WipLL Wireless IP-Based Local Loop System Hardware Installation Manual For Release 4.
Pub. Rev. 01 02 03 Revision Record: WipLL Hardware Installation Manual for Release 4.0 Date Update Description Nov-00 First edition and printing. (Marconi) Mar-01 WipLL Release 1.4 (Marconi) Apr-01 WipLL Release 2.0 (Marconi) Jul-01 WipLL Release 2.2 (Marconi) Nov-01 WipLL Release 2.6 (Marconi) Jun-02 WipLL Release 3.0A (Marconi) Feb-03 WipLL Release 4.0. Author: InterDoc. Updating Airspan template and content (connector pinouts; cable crimping, and general) May-03 WipLL Release 4.2F. Author: InterDoc.
Hardw are Installation Manual Contents Contents About this Manual................................................................................................. vii Purpose ........................................................................................................ vii Targeted Audience ....................................................................................... vii Organization of this manual..........................................................................
Contents Hardware Installation Manual 2.4. Preventing Radio Interference............................................................. 2-5 2.5. Cabling ................................................................................................ 2-6 2.5.1. Cable Labeling...................................................................... 2-7 3. Unpacking and Required Tools .............................................................. 3-1 3.1. Unpacking and Verifying Contents ........................
Hardw are Installation Manual 5. Contents Installing the BSDU .................................................................................. 5-1 5.1. BSDU Characteristics.......................................................................... 5-2 5.2. Mounting the BSDU in the Cabinet ..................................................... 5-2 5.3. Cabling the BSDU ............................................................................... 5-4 5.3.1. Connecting BSRs to the BSDU ...................
Contents Hardware Installation Manual 7.3.3. Calibrating the Rectifier ...................................................... 7-16 7.3.4. Operating the System Controller ........................................ 7-19 7.4. Connecting the BSPS Management Cables ..................................... 7-21 7.4.1. BSPS Troubleshooting ....................................................... 7-22 7.5. BSPS Cabinet Cabling ...................................................................... 7-23 7.5.1.
Hardw are Installation Manual Contents 9.5. Connecting to the Subscriber’s Ethernet Network............................... 9-8 9.5.1. Connecting to PCs.............................................................. 9-11 9.5.2. Connecting to a Hub........................................................... 9-13 9.5.3. Connecting to a VoIP Network ........................................... 9-16 9.6. Connecting AC Power ....................................................................... 9-18 9.7.
Contents Hardware Installation Manual A. Glossary ....................................................................................................A-1 B. Cable Crimping.........................................................................................B-1 B.1. Crimping CAT-5e/15-Pin D-Type Cable Connectors .......................... B-1 B.1.1. Stripping the Cable............................................................... B-3 B.1.2. Crimping the Cable ........................................
About this Manual This section discusses the purpose, targeted audience, references, organization, and technical support of the WipLL Hardware Installation manual. Purpose This manual describes the installation procedures of Airspan’s WipLL system, release 4.0. This installation includes WipLL equipment at the base station and at the subscriber’s premises (i.e., CPE equipment). Although this manual provides minimum software configuration information for certain WipLL units, it is not comprehensive.
Ab o u t t h i s M a n u a l Hardware Installation Manual ! Chapter 3, “Unpacking and Required Tools”—lists the equipment provided by Airspan, as well as the tools needed for installation.
1 Introduction Airspan’s AS WipLL system (hereafter referred to as WipLL) is a low-cost, highperformance point-to-multipoint IP-based Broadband Fixed Wireless (BFW) Access solution. WipLL provides wireless local-loop (last-mile) connectivity designed to deliver high-speed data, Voice over IP (VoIP), and multimedia services to residential, SOHO (small office/home office), and SME (small medium enterprise).
Introduction Hardware Installation Manual WipLL provides bandwidth management by supporting Committed Information Rate (CIR) and Maximum Information Rate (MIR), guaranteeing bandwidth levels to subscribers. In addition, WipLL supports VLANs/VPNs based on IEEE 802.1Q/p. WipLL supports IP routing and PPPoE bridging, as well as transparent bridging, allowing easy IP addressing schemes. WipLL provides embedded security features such as IP (packet) filters based on addresses, protocols, and applications.
Hardw are Installation Manual Introduction 1.2. Customer Benefits The WipLL system provides the following customer benefits and advantages over competitors: ! No IF or RF cables required for indoor unit-to-outdoor unit (IDU-to-ODU) connectivity, providing a more cost-effective and easier installation. Instead of IF/RF cables, WipLL implements standard CAT-5 Ethernet cables.
Introduction Hardware Installation Manual 1.3. System Architecture The WipLL system architecture is composed of the following three basic areas (see Figure 1-1): ! Base station site: consists of WipLL access units that interface between the provider’s backbone and the WipLL system. ! Subscriber site: consists of WipLL customer premises equipment (CPE) that interfaces between the base station and the subscriber’s network.
Hardw are Installation Manual Introduction 1.3.1. Base Station The WipLL base station provides a radio link between the subscriber and the service provider's backbone to provide high-speed data access, Internet access, and VoIP. The WipLL base station equipment consists of a radio transceiver that transmits and receives signals to and from the subscriber, and of various optional Ethernet hubs that connect the WipLL transceiver to the service provider’s backbone, through a 100BaseT Ethernet connection.
Introduction Hardware Installation Manual ! Subscriber Data Adapter (SDA): The SDA is implemented at base stations comprised of a single BSR. The SDA provides the BSR with -48 VDC power supply and Ethernet connectivity to the provider's backbone. The SDA is installed inside, connected to the BSR with a CAT-5 cable. ! Base Station Distribution Unit (BSDU): The BSDU is implemented at base stations comprising multiple BSRs.
Hardw are Installation Manual Introduction Figure 1-3 shows the WipLL base station devices and their interconnections. BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BS S R BSR BSDU BSDU BSDU BSDU GPS 100B 100BaseT -48 VDC BSPS Interface unit (e.g. router, switch) switch) Backbone (IP, ATM,FR, MPLS) MPLS) Figure 1-3: WipLL base station units (maximum configuration) 02030311-03 Airspan Networks Ltd.
Introduction Hardware Installation Manual 1.3.2. Subscriber Site The WipLL subscriber site is located at the service provider's subscribers’ premises. The WipLL subscriber site equipment consists of a radio transceiver that receives and transmits signals from and to the base station. The WipLL radio transceiver provides the subscriber with high-speed data access, Internet access, and VoIP at up to 3.2 Mbps. The WipLL transceiver connects to the subscriber’s network or PC via WipLL’s Ethernet hub (i.e.
Hardw are Installation Manual ! Introduction SDA-4S models: integrated LAN switches, providing four 10/100BaseT ports for interfacing with the subscriber’s PCs/network) These models include the following: − SDA-4S (standard): Standard integrated LAN switch, providing four 10/100BaseT interfaces to the subscriber’s computers. − SDA-4S/VL: Provides VLANs between its ports and the SPR, ensuring privacy between users of different ports (i.e., multi-tenant VLAN security).
Introduction Hardware Installation Manual Figure 1-4 and Figure 1-5 display the WipLL customer premises equipment and their interconnections. To BSR SPR SDA RGW Figure 1-4: Subscriber site with SPR and SDA units (optional RGW unit) To BSR External antenna RF cable IDR Figure 1-5: Subscriber site with IDR and third-party external antenna 1-10 Airspan Networks Ltd.
Hardw are Installation Manual Introduction 1.3.3. Network Operations Center Airspan’s WipLL system provides state-of-the-art, use-friendly management tools for managing the WipLL system. These management tools provide fault, configuration, performance, and security management of the WipLL system. The WipLL system provides two management tools: ! WipManage™--WipLL network (and element) management system tool.
Introduction Hardware Installation Manual 1.4. Applications The following subsections provide examples of typical WipLL applications. 1.4.1. Broadband Data Access Using a standard PSTN modem in circuit-switched networks, subscribers are limited to 56 Kbps of throughput, and in most cases, to 28.8 Kbps. From the operator's perspective, once a subscriber has dialed up with a PSTN modem, a full 128 Kbps channel is occupied for as long as the session lasts.
Hardw are Installation Manual Introduction 1.4.2. High Speed Internet Access One of the advantages of WipLL is the fact that subscribers are "always on" Internet. This means that there is no dialing process and no need for the hassle involved with dialup access. Subscribers need only to open their Web browser or e-mail to be instantly connected. WipLL can also distinguish between applications and subscribers, thus, enabling the operator to provide different class of service to subscribers.
Introduction Hardware Installation Manual 1.4.3. Voice over IP The WipLL system enables customers the flexibility of migration from a data-only network to an integrated Voice-over-IP and data network. The WipLL voice solution provides interoperability with any IP-to-PSTN network gateway. The use of the IPto-PSTN gateway allows operators seamless PSTN connectivity such as SS7 (signaling network), G3-303, and V5.2 over E1, allowing deployment in multinational markets.
Hardw are Installation Manual Introduction 1.4.4. Repeater Solution WipLL units can be used to provide repeater functionality. This is implemented in where the BSR needs to be “extended” to remote subscriber sites that are blocked by obstacles (such as trees, hills, and other typical line-of-sight obstructions) or that the BSR-SPR (or BSR-IDR) transmission is out-of-range. Back-to-back Ethernet connectivity of a BSR with an SPR/IDR provides the repeater capability, as demonstrated in Figure 1-8.
Introduction Hardware Installation Manual Notes: - Careful planning is required to cope with issues such as interferences and delay that are introduced by the repeater solution. For example, if the system is used as a frequency hopping system, GPS may be required at each base station. - Space and frequency isolation between the “repeater SPR” and BSR B is required. - Bandwidth management should be calculated to support the “repeater bandwidth”.
2 Safety Guidelines This chapter outlines general safety guidelines for electricity handling, preventing radio interference, and cable labeling when installing the WipLL system.
Safety Guidelines Hardware Installation Manual 2.1. General Safety Guidelines The following lists general safety guidelines when working with the WipLL equipment: ! The user and the installer should be aware that changes and modifications not expressly approved by Airspan Networks could void the user’s authority to operate the equipment ! Never install equipment that is damaged. ! Only qualified personnel should be allowed to install, replace, and service the WipLL equipment. 2.2.
Hardw are Installation Manual Safety Guidelines 2.2.1. Handling Electrostatic Devices Electrostatic devices are those devices that may be damaged by the inadvertent discharge of static electricity from a charged body. The risk of damage, due to electrostatic discharge (ESD) to a device, may cause the device to fail suddenly, or it may induce a partial defect within the device, which will cause subsequent premature failure.
Safety Guidelines Hardware Installation Manual 2.2.2. Grounding Only certain WipLL devices are required to have additional grounding. The WipLL devices that do not require additional grounding have grounding at the main supply outlet.
