-Main
1.9
1.9
2.6
2.9
3.1
3.3
Remote
Sec-Main, Main-Sec
6.5
6.5
7.2
7.5
7.5
7.5
Remote
-
0.5
0.5
1.2
1.5
1.5
1.5
Notes: 1. The antenna interface is always the RFU-C interface. 2. If other antennas are to be used, an adaptor with a 0.1 dB loss should be considered. Loss (dB) Item 6-8 GHz
11 GHz
13-15 GHz
18-32 GHz
38 GHz
Flexible Waveguide
0.5
0.5
1.2
1.5
1.5
Main Coupler
1.4
1.4
1.4
1.5
1.5
Secondary Coupler
6
6
6
6
6
Twist
0
0
0
0
0
Note: The numbers above are typical losses per component.
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Direct Mount for Nokia FlexiHopper Antennas RFU-C can be directly mounted on a Nokia FlexiHopper 6-38 GHz, 1-6 ft antenna, in 1+0 and 1+1 configurations. An adapter is used for the direct mount, as shown in the following illustration.
RFU-C to Nokia FlexiHopper Antenna Adapter
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Antenna Connection RFU-C uses Andrew, RFS and antennas Xian Putian, The following catalog items should be used: •
Andrew: VHLP/HP series
•
RFS: SB/SU series
•
Xian Putian: WTG series
RFU-C can be mounted directly for all frequencies (6-38 GHz) using the following antenna types (for integrated antennas, specific antennas PNs are required): •
Andrew: VHLP series
•
RFS: SB/SU series
•
Xian Putian: WTG series
For remote mount installations, the following flexible waveguide flanges should be used (millimetric). The same antenna type (integrated) as indicated above can be used (recommended). Other antenna types using the flanges listed in the table below may be used. Frequency (GHz)
Waveguide Standard
Waveguide Flange
Antenna Flange
6
WR137
PDR70
UDR70
7/8
WR112
PBR84
UBR84
11
WR90
PBR100
UBR100
13
WR75
PBR120
UBR120
15
WR62
PBR140
UBR140
18-26
WR42
PBR220
UBR220
28-38
WR28
PBR320
UBR320
If a different antenna type (CPR flange) is used, a flange adaptor is required. Please contact your Ceragon representative for details.
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Antenna Adaptor When mounting RFU-C on an antenna upon which a 1500P ODU (11-38 GHz) direct mount was installed previously, the following adaptor is required (frequency-dependent).
Antenna adaptor used when replacing 1500P ODU direct mount
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Packing The equipment should be packed and sealed with moisture absorbing bags.
Transportation The equipment should be prepared for public transportation. The cargo must be kept dry during transportation, in accordance with ETS 300 019-1-2, Class 2.3. It is recommended that the equipment be transported to the installation site in its original packing case. If intermediate storing is required, the packed equipment must be stored in a dry and cool environment, and out of direct sunlight, in accordance with ETS 300 019-1-1, Class 1.2.
Inspection Check the packing lists and verify that the correct equipment part numbers and quantities are found in the packages that arrived.
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Chapter 2: Acceptance & Commissioning Procedures General This chapter provides Ceragon's recommended Acceptance and Commissioning Procedure for FibeAir RFU-C. Acceptance and commissioning should be performed after initial setup is complete. The purpose of this procedure is to verify correct installation and operation of the installed link and the interoperability with customer end equipment. Ceragon's Acceptance and Commissioning procedure includes the following stages: Site Acceptance Procedure Commissioning of radio link in a 1+0 configuration Commissioning of radio link in a 1+1 configuration Commissioning of radio link in a 2+0 XPIC configuration The Site Acceptance Procedure is a checklist that summarizes the installation requirements of the site at which the products were installed. The commissioning tests cover the required configuration information that should be recorded, and the tests that should be performed on the radio link in 1+0, 1+1 and 2+0 configurations. Note: RFU-C works together with two types of indoor units. For SDH/SONET, the RFU works with the FibeAir 1500R indoor unit. For Ethernet, RFU-C works with the FibeAir IP-10 indoor unit.
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Site Acceptance Procedure The purpose of the following procedures is to verify that all installation requirements were noted and checked. Following this procedure will ensure proper, long-lasting, and safe operation of the product. The checklist below summarizes the installation requirements of the site.
SITE ACCEPTANCE CHECKLIST 1. SITE INFORMATION Customer: Radio model: Site name: Site code: Radio link code: Site address: 2. ANTENNA MOUNTING Antenna mount type: Mount is of sufficient height to clear local obstructions
OK
Mount is safely positioned to not cause a safety hazard
OK
Mount is secure and perpendicular
OK
Mount is grounded as per site specifications
OK
All steelwork is Galvanized or Stainless Steel as appropriate
OK
3. ANTENNA Antenna type (model and size): Antenna is securely fixed to mount
OK
Antenna is grounded as per site specifications
OK
Antenna sway braces are installed correctly (where applicable)
OK
Antenna Radome is securely fitted (where applicable)
OK
Water drain plugs are fitted and removed, as appropriate
OK
Antenna sealing O-Ring is properly fitted and not damaged
OK
Antenna/Launch unit polarization is as per link requirements
OK
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SITE ACCEPTANCE CHECKLIST (continued) 4. OUT-DOOR UNIT Type of RFU mount:
(Direct or Remote mount)
RFU is securely mounted to the antenna or pole
OK
RFU is grounded as per installation instructions
OK
RFU polarization is as per link requirements
OK
RFU is installed properly and has no physical damage
OK
For Remote-Mount Only: Remote mount kit is securely mounted to the pole
OK
Waveguide has no physical damage and connectors are sealed
OK
All waveguide bolts are secured using washers and lockwashers, as appropriate
OK
Flexible waveguide is secured to the pole
OK
6. COAX CABLE Overall cable length: Cable type: N-Type connectors assembled properly on the cable
OK
Cable connected securely to RFU and IDU
OK
Cable connector is weather-proofed (sealed) at the RFU
OK
At the RFU, cable has a service/drip loop to prevent moisture from entering the connector
OK
Cable is secured using suitable restraints to fixed points at regular intervals (0.5 m recommended)
OK
Cable has no sharp bends, kinks, or crushed areas. All bends are per manufacturer specifications
OK
Grounding/lightning protection is as per site specifications
OK
Lightning protection type and model: Cable point-of-entry to building/shelter is weather-proof
OK
Cable ends are properly labeled
OK
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SITE ACCEPTANCE CHECKLIST (continued) 7. WAVEGUIDE WG type: WG is connected securely to RFU and Antenna
OK
WG connector is weather-proofed (sealed) at the RFU
OK
At the RFU, the WG has a service/drip loop to prevent moisture from entering the connector
OK
WG is secured using suitable restraints to fixed points at regular intervals (0.5 m recommended)
OK
WG has no sharp bends, kinks, or crushed areas. All bends are per manufacturer specifications
OK
WG ends are properly labeled
OK
8. IN-DOOR UNIT IDU is securely mounted to the rack
OK
IDU is located in a properly ventilated environment
OK
IDU fans are functional and air flow to the fans is not disrupted
OK
IDU and rack are grounded as per site specifications
OK
Traffic cables and connections are properly terminated as per manufacturer/cable instructions
OK
All cabling is secured, tidy, and visibly labeled
OK
9. DC POWER SUPPLY - Two Inputs Measured DC voltage input to the IDU:
(-40.5 to -60 VDC)
Power-Supply maximum current:
(at least 3 Ampere)
Power-Supply is properly grounded
OK
DC power backup type: IDU DC connector is secure and the DC input leads are correctly terminated (no bare wires are visible)
OK
IDU DC connector (+) and (GND) leads are shorted and GND is grounded
OK
10. RACK INSTALLATION Rack is mounted to the shelter floor with four screws
OK
Rack is mounted to the shelter wall with two screws
OK
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SITE ACCEPTANCE CHECKLIST (continued) 11. REMARKS/NOTES
12. GENERAL INFORMATION Name: Title: Site accepted by:
Company: Signature: Date: Name: Title:
Site approved by:
Company: Signature: Date:
Site Acceptance Checklist Notes The following notes provide important additional information about the Site Acceptance Checklist. 1.
Antenna Mounting Mounting pole is of sufficient height to clear local obstructions, such as parapets, window cleaning gantries, and lift housings. Mounting Pole is of sufficient height, and is safely positioned, so as not to cause a safety hazard. No person should be able to walk in front of, or look directly into the path of the microwave radio beam. Where possible, the pole should be away from the edge of the building. Mounting pole is secure and perpendicular. A pole that is not perpendicular may cause problems during antenna alignment. Mounting pole is grounded as per site specifications. All operators and site owners have specific requirements regarding the grounding of installations. As a minimum, typical requirements are such that any metal structure must be connected to the existing lightning protection ground of the building. Where it extends beyond the 45 degree cone of protection of existing lightning conductors, additional lightning protectors should be installed. All steelwork is Galvanized or Stainless Steel, as appropriate to prevent corrosion.
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2.
Antenna Antenna is grounded as per site specifications. See the third point in the Antenna Mounting section above. Antenna sway braces are fitted and installed correctly, where applicable. Typically, for an antenna of 1.2 m or larger, an extra sway brace is fitted to the mounting frame of the antenna. This sway brace should not be mounted to the same pole as the antenna, but should be installed directly back to the tower or an alternative point. Antenna Water Drain Plugs are fitted and removed, where appropriate. Some antennas have moisture drain plugs installed at various points around the antenna. The purpose of these plugs is to allow any moisture that forms on the inside of the antenna or radome to drip out and prevent a pool within the antenna. Only the plugs at the bottom of the antenna, after installation, should be removed. All other plugs should be left in position.
3.
RFU (Radio Frequency Unit) The RFU is grounded as per installation instructions. See the third point in the Antenna Mounting section above. The RFU polarization is as per link requirements and matches the polarization of the antenna.
4.
