DST100 User's Manual
Contents
1. plastic or bronze housing 57 mm or 2 1 4 stainless steel housing in a metal hull Countersink tool for installing a flush housing Sandpaper Mild household detergent or weak solvent such as alcohol File for installation in a metal hull Marine sealant Additional washer for aluminum hull less than 6 mm 1 4 thick Page 2 of 14 Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron Slip joint pliers for installing a bronze housing Zip ties Installation in a cored fiberglass hull see Section 2 7 2 Hole saw for hull interior 60mm or 2 3 8 Fiberglass cloth and resin or Cylinder wax tape and casting epoxy 2 4 Pretest Connect the DST100 to the NMEA 2000 network and spin the paddlewheel Check for a speed reading and the approximate air temperature If there is no reading or it is inaccurate return the instrument to the place of purchase 2 5 Antifouling Paint Marine growth can accumulate rapidly on the transducer s surface reducing performance within weeks Surfaces exposed to salt water must be coated with antifouling paint Use water based antifouling paint only Never use ketone based paint since ketones can attack many plastics possibly damaging the sensor It is easier to apply antifouling paint before installation but allow sufficient drying time Reapply paint every 6 months or at the beginning of each boating season Paint the following surfaces see Figure 1 Outside wall2. therefore the DST100 sets all bits to a logic 1 PGN 130310 Environmental Parameters The DST100 uses this PGN to indicate the water temperature Field 1 2 3 SID The sequence identifier field is used to tie related PGNs together Although the DST100 transmits a SID for the Environmental PGN it is not tied to any other PGNs Water Temperature This field indicates the water temperature in units of 1x10 Outside Ambient Air Temp This field is not used by the DST100 therefore it transmits a value of OxFFFF 65 535 for this field which represents data not available Atmospheric Pressure This field is not used by the DST100 therefore it transmits a value of OxFFFF 65 535 for this field which represents data not available Reserved This field is reserved by NMEA therefore the DST100 sets all bits to a logic 1 Revision 1 1 Appendix A NMEA 2000 Interfacing Page Al www busse yachtshop de info busse yachtshop de DST100 User s Manual PGN 128275 Distance Log The DST100 uses this PGN to indicate the total cumulative distance traveled through the water since installation and the cumulative voyage distance traveled through the water since the last reset The distances through water are accumulated and the values are periodically stored in memory Field 1 Measurement Date This field is not used by the DST100 therefore it transmits a value of OXFFFF 65
3. of the insert below the lower O ring Exposed end of the insert Paddlewheel cavity Paddlewheel Exterior lip of the housing Bore of the housing up 30 mm 1 1 4 Blanking plug below the lower O ring including the exposed end Figure 1 Antifouling Paint Application 2 6 Choosing a Mounting Location The selection of a suitable mounting location is important for the optimal performance of the Maretron DST100 The mounting location and orientation of the DST100 should be 1 Preferably on the starboard side of the hull where propeller blades are moving downward through the water 2 Continuously Immersed In Water 3 Where Water Flowing across the Hull is Smooth with a Minimum of Bubbles and Turbulence especially at high speeds 4 Where the Transducer Beam is Unobstructed by the Keel or Propeller Shaft s 5 Where there is a Minimum Deadrise Angle 6 Accessible from Inside the Vessel with adequate headroom for the height of the housing tightening the nuts and removing the insert Allow a minimum of 280 mm 11 Revision 1 2 Page 3 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual Please follow the following guidelines for different hull types see Figure 2 1 Displacement Hull Powerboats Locate amidships near the centerline 2 Planing Hull Powerboats Mount well aft on or near the centerline and well inboard of the first set of lifting strakes to ensure that the DST100
