SPRscan Manual Hardware Ref: SPR0002 Issue: 001 26 May 1998
Copyright information page Copyright 1998 No part of this document may be photocopied or otherwise reproduced without the prior permission in writing of ERA Technology Ltd. Such written permission must also be obtained before any part of this document is stored in an electronic system of whatever nature.
Using this handbook This handbook has been written to provide the SPRscan user with clear, concise instructions in the assembly and care of the radar. In order to avoid repeating sets of instructions, icons have been used to inform the user which assembled components are required for a particular section. If an icon appears in the requirements section, turn to the pages describing the assembly of that component and follow them carefully.
Contents Copyright information page 2 Using this handbook 3 Contents 4 Parts Lists 7 SPRscan3D System Option : Trolley System Option : Trolley Rough Ground Option Option : 1 GHz Antenna System Option : 2 GHz Antenna System Option : 250 MHz Antenna 7 8 9 10 11 12 Modes of Operation 13 Description of Parts 16 Controller Head Electronics Unit 16 17 General Antenna 1 GHz antenna 18 19 Function Handle Trolley 20 21 General Assembly of parts Controller 22 22 Installing the Head Electronic
Using the harness – 1 GHz backpack The Standard Trolley Option 29 30 Adding the antenna 30 Adding the controller 31 The Rough Ground Option 31 Pictorial Guide To Assembling the System 32 Proximity Sensor Calibration 36 Calibration Procedure Dead Man’s Handle Using Optional Peripherals Standard System : Technical Specifications 36 36 38 39 Controller Control 39 39 Display I/O provision 39 39 Software System Scan Modes Head Electronics Unit (Tx-Rx) 39 40 40 500 MHz Antenna (P – 050
Distributor and Technical Support Contact Information 46 Manufacturer 46 Distributors United Kingdom – Home Counties and London Belgium 46 46 47 Czech Republic Germany and Austria, Luxembourg, Netherlands, Switzerland Italy 47 47 47 South Korea United States of America 48 48 SPRscan Electromagnetic Compatibility (EMC) 52
Parts Lists The following section illustrates the component parts supplied with each SPRscan option SPRscan3D System 1 500 MHz antenna 2 Head electronics unit 3 Controller unit 4 Battery packs – 2 off 5 Battery chargers – 2 off 6 2 m data cable 7 Power cable 8 Mains adapter 9 Handle system 10 11 12 13 14 15 16 17 Display visor Manuals Document and software pack Carry cases – 2 off Keyboard Mouse Carry harness Function handle
Option : Trolley System 1 Wheels with integral shaft encoder 2 Battery bag 3 Computer handle assembly 4 Wheel covers, on wheels 5 6 7 8 Transit case (not illustrated) Tool roll (not illustrated) Spare wheel Handles
Option : Trolley Rough Ground Option 1 Rough Ground Option 2 Transit case
Option : 1 GHz Antenna System 1 2 Transit case 3 1 GHz antenna with sacrificial skid tray Head electronics unit with backpack Note: The system illustrated shows a head electronics unit installed. This is NOT part of the 1 GHz option.
Option : 2 GHz Antenna System 1 2 Transit case 2 GHz antenna 3 Head electronics unit with backpack Note: The system illustrated shows a Head Electronics unit installed. This is NOT part of the 2 GHz option.
Option : 250 MHz Antenna 1 250 MHz antenna 3 Pull cable 2 Transit case
Modes of Operation The following section illustrates some of the ways in which the SPRscan can be deployed in the field. The selection is not exhaustive but is intended to show the operator how flexible the system can be.
Trolley Mode – with 250 MHz antenna Two-man operation
One-man mode – with 1 GHz antenna.
Description of Parts Controller 1 2 3 1 2 3 4 5 6 Screen Bezel Power status lights Data Connector Power Supply Connector Fuse Power on/off switch Floppy disk drive Parallel/printer port 4 5 6 Function keys Cursor keys Command keys 7 Mouse/serial port 8 Keyboard socket 9 External monitor socket 10 Carry harness connecting posts 11 Protective cover fastening holes 12 Protective cover (outline) for IP65
Head Electronics Unit Front 1 2 3 Locking screws Shaft encoder socket Data cable socket 4 5 Remote control/function grip socket Purge screw Strain relief lanyard socket Transmit reference (Tx ref.
General Antenna The illustration below covers both the 500 and 250 MHz antennas. The numbered features are essentially common to both units.
1 GHz antenna 1 2 3 1 GHz Antenna Handle Handle locking lever 4 5 6 Belt box Harness straps Sacrificial skid tray
Function Handle 1 2 3 4 Stub handle socket Head Electronics unit connector Pause button Next button 5 6 7 8 Locating pin to lock handle on stub Stop button Marker trigger switch Dead Man’s Handle
Trolley 1 2 3 4 5 6 Pneumatic tyres Battery bag Shaft encoder Clevis Computer handles Controller locking bolts 7 8 9 10 11 12 Head Electronics connector Bracket locking levers Main shaft adjusting knob Clevis adjusting lever Function handle Dummy handle
General Assembly of parts Controller 1. 2. 3. Remove the controller from the carry case and place on a level and stable surface. Remove the protective covers from the two circular connectors. Connect the 1 m black curly power cable to the controller power socket, ensuring that the connector is securely fastened and the collar has locked. Note on circular connectors: The circular connector is a robust, positively locking, keyed connector.
