FibeAir IP20G Installation Guide Rev B - Free Download PDF Ebook

FibeAir® IP-20GInstallation Guide DOC-00041192 Rev B June 2015 Copyright © 2015 by Ceragon Networks Ltd. All rights reserved. FibeAir® IP-20G Installation Guide 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. Trademarks Ceragon Networks®, FibeAir® and CeraView® are trademarks of Ceragon Networks Ltd., registered in the United States and other countries. Ceragon® is a trademark of Ceragon Networks Ltd., registered in various countries. CeraMap™, PolyView™, EncryptAir™, ConfigAir™, CeraMon™, EtherAir™, CeraBuild™, CeraWeb™, and QuickAir™, 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 ("Open Source License"). Inasmuch that such software is being used, it is released under the Open Source License, accordingly. The complete list of the software being used in this product including their respective license and the aforementioned public available changes is accessible at: Network element site: ftp://ne-open-source.license-system.com NMS site: ftp://nms-open-source.license-system.com/ 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. Ceragon Proprietary and Confidential Page 2 of 36 FibeAir® IP-20G Installation Guide Table of Contents 1. FibeAir IP-20G Hardware Overview ................................................................. 9 1.1 Ethernet Traffic Interfaces ............................................................................................ 10 1.1.1 Ethernet Traffic Interface LEDs .................................................................................... 10 1.1.2 Ethernet Traffic Interface Pin-Outs .............................................................................. 11 1.2 Ethernet Management Interfaces................................................................................. 12 1.2.1 Management Interface Cable Options ......................................................................... 12 1.2.2 Management Interface LEDs ....................................................................................... 12 1.2.3 Management Interface Pin-Outs .................................................................................. 13 1.3 TDM Interfaces (E1/DS1 1x16) (Optional) ................................................................... 13 1.3.1 E1/DS1 Interface LEDs ................................................................................................ 13 1.3.2 E1/DS1 Interface Pin-Outs ........................................................................................... 14 1.4 Radio Interfaces ........................................................................................................... 16 1.4.1 Radio Interface LEDs ................................................................................................... 16 1.5 Power Interfaces .......................................................................................................... 18 1.5.1 Power Interface LEDs .................................................................................................. 18 1.6 Synchronization Interface............................................................................................. 19 1.6.1 Synchronization Interface LEDs ................................................................................... 19 1.6.2 Synchronization Interface Pin-Outs ............................................................................. 20 1.7 Terminal Interface ........................................................................................................ 20 1.7.1 Terminal Interface Pin-Outs ......................................................................................... 20 1.8 External Alarms ............................................................................................................ 21 1.8.1 External Alarm Pin-Outs............................................................................................... 21 1.9 Unit/ACT LED ............................................................................................................... 22 2. Preparing for Installation ............................................................................... 23 2.1 Transportation/Storage ................................................................................................ 23 2.2 Inspection ..................................................................................................................... 23 2.3 Unpacking Equipment at the Site ................................................................................. 23 3. Installing the IP-20G IDU ................................................................................ 25 3.1 Kits required to perform the installation ....................................................................... 