Wireless Seismic 00103 Wireless Remote Unit User Manual DeploymentGuide

Wireless Seismic, Inc. Wireless Remote Unit DeploymentGuide

Contents

Users Manual 2

DraftRT System 2 v2.0.0 58 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.44. Demobilization4.1 OverviewThis chapter describes how to prepare (undeploy) the ground electronics for transport at the end of a project (demobilization).4.2 Removing the WRU from the FieldThis section describes the process to ready the WRU for movement to a new physical location or to remove it in preparation for demobilization.To undeploy the WRU:1Prerequisites:●The WRU is assembled with battery, geophone, and antenna●The WRU is in an active, transitional, or ready state2Pick up the WRU and point the geophone connector end towards the sky as shown in the following figure. All of the LEDs illuminate:3Place the unit flat in the transportation vehicle as shown in the following figure. The unit shuts down. The LEDs on the top of the unit are off.Figure 4–1 Power Off the Unit
DraftR00.e RT System 2 v2.0.0 Deployment Guide 59© 2010-2012 Wireless Seismic, Inc. All rights reserved.4. DemobilizationDisassemble the WRU4Optional: Remove batteries, antenna, or geophone as described in “Disassemble the WRU” on page 59.4.3 Disassemble the WRU This section describes the process to disassemble the WRU prior to demobilization.To disassemble the WRU:1Undeploy the equipment as described in “Removing the WRU from the Field” on page 58.2Remove the antenna from the unit.3Remove the geophone from the unit.4Remove the batteries from the unit.●Press the catch on the battery latch.●Lift the lever, but do not lift the bail from the molded area on the battery.Figure 4–2 Undeployed Unit
Draft60 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.4. DemobilizationDisassemble the WRU●Continue to lift the lever using the bail to push the battery out of the connector. 5Secure the equipment in the transport vehicle.Figure 4–3 Removing the Battery
DraftRT System 2 v2.0.0 61 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.55. Maintaining the Equipment5.1 UnitsTBD 5.2 AntennasEnsure that the antennas are snug.TBD 5.3 GeophonesEnsure that the geophone connection is clean and snug.TBD 5.4 CautionsTBD WARNINGIn order to comply with FCC radio frequency (RF) exposurerequirements, the RT System 2 units must be installed so that aminimum separation distance of 20 cm is maintained between theantenna(s) and the body of all persons at all times during normaloperation. WARNINGAVERTISSEMENTAfin de se conformer aux exigences de la FCC en matière d'expositionaux radiofréquences (RF), les unités RT System 2 doivent être installéesde manière à garder en permanence une distance minimale de 20 cmentre la ou les antennes et le corps de toute personne en mode defonctionnement normal.
DraftRT System 2 v2.0.0 62 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.66. Troubleshooting and Tips6.1 Best PracticesThis section provides some tips on working with the equipment.6.1.1 24 Ah BatteriesIn order to maintain the best possible communication channel, observe the following tips:Place a fully charged 24 Ah battery on the backhaul every day.Keep extra 24 Ah batteries charged up at the staging area.Store 24 Ah batteries at the staging area when not in use. Deep discharging of the batteries can shorten their lifespan considerably.6.1.2 LIUWhen temperature swings are extreme, or weather is severe, store the LIU boxes in the recording truck at night.6.1.3 Urban EnvironmentsThe following could impact your configuration in urban environments:You may need to use repeaters when crossing a road.You may need to extend the antenna with coaxial cableYou may need to adjust WRU placement and antenna strength when crossing a road.You will need to consider the presence of power lines and buildings when placing WRUs and backhaul components.6.1.4 Ethernet CablesUse CAT6 enhanced quality cables. CAUTIONDo not allow the LIU battery to remain connected at a voltage of 22V orless. Damage to the equipment could occur.
DraftR00.e RT System 2 v2.0.0 Deployment Guide 63© 2010-2012 Wireless Seismic, Inc. All rights reserved.6. Troubleshooting and TipsBest Practices6.1.5 Fiber Optic CablesThe fiber optic cables have an environmentally-sealed connector. See the following figure for an illustration of how the connectors work:6.1.6 AntennasWhen placing or selecting antennas in, consider the following:Figure 6–1 Fiber Optic Cable Connector
Draft64 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.6. Troubleshooting and TipsTroubleshootingIn areas where there is a steep inclination, smaller gain antennas may provide a better signal. In areas where there is a steep inclination, try to reduce the inclination by going up or down at an angle rather than straight up or down.Use repeaters to cover overpass and steep inclination situations.If you need more signal strength, use an extender with a riser to elevate the antenna. This is the typical scenario with the LIU at the backhaul location.6.2 TroubleshootingTBD 6.2.1 Backhaul Troubleshooting FlowThis document shows the recommended steps to use when troubleshooting the backhaul. Indications that there are issues with the backhaul communication include the following:Missing pingsDropped line with a red arrow indicating the point of lost communicationLIU unformedThe following figures illustrate the recommended process flow when troubleshooting backhaul communication issues:6.2.2 Fluidmesh RadiosTBD TBD Figure 6–2 Troubleshooting – Check LIUTBDFigure 6–3 Troubleshooting – Check Fluidmesh Radios
DraftR00.e RT System 2 v2.0.0 Deployment Guide 65© 2010-2012 Wireless Seismic, Inc. All rights reserved.6. Troubleshooting and TipsTroubleshootingTable 6–1 Troubleshooting Fluidmesh RadiosProblem SolutionsNot communicating • Try sending a ping command in a CMD window to the IP address of the radio. • If you are trying to connect directly with a computer, make sure you have configured a private network (see “Create a Private Network” on page 38).• Ensure that you have configured the radios as follows:- FM1100 = mesh POINT (remote backhaul)- FM3100 = mesh END (central backhaul)Cannot access GUI If you configure two FM1100 radios on the same mast to be a mesh POINT and a mesh END, they will communicate over the switch and lock everything else out of the communication loop. They must both be configured as mesh POINTsGUI not responding It takes one full minute to see the alignment statistics in the Fluidmesh GUI (from the browser), so be sure to wait for it.