Hardw are Installation Manual Safety Guidelines 2.4. Preventing Radio Interference The digital portion of the transceiver has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Safety Guidelines Hardware Installation Manual 2.5. Cabling This section defines the cabling procedures to be adopted during WipLL equipment installations at both base station and subscriber premises. Note: Prior to the commencement of any installation, commissioning work at ‘live’ sites it is the responsibility of the Airspan engineer to advise the customers representative before any activity commences. If in doubt assume equipment is ‘live’.
Hardw are Installation Manual Safety Guidelines ! A maintenance loop or a generous amount of cable slack shall be provided to allow for equipment removal without disturbance to adjacent cables. ! Cables run in guides or on trays shall be kept as flat as possible and secured at regular intervals using cable ties. 2.5.1. Cable Labeling Warning: Voltages over 30 Volts AC and 50 Volts DC are categorized as hazardous. Hazard warning labels should be fitted where required.
Safety Guidelines Hardware Installation Manual 2.5.1.2. High Earth Leakage Current If equipment earth leakage current exceeds 3.5mA., a warning label (Airspan code 1MAE10377AAY) as shown in Figure 2-1 will be fitted to the rear of the main power rack alongside the AC inlet terminal block. WARNING HIGH LEAKAGE CURRENT Earth connection essential Before connecting supply Figure 2-1: Warning label if earth leakage current exceeds 3.5 mA 2.5.1.3.
3 Unpacking and Required Tools This chapter discusse the following: ! Unpacking WipLL equipment ! Required tools 3.1. Unpacking and Verifying Contents Note: Examine the WipLL shipping container. If you notice any damage, or missing items immediately notify the carrier that delivered the unit and contact the Airspan representative. The WipLL hardware equipment can be divided into two parts: ! Base station equipment ! CPE equipment 02030311-03 Airspan Networks Ltd.
Unpacking and Required Tools Hardware Installation Manual 3.1.1. Base Station Equipment Certain base station equipment is required while others are optional equipment, depending on the type of configuration and includes the following: ! Base Station Radio (BSR)—required ! Base Station Distribution Unit (BSDU)—optional ! Base Station Power System (BSPS)—optional ! GPS antenna—optional 3.1.1.1.
Hardw are Installation Manual Unpacking and Required Tools Figure 3-1: BSR kit 3.1.1.2. BSDU (optional) The BSDU interfaces between the BSR and the backhaul network, as well as used for daisy-chaining BSR units.
Unpacking and Required Tools Hardware Installation Manual Figure 3-2: BSDU kit 3-4 Airspan Networks Ltd.
Hardw are Installation Manual Unpacking and Required Tools 3.1.1.3. BSPS (optional) The BSPS is an optional power redundancy unit (DC-UPS). The BSPS includes the following parts: ! Rectifier ! DC Distribution ! System Controller 3.1.1.4. GPS (optional) The GPS antenna synchronizes base stations by providing a universal satellite clock signal. ! 5,15, or 50 meter mating cable ! 5/8″ adapter ! Magnet mount Figure 3-3: GPS kit 02030311-03 Airspan Networks Ltd.
Unpacking and Required Tools Hardware Installation Manual 3.1.2. Customer Premises Equipment WipLL hardware installed at the customer’s site includes the following: ! Subscriber Premises Radio (SPR) ! Subscriber Data Adapter (SDA) ! Indoor Unit (IDR)—optional, instead of the SPR and SDA 3.1.2.1.
Hardw are Installation Manual Unpacking and Required Tools 3.1.2.2. SDA The SDA is an Ethernet hub that connects to the main power supply and provides data connection to the SPR. The SDA is available in two diffrenet modesl: ! SDA-1 ! SDA-4H 3.1.2.2.1. SDA-1 The SDA-1 provides one 10Base-T connection to a host PC or network. The SDA-1 includes the following parts: ! SDA-1 chassis ! Power cable Figure 3-5: SDA-1 kit 02030311-03 Airspan Networks Ltd.
Unpacking and Required Tools Hardware Installation Manual 3.1.2.2.2. SDA-4H The SDA-4H includes four interfaces: three for PC connection; one for daisychaining to another hub or a LAN switch. The SDA-4H includes the following parts: ! SDA-4H chassis ! Power cable Figure 3-6: SDA-4H kit 3.1.2.2.3. SDA-4S The SDA-4S includes four 10/100Base-T interfaces for PC connection. The SDA-4S kit includes the following parts: ! SDA-4S chassis ! Power cable 3-8 Airspan Networks Ltd.
Hardw are Installation Manual Unpacking and Required Tools Figure 3-7: SDA-4S kit TBD 3.1.2.3. IDR kit The IDR unit is an optional customer premises equioment that replaces the SPR and SDA. The IDR combines the SPR and SDA in one unit. The IDR is available in two models: IDR with external antenna; IDR with internal antenna. These two IDR models have the same parts, except that the IDR with external antenna model has a connector for attaching a third-party antenna.
Unpacking and Required Tools Hardware Installation Manual Figure 3-8: IDR kit 3-10 Airspan Networks Ltd.
Hardw are Installation Manual Unpacking and Required Tools 3.2.
Part I Installing WipLL Base Station Equipment Part I describes the procedures for installing the WipLL base station equipment, and includes the following chapters: ! Chapter 4, “Installing the Base Station Radio (BSR)” ! Chapter 5, “Installing the Base Station Distribution Unit (BSDU)” ! Chapter 6, “Installing the GPS” ! Chapter 7, “Installing the Base Station Power Supply (BSPS)”
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4 Installing the BSR This chapter describes the installation of the WipLL Base Station Radio (BSR) that is installed at the base station.
Installing the BSR Hardware Installation Manual 4.1. Overview The BSR is the center of the WipLL system. The BSR provides last-mile wireless connectivity by connecting the customer’s backhaul network to the subscriber’s wireless unit (Subscriber Premises Radio [SPR]). In addition, the BSR is responsible for synchronizing the WipLL network (i.e., synchronizing SPRs/IDRs).
Hardw are Installation Manual Installing the BSR 4.2. Physical Dimensions and Basic Design The BSR is encased in a chassis providing access to the BSR’s communication port at the front panel (see Figure 4-1). The BSR’s bottom panel provides holes for mounting the BSR to, for example, a pole or wall (see Figure 4-2). 15-pin D-type port Figure 4-1: BSR front panel (internal antenna model) Mounting holes Figure 4-2: BSR bottom panel providing holes for mounting 02030311-03 Airspan Networks Ltd.
Installing the BSR Hardware Installation Manual The BSR’s physical dimensions are described in Table 4-1 Table 4-1: BSR Physical Dimensions Parameter Value Height 400 mm (15.74 inches) Width 317 mm (12.48 inches) Depth 65.5 mm (2.58 inches) Weight 4.7 kg Note: The BSR’s physical dimensions exclude the mounting kit. 4.3. Cable Installation Guidelines This section defines the procedures to be adhered to when installing data cables at the base station.
Hardw are Installation Manual Installing the BSR ! Cables should be carefully fed through trunking and not pulled by means of any attached connector. ! Sufficient space should be provided in cable ducts, trunking or trays (where possible) to allow for future cabling growth. ! External data cables are to be protected in protective conduit which is to be secured to the building structure in accordance with manufacturers recommendations.
Installing the BSR Hardware Installation Manual 4.4. Connecting the BSR for Serial Configuration The BSR’s 15-pin D-type port provides serial interface to a PC for BSR initial configuration. This port uses 9 of its 15 pins for serial interface; the remaining pins are used for interfacing with the BSDU or SDA with which the BSR is connected. To connect the BSR to the PC and the SDA or BSDU, a Y-cable is used.
Hardw are Installation Manual Installing the BSR ! Connector pinouts: Table 4-2 displays the connector pinouts for the 15-pin Dtype connectors at the BSR and SDA/BSDU, and the 9-pin D-type connector at the PC management station.
Installing the BSR Hardware Installation Manual The Y-cable connector pin assignments is displayed in Figure 4-4. Figure 4-4: Y-cable connector pin assignment To connect the BSR to the PC and SDA/BSDU for serial configuration: 1. Connect the 15-pin D-type male connector, at the one end of the Y-cable, to the BSR, as displayed in Figure 4-5. 2. Connect the 15-pin D-type male connector, at the other end of the Y-cable, to the SDA or BSDU, as displayed in Figure 4-5. 3.
Hardw are Installation Manual Installing the BSR Figure 4-5: PC-to-BSR Serial Connection using Y-shaped Cable 02030311-03 Airspan Networks Ltd.
Installing the BSR Hardware Installation Manual 4.5. Connecting BSR to the Backhaul Network The BSR connection to the customer’s backhaul network depends on the base station’s configuration: ! For base stations consisting of single BSRs, the connection to the backhaul is through the SDA ! For base stations consisting of multiple BSRs, the connection to the backhaul is through the BSDU. 4.5.1.
Hardw are Installation Manual Installing the BSR ! Connector pinouts: ! BSR: BSR (15-Pin D-type) Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 02030311-03 Function + 48VDC - 48VDC +Tx -Tx +Rx -Rx +Sync. -Sync. Not connected (NC) NC NC NC NC NC NC Airspan Networks Ltd.
Installing the BSR ! Hardware Installation Manual SDA models (SDA-1, SDA-4H, and SDA-4S): SDA (15 Pin D-type) Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Function +48VDC -48VDC +RX –RX +TX –TX NC NC NC NC NC NC NC NC NC Note: Airspan supplies unterminated cables for 15-Pin D-type connectors. Refer to the cable crimping procedures for 15-Pin D-type connectors detailed in Appendix B, “Cable Crimping". To connect the BSR to the backhaul through the SDA: 1.
Hardw are Installation Manual Installing the BSR Figure 4-6: Connecting BSR to the backhaul through the SDA 02030311-03 Airspan Networks Ltd.
Installing the BSR Hardware Installation Manual 4.5.2. Through the BSDU For base stations consisting of multiple BSRs, the power supply and connectivity to the backhaul network is provided by the BSDU. The BSR’s 15-pin D-type port is connected to the BSDU’s rear panel 15-pin D-type port (labeled BSR #). Note: For a detailed description of the BSDU, see Chapter 5, “Installing the BSDU”.
Hardw are Installation Manual Installing the BSR BSR (15-pin D-type) Pin Function NC NC NC 13 14 15 ! BSDU: BSDU (15-pin D-type) Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Function +48VDC -48VDC +RX –RX +TX –TX NC NC NC NC NC NC NC NC NC Note: Airspan supplies unterminated cables for 15-Pin D-type connectors. Refer to the cable crimping procedures for 15-Pin D-type connectors detailed in Appendix B, “Cable Crimping". 02030311-03 Airspan Networks Ltd.