25 3.2 Tools............................................................................................................................. 25 3.3 Installing the IP-20G IDU in the Rack (19") ................................................................. 25 3.4 Grounding the IP-20G .................................................................................................. 26 3.5 Replacing an IP-20G IDU or SM-Card ......................................................................... 27 4. Connecting the Power Cable ......................................................................... 29 4.1 Power Supply Notes ..................................................................................................... 31 5. Performing Initial Configuration .................................................................... 32 5.1 Establishing a Connection ........................................................................................... 32 5.1.1 Connecting to the Unit with a Serial Connection ......................................................... 32 Ceragon Proprietary and Confidential Page 3 of 36 .................................... Specifications .................................. 34 6................................ 35 6.......1...............................2 Environmental Specifications for RFU ...... 33 5.......................1 Environmental Specifications for IDU ...........3 Mechanical Specifications ......................................... 33 5... 36 Ceragon Proprietary and Confidential Page 4 of 36 ......................................................4 Power Consumption Specifications ...................... 35 6..................... 35 6...3 Configuration ....................................................................... 35 6....................................................................................................................................................2 Logging On .......................................................................FibeAir® IP-20G Installation Guide 5........2 Connecting to the Unit with a LAN Connection ........................................................................................ turn off transmitters. adjustments. High Frequency Electromagnetic Fields! Exposure to strong high frequency electromagnetic fields may cause thermal damage to personnel. In radio-relay communication installations. Machine noise information order . To prevent damage. or performing procedures other than those ! specified herein. Dangerous radiation may be found in the neighborhood of open waveguide flanges or horns where the power is radiated into space.  Before opening coaxial . as well as harm to electronic components inside the device. Do not look into coaxial connectors at closer than reading distance (1 foot). GPSGV. ordinary setup for normal operation. note the following risk of electric shock and energy hazard: Disconnecting one power supply disconnects ! only one power supply module. Do not look into an open waveguide unless you are absolutely sure that the power is turned off. within limited portions of space. may result in hazardous radiation exposure. When working with a FibeAir IDU. the highest sound pressure ! level amounts to 70 dB (A) or less. Static electricity may cause body harm. in accordance with ISO EN 7779.or waveguide connectors carrying RF power.FibeAir® IP-20G Installation Guide Safety Precautions & Declared Material General Equipment Precautions Use of controls. Any unnecessary exposure is undesirable and should be avoided. until otherwise proved. before touching components inside the device. To avoid dangerous radiation the following precautions must be taken:  During work within and close to the front of the antenna.3. make sure that transmitters will remain turned off.  Consider any incidentally open RF connector as carrying power. Ceragon Proprietary and Confidential Page 5 of 36 . To isolate the unit completely. the general RF radiation level will be well below the safety limit. ! In the antennas and directly in front of them the RF intensity normally will exceed the danger level. all electrostatic must be discharged from both personnel and tools. disconnect all power supplies. The eye (cornea and lens) is easily exposed. FibeAir® IP-20G Installation Guide ESD This equipment contains components which are sensitive to "ESD" (Electro Static Discharge).  When the cable is reconnected it must be connected to the receiver before it is connected to the transmitter. and the Canadian Electrical Code. the power should be switched off. Laser Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. Note: This equipment has been tested and found to comply with ! the limits for a Class A digital device. grounding of work bench. ESD protection measures must be observed when touching the IDU. Grounding: This equipment is designed to permit connection between the earthed conductor of the DC supply circuit and the earthing conductor at the equipment. the cable must be disconnected from the transmitter before it is disconnected from the receiver. Articles 110-16. Ceragon Proprietary and Confidential Page 6 of 36 . Restricted Access Area: DC powered equipment should only be installed in a Restricted Access Area. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. uses. who are aware of the hazards involved to repair laser products. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. grounding of tools and instruments as well as transport and storage in special antistatic bags and boxes. For North America. Anyone responsible for the installation or maintenance of the FibeAir IDU must use an ESD Wrist Strap. Installation Codes: The equipment must be installed according to country national electrical codes. The optical interface must only be serviced by qualified personnel. pursuant to part 15 of the FCC rules. 110-17 and 110-18. Therefore. equipment must be installed in accordance to the US National Electrical Code. If this is not possible. This equipment generates. Additional precautions include personnel grounding. may cause harmful interference to radio communications.  Before disconnecting an optical cable from the optical transmitter. and can radiate radio frequency energy and. if not installed and used in accordance with the instruction manual. Section 12. When handling laser products the following precautions must be taken:  Never look directly into an open connector or optical cable. and shall not be grounded elsewhere. RoHS Compliance Declaration Electronic Information Products Declaration of Hazardous/Toxic Substances Hazardous Substance Component Hexavalent Polybrominated Polybrominated Lead Mercury Cadmium Chromium Biphenyls Diphenyl (Pb) (Hg) (Cd) (Cr VI) (PBB) Ethers (PBDE) PCB/Circuit Comply Comply Comply Comply Comply Comply Modules Mechanical Comply Comply Comply Comply Comply Comply Parts Cables Comply Comply Comply Comply Comply Comply Ceragon Proprietary and Confidential Page 7 of 36 . All equipment in the immediate vicinity shall be grounded the same way. Grounded Supply System: The equipment shall be connected to a properly grounded supply system. i. must be incorporated in the building wiring. rated 15 A. Disconnect Device: A disconnect device is not allowed in the grounded circuit between the DC supply source and the frame/grounded circuit connection. within the same premises as the equipment.FibeAir® IP-20G Installation Guide Overcurrent Protection: A readily accessible listed branch circuit overcurrent protective device.e. Local Supply System: The DC supply system is to be local. DOC. DOC-00017708  FibeAir RFU-C Installation Guide. DOC-00015514  Ceragon License Management System. Target Audience This guide is intended for use by personnel of all levels certified by Ceragon personnel such as system engineers. This guide also provides initial configuration instructions for once the hardware installation is complete.FibeAir® IP-20G Installation Guide About This Guide This guide describes the FibeAir IP-20G installation procedures. Related Documents  IP-20G Technical Description  IP-20 Series MIB Reference  IP-20G User Guide. DOC-00019183 Ceragon Proprietary and Confidential Page 8 of 36 . Some features described in this manual may not be available in the current release. What You Should Know An IP-20G system consists of an IP-20G indoor unit (IDU) and one or more radio frequency units (RFUs). DOC-00041190  FibeAir RFU-C Installation Guide. This manual provides instructions for the installation of the IP-20G IDU only. or supervisors. DOC-00017708  FibeAir RFU-A Installation Guide. technicians.00029790  FibeAir RFU-HP Installation Guide. Consult the Release Notes for the functionality supported in the specific release you are using. A coaxial cable connects the IDU to each RFU.FibeAir® IP-20G Installation Guide 1. transmits traffic and management data between the IDU and the RFU. and optionally a 16 x E1/DS1 interface. with an optional second power interface for power redundancy. a DB9 dry contact external alarms interface. one or two radio interfaces depending on the hardware configuration. with a passive cooling system that eliminates the need for fans. and an RJ-45 terminal console interface for connection to a local craft terminal. The IDU also includes two FE management interfaces. IP-20G receives an external supply of -48V. An IP-20G IDU contains six Ethernet interfaces. an RJ-45 synchronization interface. The following hardware assembly options are available for the IP-20G IDU:  One or two radio interfaces  One or two power interfaces  With or without 16 x E1/DS1 interfaces IP-20G Front Panel and Interfaces Ceragon Proprietary and Confidential Page 9 of 36 . and provides DC -48V power to the RFU. An IP-20G system consists of an IP-20G indoor unit (IDU) and one