Installation manual Simrad ES60 Fish finding echo sounder www.SIMRAD.
Simrad ES60 Installation manual This manual provides you with the basic information required to install the Simrad ES60 Fish finding echo sounder. For more detailed information about the practical use of the product, refer to the Operator manual.
Document history Document number: 304699 / ISBN-10: 82-8066-072-0 / ISBN-13: 978-82-8066-072-5 Rev. A September 2006 First version. Information is extracted from the former Instruction manual, and several details have been changed. Copyright ©2006 Simrad Horten AS The information contained in this document remains the sole property of Simrad Horten AS.
Installation manual Table of contents INTRODUCTION ................................................................ 9 Simplified system diagram .....................................................................................10 General safety rules ................................................................................................ 11 General supply conditions ......................................................................................12 Equipment responsibility...................
Simrad ES60 INSTALLATION PROCEDURES ......................................... 26 Basic procedure ......................................................................................................26 Configuration..........................................................................................................27 Transducer ................................................................................................. 27 General Purpose Transceiver (GPT) .........................................
Installation manual Single beam, normal power transducer ......................................................... 68 Single beam, high power transducer ............................................................. 69 Dual beam (wide or narrow) transducer........................................................ 70 Split beam transducer.................................................................................. 71 Split beam transducer to single beam transceiver.........................................
Simrad ES60 DRAWING FILE ............................................................... 99 GPT Outline dimensions ......................................................................................100 GPT Power supply outline dimensions ................................................................102 Marine computer outline dimensions ...................................................................104 GPT Transducer plug connection .................................................................
Installation manual All 27 kHz transducers .........................................................................................144 All 38 kHz transducers .........................................................................................145 All 50 kHz transducers .........................................................................................147 All 70 khz transducers ..........................................................................................148 All 120 khz transducers ..
Simrad ES60 8 304699/A
Introduction INTRODUCTION The purpose of this installation manual is to present the descriptions and drawings required to install the Simrad ES60 Fish finding echo sounder system. The equipment described in this manual includes the complete system with associated cabinets, but not those system units provided locally by the customer, installation shipyard or local dealer. The manual also defines the equipment responsibility, and provides instructions for unpacking and storage.
Simrad ES60 Simplified system diagram A simplified system diagram is shown below.
Introduction General safety rules The Simrad ES60 Fish finding echo sounder system operates on 230 Vac 50/60 Hz. WARNING This voltage may be lethal! The following safety precautions must be followed at all times during installation and maintenance work: • Always switch off all power before installation or maintenance. Use the main circuit breaker, and label the breaker with a warning sign that informs others that maintenance or installation work is being carried out on the system.
Simrad ES60 General supply conditions The following supply conditions are applicable to this Simrad ES60 Fish finding echo sounder delivery. Equipment responsibility The shipyard performing the installation and/or equipment dealer becomes fully responsible for the equipment upon receipt unless otherwise stated in the contract. The duration of responsibility includes: • The period of time the equipment is stored locally before installation. • During the entire installation process.
Introduction General installation requirements The following installation requirements are applicable to this Simrad ES60 Fish finding echo sounder delivery. Approval by classification society The ES60 Fish finding echo sounder transducer installation must be approved by Det Norske Veritas (DNV) or another classification society. The shipowner and shipyard performing the installation are responsible for obtaining installation approval.
Simrad ES60 Note The location of the transducer and/or protection blister must be noted on the vessel’s docking plan for future reference. Wiring All cables running between system cabinets located in different rooms and/or on different decks must be supported and protected along their entire lengths using conduits and/or cable trays. Note that the cables must not be installed in the vicinity of high-power supplies and cables, antenna cables or other possible sources of interference.
Introduction Equipment handling This section provides the basic rules for transportation, storage and handling of units. In this context, a unit may be any large or small part of the system. It can be supplied as part of the initial delivery, or as a spare part. Transportation Unless otherwise stated in the accompanying documentation, electronic, electro-mechanical and mechanical units supplied by Simrad can be transported using all methods approved for delicate equipment; (by road, rail, air or sea).
Simrad ES60 Heavy units may be equipped with lifting lugs for transportation by crane within the workshop or installation area. Before you use a crane: • You must check the applicable weight certificate for the crane. • You must check the security of the lifting lugs. Ensure that all available lifting lugs are used. Ensure the unit remains under control during the operation to avoid damage to the unit, equipment or personnel. Heavy units may be transported using a forklift truck.
Introduction 8 The storage room/area must be dry, with a non-condensing atmosphere. It must be free from corrosive agents. 9 The storage area’s mean temperature must not be lower than -30° C, and not warmer than +70° C. If other limitations apply, the crates will be marked accordingly. Note Transducers must not be stored in temperatures below -20° C, or higher than +60° C. 10 The crate must not be exposed to moisture from fluid leakages.
Simrad ES60 4 If the units are not damaged, check the humidity absorbing material. If required, dry or replace the bags, then re-pack the unit(s) according to the packing instructions. Unpacking General unpacking procedure Normal precautions for the handling, transportation and storage of fragile electronic equipment must be undertaken. Note If the unit is not to be prepared for immediate use, you may consider storing it unopened in its original packing material.
Introduction Unpacking electronic and electromechanical units Electronic and electromechanical units will normally be wrapped in a clear plastic bag. Lift the unit, in its bag, out of the carton and place it in a stable position on the floor/work bench. Inspect the unit for damage before opening the plastic bag. Note Beware of the dangers of Electro-Static Discharge (ESD) both to yourself and to the equipment, when handling electronic units and components.
Simrad ES60 Storage after unpacking The unit must whenever possible be stored in its original transportation crate until ready for installation. The crate must not be used for any purpose for which it was not intended (eg. work platform etc.). Once unpacked, the equipment must be kept in a dry, non condensing atmosphere, free from corrosive agents and isolated from sources of vibration. Note Do not break the seal to open a circuit board package before the board is to be used.
Introduction 3 Open the unit, and using a vacuum cleaner, remove all dust etc. from the unit. Great care must be taken to ensure the circuit boards and modules are not damaged in the process. Mechanical units If a mechanical unit may has been exposed to a salt atmosphere while it was in use, it must be thoroughly cleaned both internally and externally to prevent corrosion.
Simrad ES60 A suitable piece of insulating material can be placed between the battery and the electrical contacts to prevent electrical discharge. The battery can then remain in the unit, reducing the risk of it being misplaced during the storage period. Caution Units containing lithium or alkaline batteries must be handled separately and with care. Such units are marked accordingly. Do not attempt to recharge such batteries, open them or dispose of them by incineration.
Introduction Beware of ESD! When you handle electronic circuit boards, you must beware of the dangers of electrostatic discharge (ESD), both to yourself and to the equipment. In order to ensure safe transport and storage, circuit boards and other electronic units will always be wrapped in a clear plastic protective bag, and the bag will be sealed. See also: What is ESD? on page 24. Unpacking and handling circuit boards To unpack a circuit board: • Wherever possible, prepare a suitable workbench.
Simrad ES60 • Fill in all the necessary information on the applicable documentation and place it inside the bag. • Seal the bag. • Place the circuit board in a suitable carton, and secure it for shipping. Note Failure to follow these rules may result in unserviceable circuit boards. Temperature protection If the unit must be protected against extremes of temperature, the carton/crate must be lined on all walls, base and lid with 5 cm thick polyurethane or polystyrene foam.
