3. Backhaul Backhaul Components 3.2.3.2 FM3100 Radio s Figure 3–11 FM3100 Radio D ra ft The FM3100 is used on the masts for the central backhaul unit and is shown in the following figure: bp 3.2.4 Mast Kit Components The following table lists the Mast Kit components. The remote and central backhauls use the same mast kit components: Table 3–4 Mast Kit 5M Remote Backhaul Components R03.
3. Backhaul Backhaul Components Table 3–4 Mast Kit (cont.) Remote Backhaul Components Reference • 3 each tent stake, steel, 12 in (70-0061) (hard ground stakes) “Backpack Kit” on page 45 • 3 each tent stake, plastic, orange, 16 in (70-0060) (soft ground stakes) “Backpack Kit” on page 45 • 5 ea nail, 12 in (70-0062) “Backpack Kit” on page 45 • 3 each guy line holder (70-0063) • 1 each hammer, 2.
. Backhaul Backhaul Components ra ft The following figures show the base that utilizes guy-wires: 5M bp s D Figure 3–13 Base (55-0007) R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul Backhaul Components 5M bp s D ra ft The following figure shows the assembled mast with the BSU in the foreground: Figure 3–14 Assembled Backhaul Mast The following figure shows the base that uses a weighted system. This base is optimal in urban or rocky environments: 44 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul s D ra ft Backhaul Components bp Figure 3–15 Base (70-0070) 3.2.4.3 Bag 5M The antenna mast bag is a rip stop nylon yellow bag, 11 inches x 70 inches with a handle and draw string at one end (see Figure 3–4 Backhaul Components Packed for Transport on page 35). 3.2.4.4 Backpack Kit The backpack is used to carry all of the equipment needed to install the mast and radios, and may also be use to carry the BSU.
3. Backhaul Configure the Radios 3.3 Configure the Radios The FMQuadro™ Web Interface is used to configure the radio channels. The radio licenses are pre-configured by Wireless Seismic, Inc. This section describes how to connect the radios to a computer and configure them. FM1100 = mesh point (remote backhaul) FM3100 = mesh end (central backhaul) ft The expected configuration in the RT 1000 system is as follows: NOTE 3.3.
3. Backhaul D ra ft Configure the Radios Figure 3–16 Fluidmesh Radio Private Network Verify that the radio powers up.
3. Backhaul bp s D ra ft Configure the Radios Figure 3–17 Control Panel, Network and Internet Select Network and Sharing Center. 5M 8 48 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul bp s D ra ft Configure the Radios Figure 3–18 Control Panel, Network and Sharing Center In the left pane, select Change adapter settings. 5M 9 R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul bp s D ra ft Configure the Radios Figure 3–19 Control Panel, Change Adapter Settings 5M 10 Right-click Local Area Connection and select Properties. The Properties window opens. 50 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul D ra ft Configure the Radios Figure 3–20 Control Panel, LAN Properties 5M bp s 11 Select Internet Protocol Version 4 (TCP/IP v4) and click Properties. R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul bp s D ra ft Configure the Radios Figure 3–21 Control Panel, Networking Properties 5M 12 Select Use the following IP address. 52 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul bp s D ra ft Configure the Radios Figure 3–22 Control Panel, IP Address 13 Enter the following: IP address: 192.168.0.100 (this number does not have to be 100, just something other than 10, and a number between 1 and 255) 5M ● ● R03.h Netmask:255.255.255.0 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul Configure the Radios If the radio already has an IP address, you will need to enter different numbers. For example: NOTE Radio IP address: 10.101.0.22 Computer IP address: 10.168.0.100 ft Subnet Mask: 255.0.0.0 ra You may need to disable and enable (right-click) the LAN connection if it displays Network cable unplugged in the Network Connections window. If the radio gets reset, the default IP address is 192.168.0.10. D 14 Click OK. 15 Click Close. 3.3.