Installing the BSR Hardware Installation Manual To connect the BSR to the backhaul through the BSDU: 1. Attach the 15-pin D-type connector, at one end of the cable, to the BSR’s 15-pin D-type port labeled DATA POWER SYNC, as displayed in Figure 4-7. 2. Attach the 15-pin D-type connector, at the other end of the CAT-5 cable, to the BSDU’s 15-pin D-type port labeled BSR, located at the rear of the BSDU, as displayed in Figure 4-7. 3.
Hardw are Installation Manual Installing the BSR Figure 4-7 displays the cable connections between the BSR and BSDU. Figure 4-7: BSR-to-BSDU cable connection 02030311-03 Airspan Networks Ltd.
Installing the BSR Hardware Installation Manual 4.6. Conecting a Third-Party External Antenna (Optional) The BSR model with an N-type connector can be connected to an external antenna (see Figure 4-9). The addition of an external antenna allows greater RF sector coverage than the standard BSR Internal Antenna model (i.e., 60°). The BSR with an external antenna is especially suited for base stations with one BSR, where sector coverage can be increased to 360° by using an omni-antenna.
Hardw are Installation Manual Installing the BSR 4.7. Connecting the BSR to Power The BSR is powered by the SDA or BSDU (depending to which unit the BSR is connected). The power is supplied through the BSR’s 15-pin D-type port, which is connected to the SDA or BSDU. The BSR’s power requirements are described in Table 4-3.
Installing the BSR Hardware Installation Manual 4.8. Mounting the BSR The BSR can be mounted on a wall or pole (see Figure 4-14). The BSR is mounted using the mounting holes located on the BSR’s bottom panel, and the mounting bracket (provided by Airspan). The mounting brackets for BSR wall- and polemounting are different. 4.8.1. Minimum Distance Between BSRs To prevent system interference, each BSR requires a minimum of 1-metre separation between adjacent BSRs (see Figure 4-10). 1 Metre min.
Hardw are Installation Manual Installing the BSR 4.8.2. Wall Mounting BSR wall mounting is performed in two chronological stages: ! Attaching the mounting bracket to the BSR’s mounting holes. ! Attaching the mounting bracket (attached to the BSR) to the wall. To mount the BSR on a wall: 1. Attach the mounting bracket to the BSR using two stainless steel bolts, as shown in Figure 4-11.
Installing the BSR Hardware Installation Manual Note: Airspan does not provide screws for attaching the mounting bracket to the wall. The screw size depends on the structure of the building to which the bracket is to be attached. When selecting screw sizes, consideration must be given to the weight of the BSR and load that may be induced in windy conditions. 8mm 58mm 99mm . Figure 4-12: BSR mounting bracket dimensions for the four fixing holes 3.
Hardw are Installation Manual Installing the BSR Rotation is restricted to the horizontal plane only. The permissible rotation is shown in Figure 4-13. Figure 4-13: Horizontal rotation of the BSR Note: A thread-locking compound is to be used to prevent the bolts working loose. 02030311-03 Airspan Networks Ltd.
Installing the BSR Hardware Installation Manual 4.8.3. Pole Mounting The BSR can be mounted on a pole (see Figure 4-14). Pole mounting allows the BSR to be adjusted in the horizontal as well as the vertical plane. The pole-mounting bracket assembly is designed to support the BSR on a round pole of 45 mm in diameter. Figure 4-14: Mounted BSR 4-24 Airspan Networks Ltd.
Hardw are Installation Manual Installing the BSR To mount the BSR on a pole: 1. Attach the mounting bracket to the BSR using two stainless steel bolts. Locking Holes BSR mounting Bracket Clamping Bracket Pivot Hole ‘U’ Bolt Figure 4-15: BSR mounting bracket assembly 2. Attach the clamping bracket to the mounting bracket using two M8 stainless bolts. 3.
Installing the BSR Hardware Installation Manual 4. Adjust the vertical position of the BSR. Lock the BSR at the desired position by inserting the locking bolt in the desired position. Once the correct angle has been set both bolts must be tightened to lock the BSR bracket in place. 5. Adjust the horizontal position of the BSR by rotating the BSR about the pole, and then tighten the U-bolt. BSR positioning is obtained in two planes by adjustment of the mounting bracket assembly a shown in Figure 4-16.
5 Installing the BSDU The WipLL Base Station Distribution Unit (BSDU) is an optional WipLL unit that connects multiple BSRs at a base station. The BSDU is installed in the customer’s cabinet at the base station. The BSDU provides the following: ! Serves up to six BSRs. Up to four BSDUs can be daisy-chained in a single base station to support up to 24 BSRs. ! Power supply of –48 VDC to BSRs. ! Wide Area Network (WAN) interface to the customer’s backhaul network. ! Frequency-hop synchronization.
Installing the BSDU Hardware Installation Manual 5.1. BSDU Characteristics ! Size: 19" rack mounting practice, 1-U vertical space requirement ! Weight: 3.1 Kg ! Power Rating: 200 watts (when connected to six BSRs and a GPS) ! Voltage: -48 VDC nominal (Minimum -38 VDC; Maximum -55 VDC) ! Environmental conditions: ! Operating temperature: 0ºC to +50ºC ! Humidity: 90% at 30ºC 5.2.
Hardw are Installation Manual Installing the BSDU 5. Tighten the M5 mounting screws to fasten the chassis to the cabinet. Figure 5-2: BSDU and cable management panel mounting method Note: When mounting multiple BSDUs in a cabinet, vertical space—above and below—is required for threading cables to the rear. Space for cable management 1U-chassis Figure 5-3: BSDU and vertical space for cables 02030311-03 Airspan Networks Ltd.
Installing the BSDU Hardware Installation Manual 5.3. Cabling the BSDU Warning: To avoid electrical shock and fire hazard ensure that all data and power connections are made prior to connecting the BSDU to the DC power supply. When installing the BSDU, it is required to wear the wrist strap for ESD. The BSDU offers services to the WipLL network via both front and rear panels.
Hardw are Installation Manual Installing the BSDU Figure 5-4 shows the front panel of the BSDU.
Installing the BSDU Hardware Installation Manual Figure 5-5 shows a rear panel view of the BSDU. GPS port Earth Stud Six BSR ports Figure 5-5: BSDU rear panel Note: Airspan supplies unterminated cables for 15-Pin D-type and N-type connectors. Refer to the cable crimping procedures for these connectors in Appendix B, “Cable Crimping". 5.3.1. Connecting BSRs to the BSDU The BSDU rear panel provides six 15-Pin D-type connectors for connecting a maximum of six BSRs.
Hardw are Installation Manual Installing the BSDU 5.3.1.1. BSR LED indicators The BSDU front panel includes three LEDs for each of the six BSRs. These LEDs are described in the following table: LED Act Link Power LED Status Meaning On Ethernet activity is detected Off No Ethernet activity is detected On Physical link exists between devices Off No physical link exists between devices On Current is supplied to the port Off Port is disabled by software, or port failure 5.3.2.
Installing the BSDU Hardware Installation Manual 5.3.3. Connecting to 100Base-T Networks The BSDU’s front panel provides two RJ-45 ports for connection to 100Base-T (labeled 100Base-T) ports. The 100Base-T ports are for connection to the management station and Ethernet.
Hardw are Installation Manual Installing the BSDU 5.3.4. Connecting Sync IN/OUT ports The BSDU’s front panel provides an in/out synchronization 8-Pin RJ-45 ports for synchronization between BSDUs at the base station. The SYNC OUT of the master BSDU is connected to the SYNC IN of a slave BSDU, which then connects its SYNC OUT to the SYNC IN of another slave BSDU, and so on.
Installing the BSDU Hardware Installation Manual ! Synch OUT Pin Name Description 1 TD+ Transmit data to GPS 2 TD- Transmit data from GPS 3 TX+ Transmit Data (hop synchronization) 4 RD+ Receive Data (from GPS) 5 RD- Receive Data (to GPS) 6 TX- Transmit Data (hop synchronization) 7 1PPS+ GPS pulse per second 8 1PPS- GPS pulse per second 5.3.5. Connecting the Power Management port The BSDU’s front panel provides a 9-Pin DB-type port for serial RS-232 power management of the BSPS.
Hardw are Installation Manual Installing the BSDU Figure 5-6: BSDU-to-BSPS management connectors – RJ-45 to 9-Pin D-type Cable length: 60 cm Connector pinouts: 9-Pin D-type Pin Name RJ-45 Description Pin Name 1 NC Not connected 1 NC 2 RX Receive Data 2 NC 3 TX Transmit Data 3 RX 4 NC Not connected 4 NC 5 GND Ground 5 GND 6 NC Not connected 6 TX 7 NC Not connected 7 NC 8 NC Not connected 8 NC 02030311-03 Airspan Networks Ltd.
Installing the BSDU Hardware Installation Manual 5.3.6. Connecting Cables for BSDU Serial Management The BSDU’s front panel provides a 9-Pin D-type port for serial management (labeled Monitor) of the BSDU. Serial management allows you to connect the WipLL’s network management system (WipConfig) to BSDU without assigning BSDU an IP address.
Hardw are Installation Manual Installing the BSDU To connect the PC to the BSDU by serial connection (see Figure 5-7): 1. Connect the 9-pin D-type female connector to the PC. 2. Connect the 9-pin D-type male connector, at the other end of the cable, to the BSDU’s serial port (labeled Monitor). Figure 5-7: PC-to-BSDU Serial Connections 02030311-03 Airspan Networks Ltd.
Installing the BSDU Hardware Installation Manual 5.3.7. Connecting Cables for BSDU Network IP Management For network (IP) configurations, you can connect the PC to the BSDU’s local port, or remotely (from anywhere) if you have IP connectivity to the device. For PC-toBSDU local network (IP) connections you need to connect the PC to the BSDU’s 10BaseT or 100BaseT port. The BSDU’s front panel provides two 10Base-T ports: left is labeled 10Base-T 1; right is labeled 10Base-T 2.
Hardw are Installation Manual Installing the BSDU ! Connector pinouts: RJ-45 (100Base-T) RJ-45 (10Base-T) Pin 1 2 3 4 5 6 7 8 Signal +RX -RX +TX NC NC -TX NC NC Pin 1 2 3 4 5 6 7 8 Function +TX -TX +RX NC NC -RX NC NC To connect the PC to the BSDU using a network connection: 1. Connect the RJ-45 connector to the PC’s Ethernet port. 2.
Installing the BSDU Hardware Installation Manual Figure 5-8: PC-to-BSDU Local Network Connection – 10Base-T Port Figure 5-9: PC-to-BSDU Local Network Connection – 100Base-T Port 5-16 Airspan Networks Ltd.