Introduction • The working area must be covered by an approved conductive service mat that has a resistance of between 50 kΩ and 2 MΩ, and is connected directly to a reliable earth point via its earthing cord. • The service personnel involved must wear a wristband in direct contact with the skin, connected to the service mat. • Printed circuit boards must be placed on the conductive service mat during installation, maintenance etc.
Simrad ES60 INSTALLATION PROCEDURES This chapter provides the basic information required to install the physical units. Note Physical installation of commercial units (computers, printers, displays) is not described in this manual. Refer to the applicable user manual(s) provided with the product.
Installation procedures 8 Prepare and install the ethernet cable(s) between the General Purpose Transceiver(s) and the computer: • An Ethernet cable must be used between the General Purpose Transceiver and the computer. • If only one General Purpose Transceiver is used, you need a twisted pair cable with swapped receive and transmit wires. The cable is connected between the transceiver and the computer. • An Ethernet switch is required if your system includes more than one General Purpose Transceiver.
Simrad ES60 A large number of transducers are available. There are several transducer alternatives for each operating frequency with different beam widths, power rating and mounting arrangements. All transducers are rated 60 or 75 ohms. Each has an efficiency of approximately 50%. Related topics Simrad transducers on page 143 Transducer Installation on page 110 General Purpose Transceiver (GPT) One or more General Purpose Transceivers (GPT) are included.
Installation procedures • Example: A dual frequency split-beam sounder emerges by connecting two split-beam transceivers to the Ethernet cable. • Example: A triple frequency single-beam sounder emerges by connecting three single-beam transceivers to the Ethernet cable. Related topics General Purpose Transceiver installation on page 31 General Purpose Transceiver specifications on page 107 Computer The ES60 Processor Unit is a commercial computer, and it may be purchased locally.
Simrad ES60 Related topics Colour display specifications on page 108 Software All echo sounder configurations run identical software. The software automatically adapts to the number and type of installed transceivers during power-on. Upon delivery, the software is installed on the computer, as well as supplied on a CD-ROM. Software updates are distributed on a CD-ROM. Printer A printer can be supplied, or purchased locally. Most standard off-the-shelf colour printers can be used.
Installation procedures General Purpose Transceiver installation The General Purpose Transceiver (GPT) is a self-contained unit. It can be mounted anywhere on board the vessel. It is however recommended to mount the GPT as close to the transducer(s) as possible in order to minimize the electrical interference in the transducer cable. The GPT is easily mounted with the brackets supplied with the unit. Preparations Two brackets and four pan head screws are enclosed.
Simrad ES60 5 Mount the General Purpose Transceiver (GPT) using the appropriate brackets. 6 Mount the unit to the surface using 5 mm bolts. External power supply In order to avoid electrical noise, certain GPT configurations are supplied with an external power supply. This supply is mounted by means of two brackets. Observe the outline dimension drawing.
Installation procedures ES60 Marine Computer installation The ES60 Marine Computer is an industrial computer. It is small, rugged, and contains no moving parts. This means that fans, hard disks and CD drives are omitted. The computer provides two ethernet sockets, four RS-232 serial lines and several USB connectors. The hard disk is replaced with a commercial 4 Gb flash disk. The ES60 Marine Computer is easily mounted with the brackets supplied with the unit.
Simrad ES60 CABLE LAYOUT This chapter describes the installation requirements for the Simrad ES60 Fish finding echo sounder cables. These instructions must be used together with the applicable cable plan. Note All electronic installations and corresponding wiring must be in accordance with the vessel’s national registry and corresponding maritime authority and/or classification society. If no such guidelines exist, we recommend that Det Norske Veritas (DNV) Report No.
Cable layout Cabling principles Cable identifications On the cable layout drawing and in the corresponding cable list(s), all cables are identified with individual cable numbers. Unless otherwise defined, each cable is identified with a Cxx number, where xx is an integer. References are made to dedicated cable drawings. If required, the shipyard or owner may also identify the cables according to their own system.
Simrad ES60 ES60 Cable plans Due to its modular design, the Simrad ES60 Fish finding echo sounder can be set up in a variety of configurations to suit individual needs for operational frequencies, split beam or single beam transducers and operational facilities. It is not practical to define specific cable plans for all these configurations. To illustrate the cabling, the following basic cable plans are provided: • Standard setup with one computer and one General Purpose Transceiver.
Cable layout Cable plan with one transceiver 1 A ES60/C9 ES60/C3 ES60/C6 ES60/C5 ES60/C1 B ES60/C19 ES60/C18 ES60/C4 ES60/C7A-n ES60/C2 ES60/C8A-n 2 ES60/C12 ES60/C14 (CD10212E) ES60/C10 ES60/C11 ES60/C19 ES60/C20 ES60/C13 C ES60/C16 ES60/C15 SIMRAD GPT ES60/C17 D E 304699/A 37
Simrad ES60 Cable plan with two transceivers 1 A ES60/C9 ES60/C3 ES60/C6 ES60/C5 ES60/C1 B ES60/C19 ES60/C18 ES60/C4 ES60/C7A-n ES60/C2 ES60/C12 ES60/C14 ES60/C8A-n (CD10212F) ES60/C22 2 ES60/C10 ES60/C11 ES60/C21 ES60/C21 F ES60/C19 ES60/C20 C C ES60/C13 ES60/C16 SIMRAD GPT SIMRAD GPT ES60/C13 ES60/C16 ES60/C15 D ES60/C15 ES60/C17 E 38 D ES60/C17 E 304699/A
Cable layout List of cables ES60/C01 - Keyboard This is a standard keyboard cable, and it is usually fixed to the keyboard. A keyboard is not provided with the Simrad ES60 Fish finding echo sounder system. If you wish to connect a keyboard, you must provide it yourself. The connection depends on the make and model of the computer. PS/2 and USB plugs are the most common types. The ES60 Marine Computer is provided with a single PS/2 connector to allow for both keyboard and mouse connection.
Simrad ES60 ES60/C05 - AC power to computer This normally a standard power cable, and it is provided with the computer. Ensure that the computer is set up to match the AC voltage you have available. Most computers will however operate on 115 Vac, 230 Vac or both. The ES60 Marine Computer is provided with a separate power supply. Cable details: 230 Vac power cable on page 50. ES60/C06 - AC power to the display This normally a standard power cable, and it is provided with the display.
Cable layout The number of serial line interfaces depends on your computer make and model. For a typical integration of the ES60 Fish finding echo sounder, we recommend that minimum three serial lines are available. If your computer can not support this, commercial RS-232/USB converters are available. The ES60 Marine Computer is provided with an adapter. This adapter allows you to connect four serial lines to the large interface socket on the rear panel of the computer.
Simrad ES60 ES60/C11 - External motion and temperature sensors The General Purpose Transceiver (GPT) will accept information from external motion and temperature sensors. The cable(s) must be supplied by the installation shipyard. If more than one General Purpose Transceiver (GPT) is used by the echo sounder system, the motion and temperature sensors are connected to only one of them. Cable details: GPT external sensors on page 60.
