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FibeAir® 1500HP/RFU-HP Technical Description

FibeAir® 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 6 of 52 3. 1500HP/RFU-HP General Description The FibeAir 1500HP/RFU-HP is a high transmit power RFU designed for long

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Text of FibeAir® 1500HP/RFU-HP Technical Description

Copyright 2012 by Ceragon Networks Ltd. All rights reserved. FibeAir 1500HP/RFU-HP Technical Description Document Revision 13 March 2012 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 2 of 52 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 is a registered trademark of Ceragon Networks Ltd. FibeAir is a registered trademark of Ceragon Networks Ltd. CeraView is a registered trademark of Ceragon Networks Ltd. Other names mentioned in this publication are owned by their respective holders. Trademarks CeraMap , ConfigAir , PolyView , EncryptAir , and CeraMon 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. Open Source Statement The Product may use open source software, among them O/S software released under the GPL or GPL alike license ("GPL License"). Inasmuch that such software is being used, it is released under the GPL License, accordingly. Some software might have changed. The complete list of the software being used in this product including their respective license and the aforementioned public available changes is accessible on 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. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 3 of 52 Table of Contents 1. About This Guide ........................................ ........................................ .............. 5 2. Target Audience ........................................ ........................................ ............... 5 3. 1500HP/RFU-HP General Description ........................................ ..................... 6 1500HP/RFU-HP References and 7 ETCI References and Standards ........................................ ........................................ ... 7 FCC References and Standards ........................................ ........................................ .... 7 EMC ........................................ ........................................ ........................................ ....... 8 Level 3 NEBS Compliance ........................................ ........................................ ............. 8 IDU Compatibility ........................................ ........................................ ........................... 9 System Management Options ........................................ ........................................ ........ 9 Functional Block Diagram and Concept of Operation ........................................ .......... 10 1500HP/RFU-HP Comparison Table ........................................ ................................... 12 4. 1500HP/RFU-HP System Configurations ........................................ .............. 13 Split Mount and All indoor ........................................ ........................................ ............ 13 Space Diversity ........................................ ........................................ ............................ 14 IF Combining (IFC) Mechanism ........................................ ........................................ ... 14 Baseband Switching (BBS) ........................................ ........................................ .......... 15 5. Split Mount Configuration and Branching Network ..................................... 16 1500HP/RFU-HP OCBs ........................................ ........................................ ............... 17 Old OCB ........................................ ........................................ ....................................... 17 New OCB ........................................ ........................................ ..................................... 19 New OCB Component Summary ........................................ ........................................ . 20 Split-Mount Branching Loss ........................................ ........................................ ......... 21 Upgrade Procedure ........................................ ........................................ ...................... 21 6. All Indoor Configurations and Branching Network ...................................... 23 RFU Subrack Components ........................................ ........................................ .......... 25 Subrack ........................................ ........................................ ........................................ 25 Indoor Circulator Block (ICB) ........................................ ........................................ ....... 26 RF Filters ........................................ ........................................ ...................................... 26 Indoor Combiner Circulator (ICC) ........................................ ........................................ 27 Indoor Combiner Circulator Diversity (ICCD) ........................................ ....................... 27 Patch Panel ........................................ ........................................ .................................. 27 Fan Tray ........................................ ........................................ ....................................... 28 Rigid Waveguides - T12, T13 and T14 ........................................ ................................ 28 All-Indoor Configuration Example ........................................ ........................................ 29 All-Indoor Rack Types ........................................ ........................................ .................. 30 Rack Type Examples ........................................ ........................................ ................... 30 All-Indoor Branching Loss ........................................ ........................................ ............ 33 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 4 of 52 7. All Indoor Compact (Horizontal) ........................................ ............................ 34 All-Indoor Compact (Horizontal) Placements Components ........................................ . 36 Power Distribution Unit (PDU) ........................................ ........................................ ..... 37 8. 1500HP/RFU-HP Detailed Specifications ........................................ .............. 39 General Specifications ........................................ ........................................ ................. 39 Transmit Power ........................................ ........................................ ............................ 40 Power Consumption ........................................ ........................................ ..................... 40 Frequency Bands Coverage ........................................ ........................................ ........ 41 Receiver Threshold (RSL) (dBm @ BER = 10-6) ........................................ ................ 42 Mechanical Specifications ........................................ ........................................ ............ 45 1500HP/RFU-HP Waveguide Flanges ........................................ ................................. 45 IDU Compatibility ........................................ ........................................ ......................... 46 Environmental Specifications ........................................ ........................................ ....... 46 RFU Models and Part Numbers ........................................ ........................................ ... 47 OCB Part Numbers ........................................ ........................................ ...................... 48 OCB Part Number 48 Generic All-Indoor Configurations Part Numbers ........................................ ................ 49 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 5 of 52 1. About This Guide This document describes the main features, components, and specifications of the FibeAir 1500HP/RFU-HP system. 2. Target Audience This manual is intended for use by Ceragon customers, potential customers, and business partners. The purpose of this manual is to provide basic information about the FibeAir 1500HP/RFU-HP for use in system planning. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 6 of 52 3. 1500HP/RFU-HP General Description The FibeAir 1500HP/RFU-HP is a high transmit power RFU designed for long haul applications with multiple carrier traffic. Together with its unique branching design, 1500HP/RFU-HP can chain up to five carriers per single antenna port and 10 carriers for dual port, making it ideal for Trunk or Multi Carrier applications. The 1500HP/RFU-HP can be installed in either indoor or outdoor configurations. The field-proven 1500HP/RFU-HP was designed to enable high quality wireless communication in the most cost-effective manner. With tens of thousands of units deployed worldwide, the 1500HP/RFU-HP serves mobile operators enabling them to reach over longer distances while enabling the use of smaller antennas. The RFU-HP also includes a power-saving feature ( green mode ) that enables the microwave system to automatically detect when link conditions allow it to use less power. 1500HP and RFU-HP 1RX support Space Diversity via Baseband Switching in the IDU (BBS). 1500HP 2RX, supports Space Diversity through IF Combining (IFC). Both types of Space Diversity are valid solutions to deal with the presence of multipath. Note: 1500 HP (11 GHz) 40 MHz bandwidth does not support IF Combining. For this frequency, space diversity is only available via BBS. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 7 of 52 1500HP/RFU-HP References and Standards 1500HP/RFU-HP is compliant with the standards and frequency plans listed in this section, for worldwide operation. ETCI References and Standards EN 300 234: Transmission and Multiplexing (TM); Digital Radio Relay Systems (DRRS); High capacity DRRS carrying 1xSTM-1 / OC-3 signals and operating in frequency bands with about 30 MHz channel spacing and alternated arrangements . EN 300 385: "Electromagnetic compatibility and Radio spectrum Matters (ERM); Electro Magnetic Compatibility (EMC) standard for fixed radio links and ancillary equipment". ETS 300 019: "Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment". ETS 300 132-2: "Equipment Engineering (EE); Power supply interface at the input to telecommunications equipment; Part 2: Operated by direct current (dc)". ITU-R Recommendation : "Bandwidths and unwanted emissions of digital radio-relay systems". ITU-R Rec. : "Radio-frequency channel arrangements for high capacity radio-relay systems operating in the lower 6 GHz band. ITU-R Rec. : Radio-frequency channel arrangements for medium and high capacity analogue or digital radio-relay systems operating in the upper 6HGHz band ITU-R Rec. : Radio-frequency channel arrangements for radio-relay systems operating in the 7 GHz band ITU-R Rec. : Radio-frequency channel arrangements for medium and high capacity analogue or digital radio-relay systems operating in the 8 GHz band ITU-R Rec. : Radio-frequency channel arrangements for radio-relay systems operating in the 11 GHz band ITU-T Recommendation (1991): "Physical/electrical characteristics of hierarchical digital interfaces". ITU-T Recommendation (1996): "Network node interface for the synchronous digital hierarchy (SDH/ SONET)". CEPT/ERC 14-01E Radio-frequency channel arrangements for radio-relay systems operating in the 6LGHz band . FCC References and Standards FCC [7] Radio-frequency channel arrangements for radio-relay systems operating in upper 6HGHz band FCC [6] Radio-frequency channel arrangements for radio-relay systems operating in the 11GHz band . FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 8 of 52 EMC System EMC and ESD requirements comply with the conditions specified in EN 300 385 [9], for class B. Level 3 NEBS Compliance The New OCB is compliant with NEBS GR-1089-CORE, GR-63-CORE standards. The NEBS compliance is applicable just to configurations which use the New OCB, for Split-Mount and All-Indoor horizontally mounted setups, as shown below. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 9 of 52 IDU Compatibility 1500HP/RFU-HP is compatible with the following IDU modules: IP-10G R2 and R3 IP-10E IP-10Q 1500R 3200T Note: IP-10 R1 is supported with 1500HP 2RX and 1RX only. System Management Options 1500HP/RFU-HP is managed in every Ceragon management system. The type of management available (PolyView NMS/Web-Based EMS/CLI) depends on the IDU to which the RFU is connected. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 10 of 52 Functional Block Diagram and Concept of Operation The RFU handles RF signal processing. The RFU encompasses the RF transmitter and receiver with all their related functions. The 1500HP/RFU-HP product line was designed to answer the need for a high power RF module together with IF combining functionality and the ability to concatenate several carriers with minimal RF branching loss. This section briefly describes the basic block diagrams for the various types of RFUs included in the 1500HP/RFU-HP product line. Figure 1: 1500HP 2RX in 1+0 SD Configuration QuadplexerPSUIDU (Ntype conn.)XPIC source sharing \ RSL ind.(TNC conn.)IF & controller BoardAntenna mainController and peripheralsChassis350MHz140MHzPre-Amp LNA RX MainRXConnectorDC / CTRLIFTXchainVCO VCO PARXchainConnectorFSK-48VOCBXPIC SWRF LPBK RX Diversity LNARXchaincombinerTXdiplexerTCXOXLO10MTX RXAntennaDiversityRXTX BoardExtention port Figure 2: 1500HP 1RX in 1+0 SD Configuration QuadplexerPSUIDU (Ntype conn.)XPIC source sharing \ RSL ind.(TNC conn.)IF & controller BoardAntenna mainController and peripheralsChassis350MHz140MHzFMM LNA RX MainRX BoardConnectorDC / CTRLIFTXchainVCO VCO FLM RXchainConnectorFSK-48VOCBXPIC SWRF LPBKTXdiplexerTXCOXLO10MTXRXTX BoardExtention port FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 11 of 52 Figure 3: RFU-HP 1RX in 1+0 SD Configuration XPIC source sharing \ RSL ind.(TNC conn.)Antenna mainOCBTXRXExtention portQuadplexerPSU sectionIDU (BMA conn.)XPIC source sharing \ RSL ind.(BMA conn.)PSCController and peripheralsChassis350MHz140MHzPre-Amp LNATRXConnectorDC / CTRLIFTXchainVCOVCOPARXchainConnectorFSK -48VXPIC SWRF LPBKRX RFICTX RFICdiplexer40MXLO40M Each of these RFU types must be connected to an OCB (Outdoor Circulator Block) which serves as both a narrow diplexer and a mediation device to facilitate antenna connection. For a detailed explanation of the OCB, refer to 1500HP/RFU-HP OCBs on page 17. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 12 of 52 1500HP/RFU-HP Comparison Table The following table summarizes the differences between the 1500HP 2RX and 1RX and the RFU-HP. 1500HP/RFU-HP Comparison Table Feature 1500HP 2RX 1500HP 1RX RFU-HP 1RX Notes Frequency Bands Support 6L,6H,7,8,11GHz 6L,6H,7,8,11GHz 6L,6H,7,8GHz 56 MHz -- -- 10 MHz 30 MHz 40MHz -- ** ** 11GHz only supports 24-40MHz channels only Split-Mount All are compatible with OCBs from both generations All-Indoor All are compatible with ICBs Space Diversity BBS and IFC1 BBS BBS IFC - IF Combining BBS - Base Band Switching Frequency Diversity 1+0/2+0/1+1/2+2 N+1 N+0 ( N>2) High Power Only the RFU-HP has the same power for split mount and all indoor installation. Refer to RFU Models and Part Numbers on page 47. Direct Mount Antenna -- -- -- Power Saving Mode -- -- Power consumption changes with TX power Note that the main differences between the 1500HP 1RX and RFU-HP 1RX are: RFU-HP offers higher TX power for split mount The RFU-HP 1RX offers full support for channels. The RFU-HP 1RX supports the green-mode feature Both systems are fully compatible with all OCB and ICB devices. 1 1500 HP (11 GHz ) 40 MHz bandwidth does not support IF Combining. For this frequency, space diversity is only available via BBS. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 13 of 52 4. 1500HP/RFU-HP System Configurations Split Mount and All indoor The 1500HP/RFU-HP radios can be installed either in split mount or in all indoor configurations. The following configurations are applicable for Split-Mount or all indoor installations: Unprotected N+0 - 1+0 to 10+0 Data is transmitted through N channels, without redundancy (protection) Hot Standby - 1+1 HSB, 2+2 HSB Two RFUs use the same RF channel connected via a coupler. One channel transmits (Active) and the other acts as a backup (Standby). A 2+2 HSB configuration uses two RFUs which are chained using two frequencies and connected via a coupler to the other pair of RFUs. N+1 Frequency Diversity - N+1 (1+1 to 9+1) Data is transmitted through N channels and an additional (+1) frequency channel, which protects the N channels. If failure or signal degradation occurs in one of the N channels, the +1 channel carries the data of the affected N carrier. Additional configurations, such as 14+2, can be achieved using two racks. Notes: Space Diversity can be used in each of the configurations. When using BBS for SD (1500HP 1RX/RFU-HP), ACM is not supported. When the 1500HP/RFU-HP is mounted in a Split-Mount configuration, up to five RFUs can be chained on one pole mount (the total is ten RFUs for a dual pole antenna). When the 1500HP/RFU-HP is installed in an All Indoor configuration, there are several installation options: In ETSI rack up to ten radio carriers per rack In 19 open rack up to five radio carriers per subrack Compact assembly up to two radio carriers in horizontal placement (without a subrack) Two types of branching options are available for all indoor configurations: Using ICBs Vertical assembly, up to 10 carriers per rack (five carriers per subrack) Using OCBs Compact horizontal assembly, up to 2 carriers per subrack FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 14 of 52 Space Diversity In long distance