3. Backhaul ra ft Configure the Radios Figure 3–23 Advanced Network Settings Menu Select Local Area Connection and then click the up arrow repeatedly until Local Area Connection is the first item. 5M bp s D 7 Figure 3–24 LAN Hierarchy R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul Configure the Radios 8 Click OK. 3.3.3 Configure the Radio Configure the radios by logging into the software located on the radio. FM1100s are configured as mesh points, and FM3100s are configured as mesh ends. To configure the radio: 1 ft → Windows computer On the computer, point a browser to the following URL: ra http://192.168.0.10 Use Mozilla Firefox or Google Chrome. Internet Explorer does not refresh correctly.
3. Backhaul 5M bp s D ra ft Configure the Radios 4 Click I Agree to accept the licence agreement if prompted. 5 Click Wizard. 6 Select or enter the following: ● Mode ► FM1100 – Mesh Point ► FM3100 – Mesh End ● IP Address – Use next class A address available (10.2.0.1 - 10.2.0.255) ● Netmask – 255.0.0.0 ● Default Gateway ► R03.h Figure 3–26 Radio Home Window, Mesh End FM1100 – Not shown or available RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc.
3. Backhaul Configure the Radios FM3100 – Leave blank 5M bp s D ra ft ► Figure 3–27 Fluidmesh MeshWizard Interface 7 Click Next. 8 Select one of the following frequencies (see Figure 3–9 Channel Color Example on page 40): 9 ● Channel 1 = 5745 MHz (Yellow label) ● Channel 2 = 5805 MHz (Blue label) ● Channel 3 = 5180 MHz (Red label) ● Channel 4 = 5785 MHz (Green label) Click Next. 10 Verify the settings. Click Save&Reboot. 58 RT 1000 1.5.
3. Backhaul Setting up the Backhaul Equipment 11 FM1100 only: ● Click poe pass-through in the ADVANCED SETTINGS area of the left pane. This option allows the LAN 2 port on the radio to deliver passive PoE to a second FM1100 on the mast using one short Ethernet cable. ● Select Enable for the Status. ● Click Apply. ft 3.3.
3. Backhaul Setting up the Backhaul Equipment There are many possible mast options; the following instructions are a general guideline. NOTE To install the backhaul components and erect the mast: Prerequisites: ● Gather the components ● Screwdriver ● Hammer ft 1 Refer to the deployment instructions to determine the location and compass heading to the next back haul site closer to central. 3 Use the compass to determine and mark that direction.
3. Backhaul D ra ft Setting up the Backhaul Equipment Figure 3–29 Base and Wind Orientation Collect all of the mast components. 6 Secure the base with at least 2 nails or if using a weighted mast, with cement blocks. 7 Insert the mast into the base collar, extend and secure each section of the mast. 8 Attach the guy lines to the collar on the mast, or make loops in the lines and slip them over the mast.
3. Backhaul D ra ft Setting up the Backhaul Equipment 5M bp s Figure 3–30 Securing Lines to Large Cleat Figure 3–31 Backhaul Antenna Erected 18 Check to make sure that the antennas are aimed properly. 62 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul Installing Two Radios on the Mast 19 Uncoil an Ethernet cable. Attach one end to the BSU and the other end to the PoE. 20 Check Ethernet status lights, if not green or flashing green remove Ethernet cable from the PoE, count to five and re-insert. 21 If status does not change to green or flashing green report the condition. ft 3.
3. Backhaul Removing the Backhaul Equipment To install two radios on the mast: 1 Prerequisites: ● TBD ● The radios are configured to allow the PoE option (see step 11 on page 59). ● The radios are BOTH configured as mesh POINTS (see step 6 on page 57). Attach two radios to the mast. Refer to the deployment instructions for the location at which to aim the radio. One should point towards the recording truck (uplink), and the other should point towards the next remote backhaul location (downlink).