Cable layout If an Ethernet switch is used between the computer and the transceiver, “straight” cables must be used on either side of the switch. Cable details: • Ethernet cable with RJ45, “crossover” on page 53 • Ethernet cable with RJ45, “straight” on page 52 ES60/C15 - Ground This cable is used to connect the General Purpose Transceiver Unit (GPT) to ship’s ground. The cable must be supplied by the installation shipyard. Cable details: Ship’s ground on page 51.
Simrad ES60 Note The distance between the General Purpose Transceiver and the transducer(s) must be as short as possible to avoid interference and noise. If the distance between the transducer and the transceiver exceeds the length of the cable, a junction box must be used. The cable between the junction box and the transceiver must then be supplied by Simrad, and this must be the same type as used on the transducer(s). For more information, see Cable splicing on page 140.
Cable layout The New line feature is not used on the ES60. Cable details: GPT Event and New line on page 61. Additional information: GPT Auxiliary connector on page 96 ES60/C20 - Alarm output This output allows you to implement an alarm sounder or lamp to indicate an echo sounder alarm condition. The output on the General Purpose Transceiver only provides a positive (+5 Vdc) level unable to power any external devices directly.
Simrad ES60 Ethernet cable with RJ45, “straight” on page 52 Ethernet cable with RJ45, “crossover” on page 53 VGA/SVGA Display cable on page 54 USB cable on page 55 PS/2 Adapter for mouse and keyboard on page 56 Serial line adapter on page 57 GPT remote on/off on page 58 GPT trigger / synchronisation on page 59 GPT external sensors on page 60 GPT Event and New line on page 61 GPT Alarm output on page 62 GPT battery on page 63 Cable between ITI and echo sounder on page 64 Cable between PI44/54 and echo sound
Cable layout Generic RS-232 Serial line cable This cable comprises a multi purpose serial line. It provides interface with any peripheral unit. One end of the cable connects to the local unit (DTE) with a 9-pin D-sub connector, while the other connects to the peripheral (DCE) as described in the peripheral unit’s documentation. Note that in most cases, only the RXD, TXT and GND wires are used.
Simrad ES60 Commercial power supply This is a standard commercial power supply. The input is normally 115 and/or 230 Vac, while the output voltage and power capacity is set up to match the device it shall be used with. A large variety of these power supplies exist. Some will also have an in-line power “box”. These types will have an AC power cable on one side, and the DC output supply cable on the other. The power supply is fitted with plug to suit the national standard.
Cable layout External power supply for transceiver In order to suppress electric noise, certain echo sounder configurations require an external power supply. This power supply is the used instead of the 230 Vac power cable. Note The external power supply is not required for transceivers operating on 115 Vac. SIMRAD GPT +13.2 Vdc output 230 Vac input W319 Rev.
Simrad ES60 230 Vac power cable This is a commercial 230 Vac power cable for 2-phase power. One end is fitted with an IEC plug, the other with a standard European mains plug. This is a standard cable type supplied in different lengths. Neutral (normally Brown) IEC plug W320 Rev.
Cable layout Ship’s ground This cable is used to connect a system unit to the ship’s ground. Note that this cable must be as short as possible. To ship's ground Unit's ground tag W311 Rev.
Simrad ES60 Ethernet cable with RJ45, “straight” This cable is used to provide standard ethernet connections. Note that various categories exists. Cat.5 and Cat.6 cables are used in local area networks with bandwidth exceeding 100 Mbit Ethernet cables are available commercially in different lengths, colours and categories.
Cable layout Ethernet cable with RJ45, “crossover” This cable is used to provide standard ethernet connections. Note that various categories exists. Cat.5 and Cat.6 cables are used in local area networks with bandwidth exceeding 100 Mbit Ethernet cables are available commercially in different lengths, colours and categories.
Simrad ES60 VGA/SVGA Display cable This is a standard commercial SVGA/VGA display cable used to connect the video signals. The cable is normally physically attached to the display monitor, and it is provided with the plug readily attached. If it is supplied as a separate cable, it is fitted with plugs on either end.
Cable layout USB cable Just about any computer that you buy today comes with one or more Universal Serial Bus (USB) connectors on the back. These connectors let you attach everything from mice to printers to your computer quickly and easily. Since the operating system supports USB, installation of device drivers is also easy. In most cases, the USB cable is commercial, and they are normally supplied with the external devices, However, USB cables are also available commercially in different fixed lengths.
Simrad ES60 PS/2 Adapter for mouse and keyboard This is a commercial adapter. It allows you to connect a standard mouse (or other pointing device) and a keyboard simultanously into a PS/2 socket on a computer. The two sockets are marked with keyboard and mouse symbols to ensure correct connections. To PS/2 socket on computer Mouse and keyboard sockets W509 Rev.
Cable layout Serial line adapter This is a commercial adapter. It allows you to connect four RS-232 serial lines to a common socket on the computer. Female 9-pin D-connectors identified as "A" through "D" To socket on computer W510 Rev.
Simrad ES60 GPT remote on/off This cable is used to connect a remote on/off switch to the General Purpose Transceiver (GPT). The switch can be located in a separate box manufactured by the installation shipyard, or incorporated on a common switch panel. 25 13 Auxiliary connector (female) 14 1 SIMRAD GPT 25-pin D-sub connector 22 23 GPT Reset and Remote on/off The cable screen is connected to the plug house. "Remote" connector on display 22 23 The cable screen is connected to the plug house.
Cable layout GPT trigger / synchronisation This cable is used to connect the General Purpose Transceiver (GPT) to an external system for synchronisation purposes. It connects to the 25–pin D-sub connector on the front side of the GPT. 25 13 Auxiliary connector (female) 14 1 SIMRAD GPT 25-pin D-sub connector TrigOut(+) 12 TrigOut(-) 24 TrigIn(+) 13 TrigIn(-) 25 GPT The cable screen is connected to the plug house. W620B Rev.D Synchronisation / External trigger • Conductors: 2 x 2 x 0.
Simrad ES60 GPT external sensors This cable is used to connect the General Purpose Transceiver (GPT) to external motion and temperature sensors. It connects to the 25–pin D-sub connector on the front side of the GPT. 25 13 Auxiliary connector (female) 14 1 GPT 25-pin D-sub connector Pitch(+) 1 Pitch(-) 14 Roll(+) 2 Roll(-) 15 Heave(+) 3 Heave(-) 16 Temp(+) 4 Temp(AGND) 17 SIMRAD GPT The cable screen is connected to the plug house. W620C Rev.D External sensors • Conductors: 2 x 0.
Cable layout GPT Event and New line This cable is used to connect the General Purpose Transceiver (GPT) to external buttons for “Event” and “New line number” generation. Both cables connect to the 25–pin D-sub connector on the front side of the GPT. 25 13 Auxiliary connector (female) 14 1 GPT 25-pin D-sub connector New line 9 Ground 18 SIMRAD GPT Use a small spring loaded button, or connect to a negative pulse. New event 10 Ground 19 The cable screen is connected to the plug house.
Simrad ES60 GPT Alarm output This cable is used to connect the General Purpose Transceiver (GPT) to an external device for audible and/or visual alarms. The cable connects to the 25–pin D-sub connector on the front side of the GPT. 25 13 Auxiliary connector (female) SIMRAD 14 GPT 1 Connect the alarm output to a opto-coupler or a small relay. DO NOT attempt to power lamps or sounders directly! GPT 25-pin D-sub connector Alarm out 11 Ground 20 The cable screen is connected to the plug house.