Hardw are Installation Manual Installing the BSDU 5.4. BSDU LED Status Indicators The BSDU status LED indicators are located on the BSDU’s front panel, as displayed in Figure 5-10. HSP State GPS HSP P Figure 5-10: BSDU status indicator panel The LED indicators include the following: ! HSP (Hop Synchronization Process)—this LED indicates that the BSDU synchronization process is active.
Installing the BSDU Hardware Installation Manual 5.5. Connecting Power The BSDU requires a power supply of –48 VDC. If the base station has no capabilities of supplying AC-to-DC voltage, the BSDU can be powered by an optional WipLL BSPS unit (see Chapter 7, “Installing the BSPS”) that supplies –48 VDC power as well as power redundancy. 5.5.1. Grounding (Earthing) the BSDU Before connecting the power supply to the BSDU, you need to ground the BSDU. To ground the BSDU: 1.
Hardw are Installation Manual Installing the BSDU 5.5.2. Connecting to Power Supply (BSPS) The connection between the BSDU and the power supply unit (BSPS) is made via a two-meter long DC shielded power cable (supplied). The power cable has a power connector at each end of the cable and a wire for preventing cable disturbances and radiation. The power cable is connected to the BSDU’s power connector.
Installing the BSDU Hardware Installation Manual 2. Connect the power cable’s yellow/green lug wire, for radiation immunity, to the BSDU chassis by using the screw attachment located alongside the BSDU’s power receptacle, as displayed in Figure 5-12. 3. Connect the other end of the power cable to the power source (i.e., to the customer’s power supply or to the WipLL BSPS). 5-20 Airspan Networks Ltd.
6 Installing the GPS The WipLL system provides BSDU connectivity to GPS antennas for synchronizing multiple base stations and avoiding RF ghosting effects. The GPS antenna ensures that the entire WipLL network operates with the same clock based on a universal satellite clock signal. Figure 6-1: GPS antenna for clock synchronization 02030311-03 Airspan Networks Ltd.
Installing the GPS Hardware Installation Manual 6.1. Mounting the GPS Depending on individual customer requirements and environmental influences there are several available options for mounting the GPS: ! Pole Mounting: The GPS may be mounted to a pole similar to that used to mount the BSR (See Chapter 4, “Installing the BSR”). ! Mounting Plate: The GPS may be mounted to a wall or roof top structure using a purpose-made mounting plate supplied with the unit.
Hardw are Installation Manual Installing the GPS 6.2. Connecting the GPS to the BSDU The GPS antenna is connected to the BSDU’s 15-Pin D-type port, labeled GPS (see Figure 6-2). 15-Pin D-type port for GPS Figure 6-2: BSDU rear panel showing GPS port Note: Airspan supplies un-terminated cables for connecting the GPS to the BSDU. Refer to Appendix B, “Cable Crimping" for cable crimping procedures for these connectors.
Installing the GPS Hardware Installation Manual ! Connector pinouts: The GPS connector receptacle contains 12 male contacts, as displayed in Figure 6-3. Figure 6-3: GPS connector pinouts The connector pinouts for the GPS and BSDU are described in the following table.
Hardw are Installation Manual Installing the GPS To connect the GPS antenna to the BSDU: 1. Connect the 12-pin female connector, at the one end of the cable, to the 12-pin receptacle connector located at the underside of the GPS. 2. Connect the 15-pin D-type male connector, at the other end of the cable, to the 15-pin D-type port labeled “GPS” at the rear panel of the BSDU. Figure 6-4 illustrates the BSDU-to-GPS cable connections.
Installing the GPS Hardware Installation Manual Figure 6-4: BSDU-to-GPS cable connections 6-6 Airspan Networks Ltd.
7 Installing the BSPS The WipLL Base Station Power Supply unit (BSPS) is an optional WipLL unit that supplies power (and power redundancy) to the BSDU/BSR if no –48 VDC power supply exists at the base station. The BSPS front panel is displayed in Figure 7-1. Figure 7-1: BSPS front panel 02030311-03 Airspan Networks Ltd.
Installing the BSPS Hardware Installation Manual The BSPS provides the BSDUs/BSRs with the following: ! Power supply of –48 VDC to BSDUs/BSRs ! Power redundancy in case of power failure. The BSPS charges a battery bank that provides this power redundancy during mains failure. Thus, the BSPS acts as a DC-UPS with a battery connected to it. The size of the battery determines the backup and charging time. Since the system is current limited, the maximum battery size is based on that limit.
Hardw are Installation Manual Installing the BSPS ! Cables used in the customer premises electrical circuit are to be 3-core 6mm2. Color-coding for live neutral and earth conductors shall be in accordance with local electrical regulations. ! The base station premises AC distribution panel must be capable of supplying up to 240 Volts AC. ! The customer is to allocate and clearly identify fuses in AC distribution panel that will provide protection for equipment in BSPS cabinet.
Installing the BSPS Hardware Installation Manual 7.2. BSPS Components The BSPS consists of the following basic components: ! DC Rectifier modules: The Rectifier converts the AC current to DC. The BSPS can house up to four rectifiers. The rectifiers are “hot plugged” and operate in parallel. This enables the user to define an “N+1”or “N+2”redundant system. Each rectifier has its own current sharing system, satisfying a complete sharing among rectifiers.
Hardw are Installation Manual Installing the BSPS DC Distribution module Rectifier module Load Breaker Battery Breaker Line Breaker Power ports for connection to BSDUs System Controller Figure 7-2: BSPS Main Rack front view 02030311-03 Airspan Networks Ltd.
Installing the BSPS Hardware Installation Manual Figure 7-3 displays the rear panel of the main BSPS rack. 6 Figure 7-3: BSPS Main Rack rear view 1. AC connection 2. Comm to DC Distribution 3. Temperature Sensor 4. Comm to power system 5. LVD connection 6. Ground 7-6 Airspan Networks Ltd.
Installing the BSPS Hardware Installation Manual 7.2.1. Installing BSPS Batteries To provide BSPS system back up power two battery circuits are provided. Batteries are located on two shelves fitted in the lower sections of the system cabinet. A battery protection tray is to be fitted beneath the BSPS racks to prevent tools from falling onto batteries below. Warning: Final battery connection, at the DC distribution rack, must only be made once the battery is fully installed.
Hardw are Installation Manual Installing the BSPS Figure 7-4: Cabinet battery area 3. Up to four monoblocs can be housed on each shelf. Connections between the monoblocs are as illustrated in Figure 7-5. 4. Connect a short battery strap between monoblocs 1 and 2. 5. Using an insulated spanner/wrench tighten the battery terminal nut to the torque setting recommended by the manufacturer. 6.
Installing the BSPS Hardware Installation Manual 3 4 2 1 Figure 7-5: Method of interconnection between monoblocs 10. Protect the terminals of the monoblocs using suitable battery grease. 11. Before connecting the BSPS battery cables to the battery ensure that the battery isolation circuit breakers are in the OFF position. 12. Connect the red lead of the BSPS battery cables to the +ve terminal on monobloc 4. 13. Connect the black lead of the BSPS battery cable to the –ve terminal on monobloc 1.
Hardw are Installation Manual Installing the BSPS 14. Check the voltage across the terminals battery input plug DC distribution rack using a DMM. Ensure that a reading of 48 volts DC is present. If so insert the plug into the corresponding socket on the front of the DC distribution rack. 15. Repeat the above steps for battery 2 if required. Note: If any faulty readings were recorded during the process, this would indicate a damaged monobloc or battery strap. Investigate and replace the faulty component.
Installing the BSPS Hardware Installation Manual 11. Connect the temperature sensors to the appropriate connector at the rear panel of the main unit. Place the sensors in the battery compartment. 12. Switch on the LOAD and BATTERY circuit breakers. Verify that the BYPASS breakers are off. The system is now ready for use. 13. Verify that the FAULT red LED is not lit and the buzzer not active. 14. Connect a PC to the RJ-45 port at the front panel of the main unit to control the system (optional).
Hardw are Installation Manual Installing the BSPS Protective covers Figure 7-7: Rear BSPS cable connections 7.3.1. Connecting Power to BSDUs The BSPS’s DC Distribution unit provides circuit breakers for distributing power output to BSDUs housed in the WipLL cabinet. The DC Distribution unit contains a switch that provides an LVD circuit bypass option. When this switch is activated the battery is no longer protected against deep discharge and the system controller alarm is then activated.
Installing the BSPS Hardware Installation Manual Screw for power cable radiation immunity Power port Figure 7-8: BSDU front panel with power port and screw attachment for power radiation immunity 2. Connect the power cable’s yellow/green lug wire, for radiation immunity, to the BSDU chassis by using the screw attachment located alongside the power port, as displayed in Figure 7-8. 3. Connect the other end of the power cable to the DC output port of the BSPS’s DC Distribution unit (labeled LOAD).
Hardw are Installation Manual Installing the BSPS DC power connections to BSDUs Figure 7-9: DC Distribution Rack front view ! LOAD DC—DC connection to BSDUs ! DC EXT—extension rack DC power input connection ! BATT IN—battery input connection ! LVD BYPASS—bypass circuit breakers ! LOAD—load circuit breakers The rack rear panel is shown in Figure 7-10. Figure 7-10: DC Distribution Rack rear view 02030311-03 Airspan Networks Ltd.
Installing the BSPS Hardware Installation Manual ! LVD BYPASS—LVD bypass input connection from main rack ! COMM—Main/Extension Rack Communication port 7.3.2. Installing the Rectifier The Rectifier module is the heart of the Full-Redundancy 48 VDC power system. It converts the input AC to DC current. The Rectifier is a plugged-in module designed specifically for modular systems. The BSPS can house up to three basic rectifiers. To install a rectifier in the BSPS system: 1.
Hardw are Installation Manual Installing the BSPS Bar graph On LED indicator Figure 7-11: Rectifier module front view 02030311-03 Airspan Networks Ltd.
Installing the BSPS Hardware Installation Manual The calibration of the Rectifier module is simple and involves a single trimmerpotentiometer that adjusts the output voltage. To calibrate the rectifier: 1. Remove the rectifier from the unit. 2. Connect the Share (+) bus to the negative pole (-) of the rectifier. 3. Using a DMM set the output voltage to 53.50 VDC. 4. Check the single rectifier using a female connector (such as the one used in the units of the system). Or 5.
Hardw are Installation Manual Installing the BSPS 7.3.4. Operating the System Controller Figure 7-12 shows the features provided on the front panel of the system controller module. 8-pin RJ-45 port Figure 7-12: System controller front panel 02030311-03 Airspan Networks Ltd.