Indoor Unit The main traffic connections are correctly terminated and crimped as per cable and connector manufacturer instructions. All fiber optic patch leads should be routed carefully and efficiently, using conduits to prevent damage to the cables. All other user terminations are secure and correctly terminated. All labeling is complete as per site requirements. Labeling is specific to each customer. At a site with only one installation, labeling may be unnecessary. However, at sites with multiple installations, correct and adequate labeling is essential for future maintenance operations. Typical labeling requirements include: Antenna labels - for link identity and bearing RFU labels - for link identity, frequency, and polarization Coax cable labels - for link identity, close to the RFU, IDU, and either end of any joint IDU labels - for link identity
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1+0 Commissioning Procedure Scope This section describes the recommended commissioning tests for a FibeAir RFU-C radio link in a 1+0 configuration. The purpose of the commissioning tests is to verify correct and proper operation of the product.
Commissioning Test The following tests should be performed on each installed link.
Link Verification “Radio” LED on the IDM front panel is green, indicating the radio link is up. Received Signal Level (RSL) is up to +/- 4 dB from the expected (calculated) level at both ends of the link. Radio Bit Error Rate (BER) is 10E-11 or higher. If working with ATPC, ATPC is operating as expected (RSL = reference level). After connecting test equipment or end equipment to the line interfaces, all LEDs on the front panel of the IDM are green.
Line Interfaces Test 155 Mbps Interface - connect SDH/SONET/ATM test equipment to the 155 Mbps interface and verify error-free operation for at least 1 hour. Use a physical or software loop at the far end. FE/GbE Interface - connect a Packet Analyzer to the Fast Ethernet interface and verify errorfree operation (no packet loss) for at least 1 hour. Use a physical loop at the far end. 2 Mbps/1.5 Mbps - connect PDH test equipment to the E1/T1 interface and verify error-free operation for at least 1 hour. Use a physical or software loop at the far end.
Interoperability Verification Connect customer end equipment to the line interfaces, and verify correct operation. Further interoperability tests should be performed in accordance with the specific requirements of the connected end equipment.
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Management Verification Install CeraView element manager software on the PC, and launch the program. Verify that you can manage the link and that you are able to perform changes to the link configuration (frequency channel, Tx power, system name, time & date, etc.) via CeraView. Verify that CeraView reports the correct parameters when performing the above. Verify that there are no active alarms on the link. If the management station is located at a remote site (Network Operation Center), verify that the management station can manage the link and receive traps.
Loopback Operation Perform line loopback, IDU loopback, RFU loopback, and Remote loopback, and verify that the system operates accordingly.
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1+1 Commissioning Procedure Scope This section describes the recommended commissioning tests for a FibeAir RFU-C radio link in 1+1 HSB (Hot Standby) and SD (Space Diversity) or FD (Frequency Diversity) configurations (internal protection). The purpose of the commissioning tests is to verify correct and proper operation of the product. Note that in this section: Primary refers to the RFUs connected to the top-most antenna in an SD configuration. Secondary refers to the RFUs connected to the bottom antenna in an SD configuration.
Commissioning Tests The following tests should be performed on each installed link.
Link Verification The following steps should be repeated for each of the four RFU combinations (Primary-Primary, PrimarySecondary, Secondary-Primary, Secondary-Secondary). “Radio” LED on the IDM front panel is green, indicating the radio link is up. Received Signal Level (RSL) is up to +/- 4 dB from the expected (calculated) level at both ends of the link. Radio Bit Error Rate (BER) is 10E-11 or higher. If working with ATPC, ATPC is operating as expected (RSL = reference level). After connecting test equipment or end equipment to the line interfaces, all LEDs on the front panel of the IDM are green.
Line Interfaces Test 155 Mbps interface - connect SDH/SONET/ATM test equipment to the 155 Mbps interfaces using splitters, and verify error-free operation for at least 1 hour. Use physical loop between the splitters at the far end. FE, GbE interface - connect a Packet Analyzer to the Fast Ethernet interfaces using an FE splitter, and verify error-free operation (no packet loss) for at least 1 hour. Use a physical loop at the far end. 2 Mbps/1.5 Mbps - connect PDH test equipment to the E1/T1 interfaces using splitters, and verify error-free operation for at least 1 hour. Use a physical loop between the splitters at the far end.
FibeAir® RFU-C Installation Guide
2-9
Switching Tests Define each of the N channels as preferred (one at a time) for errorless switching to the +1 channel. The regular channel supports hitless switching to the +1 channel. 155 Mbps Interface Connect SDH/SONET/ATM test equipment to the 155 Mbps interfaces using splitters. Use physical loop between the splitters at the far end. Verify that there are no alarms. Perform the following switching tests from one IDM to the other, and verify the system switches automatically. - Power: power off the active IDM - Radio: disconnect the coax cable of the active IDM - Line: disconnect the 155 Mbps line input of the active IDM - Management: force a switch using CeraView For diversity configurations, verify that each receiver is receiving its own signal, and then mute the active RFU. Verify that the receiver at the far end still receives from the diversity path. Verify that there are no errors in the test equipment. FE, GbE Interface Connect a Packet Analyzer to the Fast Ethernet interfaces using splitters. Use a physical loop between the splitters at the far end. Verify no alarms exist. Perform the following switching tests from one IDM to the other, and verify the system switches automatically. - Power: power off the active IDM - Radio: disconnect the coax cable of the active IDM - Management: force a switch using CeraView 2/1.5 Mbps Interface Connect PDH test equipment to the interfaces using splitters. Use a physical loop between the splitters at the far end. Verify no alarms exist. Perform the following switching tests from one IDM to the other, and verify the system switches automatically. - Power: power off the active IDM - Radio: disconnect the coax cable of the active IDM - Management: force a switch using CeraView
Interoperability Verification Connect the customer end equipment to the line interfaces and verify correct operation. Further interoperability tests should be performed in accordance with the specific requirements of the connected end equipment.
FibeAir® RFU-C Installation Guide
2-10
Management Verification Install CeraView element manager software on the PC and launch the program. Verify that you can manage the link and that you are able to perform changes to the link configuration (frequency channel, Tx power, system name, time & date, etc.) via CeraView. Verify that CeraView reports the correct parameters when performing the above. Verify that there are no active alarms on the link. If the management station is located a t a remote site (Network Operation Center), verify that the management station can manage the link and receive traps.
FibeAir® RFU-C Installation Guide
2-11
2+0 XPIC Commissioning Procedure Scope This section describes the recommended commissioning tests for a FibeAir RFU-C radio link in a 2+0 XPIC Co-Channel-Dual-Polarization configuration. The purpose of the commissioning tests is to verify correct and proper operation of the product. Important! Since operation of the XPIC system depends on correct installation, make sure the guidelines for XPIC system installation provided below are followed correctly.
XPIC Installation Guidelines Antenna and RFU Installation 1.
Install the dual polarization antenna and point it in the direction of the other site.
2.
Install the two RFUs on a dual polarization antenna using the appropriate mounting kit, and mark the RFUs with V and H respectively.
IDU-RFU Cable Installation 1.
Install two cables between the RFUs and the drawers (IDMs). Note that cable length difference should not exceed 10 meters.
2.
Mark the cables with V and H respectively, and make sure V is connected to the right drawer and H is connected to the left drawer.
3.
Mark the drawers respectively.
Antenna Alignment 1.
Power up drawer V on both ends of the link and configure it to the desired frequency channel and maximum power.
2.
Align the antennas, one at a time, until expected RSL is achieved. Make sure the achieved RSL is no more than +/-4 dB from the expected level.
Polarization Alignment Polarization alignment is required to verify that the antenna feeds are adjusted, to ensure that the antenna XPD (Cross Polarization Discrimination) is achieved. Polarization adjustment should be done on one antenna only. 1.
Power up drawer V on both ends of the link and record the RSL reading on one end.
2.
Power off drawer V on that end and power on drawer H.
FibeAir® RFU-C Installation Guide
2-12
3.
Check the RSL obtained on this RFU on H pol, and compare it to the RSL obtained by the RFU installed on the V pol.
4.
Verify that XPI (Cross Polarization Interference) is at least 25 dB where:
XPI = RSLPOL − RSLXPOL RSLPOL → Link RSL with thesamepolarization used at both sites. RSLXPOL → Link RSL with orthogonalpolarizations used at both sites. 5.
If XPI is less than 25 dB, adjust the feed polarization by opening the polarization screw and gently rotating the feed to minimize the RSLXPOL. Note that polarization alignment is not always possible since the RSLXPOL may fall below the sensitivity threshold of the RFU. It is also recommended to try to maximize the XPI as much as possible, by aligning the polarization.
XPIC Commissioning Tests Individual Link Verification Before operating in XPIC configuration, each of the links (V and H) should be commissioned individually in order to verify its proper operation. 1
Power up only drawer V at both ends and verify its frequency channel and Tx power configuration.
2
Verify that the RSL is no more than +/-4 dB from the expected level.
3
Run BER stability test on the link for at least 15 minutes to ensure error-free operation.
4
Power up only drawer H at both ends and verify its frequency channel and Tx power configuration.
5
Verify that the RSL is no more than +/-4 dB from the expected level.
6
Run BER stability test on the link for at least 15 minutes to ensure error-free operation.
XPIC Configuration Verification 1
Using the XPIC cable, connect the two RFUs at each end to the TNC connectors. Make sure the cable is no longer than 3 meters.
2
Configure the drawers to work in XPIC mode.
3
Verify that the RSL at all four RFUs is no more than +/-4 dB from the expected level.
4
Verify that no alarms exist (if a 155 Mbps line is connected).
5
Run BER stability test on each of the 155 Mbps links for at least 1 hour to ensure error-free operation.
Note: In a 2+2 configuration, repeat each step above for each of the four coupled RFU combinations.