Cable layout GPT battery This cable is used to connect a battery to the General Purpose Transceiver (GPT). Red plug and red socket is normally used for positive (+). Black plug and black socket is normally used for negative (-). Banana plugs and sockets + Battery W620E Rev.A GPT Battery • Conductors: 2 x 1.
Simrad ES60 Cable between ITI and echo sounder This cable is used to provide a two-way communication between the echo sounder and a ITI Trawl system. Plug panel on ITI Transceiver A Serial line connector "A" on ITI Transceiver Receive (Rx) Transmit (Tx) Ground W620F Rev.A Suitable serial line connector on echo sounder computer 2 3 5 2 3 5 Receive (Rx) Transmit (Tx) Ground Communication between ITI and echo sounder • Conductors: 9 x 2 x 0.
Cable layout Cable between PI44/54 and echo sounder This cable is used to provide a two-way communication between the echo sounder and a PI44 or PI54 catch monitoring system. A small circular marker identifies pin 1. View: Looking into the socket on the rear side of the cabinet = Wiring view of cable side on male and female plugs. W620G Rev.A (1) (7) (2) (6) (3) (5) (4) (8) Plug and connector manufacturer: www.conxall.
Simrad ES60 Cable between PI30/32 and echo sounder This cable is used to provide a two-way communication between the echo sounder and a PI30 or PI32 catch monitoring system. A small circular marker identifies pin 1. Plug and connector manufacturer: www.conxall.com View: Looking into the socket on the rear side of the cabinet = Wiring view of cable side on male and female plugs.
Cable layout Cable between SH/SP sonar and echo sounder This cable is used to provide a two-way communication between the echo sounder and a SP60, SP70, SP90, SH40 or SH80 sonar system. The Sonar Interface Unit is equipped with seven serial line communication ports. TB1 = COM2 TB3 = COM4 TB5 = COM6 TB7 = COM8 TB2 = COM3 TB4 = COM5 TB6 = COM7 TB4 TB1-3 TB5-7 Sonar Interface Unit TB1 - TB7 Receive (Rx+) Receive (Rx-) Transmit (Tx+) Transmit (Tx-) Ground W620I Rev.
Simrad ES60 Single beam, normal power transducer This is the termination of the transducer cable from a single frequency, single beam transducer to the transducer socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer. Normal power output (1 kW) is achieved when the GPT is equipped with a single transmitter board.
Cable layout Single beam, high power transducer This is the termination of the transducer cable from a single frequency, single beam transducer to the transducer socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer.
Simrad ES60 Dual beam (wide or narrow) transducer This is the termination of the transducer cable from a single frequency, dual beam transducer to the transducer socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer. Note Always check the transmit power if wide beam is selected in order not to exceed the power capacity on the transducer.
Cable layout Split beam transducer This is the termination of the transducer cable from a single frequency, split beam transducer to the transducer socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer.
Simrad ES60 Split beam transducer to single beam transceiver This is the termination of the transducer cable from a single frequency, split beam transducer - wired as a single beam transducer - to the socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer.
Cable layout Single beam transducer to split beam transceiver This is the termination of the transducer cable from a single frequency, single beam transducer to the socket on a split beam General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer. B A M C L D K E Transducer cable F H J Junction Box (1:1) (Optional) Screen W802-9 Rev.
Simrad ES60 Dual frequency, single beam transducer This is the termination of the transducer cable from a dual frequency, single beam transducer to the socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer.
Cable layout Deep water, split beam transducer This is the termination of the transducer cable from a deep water transducer. This transducer is designed to be used on submergibles, for example towed arrays. The cable is equipped with a watertight connector. The other end of the cable is permanently fixed to the transducer.
Simrad ES60 ES38–10 transducer This is the termination of the transducer cable from the ES38–10 split-beam transducer to the transducer socket on the ES60 and EK60 General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer. 2 3 B FWD 1 1 White Black 2 White Black 3 White Black M L D K E F H J Junction Box (1:1) (Optional) J H F E D C Screen W802-8 Rev.
Cable layout 12-16/60 transducer This is the termination of the transducer cable from the 12–16/60 single or dual beam transducer to the transducer socket on the General Purpose Transceiver Unit (GPT). The other end of the cable is permanently fixed to the transducer. Note Always check the transmit power if wide beam is selected in order not to exceed the power capacity on the transducer.
Simrad ES60 50/200 Combi C transducer This is the termination of the transducer cable from the 50/200 Combi C transducer. The transducer cable is terminated in a Multi-Con-X connector manufactured by Conxall (www.conxall.com). The other end of the cable is permanently fixed to the transducer. "Multi-Con-X" provided by www.conxall.com View: Looking into the socket on the rear side of the cabinet A small circular marker identifies pin 1.
Cable layout 38/200 Combi C transducer This is the termination of the transducer cable from the 38/200 Combi C transducer. The transducer cable is terminated in a Multi-Con-X connector manufactured by Conxall (www.conxall.com). The other end of the cable is permanently fixed to the transducer. "Multi-Con-X" provided by www.conxall.com View: Looking into the socket on the rear side of the cabinet A small circular marker identifies pin 1.
Simrad ES60 Basic cable requirements This section provides general information related to the installation of system cables. Cable trays All permanently installed cables associated with the system must be supported and protected along their entire lengths using conduits and/or cable trays. The only exception to this rule is over the final short distance (max. 0.5 metre) as the cables run into the cabinets/units to which they are connected.
Cable layout Radio Frequency interference All cables that are to be permanently installed within 9 m (30 ft) of any source of Radio Frequency (RF) interference such as a transmitter aerial system or radio transmitters, must, unless shielded by a metal deck or bulkhead, be adequately screened by sheathing, braiding or other suitable material. In such a situation flexible cables should be screened wherever possible.
Simrad ES60 Metallic casings, pipes and conduits must be grounded, and when fitted with joints these must be mechanically and electrically grounded locally. Cable connections All cable connections are shown on the applicable cable plan and interconnection diagrams. Where the cable plan shows cable connections outside an equipment box outline, the connections are to be made to a plug or socket which matches the plug or socket on that particular item of equipment.
Interfaces and integration INTERFACES AND INTEGRATION The Simrad ES60 computer provides one or more multi purpose RS-232 and Ethernet ports for external interfaces.
Simrad ES60 NMEA The National Marine Electronics Association (NMEA) has defined communication standards for maritime electronic equipment, and the ES60 echo sounder conforms to these standards. The most common standard is NMEA 0183, and the National Marine Electronics Association describes it as follows: • The NMEA 0183 Interface Standard defines electrical signal requirements, data transmission protocol and time, and specific sentence formats for a 4800 baud serial data bus.
Interfaces and integration • BI500 • General Purpose Transceiver BI500 interface The ES60 can communicate with an external devices that can benefit from the processed data. Such devices include the Olex chart plotter system. This communication is controlled by the BI500 dialogue box. The following telegrams may be exported: • Parameter • Echogram • Echo trace • Navigation • Vessel log The interface will require the absolute identity of the remote UDP port and the remote IP address.