4. unable to deliver a replacement that is free from defects in materials or workmanship Purchaser s payment for such product will be refunded Maretron assumes no liability whatsoever for expenses of removing any defective product or part or for installing the repaired product or part or a replacement therefore or for any loss or damage to equipment in connection with which Maretron s products or parts shall be used With respect to products not manufactured by Maretron Maretron s warranty obligation shall in all respects conform to and be limited to the warranty actually extended to Maretron by its supplier The foregoing warranties shall not apply with respect to products subjected to negligence misuse misapplication accident damages by circumstances beyond Maretron s control to improper installation operation maintenance or storage or to other than normal use or service Snap in paddlewheel carriers paddlewheels paddlewheel bearings and paddle shafts are consumable items and are specifically excluded from this warranty THE FOREGOING WARRANTIES ARE EXPRESSLY IN LIEU OF AND EXCLUDES ALL OTHER EXPRESS OR IMPLIED WARRANTIES INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND OF FITNESS FOR A PARTICULAR PURPOSE Statements made by any person including representatives of Maretron which are inconsistent or in conflict with the terms of this Limited Warranty shall not be binding upon Maretron unless reduced to w
5. 535 for this field which represents data not available 2 Measurement Time This field is not used by the DST100 therefore it transmits a value of OXFFFFFFFF 4 for this field which represents data not available 3 Total Cumulative Distance This field indicates the total distance traveled through the water since the DST100 was installed in units of 1 m 4 Distance Since Last Reset This field indicates the total distance traveled through the water since this parameter was last reset This is most commonly reset at the beginning of a voyage and then reflects the total distance traveled in that voyage The unit of measurement for this field is 1 m Page A2 Appendix A NMEA 2000 Interfacing Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron DST100 NMEA 2000 Received PGNs PGN 126208 NMEA Command Group Function Offset Calibration This will set the offset for the water depth measurement The user has a choice of two types of offset to program into the DST100 s depth transducer Positive values of offset indicate the depth of the transducer below the waterline Negative values of offset indicate the depth of the bottom of the boat s keel below the DST100 s depth transducer Field 1 2 3 Complex Command Group Function Code 8 bits set this field s value to 0x01 which denotes a command PGN Commanded PGN 24 bits set this field s value to 128267 which
6. EEN EE 11 6 Vobleelbottng e reet eegsgeteien ee gege gege EA Aege Eege eege 11 A TECHNICAL SPECIICAONG x mmm heee 12 8 Technica SUP OO ib si cee deden ede Ee en Le ERE 13 9 Maretron 2 Year Limited Warfanty armani 14 Table of Figures Figure 1 Antifouling Paint Application nnnnnnneee nennen ennnereeneeenennnnnnnneerenneeee nennen 3 Figure 2 Mounting ME e e EE 4 Figure 3 Bedding and Installation EEN 5 Figure 4 Preparing a Cored Fiberglass Hu 8 Figure 5 NMEA 2000 Connector Face Views naaar 8 Figure 6 Replacing the Paddlewheel and O rings EE 10 Figure 7 Troubleshooting Guide en 11 Table of Appendices Appendix A NMEA 2000 et RAGIN DEE Al Page Revision 1 2 www busse yachtshop de info busse yachtshop de Maretron 1 General 1 1 Introduction Congratulations on your purchase of the Maretron DST100 NMEA 2000 Depth Speed and Temperature Transducer Maretron has designed and built your transducer to the highest standards for years of dependable and accurate service The DST100 detects the water depth with a 235 KHz depth transducer the water speed with a paddlewheel and Hall effect sensor and the water temperature with a precision thermistor element The Maretron DST100 is designed to operate within the harsh demands of the marine environment However no piece of marine electronic equipment can function properly unless installed calibrated and maintained in the corre
7. Maretron DST100 NMEA 2000 Depth S peed Temperature Transducer User s Manual Revision 1 2 Copyright 2006 Maretron LLC All Rights Reserved Maretron LLC 9034 N 23 Ave 13 Phoenix AZ 85021 7850 http www maretron com Maretron Manual Part A M000701 www busse yachtshop de info busse yachtshop de DST100 User s Manual Table of Contents 1 E EE 1 ST Ek E ee 1 KEE TEE 1 13 OND A aot gt AE 1 2 aks lt 2 Fe Ue Sea ENE 2 2 41 Uppacking the BOX EE 2 22e HOUSING PALS eal EEEE E uacceaes exceed uesusues once Caos tus ssied cucette Uaceigied sysueuebueecins 2 2 3 Tools and Materials E 2 E e EE 3 225 SANUTOUIING Ee 3 2 6 Choosing a Mounting COCON msnstersesnmennnde gerne send 3 2 7 Mounting the DST 100 Ams nt Redeneren ge 5 2 7 1 All Hull Types Except Cored Fiberglass ccccceeceeeeeeeeeeeeeeeneeeeeeeeeeeeeee 5 2 7 2 Installation in a Cored Fiberglass Hu 7 2 8 Connecting the DST WOO screentest 8 2 8 1 Checking Connections i2c24 cccasccasecadectcactmenttennte sd doctcentdeanaentdncteechdccndeeninceet 9 3 Transducer Depth Offset Calibration EEN 9 4 Zeroing the Cumulative Voyage Distance og 9 5 WEE NCE nennen etten a a e cue ag oad a a ele ad 9 5 1 Using the Blanking let etee es eteeerie ee es eiee eset aset e e 9 5 2 Servicing the NSC zt AGE A db 10 5 3 Replacement PartS tnte steenen ete a ae een 11 54 Connection CHECKING asresten nenten 11 Seo