3. Backhaul 5M bp s D ra ft Use Cases or Example Deployments R03.h Figure 3–33 2D Single Backhaul RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul bp s D ra ft Use Cases or Example Deployments 5M Figure 3–34 3D Dual Backhaul, Two Root Nodes 66 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul bp s D ra ft Use Cases or Example Deployments 5M Figure 3–35 2D Single Backhaul, Star Configuration R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
4 ft 4. Demobilization 4.1 Overview ra This chapter describes how to prepare (undeploy) the ground electronics for transport at the end of a project (demobilization). D 4.2 Removing the WRU from the Field This section describes the process to ready the WRU for movement to a new physical location or to remove it in preparation for demobilization.
4. Demobilization Disassemble the WRU Place 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. bp s D ra ft 3 Figure 4–2 Undeployed Unit Optional: Remove batteries, antenna, or geophone as described in “Disassemble the WRU” on page 69. 5M 4 4.3 Disassemble the WRU This section describes the process to disassemble the WRU prior to demobilization. To disassemble the WRU: R03.
4. Demobilization Disassemble the WRU TBD Figure 4–3 Removing the Antenna 3 Remove the geophone from the unit. Image showing geophone installation TBD. Remove 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. ● Continue to lift the lever using the bail to push the battery out of the connector.
5 ft 5. Maintaining the Equipment In order to comply with FCC radio frequency (RF) exposure requirements, the RT 1000 units must be installed so that a minimum separation distance of 20 cm is maintained between the antenna(s) and all persons at all times during normal operation.
5. Maintaining the Equipment Cautions 5.4 Cautions 5M bp s D ra ft TBD 72 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
6 ft 6. Troubleshooting and Tips 6.1 Best Practices ra This section provides some tips on working with the equipment. 6.1.1 24 Ah Batteries D In order to maintain the best possible communication channel, observe the following tips: Place a fully charged 24 Ah battery on the backhaul every day.(90-0012) 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. Troubleshooting and Tips Troubleshooting 6.1.4 Ethernet Cables Use CAT6 enhanced quality cables. To ensure a protected connection, be sure to use an Ethernet cable with a protective shell (65-0051) when connecting Ethernet cables to the PoE (see Figure 3–8 Protective Ethernet Connector on page 38). 6.1.5 Antennas ft When placing or selecting antennas in, consider the following: In areas where there is a steep inclination, smaller gain antennas may provide a better signal.
7 ft 7. Batteries ra This chapter provides information about the batteries and battery requirements used in the Wireless Seismic, Inc. RT 1000 system. 7.1 Lithium Ion Batteries D This section provides information regarding the characteristics, use, and handling of lithium ion batteries. See the following sections for details: “Specifications” on page 75 ● “Handling and Safety Guidelines” on page 76 ● “Transportation” on page 77 ● “Storage” on page 78 s ● bp 7.1.
7. Batteries Lithium Ion Batteries Item Description Value LED One LED that indicates charging status when connected to the charging station as follows • • • Label One bar code serial number label ft Table 7–1 Lithium Ion Battery Specifications (cont.
7. Batteries Lithium Ion Batteries discharged before disposal. Battery leads/contacts should be taped off to prevent accidental shorting. Each battery pack should be placed in a plastic bag. ● http://www.swe.com ● http://www.rbrc.org ● http://www.call2recycle.org ● 1-800-8-BATTERY ● 1-877-2-RECYCLE ft Recycling is encouraged when practical and applicable. The batteries contain recyclable material and are accepted by several battery recycling companies.
7. Batteries D ra ft Lithium Ion Batteries Figure 7–1 Example Battery Shipping Label Batteries 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.
7. Batteries Charging 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.
7. Batteries Charging 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 Charger The lithium ion battery charger is designed to operate from a single 10 A, 120 VAC service line. 5M bp s D ra ft The power supply to charge the battery pack is a 5VDC regulated voltage supply. Figure 7–2 Battery Charger 80 RT 1000 1.5.
