Owner`s Manual
Contents
1. 6 9 3 GPS Mode Setting The DSM250 is capable of setting the minimum operating mode on a Maretron GPS100 You can choose this setting by pressing the Enter key with the GPS Mode menu item selected which causes the screen shown in Figure 72 to be displayed Confiquration Device Configuration HA Manufacturer Model SHN HW SW 21 Maretron GPSWO 21 21 201 Advanced Configuration Cold start GPS Engine GPS Mode LMA Label GPS211 JP15 SHIELD SBAS WAAS EGNOS MSAS Enable Power Enter Scroll Scroll Up Down Figure 72 Configuring GPS Operating Mode on a GPS100 The allowable options for GPS Mode are 1D which allows the GPS to report data when only a one dimensional fix time only or better is obtained 2D which allows the GPS to report data only when a two dimensional fix or better is obtained 3D which allows the GPS to report data only when a three dimensional fix or better is obtained or Auto default which allows the GPS to report any available data regardless of the quality of the fix Revision 1 4 2 Page 83 DSM250 User s Manual 6 9 4 Device Label A label may be assigned to the GPS100 as an aid to identifying the device over the network Typically this would describe the location of the GPS on the vessel See section 3 3 4 for details on how to enter a textual value 6 9 5 SBAS WAAS Enable Disable The DSM250 is capable of enabling or disabling the SBAS WAAS function on a Maretro2. Configuration Device Configuration NA Manufacturer Model SHE HWE SWE T3 Maretron TLM TO N07 151 10 114 Advanced Configuration Label Port Mid Tank Capacity ONERCEIIEIE Tank Levels Calibration Tank Humber 82 Tank Type Fuel Cancel Increase Decrease Accept Figure 138 Configuring the Tank Capacity After you have pressed the Accept key a confirmation screen will appear that warns you that the fluid remaining measurement will change as a result of this change Press the Accept key to accept the change and store the new tank capacity value within the TLM100 or Press the Cancel Key to cancel the change and leave the old tank capacity programmed into the TLM100 Configuration Device Configuration NA Manufacturer Model SHE de Changing tank capacity will affect Ta tank level readings Are you sure Press lt Cancel gt to cancel change Press Accept to accept change Tz Power Cancel Accept Figure 139 Tank Capacity Change Confirmation Screen 6 16 4 Tank Levels Calibration In order for the TLM100 to indicate an accurate tank level it must know the geometry of the tank There are two methods of calibrating the tank level sender e Custom Calibration use for non rectangular tanks also most accurate in any case but requires more effort e Rectangular Tank By inputting some dimensions of a rectangular tank the TLM100 is able to interpolate the volume of liquid from th
3. Favorite Mode EXHCOTHIAEBRITET Format 4 Quarters Auto Change Interval 5 Seconds Window 1 Data Fuel Management Total Fuel Economy Type Numeric Window 2 Data Wind Speed True North Ref Type Numeric Window 3 Data Wind Dir Apparent Figure 26 Favorite Screen Parameters 5 2 6 1 Favorite Mode This entry allows you to select in which display method of favorite screens mode this particular favorite screen is enabled This parameter has four possible settings Off this favorite screen is disabled and is not displayed Auto this favorite screen is displayed only in Auto mode Manual this favorite screen is displayed only in Manual mode Auto Manual this favorite screen is displayed in both Auto and Manual modes 5 2 6 2 Format The DSM250 offers many methods and formats of displaying multiple data items at a given time This parameter is used to program how many data items will appear on this particular favorite screen and in what sizes these items will appear This parameter has the following settings Full Window one parameter will be displayed taking up the entire screen 2 3 Top 1 3 Bottom two parameters will be displayed the first occupying the top 2 3 of the screen and the second occupying the bottom 1 3 of the screen 1 3 Top 2 3 Bottom two parameters will be displayed the first occupying the top 1 3 of the screen and the second occupying the bottom 2 3 of the screen
