ra Deployment Guide ft RT 1000 5M R03.h bp Part Number: 90-0004 s D January 31, 2012 Real Time Matters Wireless Seismic, Inc. 13100 Southwest Freeway, Suite 150 Sugar Land, TX 77478 832.532.
ft ra D s © 2010-2012 Wireless Seismic, Inc. All rights reserved. bp All other brands, company names, product names, trademarks or service marks referenced in this material are the property of their respective owners, who may or may not be affiliated with, connected to, or sponsored by Wireless Seismic, Inc. Wireless Seismic, Inc.'s trademarks, registered trademarks or trade dress may not be used in connection with any product or service that is not the property of Wireless Seismic, Inc.
ft Table of Contents 1.1. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 About this Guide . . . . . . . Who Should Use this Guide Related Documents . . . . . Getting Help . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ra 1.1 1.2 1.3 1.4 . . . . . . .
Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 . 46 . 54 . 56 . 59 . 59 . 59 . 59 . 63 . 64 . 64 ft 3.
Table of Contents 8.1.4 Entreposage . . . . . . . . . . . . . . . . . 8.2 Chargement des batteries au lithium-ion. 8.2.1 Précautions de chargement. . . . . . . 8.2.2 Chargeur de batterie . . . . . . . . . . . 8.3 BSU de batterie . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 87 87 87 89 A.A.
List of Figures List of Figures s D ra ft Pelton Vib Pro Interface Card in Slot .................................................. 15 Pelton Vib Pro Interface Card ............................................................ 15 Pelton Vib Pro Interface Card Assembly Drawing ................................. 16 Pelton Vib Pro Jumpers .................................................................... 17 Pelton Analog Output Connection ......................................................
List of Figures Two-Radio Installation......................................................................63 2D Single Backhaul..........................................................................65 3D Dual Backhaul, Two Root Nodes....................................................66 2D Single Backhaul, Star Configuration ..............................................67 Power Off the Unit ...........................................................................68 Undeployed Unit..................
List of Tables List of Tables ft PELTON SOURCE CONTROL (60-0015) Cable Pin List ........................... 20 BSU DATA-POWER (60-0007) Cable Pin List........................................ 22 SIU Source Control (60-0004) Cable Pin List....................................... 23 BSU at Recording Truck (60-0012) Cable Pin List ................................ 24 Base Station Unit Kit ....................................................................... 35 Antenna Specifications..........................
1 ft 1. Overview 1.1 About this Guide ra This document provides information on how to deploy the RT 1000 in the field. 1.2 Who Should Use this Guide D The expected users of this document are as follows: Crew (Layout/Troubleshooters) Technician (LTU) Bosses (Line Crew) s bp 1.3 Related Documents RT 1000-related documents are as follows: “RT 1000 Documents Guide” (90-0001) – Lists all of the RT 1000 documents with a brief description of each.
1. Overview Getting Help If you cannot find the answers you need, please contact Wireless Seismic, Inc. Customer Support at: 13100 Southwest Freeway, Suite 150 Sugar Land, TX 77478 (832) 532-5048 5M bp s D ra ft support@wirelessseismic.com 10 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
2 ft 2. Layout ra This chapter describes how to prepare (mobilization) and layout (install) the ground electronics. 2.1 Prerequisites Survey Backhaul plan TBD D In preparation for mobilization, define the following: s 2.2 Getting Ready bp Collect all of the following: Please refer to “Antenna Specifications” on page 90 for the list of supported antennas. Use of accessories other than those specified in this document is not supported or warrantied.
2. Layout Getting Ready The LTU includes the Base Station Unit (BSU), the Power over Ethernet (PoE), the battery, the backhaul, and the mast.
2.
2. Layout Setting Up the Central Recording System ● Isolated remote start (J3, J4) ● Negative-edge timebreak (J5, J6) Menu settings ● Start Delay = 1000 ● TimeBrk Act = LOW ● Make a note of the VibratorID. It must be entered as a parameter in the CSS. (MAIN MENU → 1. JOB PROFILE → 7. VibratorID) ft Interface card jumpers ra Detailed instructions on using the Pelton Vib Pro are beyond the scope of this document.