FibeAir® RFU-C Installation Guide
2-13
XPIC Recovery Verification In order to verify XPIC operation, simulate the faults described below. 1
Disconnect the IDU-RFU cable for each of the drawers (one at a time), and verify that the other link is operating.
2
Disconnect the XPIC cable and check that the relevant alarms are generated.
3
Power down each of the drawers and verify that the other link is operating.
4
Swap the V and H cables and check that the relevant alarm is generated.
5
Mute and then un-mute one RFU at a time and verify that the other link is operating.
Note: In a 2+2 configuration, repeat each step above for each of the four coupled RFUs connected to the two standby IDUs.
2+2 Verification Perform the tests specified in Switching Tests in the 1+1 Commissioning Procedure section earlier in this guide. In this case, the switch will be from a main IDU connected to the main V and main H RFUs, to the secondary IDU connected to the coupled V and coupled H RFUs.
FibeAir® RFU-C Installation Guide
2-14
FibeAir RFU-C Commissioning Log The Commissioning Log is an integral part of the commissioning procedure and should be filled in for each installed link. The Commissioning Log gathers all relevant information regarding the installed link and contains a checklist of all recommended commissioning tests. Maintaining the Commissioning Log is important for tracking your installations, and to provide essential data for Ceragon Networks. Upon completing the Commissioning Log, send the log to Ceragon support center at
[email protected]. FIBEAIR RFU-C LINK COMMISSIONING LOG 1. GENERAL INFORMATION Customer: Radio model: Configuration: Radio link code: Site 1 name & add: Site 2 name & add: 2. IN-DOOR UNIT
Site 1 Drawers Right / Left
Site 2 Drawers Rigt / Left
IDC model: Wayside channel: IDC p/n: IDC s/n: SW IDC: Drawer model Main channel Drawer p/n Drawer s/n Modem s/n FW Mux: FW Modem: Cfg Modem:
FibeAir® RFU-C Installation Guide
2-15
FIBEAIR RFU-C LINK COMMISSIONING LOG (continued) 3. RFU
Site 1 Drawers Right / Left
Site 2 Drawers Right / Left
Site 1 Drawers Right / Left
Site 2 Drawers Right / Left
Site 1 Drawers Right / Left
Site 2 Drawers Right / Left
RFU model: RFU p/n: RFU Main s/n: SW RFU: Tx frequency (MHz): Rx frequency (MHz): Link ID: Tx power (dBm): ATPC on/off: ATPC ref level: RFU polarization: 4. ANTENNA Antenna model: Antenna size: Manufacturer: Mounting type: Mounting losses: 5. LINK PARAMETERS Link distance: Rain zone: Expected RSL (dBm): Expected Diversity RSL (dBm): RSL Main (dBm): RSL Diversity (dBm): Deviation from exp? RSL ≤4 dB?
FibeAir® RFU-C Installation Guide
2-16
FIBEAIR RFU-C LINK COMMISSIONING LOG (continued) 6. COMMISSIONING TESTS Front panel LEDs:
Site 1 Drawers Right / Left
Site 2 Drawers Right / Left
All green
All green
All green
All green
Line loopback:
Pass
Pass
Pass
Pass
IDU loopback:
Pass
Pass
Pass
Pass
RFU loopback:
Pass
Pass
Pass
Pass
Radio BER:
Pass
Pass
Pass
Pass
STM-1 test:
Pass
Pass
Pass
Pass
Fast Ethernet test:
Pass
Pass
Pass
Pass
8 x E1/T1 test:
Pass
Pass
Pass
Pass
E3/DS3 test:
Pass
Pass
Pass
Pass
Wayside E1 test:
Pass
Pass
Pass
Pass
Wayside Eth test:
Pass
Pass
Pass
Pass
XPIC test:
Pass
Pass
Pass
Pass
Switching test:
Pass
Pass
Pass
Pass
7. MANAGEMENT CONFIGURATION
Site 1
Site 2
Eth Main IP address: Eth Coupled IP address: Eth IP mask: Serial IP address: Serial IP mask: Default router: In-band enabled? Gateway/NE: In-band channel 1: In-band channel 2: Ring IP address: Ring IP mask: Network ID: 8. REMARKS/NOTES
FibeAir® RFU-C Installation Guide
2-17
FIBEAIR RFU-C LINK COMMISSIONING LOG (continued) 9. INSTALLATION INFORMATION Name: Installed by:
Company: Date: Signature: Name:
Commissioned by:
Company: Date: Signature:
FibeAir® RFU-C Installation Guide
2-18
Appendix A: Frequency Information General This appendix provides frequency information for FibeAir RFU-C.
RFU Frequency Bands RFU-C is available for ITU-R, CEPT, and FCC channels, in accordance with the table below. All RFU-Cs (6-38 GHz) support 7-56 MHz bands (for capacities of from 10 to 500 Mbps). 56 MHz bandwidth is supported for all frequencies (6-38 GHz). The following table lists the frequency bands, sub-bands, and duplex spacing supported by RFU-C. For a detailed list of the low frequency channels, see the appendix at the end of this document. Frequency Band
Separation MHz
Standard
Tx Low MHz
Tx High MHz
5900-6500
5900-6501
6400-7100
6400-7101
7100-7900
7100-7900
7700-8500
7700-8500
ITU-R F.383-7, * 6L GHz
(variable) 252.04, 240,260, 266, 300
ITU-R F.384-7 CEPT 14-01E ITU-R F.497-6 CFR47 101.147
* 6H GHz
* 7 GHz
* 8 GHZ
(variable) 340,160,
ITU-R F.383-7
170,500
CFR47 101.147
(variable) 154,161,16 8,182,196,2 45,300
CEPT 14-01E ITU-R F.385-7, Annex 3 ITU-R F.385-8, Rec 1-4, Annex 1,3,4
(variable) 119,154,20 8,266,300,3 10,311.32,5 30
FibeAir® RFU-C Installation Guide
CEPT 02-06 Annex 1 ITU-R F.386-6, Annex 4,3 CEPT 02-06
A-1
Frequency Band
11 GHz
Separation MHz
Standard
Tx Low MHz
Tx High MHz
490
ITU-R F.387-9,
10721-10949
11211-11439
10961-11189
11451-11679
10701-10929
11231-11459
530
ITU-R F.387-9, Annex 2 CEPT 12-06 rec.3
10941-11169
11471-11699
266
ITU-R F.497-6,
12751-12863
13017-13129
266
CEPT 1202F
12863-12975
13129-13241
315
14648-14760
14963-15075
315
14732-14844
15047-15159
14501-14725
14921-15145
14697-14921
15117-15341
14403-14657
114893-15117
14627-14851
15117-15341
530
13 GHz
CEPT 12-06 rec.12
490
CFR47 101.147
420 15 GHz
ITU-R F.636-3
420 490
ITU-R F.636-3
490
18 GHz
644
ACA (ITU-R F.636-3)
14613-14697
15257-15341
728
CEPT 12-07E
14501-14613
15229-15341
1008,1010
ITU-R F.595-8
17700-18200
18710-19210
1008,1010
CEPT 12-03E
18150-18690
19160-19700
1120
17728-18113
18848-19233
1120
18113-18553
19233-19673
17700-18150
19260-19710
22000-22600
23000-23600
ITU-R F.595-8
1560 1008 23 GHz
CEPT 12-02E CFR47 101.147
21200-21800
22400-23000
1200
ITU-R F.637-3, Annex 4
21800-22400
23000-23600
21224-21784
22456-23016
21784-22344
23016-23576
800
24250-24450
25050-25250
1008
24549-24997
25557-26005
24997-25445
26005-26453
27548-27996
28556-29004
27996-28444
29004-29452
1232
1008 28 GHz
ITU-R F.637-3, Annex 3
1200 1232
26 GHz
CFR47 101.147
1008
ITU-R F.637-3, Annex 1
ITU-R F.748-4, Annex 2 CEPT 13-02E
1008
FibeAir® RFU-C Installation Guide
A-2
Frequency Band 32 GHz
Separation MHz
Standard
Tx Low MHz
Tx High MHz
812
ITU-R F.1520-2
31815-32207
32627-33019
812
CEPT (01)
32179-32571
32991-33383
700
ITU-R F.749-2, Annex1
38600-38950
39300-39650
38950-39300
39650-40000
38050-38500
39050-39500
700 38 GHz
CEPT 12-01E CFR47 101.147
1000 1260
ITU-R F.749-2,
37058-37618
38318-38878
1260
Annex 3,1
37618-38178
38878-39438
FibeAir® RFU-C Installation Guide
A-3
* Low Frequency Bands and Frequency Channel Allocation
Frequency
TR Spacing/Block 240A
252A L6 GHz
252B 260A 266A 300A 170A
H6 GHz
340A 340B 340C
154A
7 GHz
154B
154C
FibeAir® RFU-C Installation Guide
Channel
Tx Low MHz
Tx High MHz
1-3
5941-6049
6181-6289
4-6
6061-6169
6301-6409
1-4
5931.2-6048.2
6183.2-6300.2
3-6
5992-6106
6244-6358
5-8
6049.8-6166.8
6301.8-6418.8
1-4
5916.4-6033.3
6168.4-6285.4
5-8
6035-6151.9
6287-6404
1-2
5941-6029
6201-6289
3-4
6061-6149
6321-6409
1-4
5927-6039
6193-6305
5-8
6039-6151
6305-6417
2-3
5973.5-6091.5
6273.5-6391.5
1-6
6540.5-6609.5
6710.5-6769.5
7-12
6610.5-6669.5
6770.5-6829.5
13-16
6670.5-6709.5
6830.5-6869.5
1-4
6446-6594
6786-6934
5-8
6606-6754
6946-7094
1-4
6426-6574
6766-6914
5-8
6586-6734
6926-7074
1-2
6694-6750
7034-7090
1-2
7428-7484
7582-7638
2-3
7456-7512
7610-7666
3-4
7484-7540
7638-7694
4-5
7512-7568
7666-7722
1-2
7442-7498
7596-7652
2-3
7470-7526
7624-7680
4-5
7526-7582
7680-7736
1-2
7128-7184
7282-7338
2-3
7156-7212
7310-7366
3-4
7184-7240
7338-7394
4-5
7212-7268
7366-7422 A-4
Frequency
TR Spacing/Block
161A
161B
161C
7 GHz
161D
161F
161I
161J
FibeAir® RFU-C Installation Guide
Channel
Tx Low MHz
Tx High MHz
1-2
7124.5-7180.5
7285.5-7341.5
2-3
7152.5-7208.5
7313.5-7369.5
3-4
7180.5-7236.5
7341.5-7397.5
4-5
7203-7264.5
7364-7425.5
1-2
7249.5-7305.5