4. keys followed by the Enter key 6 14 1 5 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 14 2 Installation Offset Calibration The installation offset i e misalignment of installed SSC200 with vessels center line may be calibrated using the Maretron DSM250 display While executing Installation Offset Calibration the vessel must stay still with no pitch and roll because SSC200 will also calibrate pitch and roll at this time Once the compass is installed point the vessel at a known heading and then select the compass from the Device Configuration menu Scroll down B the menu items to the line entitled Installation Offset Calibration and press enter which takes you to the screen shown below Revision 1 4 2 Page 109 DSM250 User s Manual Installation Offset Calibration 1 Select Current Heading 2 Press lt Accept gt to complete Abort Increase Decrease Accept Figure 106 SSC200 Installation Offset Calibration Screen Use the Increase B and Decrease keys to adjust the display value until it matches the known heading to which the boat is pointed Press the Accept key to accept the value when you are satisfied If you do not wish to perform installation offset calibration at this time press the Abort key and the installation offset will not be altered 6 14 3 Inverted Installation E
5. Degrees Figure 6 Po werdown Countdown Screen 3 3 Keypad Essentials The DSM250 has a five key keypad located below the screen Each key has slightly different functions depending on the operating mode Figure 7 below shows the DSM250 keys and their names Power Lights Down Enter Key Key ia Key Key Figure 7 Keypad and Key Names In the normal viewing mode where your favorite screens are displayed the keys on the DSM250 keypad have the following functions Power Key turns the DSM250 off see section 3 1 on page 6 for details A momentary press of this key can also be used to accept or cancel an Alert see section 8 2 1 on page 160 for details Lights Key 9 a quick press cycles the backlight brightness between three programmed brightness levels see Section 5 2 4 3 on page 31 for details while a long press cycles the DSM250 through 8 programmable color palettes see Section 5 2 4 4 on Page 31 Up Key switches the display from the current favorite screen to the next highest numbered favorite screen that is enabled for that particular mode Down Key p switches the display from the current favorites screen to the next lowest numbered favorite screen that is enabled for that particular mode Enter Key 9 changes from favorite screens mode to menu mode In menu mode a legend appears along the bottom of the screen displaying the function of each of the keys The functions dif
6. PGNs GN Name roduct Information SO Acknowledge SO Request Management SO Address Claim NMEA System Time Rudder mm Page 188 Revision 1 4 2 GN List Transmit and Receive onfiguration Information SO Transport Protocol Data Transfer ISO Transport Protocol Connection SO Address Command Generator Average Basic AC Quantities Received PGNs 65030 26992 2 245 2 250 Vessel Heading 2 251 Rate of Turn 2 257 Attitude 2 258 agnetic Variation 2 488 ngine Parameters Rapid Update 2 489 ngine Parameters Dynamic 21493 ransmission Parameters Dynamic 2 498 ngine Parameters Static 2 505 uid Level 2 508 attery Status 20259 peed 2026 7 Water Depth 2827 5 Distance Log 29025 Position Rapid Update 29026 COG amp SOG Rapid Update 29029 GNSS Position Data 29033 Time amp Date 29283 Cross Track Error 29284 Navigation Data 29285 avigation Route WP Information 29291 et amp Drift Rapid Update 29302 earing and Distance Between Two Marks 29538 GNSS Control Status 29539 GNSS DOPs 29540 GNSS Sats In View 30306 ind Data 30310 nvironmental Parameters 30311 nvironmental Parameters SUPR e ec E et ec e es ec gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt Default Rate N A N A N A N A N A NA N A N A N A N A N A N A N A N A N A N A N A N A N A N A N A N A Revision 1 4 2 Maretron Pp 1130576 Small Craft Sta
7. Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 12 Water Temperature Sender Type The EMS100 comes from the factory preprogrammed with the characteristics of water temperature senders for supported engines If the engine to which you are connecting the EMS100 has a water temperature sender you must select the correct type of water temperature sender for this setting in order for the data to be displayed correctly Valid options are e Disabled select this option if there is no water temperature sender present e YANMAR e YANMAR VDO Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 13 Water Temperature Sender Offset Often the characteristics of individual water temperature senders vary from their specified values This setting allows you to apply an offset to the resistance value of the water temperature sender in order to allow you to bring the digital value reported by the EMS100 into agreement with that displayed by the analog gauge Valid options are e 100 100 select the required option using the Increase and Decrease keys followed by the Enter key 6 8 14 Preset Engine Hours The EMS100 reports engine hours based on how long the EMS100 has been powered from the engine The EMS100 comes from the factory preprogrammed with an engine hours reading of 0 hours If you are installing the EMS100 on an engine that has been in ser