or two radio frequency units (RFUs). FibeAir IP-20G Hardware Overview FibeAir IP-20G is a compact unit that fits in a single rack unit. as follows: Off – The interface is shut down or the signal is lost. GbE2/CS2  2 x GE electrical interfaces (RJ-45) –GbE3. Indicates the speed of the interface.1 Ethernet Traffic Interfaces The front panel of the FibeAir IP-20G contains four electrical and two optical GE Ethernet traffic interfaces:  2 x GE dual mode electrical or cascading interfaces (RJ-45) – GbE1/CS1.1 Ethernet Traffic Interface LEDs Each electrical interface has the following LEDs:  Port Status LED – Located on the upper left of each interface. GbE4  2 x GE optical interfaces (SFP) – SFP5. Indicates the link status of the interface. as follows: Off – 100Base-TX Green – 1000Base-T Blinking Green – 10Base-T Electrical GE Interface LEDs Ceragon Proprietary and Confidential Page 10 of 36 .  Port Rate LED – Located on the upper right of each interface. Blinking Green – The interface is transmitting and/or receiving traffic. Green – The interface is enabled and the link is operational.FibeAir® IP-20G Installation Guide 1.1. SFP6 1. (Bi-directional pair -C) 6 BI_DB. GbE2. Green – The interface is enabled and the link is operational.2 Ethernet Traffic Interface Pin-Outs GbE Interface Pin-Out Diagram (GbE1. Description 1 BI_DA+ (Bi-directional pair +A) 2 BI_DA. GbE3.(Bi-directional pair +B) 7 BI_DD+ (Bi-directional pair +D) 8 BI_DD.(Bi-directional pair -D) Ceragon Proprietary and Confidential Page 11 of 36 . GbE4) RJ45 Pin no. Each LED indicates the link status of the interface.(Bi-directional pair -A) 3 BI_DB+ (Bi-directional pair +B) 4 BI_DC+ (Bi-directional pair +C) 5 BI_DC. Blinking Green – The interface is transmitting and/or receiving traffic.FibeAir® IP-20G Installation Guide Each optical interface has the following LED:  Port Status LED – A Port Status LED is located on the lower left of SFP5 and the lower right of SFP6. Optical GE Interface LED 1. as follows: Off – The interface is shut down or the signal is lost.1. 2 Ethernet Management Interfaces FibeAir IP-10G contains two FE management interfaces. 8 1. as follows: Off – The cable is not connected or the signal is lost.2 Management Interface LEDs The MGMT interface has the following LEDs:  Port Status LED – The LED for management interface 1 is located on the upper left of the MGMT interface. Ceragon Proprietary and Confidential Page 12 of 36 . Each LED indicates the link status of the interface. 6 Port 2 RX+ 7 RX. Note: The management interfaces cannot be shut down. Management Interface Pin Connections RJ-45 Connector Management Switch (female) TX+ 1 TX. Green – The interface is enabled and the link is operational. which connect to a single RJ-45 physical connector on the front panel (MGMT). 2 x FE Splitter Cable Marketing Model Marketing Model Marketing Description Part Number SPL-ETH-CBL Ethernet split cable rohs WA-0245-0 1.FibeAir® IP-20G Installation Guide 1. The LED for management interface 2 is located on the upper right of the MGMT interface. To access both management interfaces. 4 TX+ 5 TX.2. a standard Cat5 RJ-45 cable (straight or cross) can be connected to the MGMT interface.1 Management Interface Cable Options If the user only needs to use a single management interface. Blinking Green – The interface is transmitting and/or receiving management traffic. a special 2 x FE splitter cable can be ordered from Ceragon.2. 2 Port 1 RX+ 3 RX. 3.1 E1/DS1 Interface LEDs The E1/DS1 interface has the following LEDs  ACT LED – Indicates whether the TDM card is working properly (Green) or if there is an error or a problem with the card’s functionality (Red).3 Management Interface Pin-Outs Management Interface Pin-Out Diagram (MGMT) RJ45 Pin no. Description 1 Port 1 – TX+ 2 Port 1 – TX- 3 Port 1 – RX+ 4 Port 2 – TX+ 5 Port 2 – TX- 6 Port 1 – RX- 7 Port 2 – RX+ 8 Port 2 – RX- 1.3 TDM Interfaces (E1/DS1 1x16) (Optional) Optionally. or no interfaces enabled (Off). Ceragon Proprietary and Confidential Page 13 of 36 . FibeAir IP-20G can be ordered with an MDR69 connector in which 16 E1/DS1 interfaces are available (ports 1 through 16). with alarms (Red).FibeAir® IP-20G Installation Guide Management FE Interface LEDs 1.  E1/DS1 LED – Indicates whether the interfaces are enabled with no alarms (Green).2. 