7410.5-7466.5
2-3
7277.5-7333.5
7438.5-7494.5
4-5
7333.5-7389.5
7494.5-7550.5
1-2
7424.5-7480.5
7585.5-7641.5
2-3
7452.5-7508.5
7613.5-7669.5
4-5
7508.5-7564.5
7669.5-7725.5
1-2
7549.5-7605.5
7710.5-7766.5
2-3
7577.5-7633.5
7738.5-7794.5
4-5
7633.5-7689.5
7794.5-7850.5
1-2
7115.5-7189.5
7276.5-7350.5
2-3
7164.5-7238.5
7325.5-7399.5
4-5
7415.5-7489.5
7576.5-7650.5
5-6
7464.5-7538.5
7625.5-7699.5
1-2
7421-7477
7582-7638
2-3
7449-7505
7610-7666
4-5
7505-7561
7666-7722
1-2
7414-7470
7582-7638
2-3
7442-7498
7610-7666
4-5
7498-7554
7666-7722
A-5
Frequency
TR Spacing/Block 161K
168B
7 GHz
182A
196A 245A 300A 119A
154A
208A
8 GHz
250A 252A 266A 266B 300A 310A
FibeAir® RFU-C Installation Guide
Channel
Tx Low MHz
Tx High MHz
1-2
7485.5-7538.5
7646.5-7699.5
2-3
7513.5-7566.5
7674.5-7727.5
1-2
7443-7499
7611-7667
2-3
7471-7527
7639-7695
4-5
7527-7583
7695-7751
1-2
7414-7470
7596-7652
2-3
7442-7498
7624-7680
4-5
7498-7554
7680-7736
1-3
7107-7191
7303-7387
3-5
7163-7247
7359-7443
1-4
7428-7540
7673-7785
5-8
7540-7652
7785-7897
1-5
7136-7284
7436-7584
6-9
7286-7404
7586-7704
1-3
8279-8335
8398-8454
4-6
8321-8377
8440-8496
1-2
8203-8259
8357-8413
2-3
8231-8287
8385-8441
4-5
8287-8343
8441-8497
1-4
8050-8162
8258-8370
5-7
8162-8246
8370-8454
1-4
8025-8095
8275-8345
5-8
8081-8151
8331-8401
1-2
7976-8034
8228-8286
1-4
7912-8024
8178-8290
5-8
8024-8136
8290-8402
1-2
7926-8010
8192-8276
1-4
7726-7844
8026-8144
5-8
7846-7964
8146-8264
1-3
7731-7839
8041-8149
4-6
7851-7959
8161-8269
A-6
Frequency
TR Spacing/Block
310C
310D 8 GHz 311A 311B 530A
FibeAir® RFU-C Installation Guide
Channel
Tx Low MHz
Tx High MHz
1-3
7905-7989
8215-8299
2-4
7933-8017
8243-8327
4-6
7989-8073
8299-8383
1-2
7905-7989
8215-8299
2-3
7933-8017
8243-8327
4-5
7989-8073
8299-8383
1-4
7733.7-7850.7
8045-8162
5-8
7852.3-7969.3
8163.6-8280.6
1-4
7718.9-7835.8
8030.2-8147.1
5-8
7837.5-7954.4
8148.8-8265.7
1-2
7746-7774
8276-8304
A-7
6-8 GHz Frequency Channels Note: For additional channel schemes, please contact your Ceragon representative.
6L GHz (5.85-6.45 GHz)
ITU-R F.383-7 [1-3] T/R Separation
240
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
5955.00
1
6195.00
2
5995.00
2
6235.00
3
6035.00
3
6275.00
4
6075.00
4
6315.00
5
6115.00
5
6355.00
6
6155.00
6
6395.00
ITU-R F.383-7 [0] / FCC 101.147(i8) T/R Separation
252.04
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
5945.20
1
6197.24
2
5974.85
2
6226.89
3
6004.50
3
6256.54
4
6034.15
4
6286.19
5
6063.80
5
6315.84
6
6093.45
6
6345.49
7
6123.10
7
6375.14
8
6152.75
8
6404.79
FibeAir® RFU-C Installation Guide
A-8
FCC 101.147(i7) T/R Separation
252.04
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
5935.32
1
6187.36
2
5945.2
2
6197.24
3
5955.08
3
6207.12
4
5964.97
4
6217.01
5
5974.85
5
6226.89
6
5984.73
6
6236.77
7
5994.62
7
6246.66
8
6004.5
8
6256.54
9
6014.38
9
6266.42
10
6024.27
10
6276.31
11
6034.15
11
6286.19
12
6044.03
12
6296.07
13
6053.92
13
6305.96
14
6063.8
14
6315.84
15
6073.68
15
6325.72
16
6083.57
16
6335.61
17
6093.45
17
6345.49
18
6103.33
18
6355.37
19
6113.22
19
6365.26
20
6123.1
20
6375.14
21
6132.98
21
6385.02
22
6142.87
22
6394.91
23
6152.75
23
6404.79
24
6162.63
24
6414.67
FibeAir® RFU-C Installation Guide
A-9
ITU-R F.384-7 T/R Separation
260
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
5955.00
1
6215.00
2
6015.00
2
6275.00
3
6075.00
3
6335.00
4
6135.00
4
6395.00
ITU-R F.497-6 [0] T/R Separation
266
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
5941.00
1
6207.00
2
5969.00
2
6235.00
3
5997.00
3
6263.00
4
6025.00
4
6291.00
5
6053.00
5
6319.00
6
6081.00
6
6347.00
7
6109.00
7
6375.00
8
6137.00
8
6403.00
FibeAir® RFU-C Installation Guide
A-10
6H GHz (6.45-7.1 GHz)
ITU-R F.384-7 T/R Separation
340
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
6460.00
1
6800.00
2
6500.00
2
6840.00
3
6540.00
3
6880.00
4
6580.00
4
6920.00
5
6620.00
5
6960.00
6
6660.00
6
7000.00
7
6700.00
7
7040.00
8
6740.00
8
7080.00
FCC 101.147(k7) T/R Separation
170
160
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
6545
1
6715
2
6555
2
6725
3
6565
3
6735
4
6585
4
6745
5
6595
1
6755
6
6605
2
6765
7
6615
3
6775
8
6625
4
6785
9
6635
5
6795
10
6645
6
6805
11
6655
7
6815
12
6665
8
6825
13
6675
9
6835
14
6685
10
6845
15
6695
11
6855
16
6705
12
6865
FibeAir® RFU-C Installation Guide
A-11
7 GHz (7.1-7.9 GHz)
ITU-R 385-7 [1] T/R Separation
154A
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7442
1
7596
2
7470
2
7624
3
7498
3
7652
4
7526
4
7680
5
7554
5
7708
ITU-R 385-7 [1] T/R Separation
154B
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7456
1
7610
2
7484
2
7638
3
7512
3
7666
4
7540
4
7694
5
7568
5
7722
ITU-R 385-7 [0] T/R Separation
161
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7138.5
1
7299.5
2
7226
2
7387
3
7428
3
7589
4
7526
4
7687
FibeAir® RFU-C Installation Guide
A-12
ITU-R 385-7 [1] T/R Separation
245
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7442
1
7687
2
7470
2
7715
3
7498
3
7743
4
7526
4
7771
5
7554
5
7799
6
7582
6
7827
7
7610
7
7855
8
7638
8
7883
ITU-R 385-7 [0]
T/R Separation
161A
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7138.5
1
7299.5
2
7166.5
2
7327.5
3
7194.5
3
7355.5
4
7222.5
4
7383.5
5
7250.5
5
7411.5
11
7145.5
11
7306.5
12
7173.5
12
7334.5
13
7201.5
13
7362.5
14
7229.5
14
7390.5
21
7152.5
21
7313.5
22
7180.5
22
7341.5
23
7208.5
23
7369.5
24
7236.5
24
7397.5
31
7159.5
31
7320.5
32
7187.5
32
7348.5
33
7215.5
33
7376.5
34
7243.5
34
7404.5
FibeAir® RFU-C Installation Guide
A-13
ITU-R 385-7 [0]
T/R Separation
161B
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7263.5
1
7424.5
2
7291.5
2
7452.5
3
7319.5
3
7480.5
4
7347.5
4
7508.5
5
7375.5
5
7536.5
11
7270.5
11
7431.5
12
7298.5
12
7459.5
13
7326.5
13
7487.5
14
7354.5
14
7515.5
21
7277.5
21
7438.5
22
7305.5
22
7466.5
23
7333.5
23
7494.5
24
7361.5
24
7522.5
31
7284.5
31
7445.5
32
7312.5
32
7473.5
33
7340.5
33
7501.5
34
7368.5
34
7529.5
FibeAir® RFU-C Installation Guide
A-14
ITU-R 385-7 [0] T/R Separation
161C
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7438.5
1
7599.5
2
7466.5
2
7627.5
3
7494.5
3
7655.5
4
7522.5
4
7683.5
5
7550.5
5
7711.5
11
7445.5
11
7606.5
12
7473.5
12
7634.5
13
7501.5
13
7662.5
14
7529.5
14
7690.5
21
7452.5
21
7613.5
22
7480.5
22
7641.5
23
7508.5
23
7669.5
24
7536.5
24
7697.5
31
7459.5
31
7620.5
32
7487.5
32
7648.5
33
7515.5
33
7676.5
34
7543.5
34
7704.5
FibeAir® RFU-C Installation Guide
A-15
ITU-R 385-7 [0] T/R Separation
161D
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7563.5
1
7724.5
2
7591.5
2
7752.5
3
7619.5
3
7780.5
4
7647.5
4
7808.5
5
7675.5
5
7836.5
11
7570.5
11
7731.5
12
7598.5
12
7759.5
13
7626.5
13
7787.5
14
7654.5
14
7815.5
21
7577.5
21
7738.5
22
7605.5
22
7766.5
23
7633.5
23
7794.5
24
7661.5
24
7822.5
31
7584.5
31
7745.5
32
7612.5
32
7773.5
33
7640.5
33
7801.5
34
7668.5
34
7829.5
ITU-R 385-7 [0] T/R Separation
161I
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7435
1
7596
2
7463
2
7624
3
7491
3
7652
4
7519
4
7680
5
7547
5
7708
FibeAir® RFU-C Installation Guide
A-16
ITU-R 385-7 [0]
T/R Separation
161J
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7428
1
7589
2
7456
2
7617
3
7484
3
7645
4
7512
4
7673
5
7540
5
7701
ITU-R 385-7 [0] T/R Separation
161K
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7498
1
7659
2
7526
2
7687
3
7554
3
7715
ITU-R 385-7 [3] T/R Separation
168B
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7457
1
7625
2
7485
2
7653
3
7513
3
7681
4
7541
4
7709
5
7569
5
7737
FibeAir® RFU-C Installation Guide
A-17
ITU-R 385-7 [1] T/R Separation
182
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7428
1
7610
2
7456
2
7638
3
7484
3
7666
4
7512
4
7694
5
7540
5
7722
ITU-R 385-7 [3] T/R Separation
196
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7121
1
7317
2
7149
2
7345
3
7177
3
7373
4
7205
4
7401
5
7233
5
7429
ITU-R 385-7 [4] T/R Separation
245
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7442
1
7687
2
7470
2
7715
3
7498
3
7743
4
7526
4
7771
5
7554
5
7799
6
7582
6
7827
7
7610
7
7855
8
7638
8
7883