Simrad ES60 The following basic configurations exist: • One transceiver: Use a “crossover” cable between the computer and the transceiver • Two or more transceivers: Use “straight” cables between the computer and the Ethernet switch, and between the switch and the transceivers. Wiring procedure, one transceiver 1 2 Locate the Ethernet port you wish to use on the computer. Connect a “crossover” cable from the computer’s Ethernet socket to the socket on the General Purpose Transceiver.
Interfaces and integration 10 11 Click Ok to exit the Local Area Connection Properties dialogue. Click Close to exit the Local Area Connection Status dialogue. Setting up the General Purpose Transceiver(s) Note that you will only need to perform this procedure the first time you switch on the echo sounder. 1 Start the ES60 application. 2 Open the Install menu, and select Transceiver installation. 3 Click Modify to change the settings.
Simrad ES60 2 3 4 On the ES60 computer, connect the receive signal Rx on pin 2, the transmit signal Tx on pin 3, and ground on pin 5. On the ITI transceiver, use connector Serial A. Connect the receive signal Rx on pin 2, the transmit signal Tx on pin 3, and ground on pin 5. Ensure that the length of the cable does not exceed approximately 50 meters. If a longer cable is required, you may need to use buffer amplifiers on the serial line.
Interfaces and integration 2 On the ES60 computer, connect the receive signal Rx on pin 2, the transmit signal Tx on pin 3, and ground on pin 5. 3 On PI44 and PI54, use either connector NMEA1 or NMEA2. Connect the receive signal Rx on pin 8, the transmit signal Tx on pin 6, and ground on pins 7 and 9. 4 On PI30 and PI32, use connector NMEA. Connect the receive signal Rx on pin 3, the transmit signal Tx on pin 1, and ground on pins 2 and 4.
Simrad ES60 Navigation system interface GPS (Global Positioning System) receivers output NMEA 0183 telegrams containing geographical latitude and longitude. Most navigation receivers also allow different parameters to be entered. Wiring procedure 1 2 3 4 Locate a free RS-232 serial port that can be used to connect the navigation receiver. On the ES60 computer, connect the receive signal Rx on pin 2, and ground on pin 5. On the GPS system, connect the transmit signal Tx on pin 3, and ground on pin 5.
Interfaces and integration Wiring procedure, analogue sensor 1 On the ES60 Fish finding echo sounder, connect the positive signal from the sensor to pin 3 on the Auxiliary connector on the General Purpose Transceiver. 2 Connect the negative signal from the sensor to pin 16 on the Auxiliary connector. • The negative heave input signal (pin 16) is grounded at the sensor in order to prevent ground potential offsets between the sensor and the transceiver from adding to the sensed signal.
Simrad ES60 Temperature sensor interface The ES60 Fish finding echo sounder will accept input from an analogue temperature sensor. If more than one transceiver is used by the echo sounder system, the temperature sensor is connected to only one of them. Wiring procedure 1 On the ES60 Fish finding echo sounder, connect the positive signal from the sensor to pin 4 on the Auxiliary connector on the General Purpose Transceiver.
Interfaces and integration Wiring procedure 1 2 3 4 Locate the RS-232 serial port that can be used to connect the sonar system. On the ES60 computer, connect the transmit signal Tx on pin 3, and ground on pin 5. On the Sonar Interface Unit, use one of the serial line connectors TB1 through TB7. Connect the receive signal Rx on pin 1, and ground on pin 5. Ensure that the length of the cable does not exceed approximately 50 meters.
Simrad ES60 Cable between SH/SP sonar and echo sounder on page 67 Depth interface The current depth from a defined transceiver channel can be sent out on a serial line. In order to economize with the serial ports, you can only use the serial lines already set up to accept input from other peripherals.
Interfaces and integration 9 Click Telegram to choose which format to use on the output communication. • The $SDDBS telegram contains the depth below the surface. • The $SDDBT telegram contains the depth below the transducer. • The $SDDPT telegram contains the depth below the transducer and the distance between the transducer and the water line. • The Simrad telegram outputs information compatible for EA500 and EK500 echo sounders.
Simrad ES60 used by the Master system, the TrigOut signal must be taken from the active transceiver. Two TrigOut signals are available for either positive or negative triggering. When activate, the trigger signal will allow all the systems to transmit simultaneously. Note Simultaneous transmission of more than one system can only take place if the systems operate with different frequencies! The TrigOut+ signal is an open collector output (max 100 mA) containing a 100 kohm pullup resistor to +5 Vdc.
Interfaces and integration Not used 1 Not used 2 HeaveIn+ 3 TempIn+ 4 +12 Vdc 5 -12 Vdc 6 +5 Vdc 7 Not used 8 Not used 9 Event In 10 Alarm Out 11 TrigOut+ 12 TrigIn+ 13 14 Not used 15 Not used 16 HeaveIn- 17 TempIn- 18 Ground 19 Ground 20 Ground 21 Ground 22 Ground 23 RemoteIn 24 TrigOut- 25 TrigIn- SIMRAD GPT Interfaces on the Auxiliary plug • Analogue heave sensor (pins 3 and 16) – One differential input is connected to the sensor output terminal, the
Simrad ES60 • Transmit synchronisation (pins 12, 13, 23, 24 and 25) – TrigIn and TrigOut are digital signals provided for transmit synchronisation with external equipment of various makes. – The two TrigOut signals are open collector outputs (max 100 mA) containing a 100 kohm pull-up resistor to +5 Vdc. – TrigOut+ is normally low, and TrigOut- is the logical inverse of TrigOut+. – In internal trigger mode the sounder starts transmitting as soon as it is ready for the next ping.
Drawing file DRAWING FILE This chapter contains relevant drawings related to the electrical and physical installation of the ES60 Fish finding echo sounder. Note The mechanical drawings are for information and guidance only. They are not in scale. All dimensions are in mm unless otherwise is noted. The original installation drawings are available on PDF and/or AutoCad’s DWG format. Visit www.simrad.com to download.
Simrad ES60 GPT Outline dimensions 284 Auxiliary Ethernet Transducer 84 TX RX POWER +5V +12V -12V HV1 HV2 Fuse 10A 115-230 VAC Fuse 2A Ethernet 112.2 (Cut-out 113) 112.2 (Utkapp 113) IO 12 VDC DSP-6X General Purpose Transceiver S1 S2 308 324 264 258 Cut-out 298 Utkapp 298 For panel mounting, use countersunk head screws: M5 machine screws, 4.8 mm plate screws or 5 mm wood screws. Ved panelmontering benyttes skruer med senkhode: Maskinskruer M5, 4.8 mm plateskruer eller 5 mm treskruer.
Drawing file Available for service Adkomst for vedlikehold 300 Mounting examples Monteringseksempler Hints for installation: - Remember the earth connection on the rear panel. - All other connections are made on the front panel. - Try to make the wiring simple. - Remember to make room for maintenance. - All maintenance is made from the front. - The front panel should be visible. Tips for installasjon: - Husk jordtilkopling på bakpanelet. - Alle andre tilkopling gjøres på frontpanelet.
Simrad ES60 GPT Power supply outline dimensions 140 19,3 25,6 110 65 190 130 15 125 Note: All measurements are in mm. The drawing is not in scale. 102 CD010215C Page 1 of 2 305274 Rev.
Drawing file 62 130 190 30 54 Note: All measurements are in mm. The drawing is not in scale. 304699/A CD010215C Page 2 of 2 305274 Rev.
