Appendix A Technical Specifications Configuration Architecture IDU to ODU Interface ODU: Outdoor Unit with Integrated Antenna or Connectorized for External Antenna IDU: Indoor Unit for service interfaces or PoE device for Ethernet only Outdoor CAT-5e cable; Maximum cable length: 100 m Radio Capacity Up to 130Mbps at 20MHz channel bandwidth Range Up to 120 km / 75 miles Frequency Bands Channel Bandwidth Max Tx Power Channel Bandwidth Radio Modulation RADWIN 1000/2000 User Manual Band Regulation
Radio Appendix A Adaptive Modulation & Coding Supported Automatic Channel Selection Radio Regulation Supported FCC 47 CFR Part 15 Subparts C and E Duplex Technology IC (Canada) RSS-210 TDD Error Correction FEC k = 1/2, 2/3, 3/4, 5/6 Rate – Single Antenna [Mbps] 6.5 Rate – Dual Antenna [Mbps] Modulation FEC [k=] Max Tx Power [dBm] 13 13 19.5 26 39 52 58.
Ethernet Interface Appendix A Ethernet Interface Throughput Up to 130Mbps Number of Ethernet ports IDU-C: 2; PoE Device: 1 Type 10/100BaseT with Auto-Negotiation (IEEE 802.3u) Framing/Coding IEEE 802.3 Line Impedance 100 Ω VLAN Support Transparent Connector RJ-45 Maximum Frame Size 2048 Bytes Bridge Latency Layer 2, self-learning of up to 2047 MAC addresses (IEEE 802.
Power Appendix A Power Power Feeding Dual feeding, -20 to -60 VDC (AC/DC converter is available) Power Consumption < 35 W (IDU+ODU) Environmental Operating Temperatures Humidity ODU: -35°C to +60°C / -31°F to +140°F IDU: 0°C to +50°C / 32°F to +122°F ODU: Up to 100% non-condensing, IP67 IDU: 90% non-condensing Safety FCC/IC (cTUVus) UL 60950-1, CAN/CSA 60950-1 C22.
Appendix B Wiring Specifications ODU-IDU Cable The ODU-IDU cable is shielded/outdoor class CAT-5e, 4 twisted-pair 24 AWG terminated with RJ-45 connectors on both ends. A cable gland on the ODU side provides hermetic sealing.
LAN Port Appendix B Table B-2: Fast Ethernet Connector Pinout Pin Signal Function 1 TD (+) Transmit Data (positive) 2 TD (–) Transmit Data (negative) 3 RD (+) Receive Data (positive) 6 RD (–) Receive Data (negative) RADWIN 1000/2000 User Manual Version 2.
IDU-C Alarm Connector Appendix B IDU-C Alarm Connector The IDU-C Alarm interface is a 25 pin D type female connector. Its pinout is listed in table B-3.
IDU-C Alarm Connector Note Appendix B • Use an external current limit resistor to limit the current at the output relays to 1 Ampere. Such resistor is not required if the equipment connected to the IDU supports current limiting to 1 Amp. • The voltage of the input alarm must be within the range of -10 to -50 VDC.
Appendix C Pole and Wall Installation ODU Mounting Kit Contents Table C-1: Bill of Materials: ODU mounting kit Item Qty Large Clamp (see figure C-1) 1 Small Clamp (see figure C-2) 1 Arm (see figure C-3) 1 Screw hex head M8x40 4 Screw hex head M8x70 2 Washer flat M8 4 Washer spring M8 3 M8 Nuts 2 Figure C-1: Large Clamp RADWIN 1000/2000 User Manual Figure C-2: Small Clamp Version 2.
Mounting RADWIN 1000/2000 on a pole Appendix C Mounting RADWIN 1000/2000 on a pole Figure C-4: Mounting on a pole RADWIN 1000/2000 User Manual Version 2.
Mounting RADWIN 1000/2000 on a Wall Appendix C Mounting RADWIN 1000/2000 on a Wall Figure C-5: Mounting on a Wall Mounting an External Antenna Optional external antennas can be mounted on a pole. The external mounting kit varies according to the specific antenna. RADWIN 1000/2000 User Manual Version 2.