8. The parameter being monitored must fall below the Low Alert Set Point value for longer than the time in this field in order for an alert to become active This can be used to prevent false alerts caused by parameter values that briefly have a value that would cause an alert but quickly return to the normal value range The value is entered as minutes seconds If only one number is entered it will be interpreted as seconds Alert Clear Point If the alert is active and the parameter value rises above the value in this field the alert will become inactive Alert Clear Delay The parameter being monitored must rise above the Low Alert Clear Point value for longer than the time in this field in order for the alert to become inactive The value is entered as minutes seconds If only one number is entered it will be interpreted as seconds In this example the set point may be described in more than one unit so additional fields have been supplied so that the user can select the units of depth Changing the units of the set point will also change the units of the clear point The initial units displayed in these fields will correspond to those set in the Units Menu see section 5 2 7 8 3 7 3 Trigger Type is Data Unavailable Alert The Data Unavailable Alert can be used in conjunction with other alert types when you need to know if a particular parameter is no longer being received on the network or is flagged as not available by the transmitt
9. 3 H Db Power Complete Increase Decrease Accept s r Figure 124 Empty Level Calibration Each time you press Accept during this process and after the Current Point highlight advances put more fluid into the tank and note the total volume of fluid pumped into the tank at this point Use the Increase and Decrease keys to set the current tank level to the appropriate value and then press the Accept key to store the current calibration point and advance to the next calibration point Figure 125 shows a screenshot of these intermediate calibration points Revision 1 4 2 Page 121 DSM250 User s Manual Tank Levels Calibration Only two settings empty and full are required to calibrate rectangular tanks Up to calibration points can be used for irregular shaped tanks 1 Use arrow kevs to select current tank level 8 2 Gal 2 Press lt Accept gt to set calibration point 3 Press lt Complete gt once tank is full to set final calibration point Current Point 11345 0678 99 1112 3 H 6 Power Complete Increase Decrease Accept Figure 125 Intermediate Level Calibration Once the tank is completely full instead of pressing the Accept key to store the current calibration point press the Complete key This will complete the calibration process and will also adjust the tank capacity to the currently indicated level Figure 126 below shows the calibration screen at the last point wi
10. Figure 171 GPS Status Display Example 7 9 Numeric Display The numeric display shows the selected parameter in a numeric format on the screen A full screen example of the current depth display can be seen below Page 152 Revision 1 4 2 Maretron Figure 172 Numeric Display Example The upper left hand corner indicates the parameter being displayed and the center of the screen shows the numeric value for the indicated parameter The bottom right hand corner shows the units 7 6 Rolling Road The DSM250 supports a Rolling Road or navigation highway display This display repeats transmitted navigation data from a primary navigator such as a chart plotter or a personal computer running navigation software Figure 173 below shows the favorites screen setup menu with the rolling road selected When the rolling road is selected the displayed navigation data the Type submenu changes to four Item submenus The rolling road display can show numerical displays of four navigation related data items in addition to the graphical display of boat position and progress towards the desired waypoint Favorite Screens Setup Favorite ei Favorite Mode Auto Manual Format Full Window Auto Change Interval 5 Seconds Window 1 Data Navigation Rolling Road Sime COG ltem 1 SOG ltem 2 ETA Item 3 DTW es Power Bach Figure 173 Configuration of Rolling Road Display The f