wireless links, multipath phenomenon commonly exist, whereby fading occurs over time, space, and frequency. The 1500HP RFU provides two types of Space Diversity optimizations, which are ideal solutions for the multipath phenomenon: IF Combining (IFC) BBS (Base Band Switching) The RFU-HP supports BBS Space Diversity, but not IFC. Space Diversity with Multiple RFUs Space Diversity with Single RFU IF Combining (IFC) Mechanism FibeAir 1500HP includes an IF combining mechanism, which uses an innovative digital optimization algorithm to combine the signals received from both antennas in order to improve signal quality. When distortion occurs, it is measured in both receiver paths, and a new combined signal is produced. This can improve the system gain by up to 3 dB. IFC Space Diversity can be used with single and multiple RFUs. A delay calibration for the diversity waveguide is required and is performed automatically via the NMS. Each 1500HP has built-in IFC Space Diversity functionality, with one transmitter and two receivers. The receivers receive two different signals from two antennas, which are installed 10-20 meters apart. There are two options for connecting the RFUs to the diversity antennas: Waveguide to coaxial cable Uses a waveguide adaptor (CPR type) connected to an N-type coaxial cable. This is the default option. Elliptical waveguide Uses a waveguide connector (CPR type) with an elliptical waveguide. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 15 of 52 Baseband Switching (BBS) Both FibeAir 1500HP and FibeAir RFU-HP support BBS Space Diversity. In this option, there are two RFUs instead of a single RFU with two receivers. The actual BBS Space Diversity switching is performed in the IDU. The modem switches to the other RF signal when interference occurs, and returns to the main signal when the interference is gone. In this way, the system performs optimum signal receiving by using the signal that provides the best performance. Note: When using BBS for SD (1500HP 1RX/RFU-HP), ACM is not supported FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 16 of 52 5. Split Mount Configuration and Branching Network For multiple carriers, up to five carriers can be cascaded and circulated together to the antenna port. Branching networks are the units which perform this function and route the signals from the RFUs to the antenna. The branching network can contain multiple OCBs or ICBs. When using a Split-Mount or All-Indoor compact (horizontal) configuration, the OCB branching network is used. When using an All-Indoor vertical configuration, the ICB branching network is used. The main differences in branching concept between the OCB and the ICB relate to how the signals are circulated. OCB The Tx and the Rx path circulate together to the main OCB port. When chaining multiple OCBs, each Tx signal is chained to the OCB Rx signal and so on (uses S-bend section). For more details, refer to 1500HP/RFU-HP OCBs on page 17. ICB All the Tx signals are chained together to one Tx port (at the ICC) and all the Rx signals are chained together to one Rx port (at the ICC). The ICC circulates all the Tx and the Rx signals to one antenna port. For more information, refer to Indoor Circulator Block (ICB) on page 26. All-Indoor Vertical Branching Split-Mount Branching and All-Indoor Compact FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 17 of 52 1500HP/RFU-HP OCBs The OCB (Outdoor Circulator Block) has the following main purposes: Hosts the circulators and the attached filters. Routes the RF signal in the correct direction, through the filters and circulators. Enables RFU connection to the Main and Diversity antennas. FibeAir 1500HP and RFU-HP supports two types of OCBs: OCB (Older Type) New OCB Old OCB New OCB Old OCB The Older Type OCB has two types, Type 1 and Type 2. The difference between the two types is the circulator direction. Depending on the configuration, OCB Type 1 or Type2 is used together with waveguide shorts, loads, U Bends, or couplers. Each OCB has four waveguide access points: two in the front, and two at the rear. The diversity access point is optional. If the system is not configured for diversity, all the relevant access points on the OCB must be terminated using waveguide shorts. The two OCB types (with and without IFC Space Diversity) have different part numbers. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 18 of 52 The following block diagrams show the difference between the two OCBs and the additional Diversity Circ block which is added in some diversity configurations. Old OCB Type 1 Old OCB Type 1 and Type 2 Description FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 19 of 52 New OCB The new OCB is optimized for configurations that do not use IFC Space Diversity. To support IFC Space Diversity, a diversity block is added. The new OCB has only one type, and can be connected to an antenna via a flexible waveguide. The new OCB connection is at the rear of the OCB. It includes proprietary accessories (different than those used for the older OCB). Each OCB has three waveguide access points: The In/Out port is located at the rear of the OCB. The OCB ports include: Tx port Rx Port Diversity port If the system is not configured for diversity, all the relevant access points on the OCB must be terminated using waveguide shorts. Unused Rx ports are terminated with a 50 ohm termination. New OCB and DCB Block Diagram New OCB components include the following: RF Filters RF Filters are used for specific frequency channels and Tx/Rx separation. The filters are attached to the OCB, and each RFU contains one Rx and one Tx filter. In an IFC Space Diversity configuration, each RFU contains two Rx filters (which combine the IF signals) and one Tx filter. The filters can be replaced without removing the OCB. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 20 of 52 DCB (Diversity Circulator Block) THE DCB is an external block which is added in IFC Space Diversity configurations. The DCB is connected to the diversity port and can chain two OCBs. Coupler Kit The coupler kit is used for 1+1 Hot Standby (HSB) configurations. U Bend The U Bend connects the chained DCB (Diversity Circulator Block) in N+1/N+0 configurations. S Bend The S Bend connects the chained OCB (Outdoor Circulator Block) in N+1 /N+ 0 configurations. Pole Mount Kit The Pole Mount Kit can fasten up to five OCBs and the RFUs to the pole. The kit enables fast and easy pole mount installation. New OCB Component Summary New OCB Component Summary Component Name Marketing Model Marketing Description Picture DCB DCBf DCB Diversity Block f GHz kit CPLR OCB-CPLR-f OCB Coupler f GHz CPLR Sym OCB-CPLR_SYM-f OCB symmetrical Coupler fGHz U Bend DCB-UBend DCB Ubend connection f GHz S Bend OCB-SBend OCB SBend connection f GHz Pole Mount OCB-Pole Mount OCB-Pole Mount Note: f= 6L, 6H, 7, 8, 11 GHz FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 21 of 52 Split-Mount Branching Loss When designing a link budget calculation, the branching loss (dB) should be considered as per specific configuration. This section contains tables that list the branching loss for the following Split-Mount configurations. Interfaces 1+0 1+1 FD/ 2+0 2+1 3+0 3+1 4+0 4+1 5+0 5+1 6+0 6+1 7+0 7+1 8+0 8+1 9+0 9+1 10+0 CCDP with DP Antenna 0 (1c) 0 (1c) (2c) (2c) (3c) (3c) (4c) (4c) 2 (5c) 2 (6c) SP Non-adjacent Channels 0 (1c) (2c) (3c) (4c) (5c) NA NA NA NA NA Notes: (c) Radio Carrier CCDP Co-channel dual polarization SP Single pole antenna DP Dual pole antenna In addition, the following losses will be added when using these items: Item Where to Use Loss (dB) Flex WG All configurations 15m Coax cable Diversity path 6-8/11 GHz 5 Symmetrical Coupler Adjacent channel configuration. Asymmetrical coupler 1+1 HSB configurations Main: Coupled: Upgrade Procedure The following components need to be added when upgrading from a 1+0 to an N+1 Split-Mount configuration: OCBs RFUs IDU/IDMs Flexible waveguides When adding RF channels or carriers, RFUs and OCBs with specific filters need to be added as well. The OCBs are chained together using couplers (for the same frequency) or U bends/S bends (for different frequencies), in accordance with the specific configuration. Open ports on the OCBs are terminated with 50 ohm terminations. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 22 of 52 Detailed upgrade procedure documents are available for specific configurations. Please note that legacy OCBs can be upgraded and cascaded with the new OCB. Please contact your Ceragon representative for details. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 23 of 52 6. All Indoor Configurations and Branching Network All-Indoor configurations are when all the equipment is installed indoors (room, shelter) and an elliptical waveguide connects the radio output port from the room to the antenna. A basic block diagram for a trunk system, including the main blocks, is shown in the following figure. The block diagram includes marked interface points which shall serve as reference points for several technical parameters used in this document. Block Diagram of Trunk System All-Indoor System with Five IP-10 Carriers FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 24 of 52 All-Indoor System with Ten IP-10 Carriers The branching concept (as described in Split Mount Configuration and Branching Network on page 16) is similar to All-Indoor application. When using All-Indoor configurations, there are two types of branching implementations: Using ICBs Vertical assembly, up to 10 carriers per rack (five carriers per subrack). Using NEW OCBs Compact horizontal assembly, up to two carriers per subrack. All-Indoor Installations FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 25 of 52 RFU Subrack Components Subrack for ETSI Rack Subrack The subrack hosts all the RFU components and connections, as shown in the previous figure. The subrack includes up to five RFUs per subrack (each RFU connects to an ICB). RFU with Branching FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 26 of 52 Indoor Circulator Block (ICB) Each RFU is connected to one ICB, and several ICBs are chained to each other. The chained ICBs carry different RF channels and are connected to a single ICC, which sums the RF signals. The main ICB functions include: Hosts the circulators and filters. Routes the RF signals in the correct direction, via the filters and circulators. The ICB is a modular standalone unit. When system expansion is necessary, additional ICBs are added and chained with the existing ICBs. The branching chain to neighbor ICB goes through the holes at the side. A long screw connects the ICBs to each other and the last ICB at the chain is terminated with a 50ohm termination, as shown below. Note: The diversity port does not need to be terminated if the diversity filter is not attached to the ICB. ICB Branching Chain RF Filters The RF Filters are used for specific frequency channels and Tx/Rx separation. The filters are attached to the ICB, and each RFU contains one Rx and one Tx filter. In an IFC Space Diversity configuration, each RFU contains two Rx filters to combine the IF signals, along with one Tx filter. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 27 of 52 Indoor Combiner Circulator (ICC) The ICC does not perform space diversity ICB summing (single output port). ICC The ICC sums the Rx and Tx signals and combines the N channels to the output ports (one or two, in accordance with the configuration). Indoor Combiner Circulator Diversity (ICCD) The ICCD performs space diversity ICB summing (two output ports). ICCD Patch Panel The ICB s IF and XPIC cables are connected to the patch panel. The IDU s IF cables are connected to the specific RFU location. An XPIC cable is used between two RFUs which are using the same Tx and Rx filters with different polarizations (V and H). FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 28 of 52 Fan Tray The fan tray contains eight controlled and monitored fans, which cool the RFU heat dissipations. The fan tray is a tray which is part of ETSI rack (as shown above), while when using a 19 frame rack a fan tray is a separate unit which must be assembled separately (shown below). Fan Tray in 19 Frame Rack Rigid Waveguides - T12, T13 and T14 Rigid waveguide sections are assembled in the rack to connect the ICC/ICCD from the bottom to the top of the rack (C ). The specific Rigid WG sections to be used depend on the configuration. T12 Rigid Waveguide T13 Rigid Waveguide FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 29 of 52 All-Indoor Configuration Example In this configuration, three ICBs are chained together and connected to a vertical ICC, and two ICBs are chained together and connected to a horizontal ICC polarization. The RF components include: Five RFUs Five ICBs Two ICCs 4+1 XPIC Assembly Configuration Additional Assembly Configuration Examples FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 30 of 52 All-Indoor Rack Types Three types of racks can be used in an all-indoor configuration: 19 lab rack ( open frame ) 19 rack ETSI rack The 19 rack is not commonly used in Ceragon configurations. The 19 lab rack (open frame) contains a subrack that is preassembled at the factory and then shipped. The customer can also use an existing rack and the subrack is installed separately at the site. Rack Type Examples Lab Rack (Open Frame) Examples FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 31 of 52 19 Rack Example ETSI Rack Example FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 32 of 52 When a configuration includes more than ten carriers, two racks are assembled and connected. Configuration with More than Ten Carriers Two Connected Racks FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 33 of 52 All-Indoor Branching Loss ICC has a 0 dB loss, since the RFU is calibrated to Pmax, together with the filter and 1+0 branching loss. The following table presents the branching loss per configuration and the Elliptical wave guide (WG) losses per meter which will be add for each installation (dependant on the WG length). Configuration Interfaces 1+0 1+1 FD 2+0 2+1 3+0 3+1 4+0 4+1 5+0 All-Indoor WG losses per 100m 6L 4 6H 7/8GHz 6 11GHz 10 Symmetrical Coupler Added to adjacent channel configuration 3 CCDP with DP antenna Tx and Rx (1c) (1c) (2c) (2c) (3c) Diversity RX (1c) (1c) (2c) (2c) (3c) SP Non adjacent channels Tx and Rx (1c) (2c) (3c) (4c) (5c) Diversity RX (1c) (2c) (3c) (4c) (5c) CCDP with DP antenna Upgrade Ready Tx and Rx (1c) (1c) (2c) (2c) (3c) Diversity RX (1c) (1c) (2c) (2c) (3c) Configuration Interfaces 5+1 6+0 6+1 7+0 7+1 8+0 8+1 9+0 9+1 10+0 All-Indoor WG losses per 100m 6L 4 6H 7/8GHz 6 11GHz 10 Symmetrical Coupler Added to adjacent channel configuration 3 CCDP with DP antenna Tx and Rx (3c) (4c) (4c) (5c) (6c) Diversity RX (3c) (4c) (4c) (5c) (6c) SP Non adjacent channels Tx and Rx NA NA NA NA NA Diversity RX CCDP with DP antenna Upgrade Ready Tx and Rx (3c) (4c) (4c) (5c) (6c) Diversity RX (3c) (4c) (4c) (5c) (6c) FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 34 of 52 7. All Indoor Compact (Horizontal) For minimal rack space usage, an All-Indoor configuration can be installed in horizontal position using the new OCB in a 19 rack or ETSI open rack/ frame rack. The New OCB is compliant with NEBS GR-1089-CORE, GR-63-CORE standards. Note: This installation type and configuration does not require a fan tray. This installation type is compatible with the following RFUs PN: Non Space Diversity All-Indoor 15HPA-1R-RFU-f 15HPA-2R-RFU-f 15HPA-1R-RFU-11w 1500HP RFU All-Indoor 1Rx RF Unit 1500HP RFU All-Indoor Space Diversity FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 35 of 52 1500HP RFU All-Indoor 1Rx RF Unit, 11G 40MHz Main Configurations 1+0 1+0 East West 1+1 1+1 East West 1+1 HSB Compact Front View 1+1 HSB Compact Rear View FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 36 of 52 All-Indoor Compact (Horizontal) Placements Components The following table lists the components for All-Indoor compact placements: All-Indoor Compact Placement Components Component Name Marketing Model Marketing Description Picture DCB DCBf DCB Diversity Block f GHz kit CPLR OCB-CPLR-f OCB Coupler f GHz SBend OCB-SBend OCB SBend Connection f GHz Rack Adapter OCB 19 Rack Adapt OCB-Pole Mount Rack Adapter OCB ETSI Rack Adapt OCB-Pole Mount Note: f= 6L, 6H, 7, 8, 11 GHz FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 37 of 52 Power Distribution Unit (PDU) The PDU distributes the power supply (-48V) from the main power input to the relevant IDU. The PDU is preassembled and wired in an ETSI rack and is provided separately, when required, for a 19 lab rack. When ordering a 19 configuration, there are two rack assembly options: 19 lab rack provided separately 19 lab rack provided by the customer For both options, a PDU for 19 can be provided upon request. There are two types of PDU. The default PDU which has been assembled with each ETSI rack contains: Two main switches one for each five IDU carriers Two FAN tray switches 1A. The default PDU which is assembled with the ETSI rack has a special addition of a plastic cover. For special cases, when PDU protection is required, a PDU with plastic protection cover can be provided. The PN for this PDU with protection cover is: 32T-PDU_CVR. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 38 of 52 A PDU which distributes 10 x DC signals, the PDU type can be preassembled with an ETSI Rack and needs to be specially ordered because it is not the default PDU. PDU with 10 Switches PN: 32T-PDU10 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 39 of 52 8. 