Appendix D Link Budget Calculator Overview The Link Budget Calculator is a utility for calculating the expected performance of the RADWIN 1000/2000 wireless link and the possible configurations for a specific link range. The utility allows you to calculate the expected RSS of the link, and find the type of services and their effective throughput as a function of the link range and deployment conditions. User Input You are required to enter or choose the following parameters.
Calculations Appendix D • Antenna gain and cable loss for ODU with integrated antenna • Available Channel Bandwidths Calculations EIRP EIRP = TxPower + AntennaGain SiteA – CableLoss SiteA Expected RSS and Fade Margin ExpectedRSS = EIRP – PathLoss + AntennaGain SiteB – CableLoss SiteB where: Site A is the transmitting site Site B is the receiving site PathLoss is calculated according to the free space model, PathLoss = 32.
Antenna Height Appendix D Availability = 6 × 10 × 10 –7 –-----------------------------------------------------------ExpectedFadeM arg in 10 × Cfactor × frequency GHz × ( RequiredRangeKM ) 3 Antenna Height The recommended antenna height required for line of sight is calculated as the sum the Fresnel zone height and the boresight height. See About the Fresnel Zone below.
Running the Link Budget Calculator Appendix D Figure D-1: Accessing the Link Budget Calculator However invoked, your browser displays the following page: RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator Appendix D Figure D-2: Link Budget Screen RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator • Appendix D Microsoft Internet Explorer users may see a warning message like this: Click the yellow bar and follow the instructions to allow blocked content. Note • Mozilla FireFox and Google Chrome users may see a warning message like this: You may ignore it and continue. ¾ To use the Link Budget Calculator for RADWIN 1000/2000: 1. Choose a product from the drop-down list (or choose a Regulation and Band): RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator Appendix D Figure D-3: Product selector 2. Enter the radio details. Note that Rate is chosen from a drop-down list: RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator Appendix D Figure D-4: Rate selector The Rate shown, defines the air-interface rate in Mbps. The system operates in TDD mode and has the overhead of the air-interface protoco.l Thus, the Ethernet actual throughput is provided by the Ethernet Rate. For a given air-rate, Ethernet throughput will decrease with increasing range due to propagation delay. Note The Fade margin is the minimum required for LOS conditions.
Running the Link Budget Calculator Appendix D Figure D-5: Calculation of distance from site coordinates RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator Appendix D 4. Located to the right of the green Coordinates button is a dropdown list of Climactic C Factor values. Figure D-6: Climactic C Factors For help about what these mean, click the ? button to the right of the list in figure D-6. RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator Appendix D Figure D-7: Climactic C Factor description In figure D-8 we display a map of the world showing C Factor contours: RADWIN 1000/2000 User Manual Version 2.
Running the Link Budget Calculator Appendix D Figure D-8: World map showing C Factor contours 5. Click Calculate to obtain the required performance estimate. Placing the cursor in any other calculated field will also update the calculated results.
About the Fresnel Zone Appendix D About the Fresnel Zone The Fresnel zone (pronounced "frA-nel", with a silent “s”) is an elliptically shaped conical zone of electromagnetic energy that propagates from the transmitting antenna to the receiving antenna. It is always widest in the middle of the path between the two antennas.
About the Fresnel Zone Appendix D The amount of the Fresnel zone clearance is determined by the wavelength of the signal, the path length, and the distance to the obstacle. For reliability, point-to-point links are designed to have at least 60% of the first Fresnel zone clear to avoid significant attenuation. The concept of the Fresnel zone is shown in figure D-9 above.
Appendix E Lightning Protection and Grounding Guidelines Meticulous implementation of the guidelines in this appendix will provide best protection against electric shock and lightning. 100% protection is neither implied nor possible. Warning This appendix is at best a guide. The actual degree of lightning protection required depends on local conditions and regulations.