11. Scroll T Enter Figure 33 EP 30 Trim Tabs Co 6 1 1 Trim Tabs Calibration The Bennett EP 30 NMEA1 trim tabs calibration opening screen is shown in Figure 34 below The first step in calibration is to move both trim tabs to the full up position and then press the Accept key to begin the calibration process You may also elect to abort the calibration process at this time by pressing the Abort 9 key Trim Tabs Calibration 1 Press lt Abort gt to cancel calibration and revert to old calibration data 2 Raise both trim tabs to full up position 3 Press Accept to begin calibration and follow the instruction in the pop up windows Power Accept Figure 34 EP 30 Trim Tabs Calibration Opening Screen After you press the Accept key a screen shown in Figure 35 below appears instructing you to now lower both trim tabs to the full down position It is important that you do this without stopping in order for the calibration process to succeed Revision 1 4 2 Page 45 DSM250 User s Manual Trim Calibration Connecting 1 R M EI Lower both trim tabs to full down position without stopping Power Figure 35 EP 30 Intermediate Calibration Screen After you have lowered both trim tabs to their full down position and a few seconds have elapsed the screen shown in Figure 36 below should appear indicating that the calibration of the trim tab sensors
12. TLM100 NMEA 2000 PGN Enable Disable Screen 129 Figure 138 Configuring the Tank CGapacity nennen nnne nnn nennen nennen nns 130 Figure 139 Tank Capacity Change Confirmation Screen nsansnnennennennennnnnnnnnrnnrrrrrrrnrrnrrnrnnnnne 130 Figure 140 Performing Custom Calibration of the Tank Level Montor 131 Figure 141 Tank Levels Calibration Capacity Estimation cccccccceccseeceeeeeeseeeseeeseeeeeeeeeeeaes 131 Figure 142 Empty Level Calibration 0 0 0 0 cece ccccceccseeceeeceeece ees eeseeeeeeseeeceeesaeeseeeseeseeeseeeseeseeetaes 132 Revision 1 4 2 Page vi DSM250 User s Manual Figure 143 Intermediate Level Calibration cccccccccccccceccceeeceeeeeeeeeeeeeeceeeseeeseeeseeeseeseeesaeeseegees 132 Figure t44 Ful L Vvel C lee Le EE 133 Figure 145 Custom Tank Level Calibration Confirmation Screen nansnnnnnnnnnnnnnnnnnnnnnnnnernnnnnnn 133 Figure 146 Rectangular Tank Gelechon nnne nnne nnns 134 Figure 147 Rectangular Tank Calibration ccccccccccecceecceeeceeseeeeeeceeeceeeceeeseeeseeeseesseeteeeseeeseeegees 134 Figure 148 TMP100 Configuration Gcreen nennen nnne nnn nna nnns 136 Figure 149 TMP100 Advanced Configuration Gcreen nnne 136 Figure 150 TMP100 NMEA 2000 PGN Enable Disable Screen 137 Figure 151 TMP100 Channel Configuration Screen nennen 138 Figure 152 USB100 Configuration SCIGBEI uiis nuo aui eo thai er ese ime etes eee
13. This brings up the list of Alerts managed by the DSM2590 Alert Setup Edit Alert Priority Enab Type Description 0 Yes Global Alarm 1 Yes Global Alarm Yes Global Alarm 3 Yes Global Alarm Anchor Watch A Yes Global Alarm 5 Yes Global Alarm b Yes Global Alarm d Yes Global Alarm Lal on 11 Yes Global Alarm 21 Yes Global Alarm The following information is shown for each alert that is in the system Priority The priority of the Alert see 8 3 3 Enab Whether the Alert is Enabled or Disabled Type The Type of Alert This is a combination of whether the Alert is Local or Global 0 and whether the Alert is an Alarm or a Warning 8 3 2 Description The textual description of the Alert 8 3 5 Scroll up and down using the Scroll Up and Scroll Down buttons until the alert that must be edited is highlighted and press the Enter button The Alert Editor is opened pre populated with the parameters of the chosen Alert See section 8 1 for details of these parameters 8 6 Setting the Vessel Operating Mode The Vessel Operating Mode must be set on each DSM250 This is a potentially risky operation in that Alerts that are Active in the existing mode may be ignored in the new Operating Mode The DSM250 will warn the operator about these Alerts to minimize the risk However if the new vessel Revision 1 4 2 Page 181 DSM250 User s Manual status was transmitted to other Alert Sources that are unmanned then t
14. press the Enter key to confirm your selection and store the new rudder number within the RAA100 Page 96 Hevision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model SNF HWe SW 62 Maretron RAA 90 1799991 10 14 3 Advanced Configuration Label Stbd Rudder Angle Calibration u Rudder Number ta n TE T e EE Operating Mode NMEA2000 Gauge Resistance to sender 135 Gauge Resistance to sender 199 n Scroll Scroll Power U Down Figure 88 Setting the Rudder Number 6 11 5 Operating Mode The RAA100 can be operated in one of two operating modes depending on the installation e NMEA 2000 the only thing that is connected to the resistive sender is the RAA100 NMEA 2000 amp Analog Gauge in addition to the RAA100 the resistive sender is also connected to a dual coil analog gauge It is important that this setting be performed correctly in order for the RAA100 to produce correct angle measurements A screenshot showing configuration of the operating mode appears in Figure 89 below To configure the operating mode use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Operating Mode menu item then press the Enter key to move the highlight over the operating mode value Use the Scroll Up or Scroll Down keys to change the operating mode to the desired value and finally press the Entry key to confirm your selection and store t