1500HP/RFU-HP Detailed Specifications General Specifications Available Frequency Bands 1500HP 2RX: 6-11GHz 1500HP 1RX: 6-11GHz RFU-HP: 6-8GHz Supported Channel BW 1500HP 2RX (6-11GHz): 10-30MHz 1500HP 1RX (6-11GHz): 10-30MHz 1500HP 1RX (11GHz wide): 24-40MHz RFU-HP 1RX (6-8GHz): Diversity 1500HP 2RX IFC 1500HP 1RX, RFU-HP 1RX BB Swtiching Supported Modulations 4-256QAM System Configurations Non-Protected (1+0), Protected (1+1), Space Diversity, 2+0/2+2 XPIC, N+0, N+1 Installation Types Split mount remote mount, all indoor (No direct mount) Tx Range (Manual/ATPC) Up to 20dB dynamic range Frequency Stability 4 ppm2 Frequency Source Synthesizer RF Channel Selection Via EMS/NMS 2 Over temperature. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 40 of 52 Transmit Power 1500HP Split-Mount 1500HP All-Indoor RFU-HP-1R Modulation 6-8 GHz 11 GHz 6-8 GHz 11 GHz 6-8 GHz QPSK 30 27 33 30 33 8 PSK 30 27 33 30 33 16 QAM 30 27 33 30 33 32 QAM 30 26 33 29 33 64 QAM 29 26 32 29 32 128 QAM 29 26 32 29 31 256 QAM 27 24 30 27 30 Power Consumption 1500HP Split-Mount (29dBm): 80W All indoor (32dBm) : 100W RFU-HP Power mode TX Power Range [dBm] 6L&H GHz [Watt] 7&8GHz [Watt] High 33-26 77 77 Medium 25-20 48 53 Low 19-11 34 34 Mute NA 20 20 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 41 of 52 Frequency Bands Coverage RFU Type Frequency Band Frequency Range [GHz] 1500HP/RFU-HP L6 GHz U6 GHz 7GHz to 8 GHz to 1500HP 11 GHz to Specific frequency channelization is available as per customer requirement. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 42 of 52 Receiver Threshold (RSL) (dBm @ BER = 10-6) Modulation Channel spacing Occupied BW 99% 1500HP & IP-10G RFU-HP & IP-10G 6-11GHz 6G 7-8G QPSK 7MHz 8 PSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 256 QAM QPSK 10MHz 9MHz 8 PSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 256 QAM QPSK 14MHz 8 PSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 256 QAM FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 43 of 52 Modulation Channel spacing Occupied BW 99% 1500HP & IP-10G RFU-HP & IP-10G QPSK 20MHz(FCC) 18 MHz 8 PSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 256 QAM QPSK 28MHz 26MHz 8 PSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 256 QAM QPSK 30MHz(FCC) MHz 8 PSK 16 QAM 32 QAM 64 QAM 128 QAM 256 QAM 256 QAM QPSK 40MHz (ETSI) NA 8 PSK NA 16 QAM NA 32 QAM NA 64 QAM NA 128 QAM NA 256 QAM NA 256 QAM NA FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 44 of 52 Modulation Channel spacing Occupied BW 99% 1500HP & IP-10G RFU-HP & IP-10G QPSK 40MHz (FCC) NA 8 PSK NA 16 QAM NA 32 QAM NA 64 QAM NA 128 QAM NA 256 QAM NA 256 QAM NA QPSK 50MHz 47MHz NA 8 PSK NA 16 QAM NA 32 QAM NA 64 QAM NA 128 QAM NA 256 QAM NA 256 QAM NA QPSK 56MHz 52MHz NA 8 PSK NA 16 QAM NA 32 QAM NA 64 QAM NA 128 QAM NA 256 QAM NA 256 QAM NA FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 45 of 52 Mechanical Specifications RFU Dimensions Height: 490 mm (19 ) Width: 144 mm (6 ) Depth: 280 mm (11 ) Weight: 7 kg (15 lbs) (excluding Branching) OCB Branching (Split-Mount and Compact All-Indoor ) Height: 420 mm (19 ) Width: 110 mm (6 ) Depth: 380 mm (11 ) Weight: 7 kg (15 lbs) (excluding Branching) Recommended torque for RFU-OCB connection: 17 Nm IDU-RFU Connection Coaxial cable RG-223 (up to 100 m/300 ft), Belden 9914/RG-8 (300 m/1000 ft) or equivalent, N-type connectors (male) 1500HP/RFU-HP Waveguide Flanges The radio output port (C Carrier) is frequency dependant, and is terminated with the following waveguide flanges: 1500HP/RFU-HP Waveguide Flanges Frequency Band (GHz) Waveguide Flanges 6L CPR137 6H CPR137 7 CPR112 8 CPR112 11 CPR90 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 46 of 52 IDU Compatibility 1500HP 2RX IP-10G/E R1, R2, R3 IP-10Q 1500R 3200T 1500HP 1RX IP-10G/E R1, R2, R3 IP-10Q 1500R 3200T RFU-HP 1RX IP-10G/E R2, R3 IP-10Q 1500R 3200T Environmental Specifications Indoor Temperature Range -5 C to +45 C Outdoor Temperature Range -35 C to +55 C Relative Humidity Up to 100% (all weather operation) Operational ETS 300 019-1-4 class , with an operating temperature range of -50 C to 55 C. Storage Transportation Storage: ETS 300 019-2-1 class , with a temperature range of -25 C to+85 C. Transportation: ETS 300 019-2-2 class , with a temperature range of -40 C to+85 C. Safety UL 1950 and EN 60950 FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 47 of 52 RFU Models and Part Numbers The following table lists and describes the available 1500HP/RFU-HP models. RFU Models Marketing Model Description 15HP-RFU-7 1500HP 7G 2RX SM / All Indoor 15HP-RFU-8 1500HP 8G 2RX SM / All Indoor 15HP-RFU-6L 1500HP 6LG 2RX SM / All Indoor 15HP-RFU-6H 1500HP 6HG 2RX SM / All Indoor 15HP-RFU-11 1500HP 11G 2RX SM / All Indoor 15HPS-1R-RFU-7 1500HP 7G 1RX SM 15HPS-1R-RFU-8 1500HP 8G 1RX SM 15HPS-1R-RFU-6L 1500HP 6LG 1RX SM 15HPS-1R-RFU-6H 1500HP 6HG 1RX SM 15HPS-1R-RFU-11 1500HP 11G 1RX SM 15HPS-1R-RFU-11w 1500HP 11G 1RX SM 40M (24-40MHz channels) 15HPA-1R-RFU-7 1500HP 7G 1RX All Indoor 15HPA-1R-RFU-8 1500HP 8G 1RX All Indoor 15HPA-1R-RFU-6L 1500HP 6LG 1RX All Indoor 15HPA-1R-RFU-6H 1500HP 6HG 1RX All Indoor 15HPA-1R-RFU-11 1500HP 11G 1RX All Indoor 15HPA-2R-RFU-7 1500HP 7G 2RX All Indoor 15HPA-2R-RFU-8 1500HP 8G 2RX All Indoor 15HPA-2R-RFU-6L 1500HP 6LG 2RX All Indoor 15HPA-2R-RFU-6H 1500HP 6HG 2RX All Indoor 15HPA-2R-RFU-11 1500HP 11G 2RX All Indoor RFU-HP-1R-6H RFU-HP 6HG 1Rx up to 56M SM / All Indoor RFU-HP-1R-6L RFU-HP 6LG 1Rx up to 56M SM / All Indoor RFU-HP-1R-7 RFU-HP 7G 1Rx up to 56M SM / All Indoor RFU-HP-1R-8 RFU-HP 8G 1Rx up to 56M SM / All Indoor FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 48 of 52 OCB Part Numbers The following table presents the various RFU options and the configurations in which they are used. OCB Part Numbers Diversity/Non-Diversity Split-Mount Space Diversity IFC (2Rx) (6, 7, 8 ,11GHz) 15OCBf-SD-xxxY-ZZZ-H/L Non Space Diversity (1Rx) (6, 7, 8GHz) 15OCBf-xxxY-ZZ-H/L 11GHz Non Space Diversity (1Rx)3 15OCB11w-xxxY-ZZ-H/L OCB Part Numbers for All Indoor Compact Diversity/Non-Diversity All Indoor Compact Space Diversity IFC (2Rx) (6, 7,8 GHz) 15OCBf-SD-xxxY-ZZ-H/L Space Diversity IFC (2Rx) (11GHz) 15OCB11w-SD-xxxY-ZZ-H/L Non Space Diversity (1Rx) (6, 7,8GHz) 15OCBf-xxxY-ZZ-H/L 11GHz Non Space Diversity (1Rx) 4 15OCB11w-xxxY-ZZ-H/L OCB Part Number Format