Grounding for Indoor/Outdoor Units Appendix E Figure E-1: Grounding antenna cables Grounding for Indoor/Outdoor Units ODU Grounding RADWIN 1000/2000™ uses a Shielded CAT-5e cable to interconnect the Outdoor (ODU) and Indoor (IDU) units. However, this shielding does not provide a good Lightning Discharge path, since it can not tolerate the high Lightning Current surges.
External Lightning Surge Suppressors and Grounding Appendix E The device should be permanently connected to ground. External Lightning Surge Suppressors and Grounding A Grounding Kit and Surge Arrestor Unit must be located near the ODU and properly grounded as illustrated in figure E-2 and figure E-3 below: Figure E-2: Grounding a typical pole installation RADWIN 1000/2000 User Manual Version 2.
External Lightning Surge Suppressors and Grounding Appendix E Figure E-3: Grounding a typical wall installation The next figure shows a close-up of the rear of grounded ODU: Figure E-4: ODU Surge Suppressor and grounding RADWIN 1000/2000 User Manual Version 2.
External Lightning Surge Suppressors and Grounding Appendix E The Transtector protection circuits shown in figure E-5 below, utilize silicon avalanche diode technology. The unit consists of an outdoor rated NEMA 3R type enclosure with easy mounting flanges, ground stud attachment and easy wiring. The ALPU-POE features RJ-45 protection circuits for the ODU-IDU data pairs (pins 1,2 & 3,6) and DC power (pins 4,5 & 6,7 with the pairs bonded). The unit is designed to be wall mounted.
External Lightning Surge Suppressors and Grounding Appendix E 7. Replace the cover. Note There may also be regulatory requirements to cross bond the ODU-IDU CAT5e cable at regular intervals up the mast. This may be as frequent as every 10 meters (33 feet). A second Surge Arrestor Unit should be mounted at the building entry point and must be grounded, as shown in figure E-3 above. ¾ To mount the lightning protection at the building entry point: 1.
Internal ESD Protection circuits Appendix E Figure E-6: Surge Suppressor and grounding at building entry point Internal ESD Protection circuits RADWIN 1000/2000™ is designed to meet the ETSI/FCC/Aus/NZ/CSA EMC and Safety requirements. To fulfill these requirements, the system's Telecom lines at the ODU/IDU are Transformer-isolated and include internal ESD (Electro-Static-Discharge) Protection circuits. RADWIN 1000/2000 User Manual Version 2.
Appendix F MIB Reference Introduction About the MIB The RADWIN MIB is a set of APIs that enables external applications to control RADWIN equipment. The MIB is divided into public and a private API groups: • Public: RFC-1213 (MIB II) variables, RFC-1214 (MIB II) System and Interfaces sections • Private: Controlled by RADWIN and supplements the public group. This appendix describes the public and private MIB used by RADWIN. Terminology The following terms are used in this appendix.
Community String Appendix F in the link. Both agents communicate with each other over the air using a proprietary protocol. Each ODU has a single MAC address and a single IP address. Note To control and configure the device using the MIB, you should adhere to the following rules: • The connection for control and configuration is to the local site, over any SNMP/UDP/IP network. • All Parameters should be consistent between both of the ODUs.
Private MIB Structure Appendix F Figure F-1: Top Level Sections of the private MIB The products MIB section contains the definition of the Object IDs for the two form factors of the ODU, Integrated Antenna and Connectorized (referred in the MIB as external antenna): The ODU MIB contains the sections: Admin, Service, Ethernet, Bridge, Air, PerfMon and Agent. The IDU MIB contains the sections: Admin, Service, Ethernet, Bridge and TDM.
MIB Parameters Appendix F MIB Parameters The following section describes all of the MIB parameters. The MIB parameters follow the following naming convention: ... For each of the configuration and control parameters (parameters with read-write access), the “Description” column describes when the new value is effective. It is recommended that you perform the appropriate action to make the values affective immediately after any change.