15. us a Ei Figure 197 Direction Alert Parameters Revision 1 4 2 Page 175 DSM250 User s Manual 8 3 7 11 1 Trigger Configuration Direction Alert E Description Location Do Trigger Configuration Trigger Type PICT Re trigger Period 5 00 min sec Offset Set Point 20 Alert Set Delay 0 06 min sec Offset Clear Point 15 Alert Clear Delay 0 06 min sec Reference Direction 270 Magnetic Get Current Direction Local Audible Enable Figure 198 Trigger Configuration Direction Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Offset Set Point Offset Set Delay If the direction being monitored differs from the reference direction by more than the Offset Heading Set Point for longer than the time specified in the Set Delay field the alert will become active Offset Clear Point Offset Clear Delay If the alert is active and the direction being monitored differs from the reference direction by less than the Offset Heading Clear Point for longer than the time specified in the Clear Delay field the alert will become inactive Reference Heading Reference Direction Reference Course
16. 0 sign space gt Back lt Exit without saving save amp Exit Figure 8 Entering a Textual Value The top line contains the textual string that has already been entered New characters are appended one at a time to the end of the line at the position marked by the underscore To append an uppercase character use the Scroll Up and Scroll Down buttons to select Uppercase and then press Enter to go across to the characters Now use the Scroll Up and Scroll Down buttons again to select the required character and press Enter to transfer the character to the cursor position If another uppercase character is required repeat this last step or press the Back button top return to the choices on the left To append a lowercase character use the Scroll Up and Scroll Down buttons to select Lowercase and then press Enter to go across to the characters Now use the Scroll Up and Scroll Down buttons again to select the required character and press Enter to transfer the character to the cursor position If another lowercase character is required repeat this last step or press the Back button top return to the choices on the left To append a numeral use the Scroll Up and Scroll Down buttons to select Numeric and then press Enter to go across to the numbers Now use the Scroll Up and Scroll Down buttons again to select the required numeral and press Enter to transfer the numeral to the cursor position If another numeral is required r
17. 0 06 min sec Latitude 33 34 080 N Longitude 112 06 530 W Get Current Position Local Audible Enable Tone Continuous Figure 194 Trigger Configuration Outside Radius Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Point If the distance between the current GPS position and the reference position rises above the value in this field the alert will become active Alert Set Delay The distance between the current GPS position and the reference position must rise above the Outside Radius Alert Set value for longer than the time in this field in order for an alert to become active Alert Clear Point If the alert is active and the distance between the current GPS position and the reference position falls below the value in this field the alert will become inactive Alert Clear Delay The distance between the current GPS position and the reference position must fall below the Outside Radius Alert Clear value for longer than the time in this field in order for an alert to become inactive Latitude The latitude of the reference position This may be typed in as lt degrees gt lt minutes gt followed b
18. 1 such that all subsequent STW readings are no longer adjusted before displaying by the DSM250 6 7 3 Speed Calibration The DST100 speed through water STW initial accuracy is significantly affected by the location or placement of the DST100 within the hull The DSM250 can correct for these inaccuracies using the speed calibration procedure You calibrate the DSM250 for the DST100 STW by pressing the Enter key with the Speed Calibration menu item selected which results in the screen shown in Figure 59 speed Calibration 1 Select Speed Through Water 2 Press Accept to complete Power Abort Increase Decrease Accept Figure 59 Calibrating the DSM250 for DST100 Speed through Water The speed calibration screen shown above indicates the STW as measured by the DST100 which can be changed to the actual STW by following these steps First pick a speed where you are most concerned with the best accuracy Next bring the boat up to the desired speed using some other source perhaps the GPS speed over ground SOG Remember that the SOG does not necessary reflect the STW because of currents and drift due to winds so you should do this in an area where you are sure there are no currents and calm winds Finally use the Increase B and Decrease keys to adjust the display value until it matches the known speed of the boat Press the Accept QD key to accept the value when you are satisfied If you do not wish to