1. TIP7 Ch7 Tx TWISTED PAIR 41 OUT .RING7 8 OUT .RING10 11 OUT .TIP10 Ch10 Tx TWISTED PAIR 44 OUT .RING6 7 OUT .RING3 4 OUT .TIP1 Ch1 Tx TWISTED PAIR 35 OUT .TIP3 Ch3 Tx TWISTED PAIR 37 OUT .TIP6 Ch6 Tx TWISTED PAIR 40 OUT .TIP2 Ch2 Tx TWISTED PAIR 36 OUT .RING2 3 OUT .TIP11 Ch11 Tx TWISTED PAIR Ceragon Proprietary and Confidential Page 14 of 36 .2 E1/DS1 Interface Pin-Outs The16 x E1/DS1 connector is a SCSI 68-pin connector.TIP8 Ch8 Tx TWISTED PAIR 42 OUT .RING5 6 OUT .RING8 9 OUT .FibeAir® IP-20G Installation Guide TDM Interface LEDs 1. E1/DS1 Interface Pin-Out Diagram (E1/DS1 1-16) Label on the Pin # Signal Type Twisted Pair 1 OUT .RING4 5 OUT .TIP5 Ch5 Tx TWISTED PAIR 39 OUT .RING1 2 OUT .TIP9 Ch9 Tx TWISTED PAIR 43 OUT .RING9 10 OUT .TIP4 Ch4 Tx TWISTED PAIR 38 OUT .3. RING9 28 IN .TIP5 Ch5 Rx TWISTED PAIR 57 IN .TIP1 Ch1 Rx TWISTED PAIR 53 IN .TIP15 Ch15 Tx TWISTED PAIR 49 OUT .RING6 25 IN .TIP11 Ch11 Rx TWISTED PAIR Ceragon Proprietary and Confidential Page 15 of 36 .RING10 29 IN .TIP2 Ch2 Rx TWISTED PAIR 54 IN .TIP8 Ch8 Rx TWISTED PAIR 60 IN .TIP14 Ch14 Tx TWISTED PAIR 48 OUT .TIP3 Ch3 Rx TWISTED PAIR 55 IN .RING1 20 IN .TIP6 Ch6 Rx TWISTED PAIR 58 IN .TIP4 Ch4 Rx TWISTED PAIR 56 IN .TIP16 Ch16 Tx TWISTED PAIR 50 OUT .RING7 26 IN .TIP9 Ch9 Rx TWISTED PAIR 61 IN .RING8 27 IN .RING14 15 OUT .RING13 14 OUT .TIP13 Ch13 Tx TWISTED PAIR 47 OUT .RING15 16 OUT .RING16 19 IN .FibeAir® IP-20G Installation Guide Label on the Pin # Signal Type Twisted Pair 45 OUT .RING5 24 IN .TIP12 Ch12 Tx TWISTED PAIR 46 OUT .TIP7 Ch7 Rx TWISTED PAIR 59 IN .RING4 23 IN .TIP10 Ch10 Rx TWISTED PAIR 62 IN .RING2 21 IN .RING3 22 IN .RING12 13 OUT .RING11 12 OUT . Each radio interface uses a TNC connector type. Green – The radio is active and operating normally.TIP15 Ch15 Rx TWISTED PAIR 67 IN . as well as for management and configuration of the RFU. Ceragon Proprietary and Confidential Page 16 of 36 .RING15 34 IN . as follows: Off – The radio is disabled.TIP14 Ch14 Rx TWISTED PAIR 66 IN . 1.RING14 33 IN . The LEDs for Radio 1 are located to the right of the interface.TIP16 Ch16 Rx TWISTED PAIR 68 IN . SHIELD 51 SHELL .TIP12 Ch12 Rx TWISTED PAIR 64 IN . Radio 2. The radio interfaces are labeled Radio 1 and. The LEDs indicate the following:  ACT – Indicates whether the interface is working properly (Green) or if there is an error or a problem with the interface’s functionality (Red).4.RING11 30 IN .RING13 32 IN .4 Radio Interfaces FibeAir IP-20G includes one or two radio interfaces.TIP13 Ch13 Rx TWISTED PAIR 65 IN . depending on the hardware assembly option that was selected. SHIELD 1. The LEDs for Radio 2 are located to the left of the interface. SHIELD 52 SHELL . SHIELD 18 SHELL . if there is a second radio interface.FibeAir® IP-20G Installation Guide Label on the Pin # Signal Type Twisted Pair 63 IN . This connection is used for traffic between the RFU and the IDU. Each radio interface is connected to an RFU via coaxial cable.RING16 17 SHELL .RING12 31 IN .1 Radio Interface LEDs Each radio interface has the following set of LEDs. It is also used to provide -48V DC power from the IDU to the RFU. Blinking Green – An RF loopback has been activated. Radio Interface LEDs Ceragon Proprietary and Confidential Page 17 of 36 . Blinking Green – An IF loopback is activated. Yellow – A minor RFU alarm or a warning is present.FibeAir® IP-20G Installation Guide Blinking Green – The radio is operating normally and is in standby mode. or a major or critical RFU alarm is present. Red – A cable is disconnected. the RFU is in standby mode.  LINK – Indicates the status of the radio link.  RFU – Indicates the status of the RFU. Blinking Red – An RF loopback has been activated. and the result is Failed. or the RFU is in TX mute mode. Blinking Red – Troubleshooting mode. and the result is Failed. or. Red – There is a hardware failure. and the result is OK. in a protected configuration. as follows: Green – The radio link is operational. and the result is OK. Blinking Red – An IF loopback is activated. as follows: Green – The RFU is functioning normally. Red – There is an LOF or Excessive BER alarm on the radio. and an over voltage alarm is triggered if the power goes above the allowed range.5 Power Interfaces FibeAir IP-20G receives an external supply of -48V current via one or two power interfaces (the second power interface is optional for power redundancy).1 Power Interface LEDs There is an ACT LED for each power interface. Power Interface LEDs Ceragon Proprietary and Confidential Page 18 of 36 . An under voltage alarm is triggered if the power goes below the allowed range. the system remains shutdown. so that if the positive (+) and negative (-) inputs are mixed up. 1.5. The allowed power input range for the IP-20G is -40V to -60V.FibeAir® IP-20G Installation Guide 1. and Red if the voltage is not within range or if a power cable is not connected. The IP-20G monitors the power supply for under-voltage and includes reverse polarity protection. The LED is Green when the voltage being fed to the power interface is within range. 1 Synchronization Interface LEDs The synchronization interface contains two LEDs.FibeAir® IP-20G Installation Guide 1. Indicates the status of T4 output clock. as follows:  T3 Status LED – Located on the upper left of the interface. Sync Interface LEDs Ceragon Proprietary and Confidential Page 19 of 36 .6 Synchronization Interface FibeAir IP-20G includes an RJ-45 synchronization interface for T3 clock input and T4 clock output. Blinking Green – The clock unit is in a holdover state. one on the upper left of the interface and one on the upper right of the interface. Green – T4 output clock is available. Green – There is legal T3 input clock.  