S4 RESCUE SART
Contents
1. 16 End of Life Statement 17 Battery Removal 17 O 17 Page 1 1 General Description The SART Search And Rescue Transponder is designed for survivor location during search and rescue operations CARRY OFF SART Supplied as one integral unit This is normally mounted in a bulkhead bracket supplied which is used to stow the unit on the mother vessel On abandoning to a survival craft the SART can be carried in one hand off the stricken vessel and mounted through a port in the canopy of the liferaft using the telescopic pole The main body of the SART is high visibility orange thermoplastic attached to the sealed replaceable battery pack by stainless steel fastenings The joint is sealed against water ingress by an O ring Operation is by a rotating switch ring providing ON OFF and TEST functions The ON position is reached by breaking a security tab The switch ring is spring loaded so that it returns automatically from the TEST position The Lithium battery is fitted with internal overload protection and has a five year storage life Non reversible electrical connections are provided in the SART body and battery pack to facilitate battery replacement Each SART carries a unique serial number and this can be located on the label affixed to the orange body LIFERAFT SART Supplied with or without mast Normally is packed as part of the liferaft equipment The mast2. radar like echoes from objects further away A series of dots is therefore shown leading away from the position of the SART This distinctive pattern is much easier to spot than a single echo such as from a radar reflector Moreover the fact that the SART is actually a transmitter means that the return pulses can be as strong as echoes received from much larger objects A complication arises from the need for the SART to respond to radars which may be operating at any frequency within the 9GHz band The method chosen for the SART is to use a wideband receiver which will pick up any radar pulses in the band in conjunction with a swept frequency transmitter Each radar pulse received by the SART results in a transmission consisting of 12 forward and return sweeps through the range 9 2GHz to 9 5GHz The radar will only respond to returns close to its own frequency of operation i e within its receive bandwidth so a pulse is produced at the radar input each time the SART sweep passes through the correct frequency The text and diagrams on Page 14 show this in more detail A slow sweep would give the radar a stronger echo to deal with as the sweep would be inside the operating bandwidth for a longer period The delay for the sweep to reach the operating frequency may however lead to an unacceptable range error as delayed echoes appear to be coming from more distant objects To minimise this problem the SART uses a sawtooth response sweeping
3. Directive aims to minimise any adverse impact of electronic equipment on the environment both during the product lifetime and when it becomes waste Within the European Union this legislation is mandated by Directive 2002 96 EC and there is similar legislation in most other continents The directive applies to all electronic products such as IT household appliances portable electronics etc and imposes requirements to collect treat recover and recycle each product at its end of life Electronic end user products must also carry a WEEE label as below and recovery and recycling information has to be provided to the recycler This SART product contains traces of lithium in the battery pack In addition it may contain lead and brominated flame retardants BFRs both in the housing material and circuit boards In keeping with the directive Orolia Ltd strongly recommends that this SART product and its battery pack be disposed of in a sensible and considerate manner For example do not simply discard the product in the domestic waste Instead take itto a civil recycling facility or contact Orolia Ltd for advice This page is intentionally blank Page 17 Page 18 This page is intentionally blank Page 19 Orolia Ltd Silver Point Airport Service Road Portsmouth PO3 5PB United Kingdom Phone 44 0 23 9262 3900 Fax 44 0 23 9262 3998 Email service mcmurdo orolia com Website www mcmurdomarine com An Orolia Group Busines