19. 2 Label See section 3 3 4 for details on how to enter a textual value 6 15 3 Tank Capacity In order for the TLA100 to produce readings of the amount of fluid remaining in the tank the tank capacity must be programmed into the TLA100 adapter Figure 120 below shows a screen shot of the tank capacity being configured Page 118 Revision 1 4 2 Maretron To program the tank capacity use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Tank Capacity menu item Then press the Enter key to move the highlight over the numerical tank capacity value Use the Increase and Decrease keys to change the value to the desired tank capacity value and finally press the Enter key to confirm your selection and store the value within the TLA100 vViTTIwWMISUVITTF device Configuration WA Manufacturer Model SN HW SW 73 Maretron TLA 100 2491151 10 16 4 Advanced Configuration Label Aft Fuel Tank Capacity OUCH Tank Levels Calibration Tank Number 5 Tank Type Fuel Operating Mode NMEA2000 amp Analog Gauge Gauge Resistance to sender 25 Gauge Resistance to sender 364 Power Cancel Increase Decrease Accepi Figure 120 Configuring the Tank Capacity After you have pressed the Enter key a confirmation screen will appear that warns you that the fluid remaining measurement will change as a result of this change Press the Accept key to accept the cha
20. 2000 connected displays can interpret these diagnostic codes To change the transmission status of the J1939 diagnostic messages use the Scroll Up or Scroll Down B keys to move the highlighted cursor to the J1939 Diagnostic Messages menu item Then press the Enter key 9 to move the highlight to the value field which displays either Enable or Disable Use the Scroll Up or Scroll Down B keys to change the value to the desired value and then press the Enter key to accept the new value and store it within the J2K100 Configuration Device Configuration NA Manufacturer Model SHz HW SW 80 Maretron J2K 100 1240002 10 10 1 J1939 Source Address 0 NMEA2000 Engine Instance 0 NMEA2000 Transmission Instance 0 41939 Diagnostic Messages Pe NMEA2000 PGN Enable Disable Figure 76 J1939 Diagnostic Messages Configuration 6 10 1 4 NMEA2000 PGN Enable Disable The J2K100 interface transmits several different messages which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Page 86 Revision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model SH HWe SW BE Maretron J2K 40 TH01T0 10 10 7 Advanced Configuration NMEA2000 PGN EnableiDisa ble H Engine Parameters Rapid Update Engine Parameters Dmamic Tra
21. 4 2 Maretron 4 2 16 Speed Speed Through Water displays the speed of the boat relative to the water Speed Over Ground displays Speed over Ground relative to the earth not the water Total Log displays the total distance traveled by the vessel since the log indicator was installed Trip Log displays the distance traveled by the vessel since the trip indication of the log indicator was last reset 4 2 17 Tank The DSM250 supports the display of information for up to sixteen tanks types 16 fuel plus 16 water etc Capacity displays the fluid capacity of the tank Level displays the level of fluid in the tank as a percentage of its capacity Remaining displays the amount of fluid in the tank Revision 1 4 2 Page 17 DSM250 User s Manual 4 2 18 Temperature The DSM supports the display of temperatures Each temperature sender on the bus is required to state the source of the temperature which may be one of Bait Well Dew Point Engine Room Exhaust Gas Freezer Heat Index Heating System Inside Live Well Main Cabin Outside Refrigeration Sea Wind Chill User Defined 129 User Defined 144 4 2 19 Time Local Date displays the current date referenced to the local time offset see Section 5 2 7 12 on page 42 for details on how to set the local time offset Date UTC displays the current date referenced to Universal Time Coordinated Moon Phase displays the phase of the moon at the curre