T4 Status LED – Located on the upper right of the interface. Indicates the status of T3 input clock. as follows: Off – There is no T3 input clock. or the input is illegal. 1. as follows: Off – T4 output clock is not available.6. The interface is labeled SYNC. 7 Terminal Interface FibeAir IP-20G includes an RJ-45 terminal interface (RS-232). A local craft terminal can be connected to the terminal interface for local CLI management of the unit.6.FibeAir® IP-20G Installation Guide 1. Description 1 T3_IN_N 2 T3_IN_P 3 1PPS_P 4 T4_OUT_N 5 T4_OUT_P 6 1PPS_N 7 ToD_P (or PPS_IN_P) 8 ToD_N (or PPS_IN_N) 1. Description 1 NC 2 NC 3 NC 4 GND 5 Terminal-RX (System TX) 6 Terminal-TX (System RX) 7 NC 8 NC Ceragon Proprietary and Confidential Page 20 of 36 .7. 1.2 Synchronization Interface Pin-Outs Synchronization Interface Pin-Out Diagram RJ45 Pin no.1 Terminal Interface Pin-Outs Terminal Interface Pin-Out Diagram RJ45 Pin no. normally open pin 9 GND Ceragon Proprietary and Confidential Page 21 of 36 . The input alarms are configurable according to: 1 Intermediate 2 Critical 3 Major 4 Minor 5 Warning The output alarm is configured according to predefined categories.8 External Alarms IP-20G includes a DB9 dry contact external alarms interface. common pin 8 Relay #1. 1. The external alarms interface supports five input alarms and a single output alarm. Description 1 External input alarm #1 2 External input alarm #2 3 External input alarm #3 4 External input alarm #4 5 External input alarm #5 6 Relay #1.FibeAir® IP-20G Installation Guide 1. normally closed pin 7 Relay #1.1 External Alarm Pin-Outs External Alarm Interface Pin-Out Diagram DB-9 Pin no.8.  Red – Power is on. Unit/ACT LED Ceragon Proprietary and Confidential Page 22 of 36 .FibeAir® IP-20G Installation Guide 1. and there are major or critical alarms on the unit. This LED is labeled UNIT/ACT.  Green – Power is on. and no alarms are present on the unit. and there are minor alarms or warnings on the unit.9 Unit/ACT LED A general ACT LED for the unit is located on the lower left of the IP-20G front panel. and indicates the general status of the unit. as follows:  Off – Power is off.  Yellow – Power is on. deck-side shipment is not permitted. special precautions should be taken to avoid ESD (Electrostatic Static Discharge). Carrier-owned cargo containers should be used. The equipment is further packed in special designed cases.3 Unpacking Equipment at the Site The equipment is packed in sealed plastic bags and moisture absorbing bags are inserted. If any intermediate storing is required. by e-mail or fax. railway and sea. suitable for handling by forklift trucks and slings. units with static discharge protection should not be unpacked until the installation takes place. i. Report any damage or discrepancy to a Ceragon representative. all cases must be stored under dry and cool conditions and out of direct sunlight. Ensure you are properly grounded at a controlled ESD point before and during unpacking and handling of any sensitive component.  Customers address  Contract No  Site name (if known)  Case No Dimensions and weight of each case are specified in the packing specification issued for the respective shipment. are packed in anti-static handling bags. truck. The cargo must be kept dry during transport and storage.1 Transportation/Storage The equipment cases are prepared for shipment by air. Ceragon Proprietary and Confidential Page 23 of 36 . inspecting. 2. Generally. It is recommended that the equipment is transported to the installation site in its original packing cases. Inspect for any damage on the cases and equipment.FibeAir® IP-20G Installation Guide 2. 2. printed boards. Preparing for Installation This section provides instructions for transporting. Caution! It is essential that whenever unpacking or disassembling the equipment and handling printed circuit boards. For sea-transport. and unpacking the equipment for an IP-20G system prior to installation.2 Inspection Check the packing lists and ensure that correct parts numbers quantities of goods have arrived. 