Installing the BSPS Hardware Installation Manual The function of the LED’s provided on the System controller module can be defined as follows: LED Color Meaning AC Green Input AC voltage is normal DC Green Output DC voltage is normal LVD Red State of the Low Voltage Disconnect circuit: red indicates that the battery is disconnected BATT Green Battery test has passed FAULT Red continuous General fault alarm Red blinking Faulty rectifier detected The following lists the buttons and their
Hardw are Installation Manual Installing the BSPS 7.4. Connecting the BSPS Management Cables Connecting the BSPS’s System Controller module to the WipLL BSDU provides the user with the ability to control the power system operating parameters, retrieving system data, and status information. The BSPS System Controller connects to the BSDU(s) via an RJ-45 port located on the front panel of the controller module. This is connected to BSDU’s 9-Pin D-type port, labeled POWER Management.
Installing the BSPS Hardware Installation Manual COM Tx Rx 5 1 9 6 Figure 7-14: BSDU’s 9-pin D-type Connector Pinouts Note: See Chapter 5, “Installing the BSDU” for detailed connector pinouts. 7.4.1. BSPS Troubleshooting The table below indicates methods of solving problems that may arise during the BSPS installation process.
Hardw are Installation Manual Symptom Installing the BSPS Possible Cause No backup time when AC is absent Battery is not connected Load is not operating Load is not connected Battery is discharged or power is low. Remedy Check battery charge, connections and circuit breaker • Check load cables. • Check load circuit breaker. No current sharing among rectifiers (more then 2 segments difference between any two modules). • Load is too high.
Installing the BSPS Hardware Installation Manual point on the cable guide from where they can be fanned out and fed to the Base station Distribution Units (BSDU’s). ! Data cables terminating at the front of the BSDU’s should be fed through the brush gland fitted adjacent to the units and secured to the cable management bar using tie-wraps. ! When cabling the BSPS cabinet consideration should be given to future growth and expansion.
Hardw are Installation Manual Installing the BSPS ! All data cables should be labeled with both the source and destination at each end. Un-used cable ends must also be identified with labels to assist with future upgrades. 7.5.1. BSPS Cabinet Grounding Warning: The WipLL BSPS cabinet must be connected to the customers building common earth point (CEP) earth before connecting AC power supplies and installing any equipment.
Installing the BSPS Hardware Installation Manual 7.5.3. BSPS Cabinet Power Requirements The following section describes the BSPS cabinet mains power requirements. Warning: The following information assumes a fully populated BSPS cabinet with main and extension power racks fitted. Cable sizes and electrical circuit protection devices discussed in the following section are typical for 230 Volt AC circuits only. Adjustments are required for other applications.
Hardw are Installation Manual Installing the BSPS ! A terminal block is provided on the rear of the power extension rack for the link from the main power rack. ! When connecting racks to the AC mains supply loosen the grub screws on the terminal blocks. Insert the bare copper conductor ensuring correct polarity. Firmly tighten the screw and gently pull on each cable to ensure the grub screw has made full contact. Ensure that bare wires are not exposed.
Installing the BSPS Hardware Installation Manual ! Power cables external to the BSPS cabinet must be housed in trunking. The trunking is to be secured to the wall of the equipment room. Type, securing method and route of trunking is to be in accordance with customers’ requirements. ! A minimum separation distance of 200 mm is to be maintained between AC and DC/signaling cables when they run parallel to each other. However these cables may cross each other at right angles.
Part II Installing WipLL Customer Premises Equipment Part II describes the procedures for installing the WipLL equipment located at the subscriber’s premises.
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8 Installing the SPR This chapter describes the installation of the WipLL Subscriber Premises Radio (SPR) at the subscriber's premises.
Installing the SPR Hardware Installation Manual 8.1. Overview The SPR receives and transmits data from and to the base station. The SPR connects to the subscriber’s network through the SDA. The SDA is an Ethernet hub/LAN switch that provides the SPR with DC power, lightening protection, and Ethernet connectivity to the subscriber’s PCs/network. The SPR connects to the SDA by a CAT-5e cable.
Hardw are Installation Manual Installing the SPR RF link CAT-5e Subscriber Premises Radio (SPR) located on the roof PC Subscriber Data Adapter (SDA) located inside Figure 8-1: Typical SPR and SDA location and connections at subscriber's premises Warning: As the system emits microwave radiation, a minimum distance of 200 mm must be maintained from the front of the SPR.
Installing the SPR Hardware Installation Manual 8.2. Physical Dimensions and Basic Design The SPR is encased in a chassis and provides access to the SPR’s communication port at the front panel. The SPR’s bottom panel provides holes for mounting the SPR to, for example, a pole or wall (see Figure 8-3). 15-pin D-type port Figure 8-2: SPR (internal antenna model) Mounting holes Figure 8-3: SPR bottom panel providing holes for mounting 8-4 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SPR The SPR’s physical dimensions are described in Table 8-1 Table 8-1: SPR Physical Dimensions Parameter SPR model Standard Gain Antenna High Gain Antenna Height 311 mm (12.24 inches) 400 mm (15.74 inches) Width 224 mm (8.82 inches) 317 mm (12.48 inches) Depth 65.5 mm (2.58 inches) 65.5 mm (2.58 inches) Weight 2.5 kg 4.7 kg Note: The SPR’s physical dimensions exclude the mounting kit. 8.3.
Installing the SPR Hardware Installation Manual ! A maintenance loop is to be left in the cable just before the cable reaches the SPR to prevent strain on the connector. ! Data cables threaded into holes drilled in walls are to be covered by a waterproof sheath to prevent water penetration. ! Silicone sealant should be used to plug any holes on both internal and external wall surfaces once cables are in place. ! All data cables should be labeled with both the source and destination at each end..
Hardw are Installation Manual Installing the SPR 8.4. Mounting the SPR The SPR can be mounted on a wall or pole (see Figure 8-9). The SPR is mounted using the mounting holes located on the SPR’s bottom panel, and the mounting bracket (provided). The mounting brackets for wall- and pole-mounting are different from one another. The following is a list of physical parameters that should be considered before mounting SPRs: 8.4.1.
Installing the SPR Hardware Installation Manual 8.4.2. Wall-Mounting SPR wall mounting is performed in two chronological stages: ! Attaching the mounting bracket to the SPR’s mounting holes. ! Attaching the mounting bracket (attached to the SPR) to the wall. To mount the SPR on a wall: 1. Attach the mounting bracket to the SPR using two stainless steel bolts, as shown in Figure 8-6.
Hardw are Installation Manual 8mm Installing the SPR 58mm 99mm . Figure 8-7: SPR mounting bracket dimensions for the four fixing holes Note: Airspan does not provide screws for attaching the mounting bracket to the wall. The screw size depends on the structure of the building to which the bracket is to be attached. When selecting screw sizes, consideration must be given to the weight of the SPR and load that may be induced in windy conditions. 02030311-03 Airspan Networks Ltd.
Installing the SPR Hardware Installation Manual 3. Adjust the horizontal positioning of the SPR, and then fasten tight the two stainless-steel bolts. Rotation is restricted to the horizontal plane only. The permissible rotation is shown in Figure 8-8. Figure 8-8: Horizontal rotation of the SPR Note: A thread-locking compound is to be used to prevent the bolts working loose. 8-10 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SPR 8.4.3. Pole-Mounting The SPR can be mounted on a pole (see Figure 8-9). Pole mounting allows the SPR to be adjusted in the horizontal as well as the vertical plane. The pole-mounting bracket assembly is designed to support the SPR on a round pole of 45 mm in diameter. Figure 8-9: Mounted SPR 02030311-03 Airspan Networks Ltd.
Installing the SPR Hardware Installation Manual To mount the SPR on a pole: 1. Attach the mounting bracket to the SPR using two stainless steel bolts. Locking Holes BSR mounting Bracket Clamping Bracket Pivot Hole ‘U’ Bolt Figure 8-10: SPR mounting bracket assembly 2. Attach the clamping bracket to the mounting bracket using two M8 stainless bolts. 3.
Hardw are Installation Manual Installing the SPR 4. Adjust the vertical position of the SPR. Lock the SPR at the desired position by inserting the locking bolt in the desired position. Once the correct angle has been set both bolts must be tightened to lock the SPR bracket in place. 5. Adjust the horizontal position of the SPR by rotating the SPR about the pole, and then tighten the U-bolt. SPR positioning is obtained in two planes by adjustment of the mounting bracket assembly a shown in Figure 8-11.
Installing the SPR Hardware Installation Manual 8.5. Connecting an External Third-Party Antenna (Optional) The SPR model with an N-type connector can be connected to an external antenna. The addition of an external antenna allows greater RF sector coverage than the standard SPR internal antenna models (i.e., 60°). ! Connector: N-type male Figure 8-12: Example of an N-type connector ! Cable: RF To connect the SPR to an external antenna: 1.
Hardw are Installation Manual Installing the SPR 8.6. Connecting to a PC for Initial Serial Configuration To configure an SPR, you need to connect a PC running the WipLL network management system (WipConfig) to the SPR. The SPR’s 15-pin D-type port provides serial interface to a PC for SPR initial configuration. This port uses 9 of its 15 pins for serial interface; the remaining pins are used for interfacing with the SDA with which the SPR remains connected.
Installing the SPR Hardware Installation Manual ! Connector pinouts: Table 8-2 displays the connector pinouts for the 15-pin Dtype connectors at the SPR and SDA, and the 9-pin D-type connector at the PC management station.
Hardw are Installation Manual Installing the SPR Figure 8-15: Y-cable connector pin assignment To connect the SPR to the PC and SDA for serial configuration: 1. Connect the 15-pin D-type male connector (P1), at the one end of the Y-cable, to the SPR, as displayed in Figure 8-16. 2. Connect the 15-pin D-type male connector (J1), at the other end of the Y-cable, to the SDA, as displayed in Figure 8-16. 3.
Installing the SPR Hardware Installation Manual Figure 8-16: SPR cable connections for serial configuration Note: For performing SPR initial configuration using WipLL’s management applications, refer to Airspan’s WipConfig User’s Guide or WipConfig PDA User’s Guide. 8-18 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SPR 8.7. Connecting to the SDA The SPR connects to the subscriber’s PCs/network through the SDA. To connect the SPR to the SDA, you need to connect the SPR’s 15-Pin D-type port to the SDA’s 15-pin D-type port by a CAT-5e cable. The SPR-to-SDA cable connection configurations is as follows: ! Connectors: ! SPR: 15-pin D-type male (only 8 pins are used) ! SDA: 15-pin D-type male (only 8 pins are used) Note: Airspan supplies unterminated CAT-5e cables.