MIB Parameters Appendix F Table F-1: Supported RFC 1213 Variables (Sheet 2 of 2) OID Type ifInErrors .1.3.6.1.2.1.2.2.1.14.x Counter RO The number of inbound packets that contained errors preventing them from being deliverable to a higher-layer protocol. ifOutOctets .1.3.6.1.2.1.2.2.1.16.x Counter RO The total number of octets transmitted out of the interface, including framing characters. ifOutUcastPkts .1.3.6.1.2.1.2.2.1.17.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 2 of 14) OID Type winlink1000OduAdmHostsPort 1.3.6.1.4.1.4458.1000.1.1.12.1.3 Integer RW UDP port of the trap destination. A change is effective immediately. winlink1000OduBuzzerAdminState 1.3.6.1.4.1.4458.1000.1.1.13 Integer RW This parameter controls the activation of the buzzer while the unit is in install mode. A change is effective immediately. The valid values are: disabled (0) enabled (1). winlink1000OduProductId 1.3.6.1.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 3 of 14) OID Type winlink1000OduSrvBridging 1.3.6.1.4.1.4458.1000.1.2.3 Integer winlink1000OduEthernetRemainingRate 1.3.6.1.4.1.4458.1000.1.3.1 Integer winlink1000OduEthernetIfTable Access Name Description RO Bridging Mode. Valid values are: disabled (0) enabled (1). RO Current Ethernet bandwidth in bps. N/A ODU Ethernet Interface table. winlink1000OduEthernetIfEntry N/A ODU Ethernet Interface table entry.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 4 of 14) OID Type winlink1000OduAirCurrentRateIdx 1.3.6.1.4.1.4458.1000.1.5.9.5 Integer RO winlink1000OduAirTxPower36 1.3.6.1.4.1.4458.1000.1.5.10 Integer RW Deprecated parameter. Actual behavior is readonly. winlink1000OduAirTxPower48 1.3.6.1.4.1.4458.1000.1.5.11 Integer RW Deprecated parameter. Actual behavior is readonly. winlink1000OduAirCurrentTxPower 1.3.6.1.4.1.4458.1000.1.5.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 5 of 14) OID Type winlink1000OduAirRFD 1.3.6.1.4.1.4458.1000.1.5.26 Integer Access Name RO Description Current radio frame duration in microseconds. winlink1000OduAirRatesTable N/A Air Rate indexes table for current channel bandwidth. winlink1000OduAirRatesEntry N/A Air Rate indexes table entry. winlink1000OduAirRatesIndex 1.3.6.1.4.1.4458.1000.1.5.27.1.1 Integer RO Air Rate index. winlink1000OduAirRatesAvail 1.3.6.1.4.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 6 of 14) OID Type winlink1000OduAirLockRemote 1.3.6.1.4.1.4458.1000.1.5.41 Integer RW This parameter enables locking the link with a specific ODU. The following values can be set: Unlock (default) - The ODU is not locked on a specific remote ODU. Unlock can only be performed when the link is not connected. Lock The ODU is locked on a specific remote ODU. Lock can only be performed when the link is active.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 7 of 14) OID Type winlink1000OduPerfMonDayTable Access Name Description N/A This table defines/keeps the counters of the current 15 min interval. winlink1000OduPerfMonDayEntry N/A This is an entry in the Days Table. winlink1000OduPerfMonDayIdx RO This table is indexed per interval number. Each interval is of 24 hours and the oldest is 30.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 8 of 14) OID Type Access Name Description winlink1000OduPerfMonAirIntervalMaxT SL RO Current Max Transmit Signal Level per interval. winlink1000OduPerfMonAirIntervalTSLTh resh1Exceed RO Number of seconds Transmit Signal Level exceeded the TSL1 threshold per interval. winlink1000OduPerfMonAirIntervalBBER Thresh1Exceed RO Number of seconds Background Block Error Ratio exceeded the BBER1 threshold per interval.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 9 of 14) OID Type Access Name Description winlink1000OduPerfMonTdmCurrActiveS econds RO Parameter indicating whether the TDM service was active. Under TDM backup link the parameter indicates whether the backup link was active. winlink1000OduPerfMonTdmIntervalTabl e N/A This table defines/keeps the counters of the current 15 min interval. winlink1000OduPerfMonTdmIntervalEntr y N/A This is an entry in the Interval Table.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 10 of 14) OID Type winlink1000OduAgnRealTimeAndDate 1.3.6.1.4.1.4458.1000.1.7.2.3 OctetString Access Name Description RW This parameter specifies the real time and date Format 'YYYY-MM-DD HH:MM:SS' (Hexadecimal). A date-time specification: field octets contents range ------ ------- -----------------1 1-2 year 0..65536 2 3 month 1..12 3 4 day 1.. 31 4 5 hour 0..23 5 6 minutes 0..59 6 7 seconds 0..