8. ct manner Please read carefully and follow these instructions for installation calibration and usage of the Maretron DST100 in order to ensure optimal performance 1 2 Features The Maretron DST100 NMEA 2000 Depth Speed Temperature Transducer has the following features NMEA 2000 Interface 235 KHz Ceramic Transducer for Detecting Water Depth Paddlewheel with Hall Effect Sensor for Detecting Soeed Through Water Advanced Digital Signal Processing for Accurate Speed Indication Down to 1 Knot Total Cumulative Distance distance traveled through the water since installation Cumulative Voyage Distance distance traveled through the water since last reset Precision Thermistor for Detecting Water Temperature Calibration for Compensating Transducer Offset to Waterline or Keel Waterproof Enclosure and Cable System 1 3 Quick Install Installing the Maretron DST100 transducer involves the following five steps Please refer to the individual sections for additional details Unpack the Box Section 2 1 Choose a Mounting Location Section 2 6 Mount the DST100 Transducer Section 2 7 Connect the DST100 Transducer Section 2 8 Calibrate the DST100 Transducer for Waterline or Keel Offset Section 3 oe oh eg Revision 1 2 Page 1 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual 2 Installation 2 1 Unpacking the Box When unpacking the box containing the Maretron DST100 you should find the followin
9. d Water Temperature Range 10 C to 40 C Fast Response Time Water Temperature Accuracy 1 0 C No Calibration Required Certifications Parameter Comment NMEA 2000 Level B Maritime Navigation and Radiocommunication Equipment amp Systems Tested to IEC 60945 FCC and CE Mark Electromagnetic Compatibility NMEA 2000 Parameter Group Numbers PGNs See Appendix B for Details Description PGN PGN Name Default Rate Periodic Data PGNs 128267 Water Depth 1 Time Second 128259 Speed Water Referenced 1 Time Second 130310 Environmental Parameters Water Temperature 2 Times Second 128275 Distance Log 1 Time Second Response to Requested PGNs 126464 PGN List Transmit and Receive N A 126996 Product Information N A 126998 Configuration Information N A Protocol PGNs 059392 ISO Acknowledge N A 059904 ISO Request N A 060928 ISO Address Claim N A 065240 ISO Address Command N A 126206 NMEA N A Electrical Parameter Value Comment Operating Voltage 9 to 16 Volts DC Voltage Power Consumption lt 50mA Average Current Drain Load Equivalence Number LEN 1 NMEA 2000 Spec 1LEN 50 mA Reverse Battery Protection Yes Indefinitely Mechanical Parameter Value Comment Size 2 94 Dia X 4 87 Tall Including Mounting Flanges Weight 12 Oz Mounting Lexan Bronze Stainless Steel Br
10. denotes the Water Depth PGN Priority Setting 4 bits set this field s value to 0x8 which indicates to leave priority settings unchanged Reserved 4 bits set this field s value to OxF which is the value for a reserved field of this size Number of Pairs of Commanded Parameters to Follow 8 bits set this field s value to 0x1 indicating that one parameter will follow Number of First Commanded Parameter 8 bits set this field s value to 0x3 which indicates the Offset field Offset 16 bits set this field s value to the desired offset value Units of measurement for this field are 1x10 m Positive values indicate the depth of the transducer below the waterline For instance if the transducer is located 2 5 m below the waterline set this field s value to 2500 0x09C4 If the bottom of the keel is located 2 5 m below the transducer set this field s value to 2500 OxF63C PGN 126208 NMEA Command Group Function Distance Log Reset This command will reset the Distance Since Last Reset field of the Distance Log PGN 128275 Field 1 Complex Command Group Function Code 8 bits set this field s value to 0x01 which denotes a command PGN 2 Commanded PGN 24 bits set this field s value to 128275 which denotes the Distance Log PGN 3 Priority Setting 4 bits set this field s value to 0x8 which indicates to leave priority settings unchanged 4 Reser