FibeAir® RFU-C Installation Guide
A-18
8 GHz (7.8-8.5 GHz) ITU-R 386-6 [4] T/R Separation
266
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7926
1
8192
2
7954
2
8220
3
7982
3
8248
4
8010
4
8276
5
8038
5
8304
6
8066
6
8332
7
8094
7
8360
8
8122
8
8388
ITU-R 386-6 [1] T/R Separation
311.32A
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7747.70
1
8059.02
2
7777.35
2
8088.67
3
7807.00
3
8118.32
4
7836.65
4
8147.97
5
7866.30
5
8177.62
6
7895.95
6
8207.27
7
7925.60
7
8236.92
8
7955.25
8
8266.57
FibeAir® RFU-C Installation Guide
A-19
ITU-R 386-6 [1] T/R Separation
311.32B
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
7732.875
1
8044.195
2
7762.525
2
8073.845
3
7792.175
3
8103.495
4
7821.825
4
8133.145
5
7851.475
5
8162.795
6
7881.125
6
8192.445
7
7910.775
7
8222.095
8
7940.425
8
8251.745
ITU-R 386-6 [3] T/R Separation
119
n (L)
Center Frequency MHz
n (H)
Center Frequency MHz
1
8293
1
8412
2
8307
2
8426
3
8321
3
8440
4
8335
4
8454
5
8349
5
8468
6
8363
6
8482
FibeAir® RFU-C Installation Guide
A-20
®
FibeAir IP-10 IDU Installation Guide
Part ID: BM-0137-0 Doc ID: DOC-00018767 Rev a.01 September 2008
Notice This document contains information that is proprietary to Ceragon Networks Ltd. No part of this publication may be reproduced, modified, or distributed without prior written authorization of Ceragon Networks Ltd. This document is provided as is, without warranty of any kind.
Registered TradeMarks Ceragon Networks® , FibeAir® and CeraView® are registered trademarks of Ceragon Networks Ltd. Other names mentioned in this publication are owned by their respective holders.
TradeMarks CeraMapTM, ConfigAirTM, PolyViewTM, EncryptAirTM, CeraMonTM, EtherAirTM, and MicroWave FiberTM, are trademarks of Ceragon Networks Ltd. Other names mentioned in this publication are owned by their respective holders.
Statement of Conditions The information contained in this document is subject to change without notice. Ceragon Networks Ltd. shall not be liable for errors contained herein or for incidental or consequential damage in connection with the furnishing, performance, or use of this document or equipment supplied with it.
Information to User Any changes or modifications of equipment not expressly approved by the manufacturer could void the user’s authority to operate the equipment and the warranty for such equipment. Copyright © 2008 by Ceragon Networks Ltd. All rights reserved.
Corporate Headquarters: Ceragon Networks Ltd. 24 Raoul Wallenberg St. Tel Aviv 69719, Israel Tel: 972-3-645-5733 Fax: 972-3-645-5499 Email:
[email protected] North American Headquarters: Ceragon Networks Inc. 10 Forest Avenue, Paramus, NJ 07652, USA Tel: 1-201-845-6955 Toll Free: 1-877-FIBEAIR Fax: 1-201-845-5665 Email:
[email protected]
www.ceragon.com
European Headquarters: Ceragon Networks (UK) Ltd. 4 Oak Tree Park, Burnt Meadow Road North Moons Moat, Redditch, Worcestershire B98 9NZ, UK Tel: 44-(0)-1527-591900 Fax: 44-(0)-1527-591903 Email:
[email protected] APAC Headquarters: Ceragon Networks APAC (S'pore) Pte Ltd 100 Beach Road #27-01/03 Shaw Towers Singapore 189702 Tel.: 65 65724170 Fax: 65 65724199
Contents Chapter 1: Installation ................................................................................... 1-1 General.................................................................................................................. 1-1 Site Requirements................................................................................................ 1-1 Pre-Installation ..................................................................................................... 1-1 Unpacking Equipment at the Site ....................................................................... 1-2 Installation Requirements ................................................................................... 1-2 FibeAir IP-10 Description .................................................................................... 1-4 Installing the IDU in a Rack ................................................................................. 1-5 Grounding the IDU ............................................................................................... 1-7 Connecting the IDU.............................................................................................. 1-9 Configuring the IDU ........................................................................................... 1-10
Appendix A: Line Interfaces .........................................................................A-1 Appendix B: Connector Pin-Outs.................................................................B-1 Appendix C: Protection Information ............................................................C-1 Appendix D: Accesories ...............................................................................D-1
Safety Precautions & Declared Material Fiber Optic Line Precautions
!
Before turning on the equipment, make sure that the fiber optic cable is intact and is connected to the transmitter.
!
Do not attempt to adjust the laser drive current.
!
Do not use broken or non-terminated fiber optic cables/connectors or look straight at the laser beam. ATTENTION: The laser beam is invisible!
!
The use of optical devices with the equipment will increase eye hazard. CLASS 1 LASER PRODUCT Complies with IEC 60 825-1:1993 + A1:1997 + A2:2001, and EN 60825-1:1994 + A1:1996 + A2:2001
General Equipment Precautions
!
Use of controls, adjustments, or performing procedures other than those specified herein, may result in hazardous radiation exposure.
!
When working with a FibeAir IDU, note the following risk of electric shock and energy hazard: Diconnecting one power supply disconnects only one power supply module. To isolate the unit completely, disconnect all power supplies.
!
Machine noise information order - 3. GPSGV, the highest sound pressure level amounts to 70 dB (A) or less, in accordance with ISO EN 7779.
Safety Precautions & Declared Material (continued)
Static electricity may cause body harm, as well as harm to electronic components inside the device. Anyone responsible for the installation or maintainance of the FibeAir IDU must use an ESD Wrist Strap. ESD protection measures must be observed when touching the IDU. To prevent damage, before touching components inside the device, all electrostatic must be discharged from both personnel and tools.
RoHS Compliance Declaration 电子信息产品有毒有害物质申明 Electronic Information Products Declaration of Hazardous/Toxic Substances 危害物质 Hazardous Substance 成分名称 Component
单板 / 电路模块 PCB/Circuit Modules 结构件 Mechanical Parts 电缆 Cables
铅 Lead (Pb)
汞 Mercury (Hg)
镉 Cadmium (Cd)
六价铬 Hexavalent Chromium (Cr VI)
多溴联苯 Polybrominated Biphenyls (PBB)
多溴二苯醚 Polybrominated Diphenyl Ethers (PBDE)
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Comply
Précautions de sécurité Précautions relatives à la ligne à fibre optique
!
Avant de mettre l'équipement en marche, s'assurer que le câble à fibre optique est intact et branché à l'émetteur.
!
Ne pas essayer de régler le courant de commande du laser.
!
Ne pas utiliser de câble/connecteur à fibre optique cassé ou sans terminaison et ne pas regarder directement le faisceau laser. ATTENTION : le faisceau laser est invisible !
!
L’utilisation de dispositifs optiques avec l'équipement augmente le danger pour les yeux.
PRODUIT LASER DE CLASSE 1 Conforme aux normes CEI 60 825-1:1993 + A1:1997 + A2:2001, et EN 60825-1:1994 + A1:1996 + A2:2001 Précautions générales relatives à l'équipement
!
L’utilisation de commandes ou de réglages ou l'exécution de procédures autres que celles spécifiées dans les présentes peut engendrer une exposition dangereuse aux rayonnements.
!
L’usage de FibeAir IDU s’accompagne du risque suivant d'électrocution et de danger électrique : le débranchement d'une alimentation électrique ne déconnecte qu'un module d'alimentation électrique. Pour isoler complètement l'unité, il faut débrancher toutes les alimentations électriques.