DraftRT System 2 v2.0.0 66 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.77. BatteriesThis chapter provides information about the batteries and battery requirements used in the Wireless Seismic, Inc. RT System 2. 7.1 Lithium Ion BatteriesThis section provides information regarding the characteristics, use, and handling of lithium ion batteries. See the following sections for details:●“Specifications” on page 66●“Handling and Safety Guidelines” on page 67●“Transportation” on page 68●“Storage” on page 697.1.1 SpecificationsThe RT System 2 uses one or two custom intelligent lithium-ion batteries with self-contained charging circuitry that protects the batteries from overcharge, discharge, short circuits, or extreme temperature charging. Battery specifications are shown in the following table:Table 7–1 Lithium Ion Battery Specifications Item Description ValueVoltage Nominal 3.7 VDCShut-off 2.8 VDCFull (90%) charge 4.1 VDCOvercharge Voltage 4.28 VDCOver Discharge Voltage 2.80 VDCCurrent Maximum Charge Current 2 AConsumption Active Mode 4.2 mA maximumConsumption Sleep Mode 66 A maximumFull (90%) charge mAh Approximately 12,000 mAh at nominal voltage —Full (90%) charge mWh Approximately 44,400 mWh at nominal voltage —
DraftR00.e RT System 2 v2.0.0 Deployment Guide 67© 2010-2012 Wireless Seismic, Inc. All rights reserved.7. BatteriesLithium Ion Batteries7.1.2 Handling and Safety GuidelinesObserve the following handling and safety guidelines:If a battery pack has leaking fluids, do not touch any fluids. Dispose of a leaking battery pack. In case of eye contact with fluid, do not rub eyes. Immediately flush eyes thoroughly with water for at least 15 minutes, lifting upper and lower lids until no evidence of the fluid remains. Seek medical attention. Do not disassemble, crush, or puncture a batteryDo not short the external contacts on a batteryDo not dispose of a battery in fire or waterDo not expose a battery to temperatures above 60 °C (140 °F)Keep the battery away from childrenAvoid exposing the battery to excessive shock or vibrationDo not use a damaged batteryLithium Ion battery packs MUST be completely discharged before disposalAlthough there may be local or state restrictions, lithium ion batteries are considered by the Federal Government as “non-hazardous universal waste”. There are restrictions for large quantity handlers of universal waste that define Capacity 48.8 Watt hoursConnector 5-pin —LED One LED that indicates charging status when connected to the charging station as follows• Green – Charged•Red – Charging• Amber – Transitional phase between charging and charged, or charge temperature limits exceededLabel One bar code serial number label —Temperature Operating From -40°C to +85°CCharging From -5°Cto+45°CAmbient Storage • From -20°C to +45°C for a maximum period of one month• From -20°C to +35°C for a maximum of 6 months, after which time the battery packs will need to be recharged to above 50% capacityTable 7–1 Lithium Ion Battery Specifications (cont.)Item Description Value
Draft68 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.7. BatteriesLithium Ion Batterieslabeling, containment, and so on. Whenever possible the batteries must be discharged before disposal. Battery leads/contacts should be taped off to prevent accidental shorting. Each battery pack should be placed in a plastic bag.Recycling is encouraged when practical and applicable. The batteries contain recyclable material and are accepted by several battery recycling companies. Refer to one of the following for more information on recycling and disposal:●http://www.swe.com ●http://www.rbrc.org ●http://www.call2recycle.org ●1-800-8-BATTERY ●1-877-2-RECYCLE7.1.3 TransportationIn the United States, large lithium ion battery shipments (more than 24 cells or 12 batteries per package) are regulated as hazardous material (Class 9) by the Federal Government and are subject to the regulations described in the following:Code of Federal Regulations, Title 49 Transportation. http://ecfr.gpoaccess.gov/cgi/t/text/text-idx?sid=92868a82add6feba6afa796572133179&c=ecfr&tpl=/ecfrbrowse/Title49/49tab_02.tpl International Air Transport Association (IATA)http://www.iata.org/whatwedo/cargo/dangerous_goods/pages/lithium_batteries.aspx Batteries can be ground shipped only if all of the following conditions are met: Box used meets the 1.2 m drop test box (“UN” rated box) for packagingBattery pack terminals are protected to prevent a short circuitGross weight does not exceed 30 kg (66 pounds) Outer package is labeled with the current required label. An example is shown in the following figure.
DraftR00.e RT System 2 v2.0.0 Deployment Guide 69© 2010-2012 Wireless Seismic, Inc. All rights reserved.7. BatteriesLithium Ion BatteriesBatteries can be air shipped only if all of the following conditions are met:Box used meets the 1.2 m drop test box (“UN” rated box) for packagingMaximum weight of each package does not exceed 10 kg (22 lbs)Battery pack terminals are protected to prevent a short circuitOuter package is labeled with the current required label. An example is shown in the previous figure (“Example Battery Shipping Label” on page 69).7.1.4 StorageProper storage and maintenance of Lithium Ion batteries is essential to maximize their useful life and avoid catastrophic failure. Observe the following storage precautions:Figure 7–1 Example Battery Shipping LabelWARNINGThe information contained in this document is intended to providegeneral awareness of battery regulations; it is not comprehensive, andthe requirements referenced herein may have changed. Nothing in thischapter or the Deployment Guide constitutes legal advice or is intendedto address any specific legal, compliance, or regulatory issues that mayarise in particular circumstances. This chapter and the DeploymentGuide are not intended to replace current, official regulations regardingthe packaging and shipment of hazardous materials or independentlegal counsel on these issues. You are solely responsible for compliancewith all applicable laws, regulations, and other requirements. Pleaserefer to an official copy of the current version of these documents forthe latest information.
Draft70 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.7. BatteriesCharging Lithium Ion BatteriesRemove the batteries from the WRU for storageThe recommended storage temperature for Lithium ion batteries is as follows:●From -20°C to +45°C for a maximum period of one month●From -20°C to +35°C for a maximum of 6 months, after which time the battery packs will need to be recharged to above 50% capacity●Storing at cooler temperatures slows down self discharge and capacity loss over time. Store the batteries at 25°C or less if possibleThe recommended storage charge levels are as follows:●Charge (or discharge) batteries to a 30% to 50% charge level before placing into storage. Higher or lower charge levels can reduce the battery life.●Never store the battery completely depleted of charge unless for disposal.●Periodic charging is necessary to maintain 30% to 50% charge when stored for a long period of timeStore batteries in a well ventilated areaDo not leave batteries unused for extended periods of time, either in the product or in storage. When a battery has been unused for 6 months, check the charge status and charge or dispose of the battery as appropriate.Routinely check the battery’s charge statusConsider replacing the battery with a new one if you note either of the following conditions:●The battery run time drops below about 80% of the original run time●The battery charge time increases significantly7.2 Charging Lithium Ion BatteriesThis section describes charging precautions and provides an overview of the battery charger. 7.2.1 Charging PrecautionsObserve the following charging precautions:Prior to charging, inspect the battery for any visible damage to the case or connector that could create an electrical shortage.The temperature range over which the battery can be charged is -5°Cto+45°C. Charging the battery outside of this temperature can cause the battery to become hot or to break.Be absolutely sure that only a 5 V source is used when charging the battery.Care should be taken to charge batteries on a fireproof surface. Do not charge batteries near flammable items or liquids.Keep a Class C Dry Chemical fire extinguisher nearby.