2.e. Marking is done according to standard practice unless otherwise specified by customers. Any separate sensitive product. Changes or modifications not expressly approved by Ceragon Networks could void the user's authority to operate the equipment Where special cables. these items must be used. Ceragon Proprietary and Confidential Page 24 of 36 . shields. requires qualified and trained personnel. equipment or accessories/kits/plug-in unit installation. adapters and grounding kits are supplied or described in this manual. to comply with the relevant regulations.FibeAir® IP-20G Installation Guide To avoid malfunctioning or personnel injuries. Use four screws (not supplied with the installation kit) to fasten the IDU to the rack.1 Kits required to perform the installation Description Quantity IP-20G chassis 1 19" rack / sub-rack 1 SM-Card Cover 1 3. Ceragon Proprietary and Confidential Page 25 of 36 .FibeAir® IP-20G Installation Guide 3. Installing the IP-20G IDU This section provides instructions for installing a FibeAir IP-20G IDU.2 Tools  Philips screwdriver  Flat screwdriver 3.3 Installing the IP-20G IDU in the Rack (19") 1 Insert and hold the IP-20G IDU in the rack. as shown in the following figures. IDU (Full Configuration) 3. 4 Grounding the IP-20G 1 Connect a grounding wire first to the single-point stud shown in the figure below. using a single screw and two washers.FibeAir® IP-20G Installation Guide 3. Ceragon Proprietary and Confidential Page 26 of 36 . and then to the rack. Note: The grounding wire must be 16 AWG or thicker. FibeAir® IP-20G Installation Guide 3. so re-using the existing SM-Card Cover is necessary to ensure that the unit’s software and configuration is maintained. Ceragon Proprietary and Confidential Page 27 of 36 . The SM-Card holds the configuration and software for the IDU.5 Replacing an IP-20G IDU or SM-Card If you should need to replace the IP-20G IDU. The SM-Card is embedded in the SM-Card Cover. you may need to replace the SM-Card itself in order to upgrade the unit’s configuration. To remove the SM-Card Cover: 1 Switch the unit power off. you must first remove the SM- Card Cover so that you can insert it into the new IDU. 2 Loosen the screws of the SM-Card Cover and remove it from the IDU. In some cases. 4 Gently place the SM-Card Cover in its place and tighten the screws.FibeAir® IP-20G Installation Guide 3 In the new IDU or. the old IDU. if you are upgrading the SM-Card. using a Phillips screwdriver. Ceragon Proprietary and Confidential Page 28 of 36 . make sure that there is no foreign matter blocking the sockets in the opening where the SM-Card is installed. FibeAir® IP-20G Installation Guide 4. 2 Loosen the top two screws on the connector. Ceragon Proprietary and Confidential Page 29 of 36 . The following power cables are available for use with an IP-20G unit: Ceragon Part Number Marketing Model Marketing Description WA-0567-0 CBL-PWR-OE-OE-16A-2. 2. IP-20G can be ordered with a second power interface for power redundancy. 16A.2m WA-0568-0 CBL-PWR-OE-OE-16A-5m Power cable Open-end/Open-end. you must verify that the positive pole in the external power supply is grounded! Power supply grounding should be in according with the following figure: Power Supply Grounding FibeAir IP-20G utilizes a single-feed power interface. 3 Verify that the wiring is according to the correct polarity. A power cable connector is included with the IP-20G unit.2m Power cable Open-end/Open-end. 5m To connect a power cable to the IP-20G: 1 Expose the wires of the power cable. Optionally. 16A. Connecting the Power Cable Important! Before connecting the power supply to the IP-20G unit. 5 Secure the wires in the connector with the screws. 6 Plug the connector into the IP-20G power interface and tighten the two screws on the sides of the connector to secure the connector. Connecting the Power Cable Ceragon Proprietary and Confidential Page 30 of 36 .FibeAir® IP-20G Installation Guide Correct Wiring of Power Connector 4 Insert the wires into the connector. the following must be considered:  Voltage range: -40 VDC to -60 VDC.  The power source must be grounded.  Recommended: Availability of a UPS (Uninterrupted Power Source). Ceragon Proprietary and Confidential Page 31 of 36 .Remove all power from the unit for servicing.1 Power Supply Notes When selecting a power source. and emergency power generator. Important! Make sure to use a circuit breaker to protect the circuit from damage by short or overload.FibeAir® IP-20G Installation Guide 4. while the maximum current rating is 5 Amp.  The unit has more than one supply connection . In a building installation. the circuit breaker shall be readily accessible and incorporated external to the equipment. The maximum rating of the overcurrent protection shall be 10 Amp. battery backup. 200 Data Bits – 8 Parity – None Stop Bits – 1 Flow Control .1. refer to the FibeAir IP-20G User Guide. Performing Initial Configuration This section describes how to establish a management connection with the IP-20G unit and lists the configuration steps that should be performed in order to enable basic radio connectivity.None Ceragon Proprietary and Confidential Page 32 of 36 .1 Connecting to the Unit with a Serial Connection 1 Connect an RS-232 cable with an RJ-45 interface from your laptop or PC to the Terminal Interface on the IP-20G front panel. 