!
Bruit de machine d’ordre - 3. GPSGV, le plus haut niveau de pression sonore s'élève à 70 dB (A) au maximum, dans le respect de la norme ISO EN 7779.
Sicherheitsmaßnahmen Vorsichtsmaßnahmen bei faseroptischen Leitungen
!
Vergewissern Sie sich vor dem Einschalten der Anlage, dass das faseroptische Kabel unbeschädigt und mit dem Sender verbunden ist.
!
Versuchen Sie nicht, den Laser-Antriebsstrom zu regulieren.
!
Verwenden Sie keine defekten oder gespleißten faseroptischen Kabel/Stecker und sehen Sie nicht direkt in den Laserstrahl. ACHTUNG: Der Laserstrahl ist unsichtbar!
!
Durch den Einsatz optischer Geräte zusammen mit der Anlage erhöht sich das Gesundheitsrisiko für die Augen.
LASERPRODUKT DER KLASSE 1 Entspricht den Normen IEC 60 825-1:1993 + A1:1997 + A2:2001 sowie EN 60825-1:1994 + A1:1996 + A2:2001 Allgemeine Vorsichtsmaßnahmen für die Anlage
!
Wenn andere Steuerelemente verwendet, Einstellungen vorgenommen oder Verfahren durchgeführt werden als die hier angegebenen, kann dies gefährliche Strahlung verursachen.
!
Beachten Sie beim Arbeiten mit FibeAir IDU das folgende Stromschlag- und Gefahrenrisiko: Durch Abtrennen einer Stromquelle wird nur ein Stromversorgungsmodul abgetrennt. Um die Einheit vollständig zu isolieren, trennen Sie alle Stromversorgungen ab.
!
Maschinenlärminformations-Verordnung - 3. GPSGV, der höchste Schalldruckpegel beträgt 70 dB(A) oder weniger gemäß EN ISO 7779.
Chapter 1: Installation General This chapter provides instructions for the installation of the FibeAir IP-10 IDU at the customer site.
Site Requirements Must be located indoors. The environment temperature must be between -5 C and +55 C. Easily accessible, but only by authorized personnel. Available power source of -48 VDC, and the site must comply with National Electric Code (NEC) standards. Available management connection (Ethernet or dial-up). No more than 300 m from RFU location. In addition, since the IDU will be connected to the RFU, when considering a site, it is important to check for current and future obstacles on the roof or tower. Possible future obstacles may include trees, new buildings, window cleaners on the roof, snow that may accumulate in front of the antenna, etc. The site should be accessible to certified personnel only. Note about Heat Dissipation: The IP-10 IDU overall heat dissipation is 25W max (~85 BTU/h). Note about Antenna Location: As with any type of construction, a local permit may be required before installing an antenna. It is the owner’s responsibility to obtain any and all permits.
Pre-Installation Packing The equipment is packed at the factory, and sealed moisture-absorbing bags are inserted.
Transportation y
The equipment is prepared for public transportation. The cargo must be kept dry during transportation, in accordance with ETS 300 019-1-2, Class 2.3.
y
It is recommended to transport the equipment to the installation site in its original packing case.
y
If intermediate storage is required, the packed equipment must be stored in dry and cool conditions and out of direct sunlight, in accordance with ETS 300 019-1-1, Class 1.2.
FibeAir® IP-10 Installation Guide
1-1
Inspection Check the packing lists, and ensure that the correct part numbers and quantities of components arrived.
Unpacking Equipment at the Site A single FibeAir system (1+0) is shipped in 5 crates. Upon delivery, make sure that the following items are included: Two indoor units and accessories Two outdoor units One CD with a management user guide. Unpack the contents and check for damaged or missing parts. If any part is damaged or missing, contact your local distributor.
Installation Requirements Required Tools The following tools are required to install the IDU: Philips screwdriver (for mounting the IDU to the rack and grounding screw) Flathead small screwdriver (for PSU connector) Sharp cutting knife (for wire stripping) Crimping tool for ground cable lug crimping (optional: if alternative grounding cable is used).
Cables In addition to the tools mentioned above, the interface connectors and their pin-outs, can be found in the following sections in this guide: Appendix A: Line Interfaces Appendix B: Connector Pin-Outs
FibeAir® IP-10 IDU Installation Guide
1-2
Requirements for North America Restricted Access Area: DC powered equipment should only be installed in a Restricted Access Area. Installation Codes: The equipment must be installed according to country national electrical codes. For North America, equipment must be installed in accordance to the US National Electrical Code, Articles 11016, 110-17 and 110-18, and the Canadian Electrical Code, Section 12. Overcurrent Protection: A readily accessible Listed branch circuit overcurrent protective device, rated 15 A, must be incorporated in the building wiring. CAUTION: This equipment is designed to permit connection between the earthed conductor of the DC supply circuit and the earthing conductor at the equipment. Grounded Supply System: The equipment shall be connected to a properly grounded supply system. All equipment in the immediate vicinity shall be grounded the same way, and shall not be grounded elsewhere. Local Supply System: The DC supply system is to be local, i.e. within the same premises as the equipment. Disconnect Device: A disconnect device is not allowed in the grounded circuit between the DC supply source and the frame/grounded circuit connection.
FibeAir® IP-10 IDU Installation Guide
1-3
FibeAir IP-10 Description FibeAir IP-10 is Ceragon's comprehensive high capacity migration-to-IP network solution. The innovative IP10 was designed as a native Ethernet microwave radio platform that can integrate smoothly in any network, while providing a broad range of software-configurable licensed channel schemes. IP-10 follows in the tradition of Ceragon's Native2, which allows your network to benfit from both native TDM and native Ethernet using the same radio. Flexible bandwidth sharing between the TDM and Ethernet traffic ensures optimal throughput for all your media transfer needs. IP-10 features a flexible design capable of addressing all network migration scenarios. With its Native2 capability for optimal traffic delivery, and modular architecture for all sites (Tail, Chain, Agg3, Agg2), this state-of-the-art radio platform offers the best approach to IP migration for advanced networks. With the widest capacity range (10-500 Mbps) for all capacity needs, advanced Adaptive Code Modulation for the best spectrum utilization, and a scalable system that ensures future-proof network expansion, IP-10 is the ideal solution for risk-free migration. Some of the important points that place IP-10 at the top of the wireless IP market include: Supports all licensed bands, from 6 to 38 GHz Supports channel bandwidths of from 7 MHz to 56 MHz Supports throughputs of from 10 to 500 Mbps per radio carrier (QPSK to 256 QAM) Incorporates advanced integrated Ethernet switching capabilities In addition, using unique Adaptive Code & Modulation (ACM), your network benefits from non-stop, dependable capacity deliverance.
FibeAir IP-10 IDU
FibeAir® IP-10 IDU Installation Guide
1-4
Installing the IDU in a 19"/ETSI Rack Warning! The intra-building port(s) of the equipment or subassembly is suitable for connection to intra-building or exposed wiring or cabling only. The intra-building port(s) of the eqiupment or subassembly MUST NOT be metallically connected to interfaces that connect to the OSP or its wiring. These interfaces are designed for use as intra-building interfaces only and require isolation from the exposed OSP cabling. The addition of Primary Protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring.
The FibeAir IP-10 IDU is installed in a standard 19" ETSI rack as shown in the following illustration.
As shown in the illustration, four screws, supplied with the installation kit, are used to secure the IDU to the rack.
FibeAir® IP-10 IDU Installation Guide
1-5
IDU Dimensions The following illustration shows the dimensions (in millimeters) of the FibeAir IP-10 IDU.
FibeAir® IP-10 IDU Installation Guide
1-6
Grounding the IDU The following illustration shows how the IDU is grounded to the rack.
Single Point Stud Grounding Wire
A grounding wire is connected below the IDU-RFU interface using a single screw with two washers. IDU Grounding Notes •
The IDU is suitable for installation in a Common Bonding Network (CBN).
•
Only copper wire should be used.
•
The wire must be at least 6 AWG.
•
Connector and connection surfaces must be plated. Bare conductors must be be coated with antioxidant before crimp connections are made to the screws.
•
FibeAir provides a ground for each IDU, via a one-hole mounted lug onto a single-point stud. The stud must be installed using a UL-listed ring tongue terminal, and two star washers for anti-rotation.
FibeAir® IP-10 IDU Installation Guide
1-7
•
For antenna ports, lightning protection is used that does not permit transients of a greater magnitude than the following: Open Circuit: 1.2-50us 600V Short Circuit: 8-20us 300A
•
The ampacity of the conductor connecting the IDU frame to the DC return conductor is equal to, or greater than, the ampacity of the associated DC return conductor.
Power Supply Notes When selecting a power source, the following must be considered: •
DC power can be from -40.5 VDC to -60 VDC.
•
Recommended: Availability of a UPS (Uninterrupted Power Source), battery backup, and emergency power generator.
•
Whether or not the power source provides constant power (i.e., power is secured on weekends or is shut off frequently and consistently).
•
The power supply must have grounding points on the AC and DC sides.
Caution! The user power supply GND must be connected to the positive pole in the IDU power supply. Any other connection may cause damage to the system! Power supply grounding should be in accordance with the following illustration:
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1-8
Connecting the IDU This section describes how the IDU interfaces are connected for a 1+0 system. The interfaces include line, system (IDU-RFU), and management ports. For interface specifications, see Appendix A - Line Interfaces and Cables. For connector pin-outs, see Appendix B - Connector Pin-Outs. For a list of accessories, see Appendix D - Accessories. Note: For a 1+1 system, a protection panel is used, as described in Appendix C - Protection Information.
Interface Descriptions The following photo shows the different IDU ports and their functions.