2. Layout s D ra ft Setting Up the Central Recording System 5M bp Figure 2–1 Pelton Vib Pro Interface Card in Slot Figure 2–2 Pelton Vib Pro Interface Card R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
2. Layout s D ra ft Setting Up the Central Recording System bp Figure 2–3 Pelton Vib Pro Interface Card Assembly Drawing Connect the Timebreak and Remote Start jumpers as shown in the following figure: 5M 3 16 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
2. Layout s D ra ft Setting Up the Central Recording System bp Figure 2–4 Pelton Vib Pro Jumpers Slide the interface card into the Pelton Vib Pro and close the case. 5 Connect the Pelton analog output (JF: 27-pin connector) to the WRU’s analog input (geophone connector) as shown in the following figures: 5M 4 R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
2. Layout s D ra ft Setting Up the Central Recording System 5M bp Figure 2–5 Pelton Analog Output Connection Figure 2–6 BSU Analog Input Connection 18 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
2. Layout Setting Up the Central Recording System 6 Connect the Pelton Vib Pro JE Connector to the WRU analog input (geophone connector). 7 Power on the Pelton Vib Pro. 8 Set TimeBrk Act=LOW (Start → Menu (B) → MORE HIGH). s D ra ft → 15. HARDWARE SETUP → 1. TimeBrk Act : bp Figure 2–7 Pelton Vib Pro TimeBrk Act Set the Start Delay=1000 (Start → Menu (B) → MORE → 10. RADIO → 11. StartDelay : 01000). 5M 9 R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc.
2. Layout D ra ft Setting Up the Central Recording System Figure 2–8 Pelton Vib Pro StartDelay 2.4.3 Source Interface Cables s The following table and figure show the cable used to connect the Pelton Vib Pro to the BSU and WRU.
2. Layout Setting Up the Central Recording System Table 2–1 PELTON SOURCE CONTROL (60-0015) Cable Pin List (cont.
2. Layout Setting Up the Central Recording System 2.4.
2. Layout Setting Up the Central Recording System Table 2–3 SIU Source Control (60-0004) Cable Pin List Signal Name Wire Color RED B EXT.
2. Layout Setting Up the Central Recording System Table 2–3 SIU Source Control (60-0004) Cable Pin List (cont.) Signal Name Wire Color 27-Pin Connector GND BLK a GND BLK d ra ft WHT = White, ORG = Orange, GRN = Green, BLU = Blue, BRN = Brown, BLK= Black, YEL = Yellow * Connect per Pin Numbers Wire colors in parenthesis are for Ethernet cable wired per T-586A standard. The following cable (60-0012) has not yet been implemented.
2. Layout Laying Out the Equipment Table 2–4 BSU at Recording Truck (60-0012) Cable Pin List (cont.) Signal Name Wire Color 27-Pin Connector ra 2.5 Laying Out the Equipment ft WHT = White, ORG = Orange, GRN = Green, BLU = Blue, BRN = Brown, BLK= Black, YEL = Yellow * Connect per Pin Numbers Wire colors in parenthesis are for Ethernet cable wired per T-586A standard. You can lay out the ground equipment while the central recording system hardware and software is being prepared.
2. Layout Laying Out 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.
2. Layout ra ft Laying Out the Equipment 5M bp s D Figure 2–13 Battery Latch 4 R03.h Figure 2–14 Installing the Battery Attach the geophone to the WRU. RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
2. Layout ft Laying Out the Equipment 5 ra Figure 2–15 Installing the Geophone Attach the antenna to the WRU or BSU. Ensure that the antenna connection is clean, and the antenna is snug and does not wobble. D TBD Figure 2–16 Installing the Antenna When determining which antenna to use (5 dBi, 7 dBi, 9dBi), consider the distance between WRUs, and how much vegetation is in the area. s TIP bp For distances of 10 m to 30 m, use a 5 dBi antenna. Distances of 30 m or greater, use a 7 dBi antenna.