11. e Connector Pin 1 Shield Pin 2 NET S power supply positive V Pin 3 NET C power supply common V Pin 4 NET H CAN H Pin 5 NET L CAN L Figure 5 NMEA 2000 Connector Face Views Page 8 of 14 Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron 2 8 1 Checking Connections Once the NMEA 2000 connection to the Maretron DST100 have been completed check to see that speed depth and temperature information is being properly transmitted by observing an appropriate display Refer to Section 6 Troubleshooting if no heading information appears otherwise proceed to Section 3 entitled Calibration 3 Transducer Depth Offset Calibration The DST100 measures the depth of the water from the transducer which may or may not be the waterline depth or the depth of water underneath the keel depending on the mounting location Fortunately the DST100 can be calibrated for reporting the offset from the transducer to the waterline or the DST100 can be calibrated to report the offset between the transducer and the lowest point on the vessel Depth display readings then report either the waterline depth or the depth under keel depending on your preference The easiest way to set the offset calibration is through a Maretron display product please refer to your Maretron display manual although users with direct access to the NMEA 2000 interface can perform transducer offset calibration direc
12. e and through the eye in the insert Twist the wire securely to itself This is an important safety step since attaching the safety wire to a metal housing is different than attaching it to a plastic housing Page 6 of 14 Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron 8 Route the cable to the network being careful not to tear the cable jacket when passing it through the bulkhead s and other parts of the boat Coil any excess cable and secure itin place with zip ties to prevent damage 2 7 1 4 Checking for Leaks Warning Never install a thru hull transducer and leave the boat in the water unchecked for several days When the boat is placed in the water immediately check around the thru hull transducer for leaks Note that very small leaks may not be readily observed It is best not to leave the boat in the water for more than 3 hours before checking it again If there is a small leak there may be considerable bilge water accumulation after 24 hours If a leak is observed repeat Bedding and Installing immediately see Sections 2 7 1 2 and 2 7 1 3 2 7 2 Installation in a Cored Fiberglass Hull The core wood or foam must be cut and sealed carefully The core must be protected from water seepage and the hull must be reinforced to prevent it from crushing under the hull not allowing the housing to become loose Warning always wear safety goggles and a dust mask 1 Drill a 3 mm or 1 8 p
13. ensure that the sealant will adhere properly to the hull If there is any petroleum residue inside the hull remove it with either mild household detergent or a weak solvent alcohol before sanding 7 Proceed with Bedding and Installing see Sections 2 7 1 2 and 2 7 1 3 Revision 1 2 Page 7 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual 9 12 mm eme 3 8 1 2 pour in larger than the casting hole through the Epoxy hulls outer skin inner skin core hull thickness RAAT RAYS AAAS solid or hollow cylinder outer skin Figure 4 Preparing a Cored Fiberglass Hull 2 8 Connecting the DST100 The Maretron DST100 provides a connection to an NMEA 2000 interface through a five pin male connector located on the end of the cable attached to the DST100 see Figure 5 You connect the DST100 to an NMEA 2000 network by plugging the male connector into a female receptacle of the NMEA 2000 network note the key on the male connector and keyway on the female connector Be sure the cable is connected securely and that the collar on the cable connector is tightened firmly The DST100 is designed such that you can plug or unplug it from an NMEA 2000 network while the power to the network is connected or disconnected Please follow recommended practices for installing NMEA 2000 network products Pins Sockets Connector Threads Connector Threads Male Connector Femal
14. f up to 5 years on low speed boats less than 10 knots 11 MPH and 1 year on high speed vessels Paddlewheels can fracture and shafts can bend due to impact with water borne objects and mishandling in boat yards O rings must be free of abrasions and cuts to ensure a watertight seal A replacement Paddlewheel Kit 33 398 04 is available 1 Remove the old paddlewheel shaft with needle nose pliers See Figure 6 2 Place the new paddlewheel in the cavity with the flat side of the blade facing the same direction as the arrow on the top of the insert 3 Tap the new shaft into place until the end is flush with the outside wall of the insert 4 Install a large O ring near the top of the insert Install a small O ring near the paddlewheel Page 10 of 14 Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron 5 Place the remaining two O rings in similar positions on the blanking plug 5 3 Replacement Parts Lost broken and worn parts should be replaced immediately If you have purchased a plastic housing and have a wood hull or desire greater strength purchase a Maretron metal housing Obtain the following parts from your marine dealer or directly from Maretron Blanking Plug Hull Nut Housing Nut amp Paddlewheel Shaft Washer amp O rings 33 486 01 04 004 P 33 100 B 33 398 04 02 030 B 33 094 01 SS 5 4 Connection Checking Periodically check the security of the cables connected to