IDU Front Panel FE Copper 10/100baseT (RJ45) or Protection Channel
Craft Terminal (DB9)
External Alarms (DB9)
Engineering Order Wire
User Channel (RJ45)
1 GbE Optical 1000baseX 1 GbE (SFP) Optional Copper 16xE1/T1 10/100/ (MDR68) 1000baseT (RJ45)
FE Copper 10/100baseT (RJ45) or Wayside Channel
FE Copper 10/100baseT (RJ45) or Out-of-Band Management
RFU Interface (N-Type)
Fan Unit
Power -48 VDC
The IDU front panel includes the following auxiliary interfaces: Terminal console Ethernet out-of-band management Ethernet wayside
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1-9
Optional: Engineering Order Wire (EOW) User channel (V11, RS232) External alarms Note: The Fast Ethernet interface channels can be logically configured for either Fast Ethernet traffic, or protection, wayside, or management traffic.
IDU-RFU Coax Cable The Coax Cable that connects between the IDU and the RFU should be terminated with N-type male connectors. Important! Make sure that the inner pin of the connector does not exceed the edge of the connector. The cable should have a maximum attenuation of 30 dB at 350 MHz.
Configuring the IDU After the system is installed and tested, and antenna alignment is performed, the next step is IDU setup and configuration. Setup procedures are performed using the FibeAir IP-10 CLI (Command Line Interface) or Web Based Management. For an explanation of the CLI, see the FibeAir IP-10 CLI Guide. For an explanation of the Web Based Management, see the FibeAir IP-10 Web Based Management Guide.
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1-10
Appendix A: Line Interfaces This section provides a description of the FibeAir main channel, wayside channel, and order wire channel interfaces. The interfaces are located on the FibeAir IDU front panel. The following interface terms should be noted: y
For connectors or signals labeled TX, the signals are sent from FibeAir.
y
For connectors or signals labeled RX, the signals are sent to FibeAir.
Main Channel Interfaces Main channel interfaces include the following:
Gigabit Ethernet (Optical) 1000Base-SX (Multi Mode) Wavelength:
850 nm
Receptacle:
MSA compliant, SFP (Small Form Factor Pluggable Ports)
Connector:
LC
Max Segment Length:
220 m (1351 ft), 500 m (1650 ft)
Cable Type:
For Max Segment = 220 m: 62.5 µm MMF For Max Segment = 500 m: 50 µm MMF
1000Base-LX (Single Mode) Wavelength:
1350 nm
Receptacle:
MSA compliant, SFP (Small Form Factor Pluggable Ports)
Connector:
LC
Max Segment Length:
550 m (1805 ft), 5000 m (16404 ft)
Cable Type:
For Max Segment = 550 m: 62.5 µm MMF, 50 µm MMF For Max Segment = 5000 m: 10 µm SMF
FibeAir® IP-10 IDU Installation Guide
A-1
Gigabit Ethernet / Fast Ethernet (Electrical) 100/1000BaseT (Twisted Pair Cable) Connector:
RJ-45
Max Segment Length:
Up to 100 m (328 ft) per IEEE802.3
Cable Type:
Compatible with shielded and unshielded twisted pair category 5 cables.
Optional 16xE1/T1 Connector
MDR 69-pin
Used with:
Twisted pair
Interface Type
E1/T1
Number of ports
16 per unit (optional)
Timing mode:
Retimed
Framing
Unframed (full transparency)
Coding
E1: HDB3 T1: AMI/B8ZS
Range:
5m
Line Impedance
120 Ω/100 Ω balanced. Optional module for 75 Ω unbalanced
Compatible Standards
ITU-T G.703, G.736, G.775, G.823, G.824, G.828, ITU-T I.432, ETSI ETS 300 147, ETS 300 417, ANSI T1.105, T1.102-1993, T1.231, Bellcore GR-253-core, TR-NWT-000499
Wayside Channel Interface The wayside channel is used as an auxiliary audio or data channel.
10/100BaseT (Ethernet) Connector:
Shielded RJ-45
Used with:
UTP Cat 5
Protocols supported:
Ethernet (10/100BaseT), half or full duplex
Timing mode:
Retimed
Range:
100 m
Impedance:
100 Ω
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A-2
Protection Channel Interface Protection Connector:
Shielded RJ-45
Used with:
UTP Cat 5
Protocols supported:
Ethernet (10/100BaseT), half or full duplex
Timing mode:
Retimed
Range:
100 m
Impedance:
100 Ω
Management Channel Interface Out-of-Band Management Connector:
Shielded RJ-45
Used with:
UTP Cat 5
Protocols supported:
Ethernet (10/100BaseT), half or full duplex
Timing mode:
Retimed
Range:
100 m
Impedance:
100 Ω
Order Wire Channel Interface The Order Wire is used for audio transmission for testing or maintenance purposes. The specifications for this channel are as follows: Termination Type:
Headset stereo plug, 2.5 mm
Frequency band (KHz)
0.3-3.4
Input impedance (ohms)
~2000
Output impedance (ohms)
32
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A-3
User Channel Interface The user channel is a CVSD audio channel that delivers 64 Kbps, via an RJ-45 connector. The interface can be used for one of the following: Asynchronous RS-232 Asynchronous V-11 Co and Contra Directional
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Appendix B: Connector Pin-Outs General This appendix provides pin-outs for FibeAir IDU connectors, including the following: y
External Alarms Connector
y
Protection/Wayside/Management Connector
y
Power Connector
y
16 x E1/T1 Connector
y
Ethernet 10/100/1000 Connector
y
Ethernet 10/100 Connector
y
User Channel Connector
FibeAir® IP-10 IDU Installation Guide
B-1
External Alarms Connector Pin-Out The External Alarms connector is a D-type 9-pin connector. Pin
Signal
I/O
Description
1
EXT_IN5
Input
External input alarm #5
2
EXT_IN4
Input
External input alarm #4
3
EXT_IN3
Input
External input alarm #3
4
EXT_IN2
Input
External input alarm #2
5
EXT_IN1
Input
External input alarm #1
6
GND
GND
GND
7
RELAY_1_N O
Output
Relay #1, normally open pin
8
RELAY_1_C
Output
Relay #1, common pin
9
RELAY_1_NC
Output
Relay #1, normally closed pin
Protection/Wayside/Management Connector Pin-Out The Protection/Wayside/Management connector is an RJ-45, 8-pin, female type connector. RJ-45 Male Connector Pin 1 2 3 6 4 5 7 8
FibeAir® IP-10 IDU Installation Guide
Signal
Twisted Pair, Out - Tx Twisted Pair, In - Rx Not Connected Not Connected
B-2
Power Connector Pin-Out The power connector pin-out is as follows: Left Pin (#1)
Right Pin (#2)
-48V (return current)
0V
Note that right/left refers to viewing the panel from the front.
16 x E1/T1 Connector The 16 x E1/T1 connector is a SCSI 68-pin connector.
Pin #
Signal
1
OUT - TIP1
35
OUT - RING1
2
OUT - TIP2
36
OUT - RING2
3
OUT - TIP3
37
OUT - RING3
4
OUT - TIP4
38
OUT - RING4
5
OUT - TIP5
39
OUT - RING5
6
OUT - TIP6
40
OUT - RING6
7
OUT - TIP7
41
OUT - RING7
8
OUT - TIP8
42
OUT - RING8
9
OUT - TIP9
43
OUT - RING9
10
OUT - TIP10
44
OUT - RING10
11
OUT - TIP11
45
OUT - RING11
12
OUT - TIP12
46
OUT - RING12
FibeAir® IP-10 IDU Installation Guide
Label on the Twisted Pair
Type
Ch1 Tx
TWISTED PAIR
Ch2 Tx
TWISTED PAIR
Ch3 Tx
TWISTED PAIR
Ch4 Tx
TWISTED PAIR
Ch5 Tx
TWISTED PAIR
Ch6 Tx
TWISTED PAIR
Ch7 Tx
TWISTED PAIR
Ch8 Tx
TWISTED PAIR
Ch9 Tx
TWISTED PAIR
Ch10 Tx
TWISTED PAIR
Ch11 Tx
TWISTED PAIR
Ch12 Tx
TWISTED PAIR
B-3
Pin #
Signal
13
OUT - TIP13
47
OUT - RING13
14
OUT - TIP14
48
OUT - RING14
15
OUT - TIP15
49
OUT - RING15
16
OUT - TIP16
50
OUT - RING16
19
IN - TIP1
53
IN - RING1
20
IN - TIP2
54
IN - RING2
21
IN - TIP3
55
IN - RING3
22
IN - TIP4
56
IN - RING4
23
IN - TIP5
57
IN - RING5
24
IN - TIP6
58
IN - RING6
25
IN - TIP7
59
IN - RING7
26
IN - TIP8
60
IN - RING8
27
IN - TIP9
61
IN - RING9
28
IN - TIP10
62
IN - RING10
29
IN - TIP11
63
IN - RING11
30
IN - TIP12
64
IN - RING12
31
IN - TIP13
65
IN - RING13
32
IN - TIP14
66
IN - RING14
FibeAir® IP-10 IDU Installation Guide
Label on the Twisted Pair
Type
Ch13 Tx
TWISTED PAIR
Ch14 Tx
TWISTED PAIR
Ch15 Tx
TWISTED PAIR
Ch16 Tx
TWISTED PAIR
Ch1 Rx
TWISTED PAIR
Ch2 Rx
TWISTED PAIR
Ch3 Rx
TWISTED PAIR
Ch4 Rx
TWISTED PAIR
Ch5 Rx
TWISTED PAIR
Ch6 Rx
TWISTED PAIR
Ch7 Rx
TWISTED PAIR
Ch8 Rx
TWISTED PAIR
Ch9 Rx
TWISTED PAIR
Ch10 Rx
TWISTED PAIR
Ch11 Rx
TWISTED PAIR
Ch12 Rx
TWISTED PAIR
Ch13 Rx
TWISTED PAIR
Ch14 Rx
TWISTED PAIR
B-4
Pin #
Signal
Label on the Twisted Pair
Type
Ch15 Rx
TWISTED PAIR
Ch16 Rx
TWISTED PAIR
33
IN - TIP15
67
IN - RING15
34
IN - TIP16
68
IN - RING16
17
SHELL
-
SHIELD
18
SHELL
-
SHIELD
51
SHELL
-
SHIELD
52
SHELL
-
SHIELD
Ethernet 10/100/1000 Connector Pin-Out The Ethernet 10/100/1000 connector is an RJ-45, 8-pin, female type connector. RJ-45 Female Connector Pin 1 2 3 6 4 5 7 8
FibeAir® IP-10 IDU Installation Guide
Signal
Twisted Pair (Tx & Rx) Twisted Pair (Tx & Rx) Twisted Pair (Tx & Rx) Twisted Pair (Tx & Rx)
B-5
Ethernet 10/100 Connector Pin-Out The Ethernet 10/100 connector is an RJ-45, 8-pin, female type connector. RJ-45 Female Connector Pin 1
Signal
Twisted Pair, Out - Tx
2 3
Twisted Pair, In - Rx
6 4
Not Connected
5 7
Not Connected
8
User Channel Connector Pin-Out The user channel connector is an RJ-45 connector. Pin
Asynchronous RS-232
Asynchronous V11
I/O
1
NC
UC_TXD_P
Out
2
NC
UC_TXD_N
Out
3
NC
NC
NC
4
GND Signal Ground
GND Signal Ground
CO M
5
UC_RS232_TXD Transmitted Data
NC
Out
6
UC_RS232_RXD Received Data
NC
In
7
NC
UC_RXD_P
In
8
NC
UC_RXD_N
In
FibeAir® IP-10 IDU Installation Guide
B-6
Appendix C: Protection Information General This appendix provides information about the FibeAir IP-10 protection equipment.