DraftR00.e RT System 2 v2.0.0 Deployment Guide 71© 2010-2012 Wireless Seismic, Inc. All rights reserved.7. BatteriesCharging Lithium Ion BatteriesDo not continue recharging the battery if it does not recharge within the specified charging time.A lithium ion battery should NEVER be left unattended while charging.7.2.2 Battery ChargerThe lithium ion battery charger is designed to operate from a single 10 A, 120 VAC service line.The power supply to charge the battery pack is a 5VDC regulated voltage supply.Figure 7–2 Battery Charger
Draft72 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.7. BatteriesLIU Battery7.3 LIU BatteryTBD Figure 7–3 Serial Number Label and LED Indicator
DraftRT System 2 v2.0.0 73 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.88. BatteriesCe chapitre fournit des informations sur les batteries utilisées dans le système RT System 2 de Wireless Seismic, Inc. 8.1 Batteries au lithium-ionCette section fournit des informations sur les caractéristiques, l'utilisation et la manipulation des batteries au lithium-ion. Reportez-vous aux sections suivantes pour en savoir plus:●“Spécifications” on page 73●“Directives en matière de manipulation et de sécurité” on page 74●“Transport” on page 75●“Entreposage” on page 778.1.1 SpécificationsLe RT System 2 utilise une ou deux batteries au lithium-ion intelligentes et personnalisées, dotées d'un circuit de charge autonome qui protège les batteries contre les surcharges, décharges, courts-circuits ou changements extrêmes de température.Le tableau suivant indique les spécifications des batteries:Tableau 8–1 Spécifications des batteries au lithium-ion Élément Description ValeurTension Nominale 3,7 V c.c.Arrêt 2,8 V c.c.Charge complète (90 %) 4,1 V c.c.Tension de surcharge 4,28 V c.c.Les surtensions de décharge 2,80 V c.c.Courant Courant de charge maximum 2 AMode de consommation active 4,2 mA maximumMode veille la consommation 66 A maximum
Draft74 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesBatteries au lithium-ion8.1.2 Directives en matière de manipulation et de sécuritéRespecter les directives suivantes en matière de manipulation et de sécurité :Si un bloc-batterie présente une fuite de liquides, ne pas toucher les liquides. Jeter le bloc-batterie en cas de fuite. En cas de contact oculaire avec du liquide, ne pas se frotter les yeux. Rincer immédiatement les yeux avec de l'eau pendant au moins 15 minutes, en soulevant les paupières supérieures et inférieures jusqu'à ce qu'il n'y ait plus de trace de liquide. Consulter un médecin. Ne pas démonter, écraser ou percer une batterieNe pas court-circuiter les contacts externes d'une batterieNe pas jeter une batterie dans le feu ou l'eauCharge complète (90 %) mAh Environ 12 000 mAh à la tension nominaleCharge complète (90 %) mWh Environ 44 400 mWh à la tension nominaleConnecteur 5 brochesDEL Une DEL qui indique l'état de charge lors de la connexion à la station de charge, de la manière suivante :•Vert : chargé• Rouge : en train de charger• Orange : phase transitionnelle entre l'état de chargement et l'état chargé, ou dépassement des limites de la température de chargeÉtiquette Une étiquette indiquant le numéro de série sous forme de code à barresTempérature Fonctionnement De -40°C à +85°CChargement De -5°Cà+45°CEntreposage à température ambiente • De -20°C à +45°C durant une période maximum d'un mois• De -20°C à +35°C durant 6 mois maximum ; passé ce délai, les blocs-batteries doivent être rechargés à plus de 50 % de leur capacitéTableau 8–1 Spécifications des batteries au lithium-ion (cont.)Élément Description Valeur
DraftR00.e RT System 2 v2.0.0 Deployment Guide 75© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesBatteries au lithium-ionNe pas exposer une batterie à des températures supérieures à 60 °C (140 °F)Maintenir la batterie à l'écart des enfantsÉviter d'exposer la batterie à des vibrations ou chocs excessifsNe pas utiliser une batterie endommagéeLes blocs-batteries au lithium-ion DOIVENT être entièrement déchargés avant leur éliminationBien qu'il puisse exister des restrictions locales ou nationales, les batteries au lithium-ion sont considérées comme des « déchets universels non dangereux » par le gouvernement fédéral. Il existe des restrictions qui s'appliquent à ceux qui gèrent de grandes quantités de déchets universels ; celles-ci définissent l'étiquetage, le confinement, etc. Dans la mesure du possible, les batteries doivent être déchargées avant de les jeter. Les conducteurs/contacts de batterie doivent être fixés de manière à éviter un court-circuit accidentel. Chaque bloc-batterie doit être placé dans un sac en plastique.Le recyclage est encouragé lorsqu'il est réalisable. Les batteries contiennent des matériaux recyclables et sont acceptées par plusieurs entreprises de recyclage de batteries. Reportez-vous à l'un des éléments suivants pour obtenir plus d'informations sur le recyclage et l'élimination :●http://www.swe.com ●http://www.rbrc.org ●http://www.call2recycle.org ●1-800-8-BATTERY ●1-877-2-RECYCLE8.1.3 TransportAux États-Unis, les expéditions de grandes quantités de batterie au lithium-ion (plus de 24 piles ou 12 batteries par colis) sont réglementées comme des matières dangereuses (classe 9) par le gouvernement fédéral et sont soumises aux règlements décrits ci-après :Code of Federal Regulations, Title 49 Transportation. http://ecfr.gpoaccess.gov/cgi/t/text/text-idx?sid=92868a82add6feba6afa796572133179&c=ecfr&tpl=/ecfrbrowse/Title49/49tab_02.tpl International Air Transport Association (IATA)http://www.iata.org/whatwedo/cargo/dangerous_goods/pages/lithium_batteries.aspx Les batteries ne peuvent être expédiées par voie terrestre que si toutes les conditions suivantes sont satisfaites : La boîte utilisée satisfait le test de chute de 1,2 m (boîte classée « UN ») de boîte d'emballageLes bornes de bloc-batterie sont protégées pour éviter un court-circuitLe poids brut ne dépasse pas 30 kg (66 livres) L'emballage extérieur porte l'étiquette requise en vigueur. La figure suivante en montre un exemple.