Installing the SPR Hardware Installation Manual 15-Pin D-type Pin 12 13 14 15 Function NC NC NC NC ! SDA: SDA-1, SDA-4H, SDA-4S (15-Pin D-type) Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Function +48v -48v +RX –RX +TX –TX Not connected (NC) NC NC NC NC NC NC NC NC Note: The SDA connector pinouts are the same for all SDA models (SDA-1, SDA-4H, SDA-4S, SDA-4S/VL, SDA-4S/1H3L, and SDA-4S/VL/1H3L). 8-20 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SPR Warning: To avoid electrical shock, before connecting the SPR to the SDA, ensure that the SDA is not connected to the power supply. To connect the SPR to the SDA: 1. Attach the 15-pin D-type connector, at one end of the cable, to the SPR’s 15-pin D-type port labeled DATA POWER SYNC, as displayed in Figure 8-17. 2. Attach the 15-pin D-type connector, at the other end of the cable, to the SDA’s 15-pin D-type port, as displayed in Figure 8-17.
Installing the SPR Hardware Installation Manual Figure 8-17: SPR-to-SDA cable connections Note: The maximum cable length permissible between the SPR and SDA is 100 meters. 8-22 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SPR 8.8. Connecting Power The SPR receives, through its 15-pin D-type port, its power supply from the SDA. In turn, the SDA connects to an external power adapter from where it receives power. The SDA provides 48 VDC nominal power to the SPR (minimum of 30 VDC: maximum of 55 VDC). Note: For a description of the procedure for connecting power to the SDA, see Chapter 9, “Installing the SDA”. 02030311-03 Airspan Networks Ltd.
9 Installing the SDA This chapter describes the installation of the WipLL Subscriber Data Adapter (SDA) at the subscriber's premises.
Installing the SDA Hardware Installation Manual 9.1. Overview The SDA is an Ethernet hub/LAN switch that provides the SPR with DC power, lightening protection, and Ethernet connectivity to the subscriber’s PCs/network. The SDA connects to the SPR by a CAT-5e cable. The SDA provides 10/100BaseT connectivity (depending on the SDA model) to the subscriber’s PCs or network (up to four PCs depending on the SDA model).
Hardw are Installation Manual Installing the SDA Figure 9-1 displays a typical setup of the SPR and SDA at the subscriber's premises. Note: The SDA can also be installed at a base station that has only one BSR. This SDA replaces the need for the BSDU, and provides power and connectivity to the single BSR.
Installing the SDA Hardware Installation Manual 9.2. Physical Dimensions and Basic Design The SDA is encased in a chassis. The chassis front panel provides access to the SDA’s communication ports. The left-side of the chassis provides a power connector port for connection to an external power adapter. The SDA’s bottom panel provides holes for mounting the SDA on a wall Figure 9-2 displays the SDA-4S models and the SDA-4H.
Hardw are Installation Manual Installing the SDA Figure 9-3 displays the SDA-1 model. 15-Pin D-type port Power connector port RJ-45 port (10BaseT) Figure 9-3: SDA-1 (front, side, and top panels) The SDA’s physical dimensions are described in Table 9-1 Table 9-1: SDA Physical Dimensions Parameter 02030311-03 Value Height 200 mm (7.87 inches) Width 150 mm (5.9 inches) Depth 40 mm (1.57 inches) Weight 0.53 kg Airspan Networks Ltd.
Installing the SDA Hardware Installation Manual 9.3. Mounting the SDA The SDA can be wall or desk mounted. 9.3.1. Desktop-Mounting For desk mounting (horizontal mounting), the chassis’ bottom panel provides four rubber feet on each corner. Warning: For desk mounting, do not place the SDA on a carpeted surface where airflow is restricted and a fire hazard may result. Mounting brackets Rubber feet Figure 9-4: SDA - rear panel 9-6 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SDA 9.3.2. Wall-Mounting For SDA wall mounting, two mounting hooks are molded into the chassis’ bottom panel (see Figure 9-4). The dimensions of the SDA’s wall-mounting hooks, located on the chassis bottom panel, are displayed in Figure 9-5.
Installing the SDA Hardware Installation Manual 9.4. Connecting to the SPR The SDA’s 15-pin D-type port connects to the SPR’s 15-pin D-type port by a CAT-5e cable. Note: For a detailed description on connecting the SDA to the SPR, see Chapter 8, “Installing the SPR”. 9.5. Connecting to the Subscriber’s Ethernet Network The SDA provides RJ-45 port(s) for Ethernet connectivity to the subscriber’s PCs/network. The number of Ethernet ports and the speed of the Ethernet connection depend on the SDA model.
Hardw are Installation Manual Installing the SDA The following list describes the location of the Ethernet ports for the various SDA models: ! SDA-1: one RJ-45 port (see Figure 9-6) RJ-45 port Figure 9-6: SDA-1 with one Ethernet port ! SDA-4H: four RJ-45 ports (see Figure 9-7). Note: The left-most port (J5) is a crossover port.
Installing the SDA Hardware Installation Manual ! SDA-4S models (SDA-4S, SDA-4S/VL, SDA-4S/1H3L, and SDA4S/VL/1H3L): four 10/100BaseT RJ-45 ports. These ports support 10/100 Mbps autosensing, and MDI/MDI-X automatic crossover. This allows you to connect straight-through or crossover CAT-5 cables to these ports. 10/100BaseT RJ-45 ports Figure 9-8: SDA-4S RJ-45 Ethernet Ports 9-10 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SDA 9.5.1. Connecting to PCs The SDA connects to the subscriber’s PC(s) through the SDA’s Ethernet port (RJ45). Note: To avoid electrical or fire hazard, ensure that the data connections to the SDA is made prior to connecting the power supply.
Installing the SDA Hardware Installation Manual Figure 9-9: SDA-to-PC Cable Connections Note: The SDA-4S RJ-45 ports support MDI/MDI-X automatic crossover. This means that straight-through or crossover CAT-5 cables can be connected to these ports. 9-12 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SDA 9.5.2. Connecting to a Hub The SDA-4S models and SDA-4H can be connected to another hub (for example, for daisy chaining). The ports of the SDA-4S models support MDI/MDI-X automatic crossover, allowing connection of straight-through or crossover cables. However, for the SDA-4H model, only the left-most RJ-45 port (J5) is a crossover port (see Figure 9-7).
Installing the SDA Hardware Installation Manual Figure 9-10: SDA-4H Crossover Cable Connections to Hub 9-14 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SDA Figure 9-11: SDA-4S Crossover/Straight-Through Cable Connections to Hub Note: The SDA-4S RJ-45 ports support MDI/MDI-X automatic crossover. Therefore, crossover CAT-5 cables can be connected to any of the ports. 02030311-03 Airspan Networks Ltd.
Installing the SDA Hardware Installation Manual 9.5.3. Connecting to a VoIP Network The SDA-4S/1H3L and SDA-4S/VL/1H3L model’s left-most RJ-45 Ethernet port assigns high priority to VoIP trafic. This port is used to connect to the subscriber’s VoIP network. This port assigns high priority to VoIP traffic, as opposed to the other RJ-45 ports, which assigns lower priority.
Hardw are Installation Manual Installing the SDA Figure 9-12: Connecting VoIP RJ-45 Port (for SDA-4S/1H3L and SDA-4S/VL/1H3L) 02030311-03 Airspan Networks Ltd.
Installing the SDA Hardware Installation Manual 9.6. Connecting AC Power The SDA receives AC power by connecting to a standard 110–240 VAC wall outlet. In turn, the SDA provides 48 VDC nominal power to the SPR (minimum of 30 VDC: maximum of 55 VDC). Table 9-3 lists the SDA power supply specifications. Table 9-3: SDA Power Supply Specifications Power parameter Units Voltages 110-240 VAC Frequency 50/60 Hz Amps 0.3-0.7A The following lists the cable connection between the SDA and the power outlet:.
Hardw are Installation Manual Installing the SDA Power port Figure 9-14: Location of SDA-1 power port Power port Figure 9-15: Location of SDA-4S model’s and SDA-4H power port 02030311-03 Airspan Networks Ltd.
Installing the SDA Hardware Installation Manual Warning: Ensure that plugs fitted to mains power leads for subscriber premises equipment are compatible with AC mains sockets. Do not replace plugs on power leads to suit local requirements without first verifying grounding practice for the country and equipment in question. Careful consideration must be given to issues including local wiring requirements, cable color-coding, safety grounding, and circuit protection requirements.
Hardw are Installation Manual Installing the SDA Figure 9-16: SDA Power Cable Connections 02030311-03 Airspan Networks Ltd.
Installing the SDA Hardware Installation Manual 9.7. LED Display The SDA-4H and SDA-4S models provide LED indicators that indicate network connection, traffic status, and power. These LEDs are located on the top panel of the chassis. 9.7.1. SDA-4H Figure 9-17 displays the location of the SDA-4H LED indicators. Ethernet LEDs (2, 3, and 4) (straight-through) CROSS (5) LED UPLINK (1) LED POWER LED Figure 9-17: SDA-4H LED indicators 9-22 Airspan Networks Ltd.
Hardw are Installation Manual Installing the SDA Table 9-4 describes the SDA-4H LED indicators.
Installing the SDA Hardware Installation Manual 9.7.2. SDA-4S Models Table 9-5 describes the SDA-4S model’s LED indicators.
10 Installing and Configuring the IDR This chapter describes the installation of the WipLL Indoor Data Radio (IDR) that is installed at the subscriber's premises. The IDR unit is an optional WipLL unit that replaces the SPR and SDA units, and combines the functionalities of the SPR and SDA. The IDR has a built-in antenna that provides an interface for transmission with the base station, as well as an interface for 10Base-T Ethernet for the subscriber's network.
Installing and Configuring the IDR RF link to BSR Hardware Installation Manual Optional external antenna RF cable IDR PC Figure 10-1: Typical IDR setup at subscriber's premises (showing optional antenna) Figure 10-2: IDR with lower cover removed exposing ports Warning: To avoid electrical or fire hazard, ensure that all connections to the IDR are performed prior to connecting the power supply. 10-2 Airspan Networks Ltd.
Hardw are Installation Manual Installing and Configuring the IDR 10.1. Mounting the IDR The IDR may be mounted in the following ways: ! Desk ! Pole ! Wall Note: Before mounting or attaching any brackets to the IDR ensure that all cables are securely attached and that the unit functions correctly in the proposed location. 10.1.1. Desk Mounting The IDR may be mounted on a desk—horizontally or vertically—to obtain optimal signal strength from a corresponding BSR. 02030311-03 Airspan Networks Ltd.
Installing and Configuring the IDR Hardware Installation Manual 10.1.1.1. Vertical-Desk Mounting A base plate is provided to mount the unit vertically on the desk, i.e., in standing position. The base plate is designed to fit in one position only. To desk mount the IDR in a vertical position: ! Insert the IDR into the base and press firmly until the tabs click into place. See Figure 10-3. Deskmounting plate Figure 10-3: IDR vertical desk mounting 10-4 Airspan Networks Ltd.