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 11 of 14) OID Type winlink1000OduAdmExternAlarmInIndex 1.3.6.1.4.1.4458.1000.2.1.5.1.1 Integer RO winlink1000OduAdmExternAlarmInText 1.3.6.1.4.1.4458.1000.2.1.5.1.2 DisplayString RW This field describes the External Alarm Input. It is an optional string of no more than 64 characters which will be used in the event being sent as a result of a change in the status of the External Alarm Input.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 12 of 14) OID Type winlink1000IduSrvAvailServicesReason 1.3.6.1.4.1.4458.1000.2.2.11.1.5 Integer RO Information about the TDM Service availability. Not Applicable if the service is available.
MIB Parameters Appendix F Table F-2: Private MIB Parameters (Sheet 13 of 14) OID Type winlink1000IduTdmLineCoding 1.3.6.1.4.1.4458.1000.2.6.6.1.6 Integer RW This parameter applies to T1 trunks only. The parameter controls the line coding. Setting the value to each of the indices applies to all. A change is effective after the next open of the TDM service. winlink1000IduTdmLoopbackConfig 1.3.6.1.4.1.4458.1000.2.6.6.1.9 Integer RW Loop back configuration table.
MIB Traps Appendix F Table F-2: Private MIB Parameters (Sheet 14 of 14) OID Type winlink1000GeneralTrapDescription 1.3.6.1.4.1.4458.1000.100.1 DisplayString RO Trap's Description. Used for Trap parameters. winlink1000GeneralTrapSeverity 1.3.6.1.4.1.4458.1000.100.2 Integer RO Trap's Severity. Used for Trap parameters. winlink1000GeneralCookie 1.3.6.1.4.1.4458.1000.100.
Trap parameters Appendix F Table F-3: MIB Traps (Sheet 2 of 4) Name ID Severity Description openedServices 7 normal Indicates that services were opened. Raised by the master only. Contains 3 parameters: 1 - Description: %n2 out of %n1 Requested TDM Trunks have been Opened. 2 - %n1: Is the requested number of TDM truncks. 3 - %n2: Is the actual number of TDM trunks that were opened. closedServices 8 normal Indicates that services were closed. Raised by the master only.
Trap parameters Appendix F Table F-3: MIB Traps (Sheet 3 of 4) Name ID Severity Description externalAlarmInPort1Alarm 105 major The trap is sent every time an alarm occurs in the External Alarm Input of port #1. Contains a single parameter which is its description: 1 Description: External Alarm 1 - - Alarm. externalAlarmInPort2Alarm 106 major The trap is sent every time an alarm occurs in the External Alarm Input of port #2.
RADWIN Manager Traps Appendix F Table F-3: MIB Traps (Sheet 4 of 4) Name ID Severity Description changeLinkPasswordClear 204 normal Indicates that the Link Password was changed successfully. Contains a single parameter which is its description: 1 - Description: Link Password has been changed at/on: %s. %s - Is the Local Site name or Remote Site name or both sides of the Link. externalAlarmInPort1Clear 204 normal This Trap is sent every time an External Alarm Input fault of port # 1 is cleared.