15. g items 1 DST100 Insert with attached cable 1 Plastic Housing 1 Plastic Hull Nut 1 Rubber Bushing 1 Safety Wire 1 Blanking Plug 1 Tube of Silicone Lubricant 1 DST100 User s Manual 1 Warranty Registration Card If any of these items are missing or damaged please contact Maretron 2 2 Housing Material The DST100 is supplied with a plastic housing that is suitable for most installations As an option Maretron offers both a bronze and stainless steel housing material Please follow these recommendations for determining the right material for your particular installation e Plastic housing recommended for fiberglass or metal hulls only Never install a plastic housing in a wood hull since swelling of the wood may overstress the plastic causing a fracture e Bronze housing recommended for fiberglass or wood hulls Never mount a bronze housing in an aluminum hull because electrolytic corrosion will occur e Stainless steel housing compatible with all hull materials Stainless steel is recommended for metal hulls to prevent electrolytic corrosion A stainless steel housing must be isolated from a metal hull e Never install a metal housing in a vessel with a positive ground system 2 3 Tools and Materials Water based antifouling paint mandatory in salt water Safety goggles Dust mask Electric drill with 10 mm 3 8 or larger chuck capacity Drill bit 3 mm or 1 8 Hole saw 51mm or2
16. gether e the data from each PGN was taken at the same time although reported at slightly different times Water Depth Transducer This field is used to report the depth relative to the transducer in units of 1x10 m Offset If the value of this field is positive it represents the difference in depth between the transducer and the waterline of the vessel If the value of this field is negative it represents the difference in depth between the transducer and the keel of the vessel The unit of measurement for this field is 1x10 m Reserved This field is reserved by NMEA therefore the DST100 sets all bits to a logic 1 PGN 128259 Speed The DST100 uses this PGN to indicate the vessel s speed through the water Field 1 SID The sequence identifier field is used to tie related PGNs together For example a compass would transmit identical SIDs for Water depth 128267 and Speed PGN 128259 to indicate that the readings are linked together e the data from each PGN was taken at the same time although reported at slightly different times Speed Water Referenced This field is used to report the vessel s speed relative to the water in units of 1x10 meters per second Speed Ground Referenced This field is not used by the DST100 therefore it transmits a value of OxFFFF 65 535 for this field which represents data not available Reserved This field is reserved by NMEA
17. ilot hole from inside the hull If there is a rib strut or other hull irregularity near the selected mounting location drill from the outside If the hole is drilled in the wrong location drill a second hole in a better location Apply masking tape to the outside of the hull over the incorrect hole and fill it with epoxy 2 Using a 51 mm or 2 hole saw cut the hole from outside the hull through the outer skin only See Figure 4 3 From inside the hull use a 60 mm or 2 3 8 hole saw to cut through the inner skin and most of the core The core material can be very soft Apply only light pressure to the hole saw after cutting through the inner skin to avoid accidentally cutting the outer skin 4 Remove the plug of core material so the inside of the outer skin and the inner core of the hull are fully exposed Sand and clean the inner skin core and the outer skin around the hole Caution Completely seal the hull to prevent water seepage into the core 5 If you are skilled with fiberglass saturate a layer of fiberglass cloth with a suitable resin and lay it inside the hole to seal and strengthen the core Add layers until the hole is the correct diameter Alternatively a hollow or solid cylinder of the correct diameter can be coated with wax and taped in place Fill the gap between the cylinder and hull with casting epoxy After the epoxy has set remove the cylinder 6 Sand and clean the area around the hole inside and outside to