4. Some sets have automatic manual anti clutter rain control facilities in which case the operator should switch to manual 13 9 Radar Displays These sketches show the appearance of a SART response at different ranges SART response SART response SART response from distant from liferaft at closeto vessel liferaft 5 6 miles medium range 2 3 lt 1 mile miles Display now Note widening of shows fringso hechoes caused by strength of signal S Page 14 14 Technical Specification FREQUENCY 9 2GHz 9 5GHz POLARIZATION Horizontal SWEEP RATE 5 s per 200MHz nominal RESPONSE 12 sweeps SIGNAL FORM OF SWEEP Forward 75 s 1s Reverse 0 4 s 0 1s PULSE EMISSION 100 s nominal EIRP gt 400mW 26dBm RX SENSITIVITY Better than 50dBm 0 1 mW m Note 1 DURATION 96 hours in standby condition followed by a minimum 8 hours of transmission while being continuously interrogated with a pulse repetition frequency of 1kHz TEMP RANGE Operating 20 C to 55 C Storage 30 C to 65 C RECOVERY TIME Following excitation 10 s or less ANTENNA HEIGHT Greater or equal to 1m Note 2 RESPONSE DELAY 0 5 sor less ANTENNA BEAM Vertical 12 5 degrees Azimuth Omnidirectional to 2dB WEIGHT SART only 3609 SART pole 510g SART complete 530g DIMENSIONS Overall in bracket 283 x 101 x 90mm BUOYANCY Buoyant Note 1 Effective
5. T The Radar operating manual should be consulted about the particular radar parameters and bandwidth selection 13 4 Radar Side Lobes As the SART is approached side lobes from the antenna may show the SART responses as a series of arcs or concentric rings These can be removed by the use of the anti clutter sea control although it may be operationally useful to observe the side lobes as these will confirm that the SART is near to the ship 13 5 Detuning the Radar To increase the visibility of the SART in clutter conditions the radar may be detuned to reduce the clutter without reducing the SART response Radar with automatic frequency control may not permit manual detuning of the equipment Care should be taken in operating the radar detuned as other wanted navigational and anti collision information may be removed The tuning should be returned to normal operation as soon as possible 13 6 Gain For detecting the SART at maximum range the radar should be adjusted to its maximum gain setting Page 13 13 7 Anti Clutter Sea Control For optimum range SART detection this control should be set to the minimum Care should be exercised as targets in sea clutter may be obscured Some radar sets have automatic manual anti clutter sea control facilities in which case the operator should switch to manual 13 8 Anti Clutter Rain Control This should not be used when trying to detect SARTs as the SART responses may be removed by this control
6. ally on the ship s bridge wing The SART should be mounted where it will not get in the way of day to day operations but where it can readily be accessed near an emergency exit in the event it is needed Do not install the SART within the ship s radar beam Fix the mounting bracket to a bulkhead in a convenient location The recommended fixing is by M5 marine grade stainless steel e g A4 316 bolts length is dependent upon application The bolts should be secured with either stainless steel locking nuts or stainless steel nuts with stainless steel shake proof washers Mount the SART dome uppermost onto the bracket by locating the lugs on the SART pole mount into the slots in the bracket Push the SART down firmly into place 58mm 73mm Figure 1 Bracket mounting holes 4 holes 5 5mm diameter NOTE Safe compass distance 1 5m Page 5 4 SART General Assembly 5 Operating instructions Remove from bulkhead bracket Lift SART away from bracket To switch on Break the security tab away from the body of the SART Rotate the switch ring clockwise i e to the left to the ON position marked by 1 Switch ring Security tab To extend the telescopic pole 1 Grasp rubber cover at bottom of pole and twist the pole to release it in the pole mount Pull the pole down and twist to lock in place in the pole mount 2 Remove rubber cover from bottom of pole allow pole sections to drop Lock sections together by t
7. e correct at the time of going to print We reserve the right to change specifications equipment installation and maintenance instructions without notice as part of our policy of continuous product development and improvement No part of this publication may be reproduced stored in a retrieval system or transmitted in any form electronic or otherwise without permission in writing from Kannad Marine No liability can be accepted for any inaccuracies or omissions in the publication although every care has been taken to make it as complete and accurate as possible CONTENTS ONDNAWURWNE 16 1 16 2 General Description asus nee 2 SART principle of operation 3 Installation iia tia 5 SART General Assembly en 6 Operating NStrUCHONS erra 7 Self Tes ETAG I NY yc Sn na OSS a iss 8 Battery Ip COMEN Ear Ganso ae 9 Technical description 10 Function Chain aii En 11 EaUIERINdING aaa 11 SERVICIO ss ae aaa 11 DIMENSIONS ida aia 12 Operation of marine radar for SART detection 13 Radar Range Seale 2 22 2 2 3222 22 ii 13 SART Range Errors ces Arne fairen 13 Radar Bandwidth sesseeeeeeeseeeeeeerrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrerertnt 13 Radar Side Lobes iss ts antenne 13 Detuning the EE 13 Gains e 13 Anti Clutter Sea Control 14 Anti Clutter Rain Control ss 14 Radar Displays 14 Technical Specification assises 15 Product Warranty diia