Appendix G External Alarms Specification External Alarms Specification The IDU-C supports external input and output alarms through a standard DB25 pin female connector. Input alarms The input alarms are raised by events from external equipment, such as a fire warning, door open or air conditioner failure. Output alarms Output alarms are generated through dry contact relays to indicate various system events according to the following table. An alarm is raised if at least one of the conditions is met.
Appendix H Combo Configuration Tool What is the Combo Configuration Tool? The RADWIN 1000/2000 is supplied preconfigured to a default frequency band and regulation. The user may however, reconfigure it to use any one of the supported frequency bands shown in the following example: Product Default Band 2050 FCC/IC 5.8 GHz FCC/IC 5.3 GHz FCC/IC 5.4 GHz The Combo Configuration Tool is a software utility supplied by RADWIN to change the link frequency band. It runs as familiar Windows Wizard.
Prerequisites to using the Combo Configuration Tool Appendix H Prerequisites to using the Combo Configuration Tool To use the Tool, you need a PC running Windows 2000 or Windows XP Pro to be connected to the RADWIN 1000/2000 link. Operating the Combo Configuration Tool The tool is supplied as an executable called ComboConfigurationTool.exe. It should be copied to a convenient directory on a hard disk from where it can be run from a command line, or placed on the desktop and opened with a double click.
Using the Combo Configuration Tool Appendix H 2. Click Next. The window below is displayed: 3. Enter the ODU IP address and password. 4. Click Next. The following progress panel is displayed: RADWIN 1000/2000 User Manual Version 2.
Using the Combo Configuration Tool Appendix H Upon completion the following screen is displayed: The checked item is the currently configured frequency band. 5. Check the box with the required frequency band. If you do not see the required frequency band in the above window, click Cancel and consult RADWIN Customer Support. RADWIN 1000/2000 User Manual Version 2.
Using the Combo Configuration Tool Appendix H . 6. Otherwise, click Next. The following window is displayed: : 7. If the legal notice is acceptable, click the “I accept” radio button, and then click Next. Two successive progress panels are displayed. The configuration may take several minutes. RADWIN 1000/2000 User Manual Version 2.
If you receive an error message Appendix H Upon successful completion of the configuration process, the following termination window is displayed: 8. Click Finish to exit the Wizard as shown. 9. Repeat the whole process for the second ODU in the link. If you receive an error message The last stage above may terminate unsuccessfully due to an error. Error messages are posted to a window like this: RADWIN 1000/2000 User Manual Version 2.
If you receive an error message Appendix H The following table sets out possible errors: Error Number Error Text Message (nn) Common message preamble: The Configure procedure has failed with the following error: ERROR nn occurred: 120 Failed to communicate with the ODU. Please verify the existence of a stable IP connection and try again. 940 Product is not identified. 1040 The ODU is not a Combo product. 1020 A configuration problem detected. Aborting.
Appendix I Regional Notice: French Canadian Procédures de sécurité Généralités Avant de manipuler du matériel connecté à des lignes électriques ou de télécommunications, il est conseillé de se défaire de bijoux ou de tout autre objet métallique qui pourrait entrer en contact avec les éléments sous tension. Mise à la terre Tous les produits RADWIN doivent être mis à la terre pendant l'usage courant.
Protection contre la foudre Appendix I Protection contre la foudre L'utilisation de dispositifs de protection contre la foudre dépend des exigences réglementaires et de l'utilisateur final. Toutes les unités extérieures RADWIN sont conçues avec des circuits de limitation de surtension afin de minimiser les risques de dommages dus à la foudre. RADWIN conseille l'utilisation d'un dispositif de parafoudre supplémentaire afin de protéger le matériel de coups de foudre proches.
Connecter la terre à IDU-C Appendix I Ne pas se placer en face d'une ODU sous tension. Prudence Connecter la terre à IDU-C Connecter un câble de terre de 18 AWG à la borne de masse de l'appareil. L'appareil doit être constamment connecté à la terre. Prudence • Les appareils sont prévus pour être installés par un personnel de service. • Les appareils doivent être connectés à une prise de courant avec une protection de terre.