18. int pliers Remove any excess sealant on the outside of the hull to ensure smooth water flow over the DST100 Warning The O rings must be intact and well lubricated to make a watertight seal After the sealant cures inspect the O rings on the insert replace if necessary and lubricate them with the silicone lubricant supplied Slide the insert into the housing with the arrow on the top pointing forward toward the bow Screw the cap nut several turns until there is resistance The arrow on the top of the insert the cable exit and the arrow on the lip will all be aligned Continue to tighten the cap nut Be careful not to rotate the housing and disturb the sealant Hand tighten only Do not over tighten Warning Always attach the safety wire to prevent the insert from backing out in the unlikely event that the cap nut fails or is screwed on incorrectly Attach the safety wire Plastic housing Attach the safety wire to one eye in the hull nut Load the wire in a counterclockwise direction and thread it through one eye in the cap nut Thread the wire through the eye a second time Then lead the wire through the eye in the insert Twist the wire securely to itself Metal housing Wrap one end of the safety wire tightly around the housing and twist it together with the long end Lead the wire straight up and through one eye in the cap nut Thread the wire through the eye a second time Then lead the wire counterclockwis
19. is in contact with the water at high speeds Outboard and I O Mount just forward of the engine s Inboard Mount well ahead of the propeller s and shaft s Step hull Mount just ahead of the first step Boat capable of speeds above 25 knots 29 MPH Review the installation location and operating results of similar boats before proceeding Fin Keel Sailboats Mount on or as close as possible to the centerline and forward of the fin keel 300 to 600 mm 1 to 2 8 Full Keel Sailboats Locate amidships and away from the keel at the point of minimum deadrise Oo WW N Caution Do not mount the DST100 in an area of turbulence or bubbles near water intake or discharge openings behind strakes fittings or hull irregularities U large displacement hulls M gt small displacement hulls planing hulls fin keel sailboats a a full keel sailboats Best location for DST100 Figure 2 Mounting Locations Page 4 of 14 Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron 2 7 Mounting the DST100 The Maretron DST100 is mounted through the hull If the hull is a cored fiberglass hull please follow the instructions in Section 2 7 2 For other hull types please follow the instructions in Section 2 7 1 2 7 1 All Hull Types Except Cored Fiberglass 2 7 1 1 Hole Drilling Warning Always wear safety goggles and a dust ma
20. ith the blanking plug With practice only 250 ml 10 oz of water will enter the boat 4 Screw the cap nut several turns until there is resistance Continue to tighten the cap nut Hand tighten only Do not over tighten Revision 1 2 Page 9 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual Warning Always attach the safety wire to prevent the insert from backing out in the unlikely event that the cap nut fails or is screwed on incorrectly 5 Reattach the safety wire 6 Winterizing After the boat has been hauled for winter storage remove the blanking plug insert to let the water drain away before re inserting it This will prevent any water from freezing around the blanking plug insert and possibly cracking it insert blanking plug arrow i D eae O ring small O ring flat side EE a of blade 1 faces bow a BOW Figure 6 Replacing the Paddlewheel and O rings 5 2 Servicing the Insert Aquatic growth can accumulate rapidly on the depth transducer s surface and impede or freeze the paddlewheel s rotation reducing performance within weeks Clean the insert with a soft cloth and mild household detergent If the fouling is severe remove the paddlewheel with needle nose pliers Use a stiff brush or putty knife to remove the growth taking care to avoid scratching the depth transducer Lightly wet sand with fine grade wet dry paper The water lubricated paddlewheel bearings have a life o
21. onze Stainless Steel Optional Environmental Parameter Value IEC 60954 Classification Submerged Degree of Protection IP68 Operating Temperature 10 C to 40 C Storage Temperature 40 C to 71 C Page 12 of 14 www busse yachtshop de info busse yachtshop de Revision 1 1 8 Technical Support Maretron If you require technical support for Maretron products you can reach us in one of the following ways Telephone Fax E mail World Wide Web Mail Revision 1 2 1 866 550 9100 1 602 861 1777 support maretron com http www maretron com Maretron LLC Attn Technical Support 9034 N 23 Ave Suite 13 Phoenix AZ 85021 USA Page 13 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual 9 Maretron 2 Year Limited Warranty Maretron warrants the DST100 to be free from defects in materials and workmanship for two 2 years from the date of original purchase If within the applicable period any such products shall be proved to Maretron s satisfaction to fail to meet the above limited warranty such products shall be repaired or replaced at Maretron s option Purchaser s exclusive remedy and Maretron s sole obligation hereunder provided product is returned pursuant to the return requirements below shall be limited to the repair or replacement at Maretron s option of any product not meeting the above limited warranty and which is returned to Maretron or if Maretron is