Place Holder in Marketing Model Possible Values Description and Remarks f 6L,6H,7,8,11 xxx 000-999 [MHz] TRS in MHz Y Ceragon TRS block designation ZZZ Examples: 1W3 Wide filters covering channels 1-3 03 Only channel 03, 28MHz channel 3-5 56MHz Narrow filters allowing concatenation using OCBs covering channels 3 and 4. Designation of the channels the OCB is covering H/L H or L Designating TX High and TX low 3 11GHz OCB is a wide BW OCB which supports up to 40MHz, while the other OCBs (6L, 6H, 7, 8GHz) support up to 30MHz. 4 11GHz OCB is a wide BW OCB which supports up to 40MHz, while the other OCBs (6L, 6H, 7, 8GHz) support up to 30MHz. FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 49 of 52 Generic All-Indoor Configurations Part Numbers The following tables contain a list of typical All-Indoor configurations. All-Indoor Configurations (1+0 /1+1 HSB) 1+0 / 1+1 HSB 32T-f_1+0 3200T-f_1+0 32T-f_1+0_EW 3200T-f_1+0_East West 32T-f_1+0_SD 3200T-f_1+0_Space Diversity 32T-f_1+0_SD_EW 3200T-f_1+0_Space Diversity East West 32T-f_1+1_HSB 3200T-f_1+1_HSB 32T-f_1+1_HSB_EW 3200T-f_1+1_HSB_East West 32T-f_1+1_HSB_SD 3200T-f_1+1_HSB_Space Diversity 32T-f_1+1_HSB_SD_EW 3200T-f_1+1_HSB_Space Diversity East West All-Indoor Configurations (N+0/N+1 XPIC) N+0 / N+1 XPIC 32T-f_1+1/2+0_X 3200T-f_1+1/2+0 XPIC 32T-f_2+1/3+0_X 3200T-f_2+1/3+0 XPIC 32T-f_3+1/4+0_X 3200T-f_3+1/4+0 XPIC 32T-f_4+1/5+0_X 3200T-f_4+1/5+0 XPIC 32T-f_5+1/6+0_X 3200T-f_5+1/6+0 XPIC 32T-f_6+1/7+0_X 3200T-f_6+1/7+0 XPIC 32T-f_7+1/8+0_X 3200T-f_7+1/8+0 XPIC 32T-f_8+1/9+0_X 3200T-f_8+1/9+0 XPIC 32T-f_9+1/10+0_X 3200T-f_9+1/10+0 XPIC FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 50 of 52 All-Indoor Configurations (N+0 / N+1 XPIC Space Diversity) N+0 / N+1 XPIC Space Diversity 32T-f_1+1/2+0_X _SD 3200T-f_1+1/2+0 XPIC Space Diversity 32T-f_2+1/3+0_X _SD 3200T-f_2+1/3+0 XPIC Space Diversity 32T-f_3+1/4+0_X_SD 3200T-f_3+1/4+0 XPIC Space Diversity 32T-f_4+1/5+0_X_SD 3200T-f_4+1/5+0 XPIC Space Diversity 32T-f_5+1/6+0_X_SD 3200T-f_5+1/6+0 XPIC Space Diversity 32T-f_6+1/7+0_X_SD 3200T-f_6+1/7+0 XPIC Space Diversity 32T-f_7+1/8+0_X_SD 3200T-f_7+1/8+0 XPIC Space Diversity 32T-f_8+1/9+0_X_SD 3200T-f_8+1/9+0 XPIC Space Diversity All-Indoor Configurations (N+0 / N+1 XPIC Space Diversity) N+0 / N+1 XPIC Space Diversity 32T-f_1+1/2+0_X _SD 3200T-f_1+1/2+0 XPIC Space Diversity 32T-f_2+1/3+0_X _SD 3200T-f_2+1/3+0 XPIC Space Diversity 32T-f_3+1/4+0_X_SD 3200T-f_3+1/4+0 XPIC Space Diversity 32T-f_4+1/5+0_X_SD 3200T-f_4+1/5+0 XPIC Space Diversity 32T-f_5+1/6+0_X_SD 3200T-f_5+1/6+0 XPIC Space Diversity 32T-f_6+1/7+0_X_SD 3200T-f_6+1/7+0 XPIC Space Diversity 32T-f_7+1/8+0_X_SD 3200T-f_7+1/8+0 XPIC Space Diversity 32T-f_8+1/9+0_X_SD 3200T-f_8+1/9+0 XPIC Space Diversity 32T-f_9+1/10+0_X_SD 3200T-f_9+1/10+0 XPIC Space Diversity 32T-f_1+1/2+0_X_EW 3200T-f_1+1/2+0 XPIC East West 32T-f_2+1/3+0_X_EW 3200T-f_2+1/3+0 XPIC East West 32T-f_3+1/4+0_X_EW 3200T-f_3+1/4+0 XPIC East West 32T-f_4+1/5+0_X_EW 3200T-f_4+1/5+0 XPIC East West 32T-f_1+1/2+0_X_SD_EW 3200T-f_1+1/2+0 XPIC East West Space Diversity 32T-f_2+1/3+0_X_SD_EW 3200T-f_2+1/3+0 XPIC East West Space Diversity 32T-f_3+1/4+0_X_SD_EW 3200T-f_3+1/4+0 XPIC East West Space Diversity 32T-f_4+1/5+0_X_SD_EW 3200T-f_4+1/5+0 XPIC East West Space Diversity FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 51 of 52 All-Indoor Configurations (N+0/N+1 Single Pol) N+0/N+1 Single Pol 32T-f_1+1/2+0_SP 3200T-f_1+1/2+0_SP 32T-f_2+1/3+0_SP 3200T-f_2+1/3+0_SP 32T-f_3+1/4+0_SP 3200T-f_3+1/4+0_SP 32T-f_4+1/5+0_SP 3200T-f_4+1/5+0_SP All-Indoor Configurations (N+0/N+1 Single Pol Space Diversity) N+0/N+1 Single Pol Space Diversity 32T-f_1+1/2+0_SP_SD 3200T-f_1+1/2+0_Single Pole Space Diversity 32T-f_2+1/3+0_SP_SD 3200T-f_2+1/3+0_Single Pole Space Diversity 32T-f_3+1/4+0_SP_SD 3200T-f_3+1/4+0_Single Pole Space Diversity 32T-f_4+1/5+0_SP_SD 3200T-f_4+1/5+0_Single Pole Space Diversity 32T-f_1+1/2+0_SP_EW 3200T-f_1+1/2+0_Single Pole East West 32T-f_2+1/3+0_SP_EW 3200T-f_2+1/3+0_Single Pole East West 32T-f_3+1/4+0_SP_EW 3200T-f_3+1/4+0_Single Pole East West 32T-f_4+1/5+0_SP_EW 3200T-f_4+1/5+0_Single Pole East West 32T-f_1+1/2+0_SP_SD_EW 3200T-f_1+1/2+0_Single Pole Space Diversity East West 32T-f_2+1/3+0_SP_SD_EW 3200T-f_2+1/3+0_Single Pole Space Diversity East West 32T-f_3+1/4+0_SP_SD_EW 3200T-f_3+1/4+0_Single Pole Space Diversity East West 32T-f_4+1/5+0_SP_EW 3200T-f_4+1/5+0_Single Pole East West All-Indoor Configurations (N+0/N+1 XPIC Upgrade ready) N+0/N+1 XPIC Upgrade Ready 32T-f_1+1/2+0_X_UR 3200T-f_1+1/2+0_XPIC_Upgrade Ready 32T-f_2+1/3+0_X_UR 3200T-f_2+1/3+0_XPIC_Upgrade Ready 32T-f_3+1/4+0_X_UR 3200T-f_3+1/4+0_XPIC_Upgrade Ready 32T-f_4+1/5+0_X_UR 3200T-f_4+1/5+0_XPIC_Upgrade Ready FibeAir 1500HP/RFU-HP Technical Description Ceragon Proprietary and Confidential Page 52 of 52 All-Indoor Configurations (N+0/N+1 XPIC Space Diversity Upgrade-Ready) N+0/N+1 XPIC Space Diversity Upgrade Ready 32T-f_1+1/2+0_X_SD_UR 3200T-f_1+1/2+0_XPIC_Space Diversity Upgrade Ready 32T-f_2+1/3+0_X_SD_UR 3200T-f_2+1/3+0_XPIC_Space Diversity Upgrade Ready 32T-f_3+1/4+0_X_SD_UR 3200T-f_3+1/4+0_XPIC_Space Diversity Upgrade Ready 32T-f_4+1/5+0_X_SD_UR 3200T-f_4+1/5+0_XPIC_Space Diversity Upgrade Ready All-Indoor Configurations (19" Without Rack) 19" Without Rack 32T19-f_1+0_WO_rack 3200T19_inch-f_1+0_Without_rack 32T19-f_1+0_EW_WO_rack 3200T19_inch-f_1+0_East West Without rack 32T19-f_1+0_SD_WO_rack 3200T19_inch-f_1+0_Space Diversity Without rack 32T19-f_1+0_SD_EW_WO_rack 3200T19_inch-f_1+0_Space Diversity East West Without rack 32T19-f_1+1_HSB_WO_rack 3200T19_inch-f_1+1_HSB_Without_rack 32T19-f_1+1_HSB_SD_WO_rack 3200T19_inch-f_1+1_HSB_Space Diversity Without rack 32T19-f_1+1_HSB_EW_WO_rack 3200T19_inch-f_1+1_HSB_East West Without rack 32T19-f_1+1_HSB_SD_EW_WO_rack 3200T19_inch-f_1+1_HSB_Space Diversity East West Without rack For additional configurations and details, please contact your Ceragon representative.

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