Installation sur pylône et mur Appendix I Installation sur pylône et mur L' ODU ou l'O-PoE peuvent être montés sur un pylône ou un mur. Contenu du kit de montage ODU Le kit de montage ODU comprend les pièces suivantes: • une grande clame (voir figure I-1) • une petite clame (voir figure I-2) • un bras (voir figure I-3) • quatre visses hex tête M8x40 • deux visses hex tête M8x70 • quatre rondelles plates M8 • trois rondelles élastiques M8 • deux écrous M8.
Montage sur un pylône Appendix I Montage sur un pylône Figure I-4: Montage sur un pylône RADWIN 1000/2000 User Manual Version 2.
Montage sur un mur Appendix I Montage sur un mur Figure I-5: Montage sur un mur RADWIN 1000/2000 User Manual Version 2.
Montage d'une antenne externe Appendix I Montage d'une antenne externe L'antenne externe optionnelle peut être montée sur un pylône. Contenu du kit de montage d'une antenne externe Le kit de montage d'une antenne externe comprend les pièces suivantes • Douze rondelles plates • Huit rondelles élastiques • Huit écrous hex • Quatre boulons • Un support en U • Un support à pivotement • Deux courroies de fixation en métal ¾ Pour installer une antenne externe sur un pylône: 1.
Index Index A AAR 1-3 ACS 4-17, 6-20, F-8, F-8 aging time, ODU Bridge Mode 6-10 Air Interface 1-10, 1-10 Technical Specifications, general A-1 Alarms Active 7-9 summary 7-14 Connector B-3 External , specification G-1 Antennas Align with beeper 3-12 Aligning 3-12 bipolar 3-12 Buzzer signals 3-13 monopolar 3-13 Cable, grounding E-1 Connecting 3-12 Described 1-8 External Mounting 3-7 Package Contents 3-5 External, Mounting C-3 Flat panel 1-9 Parabolic Dish 1-10 Settings 4-19, 5-18 types 1-7 Applications Broa
F Factory Defaults 6-14, F-2 Reset to 6-19 Factory Setup Restoring 7-17 FEC 4-21, 4-22, A-2, A-2 Forward Error Correction, see FEC G Gateway Telnet display 6-2 6-20 I IDU Aging time 6-10 aging time, ODU Bridge Mode 6-10 Connecting to ODU 3-11 described 1-7 IDU-C Alarm Connector B-3 Connectors B-4 Front panel 1-7 Described 3-9 LEDs 3-9, 3-10, 4-2 Mounting 3-8 Power connections 3-11, 3-11 Package Contents 3-4 Products 1-7 Indoor Unit, see IDU Installation Menu and Toolbar Functionality 4-10 Post Configura
4-19 Background 4-20 Step 5 - Services 4-25 Step 6 - Summary and Exit 4-26 Link ID 4-9, 4-15, 6-20, 7-16, 7-16, 7-17 Login 4-3 Login Errors Incorrect IP Address 4-6 Incorrect password 4-6 Unsupported Device 4-5 Login showing Community Options 4-5 Manager Software 4-2 Name 4-15 Password 1-4, 7-17 changing 4-16 Post Configuration main window 5-22 Post Installation main window 4-27 Reinstalling/Realigning 7-3 Site names 4-15 Link Budget Calculator, see LBC 7-4 Link ID 4-9, 4-15, 6-20, 7-16, 7-16, 7-17 Link Sit
R Radio Link Accessories 1-11 Additional Tools and Materials Required 3-5 Connecting user equipment 3-12 Described 1-5 Documentation set 1-11 Hardware Installation External Antennas 3-7 Indoor 3-8 Lightning protection 3-7 Mounting U 3-8 ODU 3-6 Outdoor 3-6 Outdoor connections 3-8 Sequence 3-5 Package Contents 3-2 IDU 3-4 ODU 3-2 Package contents External Antennas 3-5 Transmission rates 4-22 Radio Outdoor Unit, see ODU Replacing an ODU 7-16 restore configuration file 6-2 S Safety Practices 3-1 Grounding 3-1