Draft76 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesBatteries au lithium-ionLes batteries ne peuvent être expédiées par voie aérienne que si toutes les conditions suivantes sont satisfaites :La boîte utilisée satisfait le test de chute de 1,2 m (boîte classée « UN ») de boîte d'emballageLes bornes de bloc-batterie sont protégées pour éviter un court-circuitLe poids brut de chaque colis ne dépasse pas 10 kg (22 livres) L'emballage extérieur porte l'étiquette requise en vigueur. La figure précédente en montre un exemple (“Example Battery Shipping Label” on page 76).Exemple 8–1 Example Battery Shipping Label
DraftR00.e RT System 2 v2.0.0 Deployment Guide 77© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesBatteries au lithium-ion8.1.4 EntreposageUn entreposage et un entretien adéquats des batteries au lithium-ion est indispensable pour optimiser leur durée de vie utile et éviter une défaillance catastrophique. Respecter les précautions suivantes en matière d'entreposage :Retirer les batteries de l'unité distante sans fil avant l'entreposageTempérature d'entreposage recommandée des batteries au lithium-ion :●De -20°C à +45°C durant une période maximum d'un mois●De -20°C à +35°C durant 6 mois maximum ; passé ce délai, les blocs-batteries doivent être rechargés à plus de 50 % de leur capacité ●L'entreposage à basses températures ralentit la décharge naturelle et la perte de capacité au fil du temps. Entreposer les batteries à 25°C ou moins si possibleNiveaux de charge d'entreposage recommandés :●Charger (ou décharger) les batteries à un niveau de charge de 30 % à 50 % avant de les entreposer. Des niveaux de charge inférieurs ou supérieurs peuvent réduire la durée de vie des batteries.●Ne jamais entreposer des batteries entièrement déchargées, sauf en cas d'élimination.●Un chargement périodique est nécessaire pour maintenir une charge de 30 % à 50 % en cas d'entreposage de longue duréeEntreposer les batteries dans un endroit bien aéréNe pas laisser les batteries inutilisées pendant de longues durées, qu'elles soient dans le produit ou placées en entreposage. Si une batterie n'a pas été utilisée pendant 6 mois, vérifier l'état de charge et charger ou éliminer la batterie, le cas échéant.AVERTISSEMENTLes informations contenues dans le présent documentont pour but de fournir une connaissance générale desrèglements s'appliquant aux batteries. Elles ne sont pasexhaustives, et les conditions mentionnées dans cedocument peuvent avoir changées. Rien dans le présentchapitre ou dans le Guide de déploiement ne constitueun avis juridique ou est destiné à répondre auxproblèmes juridiques, de conformité, ou réglementairesspécifiques qui peuvent survenir dans des circonstancesparticulières. Le présent chapitre et le Guide dedéploiement ne sont pas destinés à remplacer lesrèglements officiels en vigueur concernant l'emballageet l'expédition de matières dangereuses ou un conseiljuridique indépendant sur c es questions. Vous êtesseul responsable du respect de toutes les lois,règlements et autres exigences. Veuillez vous reporter àune copie officielle de la version en vigueur de cesdocuments pour obtenir les dernières informations.
Draft78 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesChargement des batteries au lithium-ionVérifier régulièrement l'état de charge de la batterieEnvisager le remplacement de la batterie par une nouvelle en cas de constat d'une des conditions suivantes :●L'autonomie de la batterie descend en dessous d'environ 80 % de son autonomie initiale●Le temps de charge de la batterie augmente sensiblement8.2 Chargement des batteries au lithium-ionCette section décrit les précautions de chargement et présente le chargeur de batterie. 8.2.1 Précautions de chargementRespecter les précautions de chargement suivantes :Avant de la charger, inspecter la batterie pour détecter les signes éventuels de dommages sur le boîtier ou les connecteurs susceptibles de créer un court-circuit.La batterie peut être chargée dans la plage de température de -5°Cà+45°C. En cas de chargement de la batterie en dehors de cette plage, la batterie peut devenir très chaude ou se rompre.Être absolument sûr de l'utilisation d'une source de 5 V lors du chargement de la batterie.Prendre soin de charger les batteries sur une surface ininflammable. Ne pas charger les batteries à proximité d'objets ou de liquides inflammables.Conserver un extincteur à poudre chimique de classe C à proximité.Ne pas continuer de recharger la batterie si elle ne se recharge pas dans le temps de chargement spécifié.NE JAMAIS laisser une batterie au lithium-ion sans surveillance lorsqu'elle est en train de charger.8.2.2 Chargeur de batterieLe chargeur de batterie au lithium-ion est conçu pour fonctionner à partir d'une ligne de service simple 120 V c.a., 10 A.Le bloc d'alimentation servant à charger le bloc-batterie fournit une tension régulée de 5 V c.c.
DraftR00.e RT System 2 v2.0.0 Deployment Guide 79© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesChargement des batteries au lithium-ionExemple 8–2 Chargeur de batterie
Draft80 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.8. BatteriesLIU de batterie8.3 LIU de batterieTBD Exemple 8–3 Étiquette avec numéro de série et voyant DEL
DraftRT System 2 v2.0.0 81 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.AA. Legal InformationA.1 FCC Rules and Regulations ComplianceThe Federal Communications Commission (FCC) regulates the use of antennas in the “Code of Federal Regulations – Title 47, Part 15 – Radio Frequency Devices, Subpart C – Intentional Radiators, Section 15.203 Antenna Requirement.” When used as intended, the RT System 2 complies with FCC Section 15.203 requirements as follows:The RT System 2 antennas shall be installed and handled by professionals specifically designated for this purpose.Changes or modifications not expressly approved by Wireless Seismic, Inc. can void the users’s authority to operate the equipment. The RT System 2 shall be used with only the supplied antennas (Table A–1) attached to the WRU or LIU with an integrated type N male connector.NOTEThis equipment has been tested and found to comply with the limits fora Class A digital device, pursuant to part 15 of the FCC Rules. Theselimits are designed to provide reasonable protection against harmfulinterference when the equipment is operated in a commercialenvironment. This equipment generates, uses, and can radiate radiofrequency energy and, if not installed and used in accordance with theinstruction manual, may cause harmful interference to radiocommunications. Operation of this equipment in a residential area islikely to cause harmful interference in which case the user will berequired to correct the interference at his own expense.Table A–1 Antenna Specifications Model Frequency (MHz) Gain Vertical Bandwidth Weight Dimension (Length x Diameter)WSI 65-0067 2400-2485 9 dbi 14° 0.8 lbs0.5 kg 27 x 0.6 in690 x 15 mmWSI 6060-001-01 2400-2485 7 dBi 18° 0.6 lbs 0.3 kg 21 x 0.6 in540 x 15 mmWSI 65-0023 2400-2485 5 dBi 25º 0.5 lbs 0.2 kg 12 x 0.6 in355 x 15 mmWSI 65-0025 2400-2485 2 dBi @ 2.4 120° 1.6 oz 45.4 g 7.6 x 0.5 in193 x 12.7 mm
Draft82 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.A. Legal InformationIndustry Canada ComplianceFCC equipment authorization has been granted as follows:The 5Mbps Line Interface Unit has been granted FCC equipment authorization under the FCC Identifier YZO-00600.The 5Mbps Wireless Remote Unit has been granted FCC equipment authorization under the FCC Identifier YZO-00103.A.2 Industry Canada ComplianceThe Wireless Remote Unit has been granted Industry Canada (IC) approval and certification per RSS-210 Issue8 and RSS-102 Issue 4 as:5Mbps WRU: ●Model number 10-0017●IC: 10081A-WSI00103 The Line Interface Unit (LIU) has been granted Industry Canada (IC) approval and certification per RSS-210 Issue 8 and RSS-102 Issue 4 as:5Mbps LIU: ●Model Number 10-0016●IC: 10081A-WSI00600WSI 65-0082 2400-2485 7.4 dBi 20º 5.4 oz153 g 18.5 x 0.75 in470 x 19 mmWSI 65-0131 2400-2485 4 dBi 50º 3.2 oz90 g 8.7 x 0.75 in221 x 19 mmTable A–1 Antenna Specifications (cont.)Model Frequency (MHz) Gain Vertical Bandwidth Weight Dimension (Length x Diameter)WARNINGIn order to comply with FCC radio frequency (RF) exposurerequirements, the RT System 2 units must be installed so that aminimum separation distance of 20 cm is maintained between theantenna(s) and the body of all persons at all times during normaloperation.