Installing the Head Electronics unit into an antenna The following describes how the Head Electronics unit is installed into an antenna. However, the same procedure is followed for installing the Head Electronics unit into the 1 GHz and 2 GHz belt box. These first steps describe the installation of the Head Electronics unit into the antenna. Generally it will not be necessary to follow these steps, as the radar head will already be installed in the antenna. 1. 2. 3.
4. Without twisting or trapping the cables, insert the Head Electronics unit into the antenna. The Head Electronics unit should now be pushed firmly, but not forced, until the front plate reaches the antenna housing. Note: The cables are designed to lay across the width of the case to give smooth cable flexing and are moulded to achieve this.
The pull handle system The pull handle system is in four parts: 1. 2. 3. 4. The grip - dummy or function handle. The adjustable top shaft. The central tube. The clevis, which is used for antennas of frequencies 500 MHz and lower. Assembly of pull handle Fitting the clevis 1. 2. 3. 4. Point the two feet of the clevis away from you with the lever upwards. Loosen the lever and insert the closed end of the central tube into the bracket so that the wide portion just below the weld sits inside.
Fitting a grip Two grips are available; a plastic dummy grip or a function handle with integral push buttons. Both are attached to the pull handle in an identical fashion. 1. 2. 3. Remove the PIP pin from the grip. Push the grip onto the small stub fixing. Insert the PIP pin and push in as far as it will go. It will almost certainly be necessary to move the grip to ensure that the holes line up.
Setting up for field use Connecting the antenna/Head Electronics unit combination to the controller Requirements: 1. 2. 3. 4. 5. Place the antenna on the floor with the handle pushed forward. Select either the 2 metre long or 25 metre long, grey data cable. Attach the female connector to the central circular socket on the Head Electronics unit. This socket is marked “CONTROLLER”. Attach the male data cable connector to the large circular connector on the controller unit.
1. Remove the carry harness from the bag and remove any twists from the straps. 2. Put your arms through the arm loops. The large pads should sit on your shoulders. The two silver rings should be positioned on either side of your waist and the large, black, push fit waist connector at the front. Fasten the push fit belt and chest connectors. Make sure the two thin webbing waist straps are free and at about two-thirds extension.
6. 7. Fasten the other end to the battery pack. Now attach the visor to the controller. 8. Readjust the harness straps to ensure that you can comfortably view the controller screen, without any unnecessary straining or craning of the neck. 9. Now connect the antenna to the controller by means of the grey data cable. 10. The radar is now ready for proximity sensor calibration and use.
The Standard Trolley Option The standard trolley is assembled in the following sequence: 1. Hold the yellow wheel unit so that the battery bag is pointing towards you and the arrow marked on the frame is pointing away from you. 2. Lift and lower the two metal catches to open the large, black bracket. 3. Take the central handle tube with clevis attached and slot into the bracket. The flat faces point up and down. In addition, the clevis lever should also point upwards and the clevis away from you. 4.
18. Connect the straight black cable from the shaft encoder to the socket marked “ENCODER”. It might be necessary to organise this cable to prevent it dragging along the floor. Adding the controller 19. Hold the controller and align the computer handle runners with the machined brackets on the back plate of the controller. 20. Slide the controller down the runners. 21. Fasten the controller in place by means of the two plastic headed bolts on the computer handle mount. 22.
Pictorial Guide To Assembling the System This brief guide should help in the assembly of the trolley. Please refer to the text for clarification.
Secure with the PIP pins Locate and fix the function handle to the stub. Lock it in place with the PIP pin supplied Loosen the locking clamp and straighten antenna so that it lies flat.
Fix the controller in place with the two screws Connect the grey data cable to the controller - MALE end Connect the three cables to the Head Electronics unit in the antenna Place the batteries in the battery bag
Connect the battery to the controller using the black curly cable Turn on the radar!! Fix the visor on the controller
Proximity Sensor Calibration All ERA Technology antennas, except the 2 GHz unit, are fitted with a proximity sensor. This is to prevent the system from transmitting radio frequency energy into the air (a requirement of many national certification agencies). It must be calibrated on every occasion that the Head Electronics unit is powered up. Failure to do so will mean that the radar will not transmit. In addition, a secondary safety device is built into the grip of the function handle.
Office Mode In office mode, the radar operator has the ability to carry out tasks which are not suitable in the field, such as data backup, data processing and printing out radar data or report writing. As the SPRscan controller is running the Windows for Workgroups 3.11 environment, it is easy to install and run favourite or necessary software such as a word processor, drawing package etc. Setting up the controller in office mode: 1. 2. 3. 4. 5. 6. 7. 8.
Using Optional Peripherals Printer: If you have a printer, plug the printer data cable into the socket marked “PARALLEL”. External Monitor: The controller is capable of driving an external VGA monitor. If you have one, this is connected to the socket marked “MONITOR”. Note: When an external monitor is connected, the built-in screen will not be powered.