5. Terminal Interface 2 Configure the following settings for the COM port you are using on your PC or laptop: Bits per Second – 115. 5. For detailed configuration instructions.1 Establishing a Connection You can connect to the IP-20G unit using a TP cable with a LAN connection or using a Serial RS-232 cable. DOC-00041190.FibeAir® IP-20G Installation Guide 5. For details on which type of cable to use to utilize either one or both management interfaces. 2 Click Change adapter settings.2 Logging On 1 Open an Internet browser (Internet Explorer or Mozilla Firefox).1.0 No default gateway 4 Press OK to apply the settings.1.g. Connect the cable to Management interface (MGMT) on the IP-20G front panel. Set the PC address to e.255. 2 Type in the default IP address "192. Login Window Ceragon Proprietary and Confidential Page 33 of 36 .1. Note the initial settings before changing.10 Subnet mask 255. 1 Select Control Panel> All Control Panel Items >Network and Sharing Center.2 Connecting to the Unit with a LAN Connection FibeAir IP-20G contains two FE management interfaces. For more information on these procedures.168.FibeAir® IP-20G Installation Guide 5. IP-20G User Guide. Management Interface To establish a connection between the PC and the IP-20G unit. it is necessary to have an IP address on the PC within the same subnet as the unit. see DOC-00041190. 5.255.168.1. as well as password.168.1. Note: The chassis IP address. 192. 3 Select Local Area Connection> Properties> Internet Protocol Version 4 (TCP/IP).1. The default IP address of the IP-20G unit is 192.1" in the Address Bar.255. should be changed before the system is set in operation. which connect to a single RJ-45 physical connector on the front panel (MGMT). and to the LAN port on the PC.10 and subnet mask to 255.0.168. refer to Management Interface Cable Options on page 12.255. IP address: 192. Note: If connection over the hop is established with identical IP addresses.1  Subnet mask: 255.  Enable the Radio Interfaces  Set the Radio Frequencies  Configure the License  Unmute the Radio Ceragon Proprietary and Confidential Page 34 of 36 .FibeAir® IP-20G Installation Guide 3 Enter the following values: User Name: admin Password: admin 4 Click Apply. By default all elements have the same IP settings:  IP address: 192.0 Note: After the new IP address is set.3 Configuration Before connection over the radio hop is established.255. the PC must have an IP address within the same subnet as the element.1.168. In addition to setting the IP addresses. an IP address conflict will occur. the following configuration steps should be performed in order to establish basic connectivity. according to an IP plan for the total network.255. For a detailed description of these procedures. DOC-00036540. In order to reconnect. and remote connection to the element on the other side of the hop may be lost. it is of high importance that the elements are assigned a dedicated IP address. the contact with the element will be lost. 5. refer to the FibeAir IP-20G User Guide. with limited margins.87” RFU-C Dimensions Depth: 85 mm/3. RFU-C Mechanical Specifications Height: 200 mm/7.2  Temperature: -5C (23F) to 55C (131F) – Temperature range for continuous operating temperature with high reliability.1 Environmental Specifications for IDU  Operating: ETSI EN 300 019-1-3 Class 3. with limited margins:  Humidity: 5%RH to 100%RH 6. Coaxial cable RG-223 (300 ft).3 Mechanical Specifications IDU Mechanical Specifications Height: 44 mm/1.5 kg/5.FibeAir® IP-20G Installation Guide 6.1  Temperature: -33C (-27F) to +55C (131F) – Temperature range for continuous operating temperature with high reliability: -45C (-49F) to +60C (140F) – Temperature range for exceptional temperatures. tested successfully. N-type connectors (male) to the RFU.87” Width: 200 mm/7.77” IDU Dimensions Depth: 180 mm/7. Belden 9914/RG-8 (1000 ft) IDU-RFU Connection or equivalent.73” (1RU) Width: 426 mm/16. RFU-C Standard 50 mm-120 mm/2”-4. tested successfully. Specifications 6. -25C (-13F) to 65C (149F) – Temperature range for exceptional temperatures.08” Weight: 2.35” Weight: 4kg/9 lbs.2 Environmental Specifications for RFU  Operating: ETSI EN 300 019-1-4 Class 4. Note: Cold startup requires at least -5C (23F)  Humidity: 5%RH to 95%RH 6.5 lbs. TNC connectors to the IDU.5” (subject to vendor and antenna Mounting OD Pole size) Ceragon Proprietary and Confidential Page 35 of 36 . Configuration Power (W) Comments IDU Eth-only with single RFU 23.FibeAir® IP-20G Installation Guide 6. 1+1: 39 RFU-C 1+0: 26 28-38 GHz RFU only. 1+1: 43 Ceragon Proprietary and Confidential Page 36 of 36 .9W Addition for 16 E1s 11W 1+0: 22 6-26 GHz RFU only.5W Addition for second RFU 2.4 Power Consumption Specifications The following table shows the maximum power consumption for IP-20G IDU and supported RFUs. The maximum power consumption for the entire system is the sum of the IDU and the RFUs connecting to it.