DraftRT System 2 v2.0.0 83 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.BB. l'information juridiqueB.1 Conformité avec les règles et règlements de la FCCLa Federal Communications Commission (FCC) règlemente l'utilisation d'antennes dans l'article suivant : Code of Federal Regulations – Title 47, Part 15 – Radio Frequency Devices, Subpart C – Intentional Radiators, Section 15.203 Antenna Requirement. Lorsqu'il est utilisé comme prévu, le RT System 2 respecte les conditions de l'article 15.203 de la FCC de la manière suivante :Les antennes du RT System 2 doivent être installées et manipulées par des professionnels spécifiquement désignés pour cela.Les changements ou modifications non expressément approuvés par Wireless Seismic, Inc. peuvent annuler l'autorisation de l'utilisateur d'utiliser l'équipement. Le RT System 2 doit être utilisé uniquement avec les antennes fournies (Tableau B–1) branchées à l'unité distante sans fil ou à la station de base à l'aide d'un connecteur mâle de type N intégré.REMARQUECet équipement a été testé et jugé conforme aux limites fixées pourun appareil numérique de classe A, conformément à la partie 15 desrègles de la FCC. Ces limites sont conçues pour fournir une protectionraisonnable contre les interférences nuisibles lorsque l'équipement estutilisé dans un environnement commercial. Cet équipement génère,utilise et peut émettre l'énergie des fréquences radio et, s'il n'est pasinstallé et utilisé conformément au mode d'emploi, peut causer desinterférences nuisibles avec les communications radio. Lefonctionnement de cet équipement dans une zone résidentielle estsusceptible de provoquer des interférences nuisibles, auquel casl'utilisateur devra corriger les interférences à ses propres frais.Tableau B–1 Spécifications des antennes Modèle Fréquence (MHz) Gain Largeur de bande verticale Poids Dimensions (Longueur x Diamètre)WSI 65-0067 2400-2485 9 dbi 14° 0,8 lb0,5 kg 27 x 0,6 po690 x 15 mmWSI 6060-001-01 2400-2485 7 dBi 18° 0,6 lb 0,3 kg 21 x 0,6 po540 x 15 mm
Draft84 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.B. l'information juridiqueIndustrie Canada ConformitéL'autorisation d'équipement de FCC a été accordée comme suit :Le 5Mbps unité d'interface de ligne a reçu l'autorisation d'équipement de la FCC sous l'identifiant YZO-00600.Le 5Mbps unité lointaine sans fil a reçu l'autorisation d'équipement de la FCC sous l'identifiant YZO-00103.B.2 Industrie Canada ConformitéL'unité distante sans fil a reçu l'approbation et la certification d'Industrie Canada (IC) par rapport à CNR-210 8e édition et CNR-102 4e édition :5Mbps WRU●Numéro de modèle : 10-0017●Numéro de certification IC : IC: 10081A-WSI00103 L'unité d'interface de ligne a reçu l'approbation et la certification d'Industrie Canada (IC) par rapport à CNR-210 8e édition et CNR-102 4e édition :5Mbps LIU●Numéro de modèle : 10-0016●Numéro de certification IC : IC: 10081A-WSI00600 WSI 65-0023 2400-2485 5 dBi 25º 0,5 lb 0,2 kg 12 x 0,6 po355 x 15 mmWSI 65-0025 2400-2485 2 dBi à 2,4 120° 1,6 oz 45,4 g 7.6 x 0,5 po193 x 12,7 mmWSI 65-0082 2400-2485 7,4 dBi 20º 5,4 oz153 g 18,5 x 0,75 in470 x 19 mmWSI 65-0131 2400-2485 4 dBi 50º 3,2 oz90 g 8,7 x 0,75 in221 x 19 mmTableau B–1 Spécifications des antennes (cont.)Modèle Fréquence (MHz) Gain Largeur de bande verticale Poids Dimensions (Longueur x Diamètre)AVERTISSEMENTAfin de se conformer aux normes de la FCC en matière d'expositionaux radiofréquences (RF), les unités RT System 2 doivent êtreinstallées de manière à garder en permanence une distanceminimale de 20 cm entre la ou les antennes et le corps de toutepersonne en mode de fonctionnement normal.