Protection Patch Panel In IP-10 protection configurations, a protection patch panel is used to connect the units and provide protection switching.
As shown in the illustration above, the protection panel (in the middle) provides the ports used to link the two IP-10 units for protection switching when a system fault occurs.
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C-1
Panel Components The following illustration shows the panel components.
IDU #1 16xE1/T1 MDR Connector
User 16xE1/T1 Open-Ended MDR Connector
IDU #2 16xE1/T1 MDR Connector
IDU #1 4 x FE Straight RJ-45 Connectors
IDU #2 4 x FE Straight RJ-45 Connectors
User FE Open-Ended Cross RJ-45 Connector
User Optical GbE LC/LC Connector
Part Numbers The part numbers for the MDR cables are as follows: 16 x E1/T1 MDR Connector: WA-0276-0, 0.6 meters User 16 x E1/T1 MDR Connector: WA-0277-0, 5 meters WA-0278-0, 10 meters WA-0309-0, 25 meters Optical splitter used for GbE 1+1 systems (see the following section): AO-0038-0 AO-0039-0 AO-0059-0 AO-0060-0
FibeAir® IP-10 IDU Installation Guide
C-2
GbE Optical Splitter The following illustration shows the rear side of the IP-10 protection panel, with the optical splitter.
Optical Splitter
The optical splitter is an LC/LC female adapter.
FibeAir® IP-10 IDU Installation Guide
C-3
Appendix D: Accessories The following tables list the FibeAir IP-10 accessories.
Cables Part Number WA-0242-1
Marketing Model
Marketing Description
X-WSC-E1/T1
E1/T1 WSC x-ed cable
WA-0246
IDU-EXT-ALARMS-CBL-2.5m
IDU External Alarms open cable 2.5m
WA-0259
CBL-16E1-CB-120-75
16E1 cable MDR/2xDB44 5m to CB-120-75
WA-0275
IDU-UC-CBL-2m
User channel cable 2m D-type 9 pin male
WA-0276-0
IP10-CBL-16IO-PROT-0.6m
IP-10 16 I/O port protection cable straight 0.6m
WA-0277-0
IP10-CBL-16IO-5M
IP-10 16 I/O port cable open 5M
WA-0278-0
IP-10-CBL-16IO-10M
IP-10 16 I/O port cable open 10M
WA-0284-0
IP10-CBL-16IO-XED-0.6m
IP-10 16 I/O port crossed cable 0.6m
WA-0309-0
IP-10-CBL-16IO-25M
IP-10 16 I/O port cable open 25M
Panels Part Number
Marketing Model
Marketing Description
EN-0254-0
IP10-ETH-16E1-PROT-PANEL
IP-10 Eth + 16E1 protection panel
EN-0256-0
IP10-ETH-16T1-PROT-PANEL
IP-10 Eth + 16T1 protection panel
EN-0258-0
IP10-16E1-PROT-PANEL
IP-10 16E1 protection panel
EN-0259-0
IP10-16T1-PROT-PANEL
IP-10 16T1 protection panel
EN-0262-0
IP10-ETH-PROT-PANEL
IP-10 Eth only protection panel
FibeAir® IP-10 IDU Installation Guide
D-1
Optical Splitters Part Number AO-0038-0
AO-0039-0
AO-0059-0
AO-0060-0
Marketing Model
Marketing Description
Item Description
GBE-SPL-SM
SM/LC Optical Splitter conn. 1300nm 50/5
1x2 Single mode Fiber Dual Windows Wideband Couplers, ±40nm, LC/LC, 1310nm,1m length, PVC 2.0mm cable (yellow), 50/50 coupling ratio.
GBE-SPL-MM-2M
MM/LC Optical Splitter 62.5/125 2M
1x2 multimode mode Fiber Dual Windows Wideband Couplers, ±40nm, LC/LC, 850nm,1m length for each port, PVC 2.0mm cable, 50/50 coupling ratio
GBE-SPL-MM-1M
MM/LC Optical Splitter 62.5/125 1M
1x2 multimode mode Fiber Dual Windows Wideband Couplers, ±40nm, LC/LC, 850nm,0.5m length for each port, PVC 2.0mm cable, 50/50 coupling ratio
GBE-SPL-MM-0.6M
MM/LC Optical Splitter 62.5/125 0.6M
1x2 multimode mode Fiber Dual Windows Wideband Couplers, ±40nm, LC/LC, 850nm,0.3m length for each port, PVC 2.0mm cable, 50/50 coupling ratio
Optical Cables Part Number
Marketing Model
AO-0033-0
OP-SM-CBL-LC-SCDPLX 15M
Duplex Optical Cable LC-SC SM 15M
Pairs of Fiber Patchcord Single mode- LC/SC, Length:15M, Duplex PVC 2mm cable, with LC connector type on one end and SC connector on the other end.
AO-0035-0
OP-SM-CBL-LC-SCDPLX 3M
Duplex Optical Cable LC-SC SM 3M
Pairs of Fiber Patchcord Single mode- LC/SC, Length:3M, Duplex PVC 2mm cable, with LC connector type on one end and SC connector on the other end.
AO-0041-0
OP-SM-CBL-LC-SCDPLX 1M
Duplex Optical Cable LC-SC SM 1m
DUPLEX LC-SC (Tx TO Tx) SM 9/125 YELLOW COLOR R-9D-1-P, 13MM, 1M
AO-0044-0
OP-MM-CBL-LCSC-DPLX 2M
Duplex Optical Cable LC-SC MM 2M
DUPLEX FIBER OPTIC MM PATCH CORD WITH LC/UPC-SC/UPC (Tx TO Tx) 62.5/125, ORANGE COLOR, 2M, 3MM O.D.
AO-0045-0
OP-MM-CBL-LCSC-DPLX 10M
Duplex Optical Cable LC-SC MM 10M
DUPLEX FIBER OPTIC MM PATCH CORD WITH LC/UPC-SC/UPC (Tx TO Tx) 62.5/125, ORANGE COLOR, 10M, 3MM O.D.
AO-0048-0
OP-MM-CBL-LCLC-DPLX 0.5M
Duplex Optical Cable LC-LC MM 0.5M
DUPLEX FIBER OPTIC MM PATCH CORD WITH LC/UPC-LC/UPC (Tx TO Tx) 62.5/125 ORANGE COLOR, 0.5M, 2MM O.D.
AO-0055-0
OP-SM-CBL-LC-SCDPLX 10M
Duplex Optical Cable LC-SC SM 10m
DUPLEX LC-SC (Tx TO Tx) SM 9/125 YELLOW COLOR, 3MM, 10M
FibeAir® IP-10 IDU Installation Guide
Marketing Description
Item Description
D-2
Part Number
Marketing Model
AO-0057-0
OP-SM-CBL-LC-SCDPLX 5M
Duplex Optical Cable LC-SC SM 5m
DUPLEX LC-SC (Tx TO Tx) SM 9/125 YELLOW COLOR, 3MM, 5M
AO-0066-0
OP-MM-CBL-LCLC-DPLX 3M
Duplex Optical Cable LC-LC MM 3M
DUPLEX FIBER OPTIC MM PATCH CORD WITH LC/UPC-LC/UPC (Tx TO Tx) 62.5/125 ORANGE COLOR, 3M, 2MM O.D.
AO-0067-0
OP-MM-CBL-LCLC-DPLX 6M
Duplex Optical Cable LC-LC MM 6M
DUPLEX FIBER OPTIC MM PATCH CORD WITH LC/UPC-LC/UPC (Tx TO Tx) 62.5/125 ORANGE COLOR, 6M, 2MM O.D.
AO-0071-0
OP-SM-CBL-LC-LCDPLX 3M
Duplex Optical Cable LC-LC SM 3M
Pairs of Fiber Patchcord Single mode- LC/LC, Length:3M, Duplex PVC 2mm cable, with LC connector type on one end and LC connector on the other end.
Marketing Description
Item Description
Optical Adaptors Part Number AO-0042-0
Marketing Model OP-SM-LC-LCADPT-SMPLX
FibeAir® IP-10 IDU Installation Guide
Marketing Description Adaptor Female/Female LC-LC Simplex
Item Description SM SIMPLEX LC-LC SM ADAPTOR
D-3