8. ircuit In the standby state only the receiver portion of the SART is powered to reduce battery consumption to a minimum In this condition the indicator circuit causes the LED to flash once every two seconds On receipt of a radar pulse the video amplifier and detector circuit causes the rest of the circuitry to become active and the unit switches to transmit mode In this condition the indicator circuit causes the LED to remain steady and the buzzer to sound every two seconds The detection of a radar pulse causes the switch to connect the antenna to the transmitter circuit The output stage is fed by a Voltage Controlled Oscillator VCO whose frequency is determined by a sweep generator When triggered by the detector the sweep generator turns on the VCO and causes it to produce exactly 12 forward and reverse frequency sweeps before shutting down again If no radar pulses are detected for a period of 15 seconds the unit reverts to standby mode g Page 10 9 Function chart SART STATUS BUZZER REDLED De ee OFF STANDBY MODE OFE FLASHING TEST or ON EVERY 2 SECONDS O ACTIVELY TRANSPONDING N TEST or ON EVERY 2 SECONDS 10 Fault Finding Fault finding is limited to performing the self test and verifying the SART response on the radar 11 Servicing The SART contains no user serviceable parts and consequently should be returned to an authorised Orolia Ltd service agent for repair Ensure compliance with the appropria
9. lia Ltd for the battery storage life which is specifically excluded from this warranty if the total price for the product has not been paid THE LIMITED WARRANTY STATED ABOVE IS EXCLUSIVE AND IN LIEU OF ANY OTHER WARRANTY EXPRESS OR IMPLIED INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE Orolia Ltd will not be liable for indirect special incidental or consequential damages of any kind sustained from any cause In no event shall Orolia Ltd be liable for any breach of warranty or other claim in an amount exceeding the purchase price of the EPIRB This warranty does not affect any statutory rights of the consumer In order to be valid claims must be made under the above warranty in writing as soon as practicable after discovery of the defect or failure and within the warranty period referred to above Proof of purchase will be required The claim should be sent together with the product in question to the address set out below or to an Approved Service Agent Following a valid warranty claim Orolia Ltd shall be entitled to repair or replace the product or part in question free of charge or at Orolia Ltd s sole discretion to refund to the buyer the price of the product or a proportional part of the price Orolia Ltd shall not be liable to a buyer who is not a consumer for any other loss or damage whether indirect special or consequential loss of profit or otherwise costs expenses or
10. mcmurdo S4 RESCUE SART SEARCH amp RESCUE TRANSPONDER USER MANUAL WARNINGS This SART is an emergency device for use only in situations of grave and imminent danger False alarms cost lives and money Help to prevent them understand how to activate and disable your equipment Read the complete manual before installing testing or using the SART The SART contains no user serviceable parts Return to your dealer for service Dispose of this device safely Contents include Lithium batteries do not incinerate puncture deform or short circuit This device emits radio frequency radiation when activated Because of the levels and duty cycles such radiation is not classed as harmful However itis recommended that you do not hold the radome while the SART is activated If the security tab is broken the SART is not compliant with SOLAS regulations and must be repaired or replaced Transportation Because it contains a primary non rechargeable Lithium battery the SART may have special transportation requirements depending on local and international regulations in force at the time The battery pack contains 6 2g Lithium in total Transport the SART in compliance with applicable regulations for this mass of hazardous material For further information refer to the Orolia Ltd website www mcmurdomarine com Disclaimer The information and illustrations contained in this publication are to the best of our knowledg