22. riting and approved by an officer of Maretron IN NO CASE WILL MARETRON BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES DAMAGES FOR LOSS OF USE LOSS OF ANTICIPATED PROFITS OR SAVINGS OR ANY OTHER LOSS INCURRED BECAUSE OF INTERRUPTION OF SERVICE IN NO EVENT SHALL MARETRON S AGGREGATE LIABILITY EXCEED THE PURCHASE PRICE OF THE PRODUCT S INVOLVED MARETRON SHALL NOT BE SUBJECT TO ANY OTHER OBLIGATIONS OR LIABILITIES WHETHER ARISING OUT OF BREACH OF CONTRACT OR WARRANTY TORT INCLUDING NEGLIGENCE OR OTHER THEORIES OF LAW WITH RESPECT TO PRODUCTS SOLD OR SERVICES RENDERED BY MARETRON OR ANY UNDERTAKINGS ACTS OR OMISSIONS RELATING THERETO Maretron does not warrant that the functions contained in any software programs or products will meet purchaser s requirements or that the operation of the software programs or products will be uninterrupted or error free Purchaser assumes responsibility for the selection of the software programs or products to achieve the intended results and for the installation use and results obtained from said programs or products No specifications samples descriptions or illustrations provided Maretron to Purchaser whether directly in trade literature brochures or other documentation shall be construed as warranties of any kind and any failure to conform with such specifications samples descriptions or illustrations shall not constitute any breach of Maretron s limited warranty Warranty Return Proced
23. sk 1 Drill a 3 mm or 1 8 pilot hole from inside the hull If there is a rib strut or other hull irregularity near the selected mounting location drill from the outside 2 Using the appropriate size hole saw cut a hole from outside the hull Flush housing Use a countersink tool to make a seat in the hull 3 Sand and clean the area around the hole inside and outside to ensure that the sealant will adhere properly to the hull If there is any petroleum inside the hull remove it with either mile household detergent or a weak solvent alcohol before sanding Metal hull Remove all burrs with a file and sandpaper 2 7 1 2 Bedding Apply a 2 mm 1 16 thick layer of marine sealant around the lip of the housing that contacts the hull and up the sidewall of the housing The sealant must extend 6 mm 1 4 higher than the combined thickness of the hull washer s and hull nut see Figure 3 This will ensure there is sealant in the threads to seal the hull and hold the hull nut securely in place Stainless steel housing in a metal hull To prevent electrolytic corrosion the stainless steel housing must be isolated from the metal hull Slide the isolation bushing onto the housing Apply additional sealant to the surfaces of the bushing that will contact the hull plastic housing bronze housing stainless steel housing in metal hull insert a insert cap nut oan plastic safety wire cap nut pla
24. stic housing hull nut washer isolation bushing marine sealant housing and isolation bushing marine sealant marine sealant Figure 3 Bedding and Installation Revision 1 2 Page 5 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual 2 7 1 3 Installation Caution Never pull carry or hold the DST100 by the cable as this may damage internal connections 1 From outside the hull push the housing into the mounting hole using a twisting motion to squeeze out excess sealant see Figure 3 Align the arrow on the lip of housing to point forward toward the bow If the DST100 is not installed on the centerline angle the housing slightly toward the centerline to align it with the water flow From inside the hull slide the washer onto the housing Aluminum hull less than 6 mm 1 4 thick Use an additional rubbery fiberglass or plastic washer Never use bronze since electrolytic corrosion will occur Never use wood since it will swell possible fracturing the plastic housing Screw the hull nut in place Wood hull Allow the wood to swell before tightening the hull nut securely Plastic housing Do not clamp tightly on the wrenching flats possibly causing the housing to fracture Plastic hull nut Hand tighten only Do not over tighten Metal hull nut Tighten with slip jo