2. Layout Laying Out the Equipment If you are using a WRU as a Repeater, the deployment instructions are the same, except a geophone is not required. Repeaters are added to the line segment in the Spread Manager. See the RT 1000 Operator Guide for more information. NOTE Pick up the WRU and point the geophone connector end towards the ground as shown in the following figure.
2. Layout Laying Out the Equipment 4 NOTE The unit will begin a series of internal and external tests. The LEDs on the top of the unit indicate the current test and whether the unit passes or fails each test. See “D. LED Indicators” on page 100 for an explanation of the LED status and error conditions. If a WRU self test fails, the WRU will continue to the next test. ra 2.5.
3 ft 3. Backhaul 3.1 Overview ra In network communications, the backhaul is the part of the network that contains the links and equipment between the core network and the sub networks. D Wireless mesh networking is a method where each radio node in the network captures and disseminates its own data as well as serves as a relay for other radio nodes in the network sending data along a path, hopping from one node to the next.
3. Backhaul Overview The LTU communicates by way of the BSU with the Central Software System (CSS) computer in the central recording truck along a backhaul on the 5.8 GHz ISM radio band. Some smaller systems may not require a backhaul. The Central Software System (CSS) communicates with the field units via the backhaul radios. The backhaul radios act as access points for the BSUs.
3. Backhaul Overview bp s D ra ft The following figure illustrates the central recording truck components: 5M Figure 3–2 Central Recording Truck Components NOTE There can be from one to three WRUs in the Recording Truck as part of the SIU. The following figure illustrates the components and data flow for a four-line, single-backhaul line with two root nodes example: R03.h RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved.
3. Backhaul 5M bp s D ra ft Overview Figure 3–3 Single Backhaul Data Direction 34 RT 1000 1.5.0 Deployment Guide © 2010-2012 Wireless Seismic, Inc. All rights reserved. R03.
3. Backhaul Backhaul Components 3.2 Backhaul Components The backhaul components are either remote backhaul components or central backhaul components. Remote components are the components that are not physically located next to the recording truck. Central components are physically located at the recording truck.
3. Backhaul D ra ft Backhaul Components Figure 3–5 Base Station Unit (BSU) See “D. LED Indicators” on page 100 for an explanation of the LED status and error conditions. bp NOTE s Before the Central Software System can communicate with the BSU, you must set up the backhaul. 3.2.1.2 PoE Switch Unit 5M Power over Ethernet (PoE) is a technology that passes electrical power along an Ethernet cable. PoE is used where DC power is not available and USB unsuitable.
3. Backhaul bp s D ra ft Backhaul Components Figure 3–6 PoE 3.2.1.3 Battery and Power Supply 5M Power is supplied to the LTU components by way of a 24 Ah DC battery or power supply. TIP The backhaul power requirements vary depending on the hardware in use and period of use. For example, you may be using one or two radios. Supply enough power to ensure there is enough power for the entire duration of the time you are using the backhaul.
3. Backhaul 3.2.1.
3. Backhaul Backhaul Components 3.2.2 Antennas The following table lists the supported antennas for the BSUs and the WRUs. The remote and central backhauls use the same antennas: Table 3–2 Antenna Specifications Gain Vertical Bandwidth 2400-2485 9 dbi 14° WSI 6060-001-01 2400-2485 7 dBi 18° WSI 65-0023 2400-2485 5 dBi WSI 65-0025 2400-2485 2 dBi @ 2.4 Dimension (Length x Diameter) 0.8 lbs 0.5 kg 27 x 0.6 in 690 x 15 mm 0.6 lbs 0.3 kg 21 x 0.6 in 540 x 15 mm 25º 0.5 lbs 0.2 kg 12 x 0.
3. Backhaul Backhaul Components D ra ft Each radio is assigned a color that represents the channel assignment, allowing field personnel to quickly orient the radios in the proper direction. An example is shown in the following figure: Figure 3–9 Channel Color Example The Fluidmesh default IP address is 192.168.0.10. s 3.2.3.1 FM1100 Radio 5M bp The FM1100 radio is used on the masts for the remote backhauls and is shown in the following figure: Figure 3–10 FM1100 Radio 40 RT 1000 1.5.