Hardw are Installation Manual Installing and Configuring the IDR 10.1.1.2. Horizontal-Desk Mounting To position the IDR horizontally on the desk, four rubber pads, supplied with the unit, must be fitted to avoid damage to mounting surfaces. mTo desk mount the IDR in a horizontal position: ! Secure the rubber pads to the posts provided on the rear of the IDR using four self-tapping screws. See Figure 10-4.
Installing and Configuring the IDR Hardware Installation Manual 10.1.2. Wall and Pole Mounting The IDR may be mounted to a wall or to a 5 cm-diameter pole. Wall and pole mounting both use the same mounting brackets and wall hanger plate. 10.1.2.1. Assembling the Bracket and Hanger Plate The wall hanger plate secures the IDR to a wall or pole. The wall bracket and hanger plate allows positioning the IDR in the correct orientation.
Hardw are Installation Manual Installing and Configuring the IDR 4. Attach the wall bracket assembly to wall hanger using an M4 socket-head bolt and nut as shown in Figure 10-6. The bolt is only to be hand tightened at this stage. Wall Hanger M-4 nut Screw Mounting bracket assembly Figure 10-6: Wall hanger fixing method Figure 10-7: Wall hanger & mounting bracket assembly 02030311-03 Airspan Networks Ltd.
Installing and Configuring the IDR Hardware Installation Manual 5. Once assembled, the IDR mounting bracket assembly may be secured to the rear of the IDR using the 4-off self-tapping screws supplied in the unit fixing kit. See Figure 10-8. Self tapping Screws Figure 10-8: Mounting bracket assembly secured to IDR 10.1.2.2. IDR Pole Mounting Prior to mounting the IDR to a pole the wall mounting bracket assembly must be fitted as described in the previous section. To pole mount the IDR: 1.
Hardw are Installation Manual Installing and Configuring the IDR Clamp holder Washer Spring Washer Bolt Hex Nut Figure 10-9: IDR pole mounting components Figure 10-10: IDR secured to a pole 02030311-03 Airspan Networks Ltd.
Installing and Configuring the IDR Hardware Installation Manual To set the correct IDR inclination: 1. Loosen the 2-off M4 socket head screws on the mounting bracket tilt-arm 2. Position the IDR at the desired angle. 3. Re-tighten the 2 off socket screws on the tilt arm. 10.1.2.3. IDR Wall Mounting Warning: Prior to drilling holes in a wall ensure that there are no hidden services such as electricity cables or water pipes.
Hardw are Installation Manual Installing and Configuring the IDR 10.1.3. Connecting a Third-Party External Antenna The IDR provides a TNC-type connector for connecting the IDR to a third-party antenna. This antenna can be placed on the subscriber’s window sill to provide better RF signal reception. Note: Airspan supplies unterminated cables for N-type connectors. Therefore, refer to the cable crimping procedures for N-type connectors detailed in Appendix tbd, “Cable Crimping". Connector: TNC-type 10.1.
Installing and Configuring the IDR Hardware Installation Manual 10.1.4.1. Ethernet LED Indicator The IDR provides one LED that indicates an Ethernet connection. This LED is labeled Ethernet and is located on the IDR’s top panel. LED Ethernet Color Yellow Status Indicates On Physical link between IDR and Ethernet network Off No physical link between IDR and Ethernet network Blink Data is flowing through the Ethernet port 10.2.
Hardw are Installation Manual Installing and Configuring the IDR Figure 10-11: IDR LED indicators To position the IDR for optimum RF signal: ! Position the IDR until all three RF signaling strength indicator LEDs are lit. Refer to Section 10.1.2, “Wall and Pole Mounting” page 10-6 for details on adjusting IDR wall and pole mounting position. For desk-top mounting, the IDR can be simply relocated to obtain the strongest signal. 02030311-03 Airspan Networks Ltd.
Installing and Configuring the IDR Hardware Installation Manual 10.3. Connecting Power Supply The IDR is powered by an external power supply (Triple Output External Adapter). The IDR connects to the power supply via the power port located on the IDR’s front panel.
Hardw are Installation Manual Installing and Configuring the IDR ! There should not be any visible sign of water or dampness on or around the power outlet. ! The plug and socket assemblies are to be firmly secured. ! The power outlet shall be checked using a proprietary plug tester such as a ‘Martindale Ze’ type. Checks are required to verify the earth loop impedance value and the presence of phase, neutral and earth connections. Connector: 6-Pin power connector Cable: 3-core 0.
Installing and Configuring the IDR Hardware Installation Manual 10.3.1. Power LEDs The IDA provides a power LED indicator, labeled Power, which indicates whether a power supply exists. The Power LED is located on the front panel of the IDR chassis. LED Power Color Red Status Meaning On The SDA receives power supply Off No power received 10.4.
Hardw are Installation Manual Installing and Configuring the IDR ! Connector pinouts: Crossover cable Straight-through cable 6-Pin RJ-11 Pin 1 2 3 4 5 6 Function RX Not connected Not connected Not connected GND TX 2 5 3 - 9-Pin D-type female 9-Pin D-type male 9-Pin D-type male Pin Pin Pin 4 1 3 - 3 5 2 - To connect the IDR to the WipLL management station (PC): 1. Connect the 6-Pin RJ-11 connector to the IDR’s RJ-11 port (labeled Serial) located on the IDR’s front panel (see Figure 10-12). 2.
Installing and Configuring the IDR Hardware Installation Manual Figure 10-12: IDR-to-PC Serial Cable Connections 10-18 Airspan Networks Ltd.
Hardw are Installation Manual Installing and Configuring the IDR 10.4.2. Configuring the SPR using WipConfig When you connect the IDR to a PC, the configuration screen shown in Figure 10-13 is displayed. The parameters will be those read from the target device. (Data source: TARGET). To change parameters type the new values into the fields ensuring that the old data is overwritten. An asterisk (*) will appear to indicate that the changes were not set and saved.
Installing and Configuring the IDR Hardware Installation Manual The following SPR Configuration screen descriptions give brief details of each parameter: ! Eth IP Address - Displays the IP address of the target devices. ! Eth Subnet Mask - Displays the value of the subnet mask associated with the Eth IP address. ! Get Community - This is the GET Community string. Default value = public. ! Set Community - This is the SET Community string. Default value = private.
A Glossary AC Alternating Current A/F Across flats measurement BNC Bayonet Neill Concelman (Connector type) BSDU Base Station Distribution Unit BSI Base Station Interface BSPS Base Station Power System BSR Base Station Radio CEP Common Earth Point DMM Digital Multimeter DC Direct Current DP Double Pole DCC Direct Serial Cable Connection GPS Global Positioning Satellite HSP Hop Synchronisation Process HSPP Hop Synchronisation Process Pulse IDR Indoor Radio IEC International E
Glossary Hardware Installation Manual Mbps Mega Bits Per Second Nm Newton-metres NMS Network Management System NOC Network Operations Centre PSTN Public Switched Telephone Network RJ Registered Jack (modular connector) RFI Radio Frequency Interference SDA Subscriber Data Adaptor SME Small and Medium Enterprises SOHO Small Office/Home Office SPR Subscriber Premises Radio UPS Un-interrupted Power Supply UPVC Unplasticized Poly-Vinyl Chloride WAN Wide Area Network WipLL Wireless
B Cable Crimping This chapter describes the procedure for crimping cables for 15-Pin D-type and Ntype connectors that are used in BSR/SPR-to-BSDU/SDA and BSR-to-GPS connections, respectively. The opposite ends of these cables are un-terminated, thereby providing length flexibility for connecting these WipLL units.
Cable Crimping Hardware Installation Manual Airspan recommends the following tools for stripping and crimping for 15-Pin Dtype connectors: ! Crimping tool—hand-crimper code DW115394-1. The crimper is a cyclic crimper and will not release the cable until a full termination cycle has been completed. The tool automatically indexes to the next pin on completion of the terminating cycle.(See Figure B-1.
Hardw are Installation Manual Cable Crimping ! Stripping tool—three-way stripping tool—1PAC10349AKM (see Figure B-2) Adjustment Screw Blade Adjustment Figure B-2: Stripping Tool 1PAC10349 AKM Cable crimping is performed in two stages: 1. Stripping the cable 2. Crimping the cable B.1.1. Stripping the Cable Before crimping the cables, you need to strip 50 mm of the cable. Before using the tool, ensure that the tool is correctly adjusted.
Cable Crimping Hardware Installation Manual 5. Use a steel rule (1PAC10042AAV) to verify the stripped dimension. 6. Inspect the cut for evidence of damage, i.e. has the braid been cut? If so cut off cable and reset tool. B.1.2. Crimping the Cable Once you have stripped 50 mm of the cable, you can begin crimping the cable to the 15-Pin D-type connector. Note: For 15-Pin D-type connector pinouts, see the relevant chapter on the specific WipLL equipment. To crimp the cable: 1.
Hardw are Installation Manual Cable Crimping Wire Slot Connector advances in this direction Figure B-3: Crimping tool 8. When finished, remove the connector from the right side of connector slot. Note: The connector must be inserted into the crimper from the left hand side only. Should the connector jam in the terminating position, excessive force must not be used: the spigot between the tool handles should be used to release the ratchet mechanism.
Cable Crimping Hardware Installation Manual Note: The purpose of the barrel is to prevent the wire from being lifted from the contact. It is not necessary to have the barrel wrapped tightly around the insulation. ! Ensure that the contact cavity has not been deformed ! Confirm integrity by holding the connector in one hand and pulling lightly on the cable. Figure B-4 shows points to be observed during quality inspection. Correct Termination 0.
Hardw are Installation Manual Cable Crimping B.1.4. Housing the Connector For outdoor cable installations, the connector is to be protected in a waterproof housing assembly as shown in Figure B-5. Note: The housing, cable seal, and clamping nut are to be slid onto the cable prior to crimping the connector in place. To assemble the connector in a waterproof housing: 1. Insert the connector into the waterproof housing ensuring that a "click" is heard. 2.
Cable Crimping Hardware Installation Manual To assemble the un-housed connector: 1. Insert the connector terminal block into the connector body. 2. Secure the cable onto the connector body using the cable clamp. Ensure that the cable outer sheath is within the connector body. 3. Snap the top section of the connector body into place. 4. Ensure that the connector is secure within the housing by applying a light pull on the cable. B.2.
Hardw are Installation Manual Cable Crimping 3. The final cut should be set to cut through the outer sheath only. Scoring of the braid should not occur. 4. All sections of the stripped Ethernet cable should be easily removed if the blade settings are correct. To adjust the blade settings use the allen key provided and apply it to the grub screws at the back of the stripping tool. Clockwise will increase blade depth, anti-clockwise will reduce blade depth. 5. Set stripping tool slide mechanism to 5. 6.