11. mitter Locate the SART within the line of sight of operating approved marine Radar Rotate the switch ring anticlockwise i e to the right to the TEST position and hold it in this position for a minimum of 30 seconds a Ifthe SART responds to the radar the red light in the base of the SART will be continuously lit and the buzzer will sound every 2 seconds Ensure the SART meets this requirement for the full 30 seconds b Ifthe SART does not respond to the radar the red light will flash every 2 seconds and the buzzer will not sound lfthe SART does not respond to the radar for the full 30 seconds it has failed the test Switch off the SART by releasing the switch ring check that it returns fully to the OFF position During the annual survey perform the self test and verify the SART performance by observing the response on the radar Indicator light Page 8 7 Battery replacement The battery should be changed 5 years from the date of manufacture shown on the label or after use It is recommended that battery change should only be performed by an authorised Orolia Ltd service agent in order that a complete assessment and integrity check can be performed The replacement battery kit is Orolia Ltd part number 86 630 and contains all necessary components Page 9 8 Technical description A single switched antenna is used for both receive and transmit functions the switch normally connects the antenna to the receiver c
12. other claims for compensation which arise out of or in connection with this product In the case of a consumer Orolia Ltd shall only be liable where other loss or damage is foreseeable Nothing shall limit Orolia Ltd s liability for death or personal injury caused by its negligence This warranty is to be interpreted under English law All enguiries relating to this warranty or Approved Service Agents should be sent to Orolia Ltd Silver Point Airport Service Road Portsmouth Hampshire PO3 5PB UK Telephone Int 44 0 23 9262 3900 Fax Int 44 0 23 9262 3998 Web www memurdomarine com Email service mcmurdo orolia com Page 16 16 End of Life Statement At the end of the SART s useful life it is vital that the battery be disconnected from the main unit to prevent false alarms False alarms cause expensive disruption to Search and Rescue services and may endanger lives as a consequence It is also necessary that the SART and its battery pack be disposed of in a manner that does not present a threat of environmental damage 16 1 Battery Removal To disconnect the battery turn the SART over and remove the three battery retaining screws using a cross headed screwdriver Gently prise the battery from the main unit Note that this will also release the O ring seal Cover the terminals of the battery pack with sticky tape to prevent inadvertent short circuiting 16 2 Disposal The Waste Electrical and Electronic Equipment WEEE
13. quickly then slowly for each of its twelve forward and return sweeps At long range only the slow sweeps giving the strongest returns are picked up At close range where errors are more important the fast sweeps are also detected As the first sweep is a fast one then the range error is minimised and should be less than 150 metres The timescale over which all this occurs is very short Each fast sweep takes about 0 4 s each slow sweep about 7 5 s The complete series of twelve forward and Page 3 return sweeps is therefore complete within 100 s Displayed on the PPI the spacing between each pair of dots will be 0 6 nautical miles On a long range setting a typical radar will be triggering the SART every millisecond but only during the period that the rotating radar scanner is pointing in the correct direction Most modern radars use sophisticated noise rejection techniques which prevent the display of echoes which are not synchronized with the radar s own transmissions so one radar will not normally be confused by a SART s response to a neighbouring radar The SART indicates that it has been triggered by lighting an indicator LED continuously it flashes in standby mode and by sounding an integral buzzer If no radar pulses are detected for a period exceeding 15 seconds the SART reverts to standby mode Page 4 3 Installation The preferred mounting location is inside the vessel and protected from the elements usu
14. receiver sensitivity includes antenna gain 2 The effective antenna height applies to equipment required to meet Regulation 6 2 2 of Chapter Ill and 7 1 3 and 8 3 1 of Chapter IV of the 1988 Amendments to the 1974 SOLAS Convention Standards Complies with IMO Resolution A 802 19 EC Declaration of Conformity Hereby Orolia Ltd declares that this EPIRB is in compliance with the essential requirements and other relevant provisions of the Marine Equipment Directive MED 96 98 EC A copy of the Declaration Of Conformity can be obtained on line from www memurdomarine com documents Page 15 15 Product Warranty Subject to the provisions set out below Orolia Ltd warrants that this product will be free of defects in materials and workmanship for a period of 24 months from the date of purchase Orolia Ltd will not be liable to the buyer under the above warranty for any defect arising from fair wear and tear wilful damage negligence abnormal working conditions failure to follow Orolia Ltd s instructions whether oral or in writing including a failure to install properly and or to use batteries recommended and or supplied by Orolia Ltd misuse or alterations or repair of the product by persons other than Orolia Ltd or an Approved Service Agent for parts materials or equipment not manufactured by Orolia Ltd in respect of which the buyer shall only be entitled to the benefit of any warranty or guarantee given by the manufacturer to Oro