Simrad ES60 Marine computer outline dimensions 80 86 268 86 264 80 219 207 195 184 224 Note: All measurements are in mm. The drawing is not in scale. 104 CD010218A Page 1 of 1 Rev.
Drawing file GPT Transducer plug connection Upper plug case Plug fastening ring Contact body Retaining ring Outer screen and inner screen braid wire untaped and spread out under washer Outer screen together with inner screen. Drain wire, fold back over jacket and temporary fastened with tape. Heat-shrinkable tubing Lower plug case Washers Bottom cap and cable clamp Rubber sleeve Rubber sleeve Note: All measurements are in mm. The drawing is not in scale.
Simrad ES60 TECHNICAL SPECIFICATIONS This chapter lists the main technical specifications. Note We reserve the right to alter technical specifications without prior notice.
Technical specifications • Outputs: – Echogram printer (Centronics parallel or USB depending on computer make and model) – Bottom depth (Serial line, NMEA format) – Depth data (Serial line, NMEA, Simrad or Atlas formats) • Inputs: – Navigation receiver (Serial line, NMEA format) – Motion sensor (Heave, roll and pitch) – Analogue heave, roll and pitch (+/- 10 V) – Annotation – Transmit synchronization – Temperature sensor • Remote control toggle switch: – Survey Line – Remote power – Transmit synchronizatio
Simrad ES60 • Weight: – With one transmitter board: 2.7 kg – With two transmitter boards: 3.3 kg – With three transmitter boards: 4.5 kg • Standard supply power: – AC operation: 95 to 265 Vac, 50-60 Hz, 50-100 W – DC operation: 11 to 15 Vdc, 50-100 W • External power supply for specific configurations: – AC input: 230 Vac, 50–60 Hz – DC output: 13.
Technical specifications • Processor and memory: – Procesor: Celeron® M – Clock frequency: 1.3 GHz – Front Side Bus (FSB): 400 MHz – Chipset: Intel® 852 GM(E) – RAM: 512 Mb (Max 2 Gb) – Hard disk: 4 Gb FlashDisk – PCI support: One card • Interfaces: – USB 2.
Simrad ES60 TRANSDUCER INSTALLATION The purpose of this chapter is to provide generic descriptions and illustrations allowing the reader to understand the basic principles for echo sounder transducer installation. Note The information in this document must be regarded as general guidelines and recommendations only. The installation shipyard must design and manufacture installation hardware to fit each individual transducer and vessel.
Transducer Installation Not only will the sound transmission be blocked, but the transducer may be damaged by slamming against the sea surface. Another reason to go deep is cavitation in front of high power transducers. Cavitation is the formation of small bubbles in the water due to the resulting local pressure becoming negative during parts of the acoustic pressure cycles. The cavitation threshold increases with the hydrostatic pressure. Vessel heave Heave is the up and down movement of the vessel.
Simrad ES60 (CD17004P) A B C Boundary water layers: (A) = Turbulent flow (B) = Laminar flow (C) = Air bubbles in the water Furthermore, air bubbles in the sea water are pressed down below the hull and mixed into the boundary layer. The boundary layer is thin underneath the forward part of the vessel, and increases in thickness as it moves towards aft. If the sides of the hull are steep, some of the air bubbles in the boundary layer may escape to the sea surface along the vessel sides.
Transducer Installation upper position and release this in the lower position. Therefore, an echo sounder transducer should be placed well away from the bow thruster. Inclination of the transducer face Ideally, the transducer face should be mounted in parallel with the sea surface when the vessel is in normal trim, as this will provide the most accurate echo information. However, it is also very important that the water flow over the transducer face is laminar.
Simrad ES60 (CD17004C) If the vessel hull has a bulbous bow, this may well be a good transducer location, but also here must be taken into consideration the flow pattern of the aerated water. Often the foremost part of the bulb is preferable. A B Recommended location of the transducer on a bulbous hull: (A) = Thruster (B) = Transducer location Ways of mounting the transducer There are many different ways to mount the transducer.
Transducer Installation External mounting Certain transducers have a streamlined housing, and these are designed for installation outside the hull. These transducers are mainly used on smaller vessels. A location approximately 0.5 m aside from the keel may be adequate for the passage of water between the keel and the transducer. The figures illustrate external mounting of transducers on steel hulls and on wood or polyester hulls respectively.
Simrad ES60 Steel hull A fairing (A), made by the shipyard, is placed between the transducer and the hull. It is required in order to adapt for the deadrise angle of the hull, and it will also house a cable service loop (B). The fairing can be made of wood or steel, and should have the same outline dimensions as the transducer. Remember to create an air outlet (E) on the fairing, and to fill the bolt holes with a filling compound to ensure a smooth transducer surface.
Transducer Installation Wood or polyester hull A fairing (A), made by the shipyard, is placed between the transducer and the hull. It is required in order to adapt for the deadrise angle of the hull, and will also house a cable service loop (B). The fairing is made from wood, polyester or steel, and should have the same outline dimensions as the transducer. Use tarred felt (H) between the fairing and the hull.
Simrad ES60 Hull with flat bottom If the vessel’s hull is flat you do not need a fairing. The transducer is then be bolted directly to the hull using two bronze or stainless steel bolts (I) and a cable bushing. Note that the cable bushing must be mounted with proper gaskets (4) under and over the hull, as well as sealing compound (J) around its body. Also, fill the bolt holes with a filling compound to ensure a smooth transducer surface.
Transducer Installation Toe-in The primary consideration must be to allow laminar water flow. In most cases this is achieved by placing the transducer (A) parallel with the keel (C). However, if the transducer is located close to the bow, the front of the transducer may have a few degrees (5 to 8°) toe-in towards the bow. If you have a planing hull, the toe-in must be 0°.
Simrad ES60 Transducer blister With a transducer with circular housing, one recommended installation method is by using a blister. The transducer blister must be designed and manufactured by the installation shipyard to fit the vessel’s size and hull shape. Mounting and clamping rings Circular transducers may be provided with mounting and clamping rings, or with drawings to allow for local production of these.
Transducer Installation Example: Large transducer The illustration below shows a typical transducer blister designed for a large transducer. Note that due to the physical size of the transducer, a U-shaped support bar (E) is used to support the transducer. The purpose of this support is to prevent the transducer from being pushed up into the blister in heavy seas.
Simrad ES60 Example: Small transducer The illustration below shows a typical transducer blister designed for a small transducer. The same blister design principles as for a large transducer apply. E E A B (CD017010B) F G C D (A) = Streamlined blister (E) = Air outlet (B) = Mounting ring (F) = Forward (C) = Clamping ring (G) = Transducer cable (D) = Guide Note that the transducer cable must be provided with a cable loop inside the blister. Observe the vertical forward edge of the blister.
Transducer Installation Example: Medium sized transducer without clamping ring The illustration below shows a transducer blister designed for a medium sized transducers. The same blister design principles apply. Note that the transducer is mounted without a clamping ring, which makes it necessary to use a different mounting ring design.
Simrad ES60 Common guidelines The best performance is obtained with a blister height of 40 cm or more. A streamlined shape and rounded edges reduce the flow noise. A vertical leading edge or front will guide the aerated water to the sides of the blister. The orientation of the blister should follow the water flow. The interior of the blister must be filled with sea water. Use drainage holes in the bottom and an air outlet on the top.