DraftRT System 2 v2.0.0 85 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.CC. Fluidmesh Radio SpecificationsThe information in this chapter is reproduced here for your convenience from the Fluidmesh data sheet available at the following location:http://www.fluidmesh.com/press-room/product-literature/doc_details/160-fluidmesh-mito-series © 2005-2010 Fluidmesh Networks, Inc. (90-0012) C.1 The Fluidmesh Mito SeriesThe Fluidmesh® MITO Series is a MIMO-based tri-band wireless Ethernet product line designed and manufactured specifically for multi-service backhaul applications.MITO - The Revolution in Wireless Backhauling With the MITO product line, Fluidmesh has developed a revolutionary wireless backhaul solution that is capable of offering extreme performances with a small form factor. MITO is a unique 2x2 MIMO solution with integrated directional antennas which has allowed Fluidmesh to break the mould and create a product line that is a game changer in the wireless backhauling arena. You won't need to install external antennas. You won't need to deal with coaxial cables, lighting suppressors, and grounding. The Fluidmesh1100 MITO and the Fluidmesh 3100 MITO have an integrated radio-antenna solution with an outdoor rated enclosure that is slightly bigger than two decks of cards. The Fluidmesh 11oo MITO mounts a 2x2 MIMO patch antenna and can be used to create point to point, point to multipoint, and mesh networks providing unparalleled performances and a compact form factor. The Fluidmesh 3100 MITO mounts a 2x2 MIMO sector antenna and is designed for medium and large point to multipoint deployments with up to 150 clients.Tri-band Radio operating at 4.9 GHz, and 5.1-5.8 GHz The Fluidmesh MITO Series features one tri-band radio and can operate at 4.9 GHz, and 5.1-5.8 GHz and modulate up to 300 Mbps. The preferred frequency can be easily selected through a web based interface.Optimized Prodigy Transmission Protocol for maximum Reliability The Fluidmesh MITO Series employs Prodigy, Fluidmesh's proprietary high performance 'intelligent' transmission protocol, built to overcome the limits of standard license-free protocols and to deliver a wireless infrastructure with a higher level of reliability. Prodigy was developed to transmit any IP-compatible traffic including data, video, and voice. At the base of our innovative transmission protocol, there is a traffic optimization algorithm that allows every Fluidmesh device to assign a specific level of priority and reliability to every packet transmitted. This process allows the wireless network to automatically adjust its transmission parameters based on the type of traffic
Draft86 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.C. Fluidmesh Radio SpecificationsThe Fluidmesh Mito Seriestransmitted. The overall result is a better, more reliable, multi-service wireless infrastructure.Compact Design for Easy Installation The Fluidmesh MITO Series has a compact form factor designed for low visual impact deployments. The integrated panel antenna makes for easy installation and supports a range of up to 30 miles in line of sight. The provided low-power POE injector guarantees a straight-forward set-up.FluldThrottle™ The Fluidmesh MITO Series is based on the innovative FluidThrottle™ technology which allows the user to limit the total cost of ownership of the wireless network by paying only for the amount of bandwidth required. Additional throughput can be easily achieved by upgrading the system with software plug-ins in case the bandwidth requirements increase over time. This solution makes Fluidmesh the most cost-effective and flexible wireless solution provider in the market.FluidMAX™ The Fluidmesh MITO Series supports the patent-pending FluidMAX™ technology and can be used to create Point-to-Point, Point-to-Multipoint, and Mesh architectures. Thanks to FluidMAX™, the Fluidmesh MITO Series can operate with a centralized medium access control protocol, or with a distributed medium access control protocol, depending on the network layout. That means that our units can operate in either CSMA or TDMA. The decision is made automatically by the network based on its layout and requires no user intervention.EasyMesh® Platform and FMQuadro Interface The Fluidmesh MITO Series includes EasyMesh™. The EasyMesh technology allows the user to set the same range of private IP addresses across the entire network. The Fluidmesh MITO Series also includes the FMQuadro™ web interface which allows the user to configure, monitor, and troubleshoot the wireless network in real time without the need of additional software or a server. The unit comes with a built-in spectrum analyzer, a real-time bandwidth monitoring tool, and a wizard to facilitate the configuration of the system.AES-128 Encryption Support (FIPS-197 Compliant) The Fluidmesh MITO Series includes support for 128 bit AES Encryption at the link-level which can be used for FIPS-197 compliance. Because AES Is Implemented in hardware, there is no loss in terms of performance when AES is enabled.Simple Network Management Protocol (SNMP) Support The Fluidmesh MITO Series supports SNMP version 3. The Simple Network Management Protocol allows the user to centrally manage the mesh devices with a SNMP server and to receive automatic alarms in case of network failure.
DraftR00.e RT System 2 v2.0.0 Deployment Guide 87© 2010-2012 Wireless Seismic, Inc. All rights reserved.C. Fluidmesh Radio SpecificationsFluidmesh 1100 with MITO TechnologyC.2 Fluidmesh 1100 with MITO TechnologyRADIO ELECTRICAL ENVIRONMENTAL PHYSICAL Frequency Bands: 5.15-5.25 and 5.725-5.825 GHz (US, FCC)5.470-5.725 GHz (Europe, ETSI)4.940 - 4.990 GHz (US,FCC)Modulation: OFDM (BPSK, QPSK, 16-QAM, 64-QAM)Modulation speed: Up to 300 MbpsTX Power: Up to 27 dBm, depending on configuration and regulatory constraintsAX Sensitivity 5GHz: -96d8@6.5Mbps;-75dB@300MbpsAntenna Type: 2x2 MIMOAntenna Gain: 14.6-16.1 dBiAntenna Polarization: Dual LinearCross-pol Isolation: 22dB minimumMax VSWR: 1.6:1H-pol Beamwidth: 43 deg.V-pol Beamwidth: 41 deg.Elevation Beamwidth: 15 deg.Power input: Passive PoE 15V DC, 0.8A, (pairs 4,5+; 7,8 return)Power consumption:Max 8WPower over Ethernet Injector:Included, 90/260V 50/60 Hz AC inputOperating Temperature: -30°C to +80°CStorage Temperature: -30°C to +80°CHumidity: 95% condensingWeather Rating: IP65Wind Survivability: 120 mphShock & Vibration: ETSI 300-019-1.4Interfaces: Two (2) Internal Ethernet10/100BaseT autosensing, RJ45Dimensions (mm): 294 (h) X 80 (w) X 30(d)Weight (Kg): 0.4Enclosure material: Outdoor UV Stabilized Plastic