15. s 86 920 001 Issue 9
16. te regulations for transportation of Lithium material as detailed in the Transportation section on the front inside cover Page 11 12 Dimensions 13 Operation of marine radar for SART detection 13 1 Radar Range Scale When looking for a SART it is preferable to use a range scale between 6 and 12 nautical miles This is because the spacing between the SART responses is about 0 6 nautical miles 1125 metres and it is necessary to see a number of responses to distinguish the SART from other responses 13 2 SART Range Errors There are inherent delays in the SART responses the SART has a trigger delay and may also have to sweep through the whole radar band before reaching the frequency of the search radar At medium ranges of about 6 nautical miles the range delay may be between about 150 metres and 0 6 nautical miles beyond the SART position As the SART is approached the radar delay of the first dot should be no more than 150 metres beyond the SART position 13 3 Radar Bandwidth This is normally matched to the radar pulse length and is usually switched with the range scale and the associated pulse length Narrow bandwidths of 3 5MHz are used with long pulses on long range and wide bandwidths of 10 25MHz with short pulses on short ranges Any radar bandwidth of less than 5MHz will attenuate the SART signal slightly so it is preferable to use a medium bandwidth to ensure optimum detection of the SAR
17. version is mounted in the same manner as the carry off version The version without the mast is intended to be hung from the highest point inside the liferaft The SART itself is identical with the carry off version S Page 2 2 SART principle of operation Activating a SART enables a liferaft to be displayed on a search vessel s radar screen as an easily recognised series of 12 dots RADAR radio detection and ranging is a device carried by most ships which is used to determine the presence and location of an object by measuring the time for the echo of a radio wave to return from it and the direction from which it returns A typical ship s radar will transmit a stream of high power pulses on a fixed frequency anywhere between 9 2GHz and 9 5GHz It will collect the echoes received on the same frequency using a display known as a Plan Position Indicator PPI which shows the ship itself at the centre of the screen with the echoes dotted around it Echoes further from the centre of the screen are thus further from the ship and the relative or true bearing of each echo can be easily seen The SART operates by receiving a pulse from the search radar and sending back a series of pulses in response which the radar will then display as if they were normal echoes The first return pulse if it sent back immediately will appear in the same place on the PPI as a normal echo would have done Subsequent pulses being slightly delayed appear to the
18. wisting each section To deploy in a liferaft Extend the SART supporting pole as detailed above Tether the SART to a suitable point using the lanyard which unwinds from its base Insert the SART through the port in the canopy Position the bottom of the support pole in the antenna pocket Secure the pole to the canopy support Depending on the liferaft model the mounting patch can also be located on the outboard side of the liferaft at the doorway entrance on the boarding ramp side The SART is mounted in the same way except the pole is secured to the buoyancy support Some survival craft have the SART already packed as part of the inventory In general these models of SART are not fitted with the support pole The SART should be switched ON then suspended by its top loop from the highest point of the liferaft If the lanyard becomes unwound it may be rewound by rotating the spool in the base of the SART in the direction of the arrow Page 7 6 Self test facility Regular testing of the SART is advised The duration of the test should be limited to as short atime as possible as the SART response may be received by other vessels which are within range There are no operational differences between TEST and ON modes the rotary switch must be held in the TEST position on release it returns to the OFF position 1 2 8 Ensure compliance with all applicable Health and Safety instructions when working in proximity to a radar trans
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