Transducer Installation Observe the horizontal and vertical distances (X and Y) between the keel and the transducer blister. On a medium sized vessel, the horizontal distance (X) should be approximately 1 meter. The vertical distance (Y) must in general be as small as possible. This is important to prevent the keel from shadowing the transducer beam in shallow waters.
Simrad ES60 Box keel Vessels with a box keel may use this for transducer installation. The box keel is already the deepest part of the vessel. If the box keel is too narrow to accommodate the transducer, it can be widened, either symmetrically or to one side only. In the last case the installation could also be described as a blister merged into the keel.
Transducer Installation Example (CD17011A) The figure below illustrates a symmetrical box keel installation.
Simrad ES60 Flush mounting in a steel tank Flush mounting is used on very large vessels with a hull so deep that no air bubbles are found below the hull, and on vessels operating in shallow harbours or waters, where a protruding blister can not be accepted. The standard procedure for flush mounting on a steel vessel is to weld a steel tank inside the hull, and mount the transducer into this tank.
Transducer Installation Example Transducer mounting in a steel tank is shown in the figure below.
Simrad ES60 Acoustic window Vessels operating in arctic waters need special attention on transducer installation. Floating blocks of ice may damage even a flush mounted transducer face. For this situation Simrad offers arctic tanks in different sizes. Mounting and clamping rings Circular transducers may be provided with mounting and clamping rings, or with drawings to allow for local production of these.
Transducer Installation Example The transducer shown in the figure below is mounted inside the tank behind a strong acoustic window which could be made of polycarbonate. The tank is filled with oil.
Simrad ES60 Inside the hull The transducer can also be mounted inside the hull. An installation of the transducer inside the hull, and sounding through the hull, requires a good acoustic contact between the transducer face and the hull. Build a tank around the transducer and fill it with a liquid. Oil used in hydraulic systems is a well suited liquid for this purpose. It contains no gas bubbles and is non-corrosive.
Transducer Installation Example The transducer shown in the figure below is mounted inside the hull. The tank is filled with oil.
Simrad ES60 Drop keel The use of a drop keel with the purpose of stabilising the vessel is well known. A drop keel is also a superior platform for echo sounder transducers. Such instrument keels have been built, mainly on research vessels, often protruding as far as three meters below the hull. At that depth, the water is free of air bubbles up to very high sea states. The vessel is then able to perform reliable acoustic measurements in open sea a larger part of the year.
Transducer Installation Retractable transducer Hull units allowing the transducer to be lowered and hoisted are commonly used for horizontal looking sonars. When not in use, the transducer is retracted into a trunk. The retractable hull unit is more expensive than a blister, but on vessels with a hull where it is difficult or impossible to install a blister, it may still be worth while. The principles of a hull unit with a retractable transducer is shown below.
Simrad ES60 Cable glands The transducer cable must pass through the hull using approved cable glands for the type of vessel in question. A steel cable gland is normally used on professional vessels with steel hulls. A bronze cable gland can be delivered as an option for vessels with wood or fibreglass hulls. Vessel not to be classified can as an option use a cable gland made of plastic.
Transducer Installation Cable gland for steel hulls This cable gland kit is designed for steel vessels. It must be welded to the hull plates. F ø35 A A ø65 B C D C E (CD17008A) (A) = Steel conduit (B) = Stuffing tube, DNV approved carbon steel st52.3 (C) = Washers (D) = Rubber gasket (E) = Packing nipple.
Simrad ES60 Cable gland for wood or GRP hulls A bronze cable gland kit is available for wood and GRP vessels. F A E B C B C D C B (CD17008B) (A) = Packing nipple. Make sure that you do not damage the transducer cable by tightening the packing nipple too hard! (B) = Washers (C) = Rubber gaskets (D) = Hole diameter 28 mm (E) = Steel conduit (F) = Cable to the echo sounder (or a junction box) The cable gland kit includes all of the necessary parts needed to install the unit except screws.
Transducer Installation Cable glands for small hulls This cable glands made of plastic is designed for those smaller vessels that do not need to be classified. J A B A C D E F (CD17008C) G H I (A) = Packing nut (bronze). Ensure that you do not to damage the transducer cable by tightening the packing nut too hard! (B) = Rubber gasket (C) = Plastic disk (D) = Rubber gasket (E) = Stuffing tube (F) = Backing nut (bronze) (G) = Backing washer (plastic) (H) = O-ring 42.5 x 3.0 N (I) = O-ring 39.5 x 3.
Simrad ES60 Cable splicing If you need to cut or lengthen the transducer cable, you must splice it correctly. The cable between the junction box and the transceiver must then be supplied by Simrad, and this must be the same type as used on the transducer(s). Note Do not solder the wires together with only electrical tape for insulation, as this will result in electrical noise and reduced operational performance. To splice the cable, use a metal junction box with EMC cable glands and a terminal block.
Transducer Installation • minimum 6 mm wall thickness (4.5 mm if galvanised) If two or more transducers are installed close to each other it is possible to pull their cables in the same steel conduit, provided the conduit diameter is increased accordingly. However, for easy replacement it is recommended that each transducer has its own steel conduit. Handling and maintenance Note Do not lift the transducer by the cable. Do not expose the transducer to direct sunlight.
Simrad ES60 Approved anti-fouling paints This is Simrad’s list of approved antifouling paints on polyurethane transducer housing. Jotun Head office address: P.O.Box 2021, N-3248 Sandefjord, Norway Website: www.jotun.com. 1 Racing 2 Non-stop 3 Safeguard Universal primer (125 micron) with Antifouling SeaQuantum Ultra (125 micron) 4 Antifouling Seaguardian International Marine Coatings Address: World-wide offices Wesite: www.international-marine.com.
Simrad transducers SIMRAD TRANSDUCERS This chapter presents a list of all the current Simrad transducers. For each transducer, information is provided to establish: • the transducer type and frequency • the opening angle(s) • the order number for the transducer • the order number for the transducer cable • how it is connected to the General Purpose Transceiver (GPT) unit This list was correct at the time of writing. However, new transducers are frequently added to the product range.
Simrad ES60 All 12 kHz transducers The following 12 kHz transducers are available. Simrad 12-16/60 • Type and frequency: Single or dual beam, 12 kHz • Opening angle: 16° or 60° (Passive) • Typical applications: Fish finding, hydrographic and scientific echo sounders • Order number, transducer: KSV-089510 • Order number, transducer cable: 642-022491 • GPT connection: 12-16/60 transducer on page 77 All 18 kHz transducers The following 18 kHz transducers are available.
Simrad transducers • Order number, transducer: KSV-067159 • Order number, transducer cable: 642-022491 • GPT connection: Dual beam (wide or narrow) transducer on page 70 All 38 kHz transducers The following 38 kHz transducers are available.