Draft88 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.C. Fluidmesh Radio SpecificationsFluidmesh 3100 with MITO TechnologyOPTIONAL SOFTWARE PLUG-INS Ethernet Capacity Plug-in up to 1 Mbps (included)Ethernet Capacity Plug-in up to 2.5 MbpsEthernet Capacity Plug-in up to 5 MbpsEthernet Capacity Plug-in up to 10 MbpsEthernet Capacity Plug-in up to 30 MbpsEthernet Capacity Plug-in up to 60 MbpsUnlimited Wired Ethernet Capacity Plug-in (up to 100 Mbps)802.1Q VLAN SupportAES-128 EncryptionC.3 Fluidmesh 3100 with MITO TechnologyRADIO ELECTRICAL ENVIRONMENTAL Frequency Bands: 5.15-5.25 and 5.725-5.825 GHz (US, FCC)5.470-5.725 GHz (Europe, ETSI)4.940 - 4.990 GHz (US,FCC)Modulation: OFDM (BPSK, QPSK, 16-QAM, 64-QAM)Modulation speed: Up to 300 MbpsTX Power: Up to 27 dBm, depending on configuration and regulatory constraintsAX Sensitivity 5GHz: -96d8@6.5Mbps;-75dB@300MbpsAntenna Type: 2x2 MIMOAntenna Gain: 14.6-17.1 dBiAntenna Polarization: Dual LinearCross-pol Isolation: 22dB minimumMax VSWR: 1.5:1H-pol Beamwidth: 72 deg.V-pol Beamwidth: 93 deg.Elevation Beamwidth: 8 deg.Power input: Passive PoE 24V DC, 1A, (pairs 4,5+; 7,8 return)Power consumption:Max 8WPower over Ethernet Injector:Included, 90/260V 50/60 Hz AC inputOperating Temperature: -30°C to +75°C
DraftR00.e RT System 2 v2.0.0 Deployment Guide 89© 2010-2012 Wireless Seismic, Inc. All rights reserved.C. Fluidmesh Radio SpecificationsMITO Series General CharacteristicsPHYSICAL OPTIONAL SOFTWARE PLUG-INS Ethernet Capacity Plug-in up to 10 MbpsEthernet Capacity Plug-in up to 30 MbpsEthernet Capacity Plug-in up to 60 MbpsUnlimited Wired Ethernet Capacity Plug-in (up to 100 Mbps)802.1Q VLAN SupportAES-128 EncryptionC.4 MITO Series General CharacteristicsNETWORK Protocols: UDP, TCP, IP, RTP, RTCP, RTSP, HTIP, HTIPS, ICMP, ARPMedium Access Control (MAC) Protocols: Centralized Polling-based, Distributed CSMA/CA-basedWeb-based interface for remote managementMulticast supportUPnP supportNMP support802.1Q VLAN SupportSECURITY Full VPN compatibilityFull compatibility with all encryption and authentication standards(AES, 3DES, RSA, HTIPS, SSL, etc.)AES-128 (FIPS-197 Compliant) Link-level EncryptionAPPROVALS FCC CFR 47 Part 15, class BIndustry Canada RSS 210Storage Temperature: -30°C to +75°CHumidity: 95% condensingWeather Rating: IP65Wind Survivability: 120 mphShock & Vibration: ETSI 300-019-1.4Interfaces: One (1) Internal Ethernet10/100BaseT autosensing, RJ45Dimensions (mm): 370 (h) X 80 (w) X 70(d)Weight (Kg): 1.6Enclosure material: Anodized Aluminum
Draft90 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.C. Fluidmesh Radio SpecificationsMITO Series General CharacteristicsCEI!SUPPLIED ACCESSORIES PoE Injector with US/EU/UK Power CordPole Mounting Kit (i.e.Pole Mounting Kit Max O.D. 2 in.)WARRANTY Two (2) years on parts and laborThree (3) years optional extended warranty plan with advanced replacementFive (5) years optional extended warranty plan with advanced replacementCopyright © 2005-2010 Fluidmesh Networks, Inc. All rights reserved. Fluidmesh is a registered trademark of Fluidmesh Networks, Inc. EasyMesh, FMQuadro, FluidMAX and FluidThrottle are trademarks of Fluidmesh Networks, Inc. All other brand or product names are the trademarks or registered trademark of their respective holder(s). Information contained herein is subject to change without notice. The only warranties for Fluidmesh Networks products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. Fluidmesh Networks shall not be liable lor technical or editorial errors or omissions contained herein.Fluidmesh Networks, Inc.18 Tremont Street, Suite 730Boston, MA 02108U.S.A.Tel. +1 {617) 209-6080Fax. +1 {866} 458-1522www.fluidmesh.cominfo@fluidmesh.comEMEA Headquarters {Italy}Tel. +39.02.0061.6189UK BranchTel. +44.2078.553.132
DraftRT System 2 v2.0.0 91 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.DD. LED IndicatorsThis chapter provides the possible LED status and error indicators for WRUs and LIUs.Table D–1 5Mbps WRU Power On Sequence LED Indications LED Indicators Summary Description1Hard Reset The LEDs light up in clockwise rotation starting and ending with the A battery LED in the following cases:• When the batteries are attached• Anytime the unit resets itself• In between updating firmware applications2Check for New Firmware Solid MODEApproximately 5 seconds
Draft92 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.D. LED Indicators3Update Arm Solid BATApproximately 30 seconds, then repeats step 1 and step 2 LED sequenceProgramming/Verifying Arm Flashing BATApproximately 30 seconds4Update Xmega Solid GEOApproximately 15 seconds, then step 1 and step 2 LED sequenceProgramming Xmega Flashing GEOApproximately 15 seconds5Update Radio Solid RADApproximately 1-2 seconds, then step 1 and step 2 LED sequenceProgramming Radio Flashing RADApproximately 1-2 secondsTable D–1 5Mbps WRU Power On Sequence LED Indications (cont.)LED Indicators Summary Description
DraftR00.e RT System 2 v2.0.0 Deployment Guide 93© 2010-2012 Wireless Seismic, Inc. All rights reserved.D. LED IndicatorsOnce the power on sequence is complete, the LED indicators in the following table can be seen. Table D–2 WRU LED Status Indications LED Indicators Summary DescriptionUndeployedStandbyArmedDead BatteriesIf no LEDs are on (lit up), it can be one of the following scenarios:• Unit Undeployed• Unit in Standby mode• Unit in Armed mode• Batteries deadWhen you do a tilt test on a unit with no LEDs on, the following may occur:• An Undeployed unit deploys and begins the self tests• A unit in Standby mode displays an LED error condition• A unit in Armed mode will continue to display no lit LEDs• A unit with dead batteries will continue to display no lit LEDsNOTE: Battery state is shown in the RT System 2 user interface tables. For example, the Ground Equipment Table.Geo Down Tilt Detected All LEDs are on solidBattery test in progress Flashing:•MODE•BATBattery A in use A flashingSelf test in progress Flashing:•MODE•BAT•GEO•GPS•RAD
Draft94 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.D. LED IndicatorsError LEDs remain persistent throughout the self-discovery process and are turned off upon completion. If certain self-tests fail, it is possible that the WRU will power down.If a WRU self test fails, the WRU will continue to the next test. Geophone test in progress Flashing:•MODE•GEOAcquiring GPS fix Flashing:•MODE•GPSNeighbor discovery in progress Flashing:•MODE•RADNeighbor discovered Flashing:•A•MODE•BContinue (lay flat to move to next test) Solid:•MODE•GEO•GPSNOTE: To skip a test during the self-test process, tilt the unit vertical (geophone down) until you see this triangle of LEDs. Tilt the unit back to horizontal to continue.Sleeping RAD flashingTable D–2 WRU LED Status Indications (cont.)LED Indicators Summary Description
DraftR00.e RT System 2 v2.0.0 Deployment Guide 95© 2010-2012 Wireless Seismic, Inc. All rights reserved.D. LED IndicatorsYou can skip a self-test by tipping the WRU geophone down and then returning it to the upright position (flat on the ground).Table D–3 WRU LED Error Indications LED Indicators Summary DescriptionSingle battery failure (B) A flashingSolid:•B•BATSingle battery failure (A) B flashingSolid:•A •BAT Both batteries failure Solid:•A•B•BATSelf test failure Solid:•BAT•GEO•GPS•RADGeophone failure GEO solidNo GPS fix GPS solidGPS fix within 10 m within 1 min not foundNo neighbor detected RAD solidIf this is the first WRU deployed, this is the expected condition.