7. Batteries 7.3 BSU Battery 5M bp s TBD D Figure 7–3 Serial Number Label and LED Indicator ra ft BSU Battery R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
8 ft 8. Batteries Ce chapitre fournit des informations sur les batteries utilisées dans le système ra RT 1000 de Wireless Seismic, Inc. 8.1 Batteries au lithium-ion D Cette section fournit des informations sur les caractéristiques, l'utilisation et la manipulation des batteries au lithium-ion.
8. Batteries Batteries au lithium-ion Tableau 8–1 Spécifications des batteries au lithium-ion (cont.
8. Batteries Batteries au lithium-ion 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.
8.
8. Batteries Batteries au lithium-ion Les informations contenues dans le présent document ont pour but de fournir une connaissance générale des règlements s'appliquant aux batteries. Elles ne sont pas exhaustives, et les conditions mentionnées dans ce document peuvent avoir changées.
8. Batteries Chargement 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 sensiblement ft 8.
8. Batteries 5M bp s D ra ft Chargement des batteries au lithium-ion Exemple 8–2 Chargeur de batterie 88 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
8. Batteries 8.3 BSU de batterie D Exemple 8–3 Étiquette avec numéro de série et voyant DEL ra ft BSU de batterie 5M bp s TBD R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
A ft A. Legal Information A.1 FCC Rules and Regulations Compliance ra The 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.” This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.
A. Legal Information Industry Canada Compliance Table A–1 Antenna Specifications (cont.) Frequency (MHz) Model Gain Vertical Bandwidth Dimension (Length x Diameter) Weight 2400-2485 5 dBi 25º 0.5 lbs 0.2 kg 12 x 0.6 in 355 x 15 mm WSI 65-0025 2400-2485 2 dBi @ 2.4 120° 1.6 oz 45.4 g 7.6 x 0.5 in 193 x 12.
B ft B. l'information juridique B.1 Conformité avec les règles et règlements de la FCC D Cet équipement a été testé et jugé conforme aux limites fixées pour un appareil numérique de classe A, conformément à la partie 15 des règles de la FCC. Ces limites sont conçues pour fournir une protection raisonnable contre les interférences nuisibles lorsque l'équipement est utilisé dans un environnement commercial.
B. l'information juridique Industrie Canada Conformité Tableau B–1 Spécifications des antennes (cont.) Fréquence (MHz) Modèle Largeur de bande verticale Gain Poids Dimensions (Longueur x Diamètre) 2400-2485 7 dBi 18° 0,6 lb 0,3 kg 21 x 0,6 po 540 x 15 mm WSI 65-0023 2400-2485 5 dBi 25º 0,5 lb 0,2 kg 12 x 0,6 po 355 x 15 mm WSI 65-0025 2400-2485 2 dBi à 2,4 120° 7.
C ft C. Fluidmesh Radio Specifications The information in this chapter is reproduced here for your convenience from the Fluidmesh data sheet available at the following location: ra http://www.fluidmesh.com/press-room/product-literature/doc_details/160fluidmesh-mito-series © 2005-2010 Fluidmesh Networks, Inc. (90-0012) D C.
C. Fluidmesh Radio Specifications The Fluidmesh Mito Series 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 transmitted.
C. Fluidmesh Radio Specifications Fluidmesh 1100 with MITO Technology C.2 Fluidmesh 1100 with MITO Technology RADIO 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.
C. Fluidmesh Radio Specifications Fluidmesh 3100 with MITO Technology OPTIONAL 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 Encryption ra ft C.
C. Fluidmesh Radio Specifications MITO Series General Characteristics Storage Temperature: -30°C to +75°C Humidity: 95% condensing Weather Rating: IP65 Wind Survivability: 120 mph Shock & Vibration: ETSI 300-019-1.4 PHYSICAL Interfaces: One (1) Internal Ethernet 10/100BaseT autosensing, RJ45 Dimensions (mm): 370 (h) X 80 (w) X 70(d) Weight (Kg): 1.
C. Fluidmesh Radio Specifications MITO 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 replacement ft s D ra Copyright © 2005-2010 Fluidmesh Networks, Inc. All rights reserved.