Standard System : Technical Specifications Controller Processor AMD 586-133 MHz Radar Interface card Proprietary Memory 16 Mbytes Hard disk (program and storage) 800 Mbytes Floppy disk 3.5" Dimensions 335 mm x 235 mm x 180 mm Weight 6.0 kg Power requirement 9-18 V @ 45 W Control Windows based full screen menu system using local subset keyboard and soft keys. Optional use of full AT keyboard and mouse. Display 9.
System Scan Modes Free run 120 scans per sec typical Timed interval 100, 50, 20, 10 scans per sec Shaft encoder 10, 25, 50, 100, 250, 500, 1000 mm Head Electronics Unit (Tx-Rx) Dimensions 300 mm x 220 mm x 90 mm Weight 2 kg Total system dynamic range >130 dB Receiver dynamic range >90 dB Time range minimum 6.4 ns Time range maximum 820 ns Pulse repetition time 1 µs Effective bandwidth (typical) 2 GHz 500 MHz Antenna (P – 0500) Dimensions 400 mm x 400 mm x 250 mm Weight 4.
SPRscan Standard Parts List as supplied (+ shipping weight in kg) 1 off 500 MHz antenna 1 off Head Electronics unit 1 off controller + software 2 off 13.
Antennas : Technical Specifications Model P-0250 250 MHz Dimensions 500 mm x 560 mm x 300 mm Weight 6 kg* Pulse duration (typical) 2 ns Model P-0500 500 MHz Dimensions 400 mm x 400 mm x 250 mm Weight 4.0 kg* Pulse duration (typical) 0.9 ns Model P-1000 1 GHz Dimensions 200 mm x 200 mm x 160 mm Weight 2.5 kg* Pulse duration (typical) 0.4 ns Model P-2000 2 GHz Dimensions 110 mm x 110 mm x 130 mm Weight 1.0 kg* Pulse duration (typical) 0.
Optional extras These include:Additional battery packs and chargers 100 minute intelligent fast charger 12 V-240 V inverter with cigar lighter plug 10 M & 25 M data/control cables
Limitations on using the SPRscan The SPRscan surface penetrating radar has been designed to be a field rugged surveying system. It is perfectly suited for use in a wide variety of environments and conditions. However, there are some conditions to which it is not suited and therefore use of the SPRscan should be avoided where these prevail. These fall into two categories: 1. 2.
Maintaining the SPRscan System The ERA Technology SPRscan radar system has been designed to be a rugged piece of surveying instrumentation. It should require a minimum of maintenance to keep it serviceable. However, a few simple, common-sense procedures and rules should be followed to ensure that this is the case. Please bear in mind that whilst it is rugged and field useable, it is not indestructible! • • • • • • • • • • • • Avoid knocking, banging or dropping the controller.
Distributor and Technical Support Contact Information All queries should be addressed to your nearest distributor. Usually this will be the company from which you purchased your system. The following list gives the names and addresses of the current SPRscan distributors and their regions of coverage. For an up-to-date list, please refer directly to the manufacturer.
Belgium Forintec International NV Laabekestraat 15 B-2060 Merksem Antwerp Belgium Tel: Fax: +32 3 646 0880 +32 3 646 1016 Czech Republic Associated Consultants Dobrovskeho 22B 77100 Olomovc Czech Republic Tel/Fax: +42 0 68 5226360 Germany and Austria, Luxembourg, Netherlands, Switzerland Trotec von der Lieck Grebbener Str 7 D52525 Heinsberg Germany Tel: Fax: +49 2452 962100 +49 2452 962200 Italy PASI Srl Via Goito 8 10125 Torino Italy Tel: Fax: +39 11 6507033 +39 11 658646
South Korea Shinwoo Tech Corp Room 320, 4 Dong Sihung Industrial Centre 984 Sihung, 3-Dong Kumchon-Ku Seoul Korea Tel: Fax: +822 896 8428 +822 896 8429 United States of America US Radar PO Box 319 121 Amboy Road Matawan New Jersey Tel: Fax: +1 732 566 2035 +1 732 566 8522
Space for European Declaration of Conformity
Space for European Declaration of Conformity
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SPRscan Electromagnetic Compatibility (EMC) 1 Design Aims SPRscan is designed for electromagnetic compatibility with other electrical and electronic equipment sharing its intended working environment. Under some circumstances identified below, certain procedures may need to be adopted in order to ensure that compatibility is maintained.
5 Limitations 5.1 Intense Radio Frequency Fields Due to the presence of a wideband radio receiver as part of the systems intrinsic function, SPRscan may not provide reliable data in the presence of high level radio frequency energy. Under some conditions this energy can be detected by the system's radio receiver and cannot be distinguished from the reflected energy of the built-in transmitter, thereby masking the wanted signals. Very high levels of radio frequency energy will overload the receiver.
6 Operation of SPRscan with User Supplied Peripherals SPRscan has been EMC tested with a representative selection of typical commercially available peripherals such as monitors, tape backup units and printers. Users may source peripherals from reputable manufacturers subject to some simple precautions.
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