Draft96 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.D. LED IndicatorsTBD Table D–4 LIU LED Discipline Indications LED Indicators Summary DescriptionDisciplining to radio Flashing:•A•RADDisciplining to GPS Flashing:•A•GPSDisciplining A flashingDisciplined to radio Flashing:•B•RADDisciplined to GPS Flashing:•B•GPSDisciplined B flashingIncorrectly dropped out of cycle mode Flashing:•A•B•BAT•RAD
DraftR00.e RT System 2 v2.0.0 Deployment Guide 97© 2010-2012 Wireless Seismic, Inc. All rights reserved.D. LED IndicatorsArmed No lightsTable D–4 LIU LED Discipline Indications (cont.)LED Indicators Summary Description
DraftRT System 2 v2.0.0 98 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.EE. Weighted MastThis section describes the mast that uses weights to maintain stability.E.1 SpecificationsTripod Weight = 50 lbs (22.73 kg)Minimum mast height = 53” (includes 6” for mounting)Base size = 48” (1.2m) x 48” (1.2m)Supports up to 12 – 16” x 8” blocksPre-galvanized steel frameAccepts up to 2.5” mast (not included)Figure E–1 Weighted Mast
DraftR00.e RT System 2 v2.0.0 Deployment Guide 99© 2010-2012 Wireless Seismic, Inc. All rights reserved.E. Weighted MastHardware SuppliedE.2 Hardware SuppliedThe following hardware is supplied with the tripod mast:4 - Bolt, Carriage 1/4 - 20 x 3/4"12 - Bolt, Carriage 1/4 - 20 x 5/8"4 - Bolt, 1/4 - 20 x 3/4" Hex Head4- Bolt, 1/4 - 20 x 1/2" Hex Head24-Nut, 1/4 - 2024 - Lock washer, 1/4 Int. toothE.3 Assembly InstructionsThis section provides instructions and illustrations for assembly of the tripod.To assemble the tripod:1Assemble one 244 Flange to the Center Support Plate using four 1/4-20 x 3/4" carriage Bolts, Lock washers and Hex Nuts. Make sure to assemble the Bolts with the Heads on the underside of the frame. Hex Nut should be on the top side of the frame. 2 Assemble Base Frame and Center Support Plate using twelve 1/4-20 x 5/8" carriage Bolts, Lock washers and Hex Nuts. Make sure to assemble the Bolts with the Heads on the underside of the frame. Hex Nut should be on the top side of the frame.3Assemble the four (4) Braces to the upper support flange using four 1/4-20x3/4 Hex Head Bolts, Lock washers and Nuts.Figure E–2 Tripod Assembly – Front View
Draft100 RT System 2 v2.0.0 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.E. Weighted MastAssembly Instructions4Assemble the other end of the braces to the base frame using the four (4) 1/4-20 x 1/2" Hex Head Bolts, Lock washers, and Nuts.5Insert Bolts into upper and lower flange.6Slide the mast (not included) into position and tighten securely and weigh.Wade Antenna Ltd.Ontario, Canada
DraftRT System 2 v2.0.0 101 Deployment Guide R00.e© 2010-2012 Wireless Seismic, Inc. All rights reserved.IndexNumerics192.168.0.10 302.4 GHz 234.9 GHz 305.1 GHz 305.8 GHz 23, 30AA 93Acquiring GPS fix 94antenna 11connecting 19specifications 29, 81tips 20, 63antennas 29, 81auto-power-leveling 29BB 94backhaul 23, 26communication issues 64masts 34troubleshooting flow 64backpack 36bag 36base 34tips 50BAT 93batterycharger 71charging 70handling and safety guidelines 67latch 17remove 59shipments 68specifications 66storage 69tips 62Battery A in use 93Battery test in progress 93bucket-brigade 23CCategory View 37central recording truck components 24color 30colors 48communication tips 62contact 10Continue 94CSS 23Ddatasheet 30default IP address 30disassemble the WRU 59discharge 66down tilt detected 93EerrorBoth batteries failure 95Geophone failure 95indicators 91No GPS fix 95No neighbor detected 95Self test failure 95Single battery failure (A) 95Single battery failure (B) 95example 25deployment 54extreme temperature charging 66FFCC 81Section 15.203 81firewall, turn off 36FM1100 31FM3100 31frequencies 48GGEO 93geophone 18Geophone test in progress 94GPS 93disciplined 96error 95ground equipment 11assemble 17ground wire 28Hhelp 9hopping 23
DraftIndexIR00.e RT System 2 v2.0.0 Deployment Guide 102© 2010-2012 Wireless Seismic, Inc. All rights reserved.IIcon View 37Industrial, Scientific, and Medical radio band 23IP addressFluidmesh default 30ISM 23LLED status 91LIU Armed 97Disciplined 96Disciplined to GPS 96Disciplined to radio 96Disciplining 96Disciplining to GPS 96Disciplining to radio 96error 96kit 26Mmast 98erect 49mast kit 33masts 34meshend 45point 45mesh networking 23MODE 93modifications 81NNeighbor discovered 94Neighbor discovery in progress 94Netmask 43networkprivate 38radio 38restore settings 49NIC 44node 23Oovercharge 66PPoE 23injector 23switch 23power off WRU 58Power over Ethernet 23power-leveling 29RRAD 93radioband 23color 30configure 38datasheet 30install two 53kit 29network configuration 38radios 23relay 23remove battery 59repeater 20restore network settings 49Sself test 94fails 21in progress 93short circuit 66skipa self-test 21a test 94Sleeping 94solid LEDs 93specificationsantenna 29, 81statusAcquiring GPS fix 94Battery A in use 93Battery test in progress 93Continue 94down tilt detected 93Geophone test in progress 94Neighbor discovered 94Neighbor discovery in progress 94self test in progress 93Sleeping 94Undeployed 93string-of-pearls 23supportedantennas 29, 81Surge Protector 32ground wire 28install 33Ttilt 93tripod assembly 99Uundeploy the WRU 58Undeployed 93urban environments 62users 9
DraftR00.e RT System 2 v2.0.0 Deployment Guide 103© 2010-2012 Wireless Seismic, Inc. All rights reserved.IndexWWWindows firewall 36WRU 23power off 58power on 20powers down 94tests 21

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