Simrad ES60 • Order number, transducer cable: 642-078215 • GPT connection: Split beam transducer on page 71 Simrad ES38B • Type and frequency: Split beam, 38 kHz • Opening angle: 7° • Typical applications: Fish finding and scientific echo sounders • Order number, transducer: KSV-074531 • Order number, transducer cable: 642-075072 • GPT connection: Split beam transducer on page 71 Simrad ES38DD • Type and frequency: Split beam, 38 kHz • Opening angle: 7° • Typical applications: Scientific echo sounders, t
Simrad transducers Simrad 38/200 Combi W • Type and frequency: Dual frequency single beam, 38 and 200 kHz • Opening angle: 31 x 31° and 31 x 31° • Typical applications: Fish finding echo sounders • Order number, transducer: KSV-208845 • Order number, transducer cable: 642-078215 • GPT connection: Dual frequency, single beam transducer on page 74 All 50 kHz transducers The following 50 kHz transducers are available.
Simrad ES60 Simrad 50/200 Combi C • Type and frequency: Dual frequency single beam, 50 and 200 kHz • Opening angles: 10 x 16° and 7 x 7° • Typical applications: Fish finding echo sounders, Catch monitoring systems • Order number, transducer: KSV-202193 • Order number, transducer cable: 642–078215 • GPT connection: 50/200 Combi C transducer on page 78 Simrad 50/200 Combi D • Type and frequency: Dual frequency single beam, 50 and 200 kHz • Opening angles: 10 x 16° and 7 x 7° • Typical applications: Fish fi
Simrad transducers All 120 khz transducers The following 120 khz transducers are available.
Simrad ES60 • Order number, transducer: KSV-110553 • Order number, transducer cable: 642-078215 • GPT connection: Split beam transducer on page 71 Simrad ES120-7G • • • • • • Type and frequency: Split beam, 120 khz Opening angle: 7° Typical applications: Scientific echo sounders Order number, transducer: KSV-112101 Order number, transducer cable: 642-078215 GPT connection: Split beam transducer on page 71 Simrad ES120-2,5x10 • • • • • • Type and frequency: Split beam, 120 kHz Opening angle: 2,5 x 9,5°
Simrad transducers Simrad 200-7F • • • • • • Type and frequency: Single beam, 200 kHz Opening angle: 7° Typical applications:Hydrographic echo sounders Order number, transducer: KSV-065414 Order number, transducer cable: 642-016604 GPT connection: Single beam, normal power transducer on page 68 Simrad 200-7G • Type and frequency: Single beam, 200 kHz • Opening angle: 7° • Typical applications: Hydrographic and scientific echo sounders, Portable • Order number, transducer: KSV-210895 • Order number, tr
Simrad ES60 • • • • Typical applications: Fish finding and scientific echo sounders Order number, transducer: KSV-202718 Order number, transducer cable: 642-075072 GPT connection: Split beam transducer on page 71 Simrad ES200-7C • • • • • • Type and frequency: Split beam, 200 kHz Opening angle: 7° Typical applications: Fish finding and scientific echo sounders Order number, transducer: KSV-203003 Order number, transducer cable: 642-078215 GPT connection: Split beam transducer on page 71 Simrad 38/200
Simrad transducers • GPT connection: Single beam, normal power transducer on page 68 304699/A 153
Simrad ES60 12 kHz transducers Simrad 12-16/60, 144 120 khz transducers Simrad 120-25, 149 Simrad ES120-2,5x10, 150 Simrad ES120-4x10, 150 Simrad ES120-7, 149 Simrad ES120-7C, 149 Simrad ES120-7DD, 149 Simrad ES120-7F, 149 Simrad ES120-7G, 150 12–16/60 transducer connection, 77 18 kHz transducers Simrad 18–11, 144 Simrad ES18, 144 200 kHz transducers Simrad 200-28E, 151 Simrad 200-35F, 151 Simrad 200-7C, 150 Simrad 200-7F, 151 Simrad 200-7G, 151 Simrad ES200-7, 151 Simrad ES200-7C, 152 27 kHz transducers S
Index mains power, ethernet switch, 45 mains power, GPT, 43 mains power, transceiver, 43 monitor, 39 motion sensor, 42 mouse, 39 network, 44 new line button, 61 PI30 / Echo sounder, 66 PI32 / Echo sounder, 66 PI44 / Echo sounder, 65 PI54 / Echo sounder, 65 Pitch sensor, 60 power supply, transceiver, 49 printer, 39 PS/2 adapter, 56 remote on/off, 42, 58 Roll sensor, 60 RS-232, 40 RS-232 generic, 47 serial line adapter, 57 serial lines, 40 ship’s ground, 51 Single beam transducer, 68–69, 73 Sonar / Echo soun
Simrad ES60 ES38–10 Transducer connection, 76 ES60/C01 cable, 39 ES60/C02 cable, 39 ES60/C03 cable, 39 ES60/C04 cable, 39 ES60/C05 cable, 40 ES60/C06 cable, 40 ES60/C07 cable, 40 ES60/C08 cable, 41 ES60/C09 cable, 41 ES60/C10 cable, 41 ES60/C11 cable, 42 ES60/C12 cable, 42 ES60/C13 cable, 42 ES60/C14 cable, 42 ES60/C15 cable, 43 ES60/C16 cable, 43 ES60/C17 cable, 43 ES60/C18 cable, 44 ES60/C19 cable, 44 ES60/C20 cable, 45 ES60/C21 cable, 45 ES60/C22 cable, 45 ESD, what is it?, 24 Ethernet cable, 42, 45 cro
Index cable, 39 Lifting equipment, 15 Location recommendation, 113 transducer, 110 M Mains power, computer cable, 40 Mains power, display cable, 40 Mains power, ethernet switch cable, 45 Mains power, GPT cable, 43 Mains power, transceiver cable, 43 Maintenance, 141 Marine computer outline dimensions drawing, 104 Marine Computer installation, 33 Marine computer outline dimensions drawing, 104 Master system, 95 Mechanical drawings, approval, 9 Mechanical drawings, specific, 9 Monitor cable, 39 Motion sensor
Simrad ES60 Simrad PI44 interface, 88 Simrad PI54 interface, 88 Simrad SH40 interface, 92 Simrad SH80 interface, 92 Simrad sonars interface, 92 Simrad SP60 interface, 92 Simrad SP70 interface, 92 Simrad SP90 interface, 92 Single beam transducer 120-25, 149 18–11, 144 200-28E, 151 200-35, 151 200-7C, 150 200-7F, 151 200-7G, 151 38–7, 145 38–9, 145 50-18, 147 50-18POR, 147 50-7, 147 710-36E, 152 connection, 68–69, 73 Single or dual beam transducer 12–16/60, 144 Slave system, 96 Sonar cable, 67 Sonar system i
Index Transducer ES70-7C, 148 Transducer plug drawing, 105 Transmit synchronisation, 95 Transportation equipment, 15 Trigger external, 95 master system, 95 slave system, 96 TrigIn, 96 TrigOut, 95 Two-way communication lines, 87 U Uninterruptable Power Supply, 13 Universal Serial Bus cable, 41 Unpacking equipment, 18 USB cable, 41, 55 V Vessel heave, 111 W Water filled flush mounting, 128 Water temperature sensor interface, 92 Wiring general requirements, 14 Wooden hull external mounting, 117 304699/A
ISBN-10: 82-8066-072-0 ISBN-13: 978-82-8066-072-5 ©2006 Simrad Simrad Horten AS Strandpromenaden 50 P.O.Box 111 N-3191 Horten, Norway Telephone: +47 33 03 40 00 Telefax: +47 33 04 29 87 www.simrad.com simrad.sales@simrad.