Cable Crimping Hardware Installation Manual B.2.2. Assembling the Connector Once you have stripped the cable, you can house the cable: To house the cable: 1. Fit an insulating boot if required, over the cable, cutting enough of the pointed end to enable the cable to go through the resulting hole with a fairly tight grip. Push ferrule over the stripped section of cable. 2.
Hardw are Installation Manual Cable Crimping 3. Trim the centre conductor back to 5.5 mm from the end of the dielectric. Use the cable shears provided and not the side cutters. 4. Fit centre pin on to the centre conductor. The centre conductor should be seen through the inspection hole (see Figure B-7). Ensure that the shoulder of the pin is butted up to the cable’s dielectric. Figure B-7: Fitting center pin onto center conductor B.2.3. Crimping To crimp the GPS connector: 1.
Cable Crimping Hardware Installation Manual 5. Crimp the ferrule using the large aperture of the 29207 die. When offering up the tool the die should be positioned so as it aligns with the braid and not the outer sheath of the cable. 6. Connectors with nylon washers, the crimp is to be made with the dies held firmly against the washers face. B.3. Crimping GPS Cable Connectors Airspan recommends the following tools for crimping for N-type connectors: ! Crimping tool—Daniels AFM8 (M22520/2-01).
Hardw are Installation Manual Cable Crimping 3. Select the Positioner for contact to be crimped. 4. Insert the Positioner into the positioner guide and turn it 90 degrees until bayonet pins lock. 5. Raise and rotate the Selector knob until the number indicated on data plate for cable size to be crimped is in line with Sel. No. arrow. 6. Insert the contact and prepared cable into the indenter opening from the side opposite the Positioner. 7. Squeeze crimper handles together until the ratchet releases.
C Technical Specifications This appendix lists the technical specifications for the following WipLL units: ! WipLL Base Station equipment: ! Base Station Radio (BSR) ! Point-to-Point Radio (PPR) ! Base Station Distribution Unit (BSDU) ! Base Station Power Supply (BSPS) ! GPS antenna ! WipLL Customer premises equipment: ! Subscriber Premises Radio (SPR) ! Subscriber Data Adapter (SDA) ! − SDA-1 − SDA-4H − SDA-4S models Indoor Data Radio (IDR) 02030311-03 Airspan Networks Ltd.
Technical Specifications Hardware Installation Manual C.1. Base Station WipLL Equipment The following sub-sections list the specifications of the following WipLL Base Station equipment: ! Base Station Radio (BSR) ! Point-to-Point Radio (PPR) ! Base Station Distribution Unit (BSDU) ! Base Station Power Supply (BSPS) C.1.1. Base Station Radio (BSR) Table C-1: BSR and MAC Specifications Parameter Operating frequency range Value Comment • 2.4 GHz • ISM band • 3.x GHz, MMDS, 2.
Hardw are Installation Manual Technical Specifications Parameter Value Channel access method PPMA / Adaptive TDMA Protocol efficiency Up to 80% Number of SPR/IDR per BSR Up to 126 Comment For large data packets Table C-2: BSR EMC and Radio Standards Compliance Parameter Value Radio Standards Compliance • ETSI EN 300 328-1 • ETSI EN 301 253 • FCC part 15 • RSS139 • Telec • ETSI ETS 300 826 EMC • ETSI EN 300 385 • ETSI EN 300 386-2 • ETSI ETS 300 132-2 • FCC part 15 Table C-3: BSR Agency Cer
Technical Specifications Hardware Installation Manual Table C-5: BSR Power Requirements Parameter Value Voltage 48 VDC nominal • Minimum: • 30 VDC • Maximum: • 55 VDC Maximum Amperes: 500 mA Comment Voltage is received from the BSDU Table C-6: BSR Environmental Conditions Parameter Value Operating temperature of outdoor units (BSR and SPR) -30ºC to +60ºC Storage temperature -40ºC to +80ºC Comment Optional range of -40ºC to +70ºC Table C-7: BSR Network Interface Parameter Value Ether
Hardw are Installation Manual Technical Specifications C.1.2. Point-to-Point Radio (PPR) Table C-9: PPR Radio Specifications Parameter Operating frequency bands Value • 2,400 to 2,500 MHz • 3,400 to 3,800 MHz • 5,725 to 5,875 MHz Duplex method • Time Division Duplex (TDD) for all bands • Frequency Division Duplex (FDD) for 3.4 to 3.
Technical Specifications Hardware Installation Manual C.1.3.
Hardw are Installation Manual Technical Specifications C.1.4. Base Station Power Supply (BSPS) Table C-15: BSPS Rectifier Specifications Parameter Input Output General Value Voltage 90VAC to 270VAC Current (nominal) 3.2A @ 230V / 4.3A @ 115V Frequency 47Hz to 63Hz Power factor (nominal line/load) Greater or equal to 0.993 Voltage (default) 53.5VDC Regulation (line & load) ±0.
Technical Specifications Hardware Installation Manual Table C-16: BSPS DC Distribution Specifications Parameter Input Output General C-8 Value Voltage 90VAC to 270VAC Current (at full load) N =Number of rectifier modules • N*3.2A @ 230V Frequency 47 Hz to 63 Hz Power factor (at full load) Greater or equal to 0.993 Voltage (programmable) 42 to 60VDC ± 0.5VDC Default float and boost voltage 54 and 57VDC respectively Regulation (line, load, sharing) ±1% Current N*12A (48A max.
Hardw are Installation Manual Technical Specifications Parameter EMC Value According to: • EN300-386-2 SUB 7.2.3 • EN55022 class B • IEC1000-4-2 • IEC1000-4-3 • IEC1000-4-4 • IEC1000-4-5 • IEC1000-4-6 • IEC1000-4-11 • IEC1000-3-2 • IEC1000-3-3 LVLD (optional) 02030311-03 Safety According to: IEC950 Maximum current withstand 2x70A Trip voltage level Disconnect default: 43± 0.5 VDC, user programmable Re-connect: with AC recovery Airspan Networks Ltd.
Technical Specifications Hardware Installation Manual C.1.5. GPS antenna Table C-17: SPR Power Requirements Parameter Value Voltage Input 36 VDC Consumption 1.
Hardw are Installation Manual Technical Specifications C.2. Customer Premises WipLL Equipment The following sub-sections list the specifications of the following WipLL CPE equipment: ! Subscriber Premises Radio (SPR) ! Subscriber Data Adapter (SDA) ! Indoor Data Radio (IDR) C.2.1. Subscriber Premises Radio (SPR) Table C-21: SPR and MAC Specifications Parameter Value Comment • 2.4 GHz • ISM band • 3.x GHz, 2.8 GHz, MMDS • Licensed band • 5.
Technical Specifications Hardware Installation Manual Table C-22: SPR EMC and Radio Standards Compliance Parameter Value Radio Standards Compliance • ETSI EN 300 328-1 • ETSI EN 301 253 • FCC part 15 • RSS139 • Telec • ETSI ETS 300 826 EMC • ETSI EN 300 385 • ETSI EN 300 386-2 • ETSI ETS 300 132-2 • FCC part 15 Table C-23: SPR Agency Certification Parameter Value Emissions / Immunity EN 300 339, EN 300 386-2, ETS 300 328 Safety EN/IEC 60950 Environmental ETS 300 019-2-x Comment Table C-24:
Hardw are Installation Manual Technical Specifications Table C-26: Environmental Considerations Parameter Value Operating temperature -30ºC to +60ºC Storage temperature -40ºC to +80ºC Table C-27: Network Interface Parameter Value Ethernet Network UTP EIA / TIA Standards Compliance ANSI/IEEE 802.3 and ISO/IEC 8802-3; 10BaseT compliant Serial Port RS-232 Comment Category 5 Table C-28: SPR Physical Dimensions (w/o High Gain Antenna) Parameter Value Height 311 mm (12.
Technical Specifications Hardware Installation Manual C.2.2. Subscriber Data Adapter (SDA) C.2.2.1. SDA-1 Table C-30: SDA-1 Physical Dimensions Parameter Value Height 200 mm Width 150 mm Depth 40 mm Weight 47 kg Table C-31: SDA Power Requirements Parameter Value Output Voltage -48VDC nominal Power supply 110-240 VAC, 50/60Hz, 0.3-0.
Hardw are Installation Manual Technical Specifications C.2.2.2. SDA-4H Table C-34: SDA-4-H Physical Dimensions Parameter Value Height 200mm Width 150mm Depth 40mm Weight 53 kg Table C-35: SDA-4H Power Requirements Parameter Value Output Voltage -48VDC nominal Power supply 110-240 VAC, 50/60Hz, 0.3-0.
Technical Specifications Hardware Installation Manual C.2.2.3. SDA-4S Models Table C-38: SDA-4S Physical Dimensions Parameter Value Height 200 mm (7.87 inches) Width 150 mm (5.9 inches) Depth 40 mm (1.57 inches) Weight 53 kg Table C-39: SDA-4S Power Requirements Parameter Value Output Voltage -48VDC nominal Power supply 110-240 VAC, 50/60 Hz, 0.3-0.
Hardw are Installation Manual Technical Specifications C.2.3. Indoor Data Radio (IDR) Table C-42: IDR Radio and MAC Specifications Parameter Operating frequency Value Comment • 2.4 GHz • 3.45 GHz • 3.5 GHz Spectrum spreading method Frequency hopping Duplex Method • Time Division Duplex (TDD) at 2.4 GHz (Per ETSI ETS 300 328) ARIB-STD-T66 • Frequency Division Duplex (FDD) at 3.5 GHz and 3.
Technical Specifications Hardware Installation Manual Table C-43: IDR EMC and Radio Standards Compliance Parameter Value Radio Standards Compliance • ETSI EN 300 328-1 • ETSI EN 301 253 • FCC part 15 • RSS139 • Telec • ETSI ETS 300 826 EMC • ETSI EN 300 385 • ETSI EN 300 386-2 • ETSI ETS 300 132-2 • FCC part 15 Table C-44: IDR Agency Certification Parameter Value • VCCI Class A Emissions / Immunity • ARIB-STD-T66 • ETSI 300 386-2 Safety EN/IEC 60950 Environmental ETS 300 019-2-x Table C-45: I
Hardw are Installation Manual Technical Specifications Table C-47: IDR Environmental Considerations Parameter Value Operating temperature 0-50ºC Operating Humidity +30Cº 93% Storage temperature -40 – 70ºC Comment Maximum humidity Table C-48: IDR Network Interface Parameter Value Ethernet Network UTP EIA / TIA Standards Compliance ANSI/IEEE 802.