D ft D. LED Indicators This chapter provides the possible LED status and error indicators for WRUs and BSUs. LED Indicators ra Table D–1 WRU LED Status Indications Summary Description No lights are on; the unit is undeployed. D Undeployed All LEDs are on solid 5M bp s Geo Down Tilt Detected RT 1000 1.5.0 Battery test in progress Flashing: • MODE • BAT Battery A in use A flashing 100 © 2010-2012 Wireless Seismic, Inc. All rights reserved. Deployment Guide R03.
D. LED Indicators Table D–1 WRU LED Status Indications (cont.) Description Self test in progress Flashing: • MODE • BAT • GEO • GPS • RAD Geophone test in progress Flashing: • MODE • GEO Flashing: • MODE • GPS s D Acquiring GPS fix ft Summary ra LED Indicators 5M bp Neighbor discovery in progress R03.
D. LED Indicators Table D–1 WRU LED Status Indications (cont.) Summary Description Sleeping RAD flashing ft LED Indicators ra Error 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. D You can skip a self-test by tipping the WRU geophone down and then returning it to the upright position (flat on the ground).
D. LED Indicators Table D–2 WRU LED Error Indications (cont.) Description Self test failure Solid: • BAT • GEO • GPS • RAD Geophone failure GEO solid ra GPS solid GPS fix within 10 m within 1 min not found s No GPS fix ft Summary D LED Indicators 5M bp No neighbor detected RAD solid If this is the first WRU deployed, this is the expected condition. Table D–3 BSU LED Discipline Indications LED Indicators R03.h Summary Description Disciplining to radio Flashing: • A • RAD RT 1000 1.5.
D. LED Indicators Summary Description Disciplining to GPS Flashing: • A • GPS Disciplining A flashing Flashing: • B • RAD s D Disciplined to radio ra LED Indicators ft Table D–3 BSU LED Discipline Indications (cont.) bp Disciplined to GPS 5M Disciplined Incorrectly dropped out of cycle mode 104 Flashing: • B • GPS B flashing Flashing: • A • B • BAT • RAD RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
D. LED Indicators Table D–3 BSU LED Discipline Indications (cont.) Summary Description Armed MODE flashing 5M bp s D ra ft LED Indicators R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
E ft E. Weighted Mast E.1 Specifications Tripod Weight = 50 lbs (22.73 kg) ra This section describes the mast that uses weights to maintain stability. D Minimum mast height = 53” (includes 6” for mounting) Base size = 48” (1.2m) x 48” (1.2m) Supports up to 12 – 16” x 8” blocks Pre-galvanized steel frame 5M bp s Accepts up to 2.5” mast (not included) RT 1000 1.5.0 106 © 2010-2012 Wireless Seismic, Inc. All rights reserved. Deployment Guide R03.
E. Weighted Mast s D ra ft Hardware Supplied bp Figure E–1 Weighted Mast E.2 Hardware Supplied The 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. tooth 5M R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
E. Weighted Mast Assembly Instructions E.3 Assembly Instructions D ra ft This section provides instructions and illustrations for assembly of the tripod. Figure E–2 Tripod Assembly – Front View Assemble 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.
Numerics kit 35 bucket-brigade 31 192.168.0.10 40 2.4 GHz 31 24 Ah DC battery 37 4.9 GHz 39 5.1 GHz 39 5.
Index H H help 9 hopping 31 I L LED status 100 LTU 31 Self test in progress 101 self-test 101 SIU 33 skip a test 101 Sleeping 102 solid LEDs 100 specifications antenna 39, 90 status Acquiring GPS fix 101 Battery A in use 100 Battery test in progress 100 Continue 101 down tilt detected 100 Geophone test in progress 101 Neighbor discovered 101 Neighbor discovery in progress 101 Self test in progress 101 Sleeping 102 Undeployed 100 string-of-pearls 31 supported antennas 39, 90 D M bp s mast 106 erect