25. the NMEA 2000 interface and tighten if necessary 5 5 Antifouling Paint Reapply antifouling paint every six months or at the beginning of each boating season see Section 2 5 6 Troubleshooting If you notice unexpected operation of the Maretron DST100 follow the troubleshooting procedures in this section to remedy simple problems Symptom Troubleshooting Procedure No speed depth and Check the connections to the NMEA 2000 connector temperature output and tighten if necessary Ensure that power is supplied to the connected NMEA 2000 cable No speed output Check the DST100 paddlewheel for breakage or fouling No depth output Check the DST100 depth transducer for fouling Figure 7 Troubleshooting Guide If these steps do not solve your problem please contact Maretron Technical Support refer to Section 8 for contact information Revision 1 2 Page 11 of 14 www busse yachtshop de info busse yachtshop de DST100 User s Manual 7 Technical Specifications Specifications Parameter Value Comment Depth Operating Frequency 235 kHz Wide Beam Angle Minimum Depth 0 4m Deadrise Angle Tolerant Maximum Depth 60 m No Calibration Required Depth Tracking Speeds Up to 40 knots High Speed Bottom Tracking Capability Depth Update Rate 1 second Speed Sensor Paddlewheel No Calibration Required Speed Range 1 60 knots Microprocessor Signal Processing Accuracy Speed Update Rate 1 secon
26. tly through the NMEA 2000 interface see Appendix A 4 Zeroing the Cumulative Voyage Distance Log The Maretron DST100 automatically logs two different cumulative distances 1 total cumulative distance since installation and 2 cumulative voyage distance since reset You cannot zero out the total cumulative distance since installation but you are able to zero out the cumulative voyage distance since reset Zeroing the cumulative voyage distance is easily done with a Maretron display product see appropriate Maretron display manual or alternatively users with direct access to the NMEA 2000 interface can perform zeroing directly through the NMEA 2000 interface see Appendix A 5 Maintenance 5 1 Using the Blanking Plug To protect the paddlewheel use the blanking plug when the boat will be kept in salt water for more that a week or when the boat is removed from the water or aquatic growth build up on the paddlewheel is suspected due to inaccurate readings from the instrument Warning The O rings must be intact and well lubricated to make a watertight seal 1 Inspect the O rings on the blanking plug replace if necessary and lubricate them with the silicone lubricant supplied or petroleum jelly Vaseline see Figure 6 2 Remove the insert from the housing by removing the safety wire Loosen the cap nut 3 With the blanking plug ready in one and pull the insert most of the way out Remove the insert and rapidly replace it w
27. ure To apply for warranty claims contact Maretron or one of its dealers to describe the problem and determine the appropriate course of action If a return is necessary place the product in its original packaging together with proof of purchase and send to an Authorized Maretron Service Location You are responsible for all shipping and insurance charges Maretron will return the replaced or repaired product with all shipping and handling prepaid except for requests requiring expedited shipping i e overnight shipments Failure to follow this warranty return procedure could result in the product s warranty becoming null and void Maretron reserves the right to modify or replace at its sole discretion without prior notification the warranty listed above To obtain a copy of the then current warranty policy please go to the following web page http www maretron com company warranty php Page 14 of 14 Revision 1 1 www busse yachtshop de info busse yachtshop de Maretron Appendix A NMEA 20007 Interfacing DST100 NMEA 2000 Periodic Data Transmitted PGNs PGN 128267 Water Depth The DST100 uses this PGN to indicate the water depth relative to the transducer and offset of the measuring transducer Field 1 SID The sequence identifier field is used to tie related PGNs together For example the DST100 will transmit identical SIDs for Speed PGN 128259 and Water depth 128267 to indicate that the readings are linked to
28. ved 4 bits set this field s value to OxF which is the value for a reserved field of this size 5 Number of Pairs of Commanded Parameters to Follow 8 bits set this field s value to 0x1 indicating that one parameter will follow 6 Number of First Commanded Parameter 8 bits set this field s value to 0x4 which indicates the Distance Since Last Reset field 7 Distance Since Last Reset 16 bits set this field s value 0 to reset the Distance Since Last Reset counter to zero Revision 1 1 Appendix A NMEA 2000 Interfacing Page A3 www busse yachtshop de info busse yachtshop de
Download Pdf Manuals
Related Search