22. 4 2 Maretron Figure 192 Trigger Configuration Editor Tripped Alert 170 Figure 193 Outside Alert Parameters ccccccccccseccsseceeeceeecececeeeseecaeeceueceesaeesaeeeeesseeseeesaeeseeensas 171 Figure 194 Trigger Configuration Outside Radius Alert 172 Figure 195 Trigger Configuration Inside Radius Alert 173 Figure 196 Trigger Configuration GPS Quality Alert 174 Figure 197 Direction Alert Parameters n0n00n0n0anannannnnannnnanonrnnrnrnrrnrnnrnrrnrnrrnrnrrnrnernrnnrnrnnrnrrnennen 175 Figure 198 Trigger Configuration Direction Alert 176 Figure 199 Alert Editor Time Alert 177 Figure 200 Surface Mounting Template 0 00n0nn0nnannannanoennannnnnnnnnnnnrrrrnrrnrnnrnnrnrrnrrrrrnrrnrrnrnrrnrrnrrnne 193 Figure 201 Flush Mounting Template ccc cccccccecceeceeeeeeseeseese cesses eeeeeseeseeeseeseeeeeeseesaeeaeesees 194 Revision 1 4 2 Page vi Maretron 1 General 1 1 Introduction Congratulations on your purchase of the Maretron DSM250 NMEA 2000 Multi function Color Graphic Display Maretron has designed and built your display to the highest standards for years of dependable and accurate service Maretron s DSM250 is a high resolution color display that allows easy interpretation of NMEA 2000 instrument and navigation data through custom display configurations with an easy to use five key illuminated keypad The Maretron DSM250 is designed to o
23. Enter the desired reference heading or direction into this field If the monitored value differs from this value by more than the Offset Heading Set Point the alert will be triggered Get Current Heading Get Current Direction Get Current Course Pressing or clicking on this button will transfer the current value of the heading or direction being monitored into the Reference Heading Reference Direction Field 8 3 7 12 Trigger Type is Time Alert The DSM250 can be configured with alerts that go active at a predetermined time such as an alarm clock These alerts can also be configured to become active periodically making them useful for signaling watch changes for example every four hours or as a personnel alarm making sure a crew member is at the helm every 15 minutes When a Time Alert with a Repeat Interval of zero is accepted it will be Disabled to prevent further triggering When a Time Alert with a Repeat Interval greater than zero is accepted it will transition to the Inactive state waiting for the next time it should trigger Page 176 Revision 1 4 2 Maretron 8 3 7 12 1 Trigger Configuration Time Alert Alert Detail Data Local Time Instance Any Description Location d Trigger Configuration Trigger Type mlime Alert Re trigger Period 0 05 hh mm Alert Time 3 22 Local Audible Enable Tone Continuous Remote Annunciator s Operating Mode_Moored Enable Figure 199 Alert Editor Tim
24. GPS Status Display ln e deeded yn re rero rore ere reo Eoo re Encre veut 152 Foure 172 INumelc DISplay Exalmpl coit e CERE YE SEE PDA ERR ER EUR NER IAE Eo a ER Ea REDE dI dS 153 Figure 173 Configuration of Rolling Road Display cccccccccccseeceeeceeeseeeeeeeeeeeeeeseeeseeeaeeeaeeeaees 153 FOUG Ne ROMI ROAODISHlA aval stst apufct ee epu stu c dle deas tae ev gis abet iu titor auti der ia 154 get LIne Glapl DIS play E 155 Figure 176 Weather Dtspla y nennen nnne nnne nne nnn nna re nnne rne nnns 155 FIgure T 7 vvIndasose E EE 156 FOUS O MOON Prase DISDIAY EEN 156 Foure 17 Oe Trim Tab EI EE 157 Figure 180 Swing Meter Display 157 Figure 181 Tank Gauge Display cccccccccceeeceeeceeeceeeceeeeeece ceca nennen nenne nennen nnne nnne nnne a ns 158 elle Okay oe nallo m TE 159 FOUE 169 elei ie TE GE 161 Figure 184 Part of the Alert Edit Screen EE 162 FIgure Too High Alert En E 164 Figure 186 Trigger Configuration High Alert 165 Figure 187 Low Alert Parameters ccccccceccecceeceeeceeceecceeseecaeeceesueeceeceecaueceesaeeseesuesauesensaeeesas 166 Figure 188 Trigger Configuration Low Alert 167 Figure 189 Trigger Configuration Data Unavailable Alert 168 Figure 190 Trigger Configuration On Alert 169 Figure 191 Trigger Configuration Data Unavailable Alert 170 Page xii Hevision 1
25. Manufacturer Model Sz HVI SH fee 1 Larctron GPS LU 140001 11 14 Maretron SL A9 1120002 10 19 Maretron DST TN 1190003 10 10 Maretron USE T 1160004 10 16 hlaretron DSH AO 110005 17 11 Maretron WSOT TM T2006 10 10 0 B9 Maretron TLAW 260000 10 10 CO Maretron RAA TN T2290 10 10 D Lowrance EP 30 eM 10 10 Sg Ei Power Figure 32 Device Configuration Screen The NA column of the menu displays the node address the device is using The Manufacturer column of the menu displays the manufacturer of the device The Model column displays the model number of the device The SN column displays the serial number of the device so that any of two or more devices of the same manufacturer and model number may be distinguished from one another The HW column shows the device hardware version The SW column shows the device software version firmware version Page 44 Hevision 1 4 2 Maretron 6 1 Bennett EP 30 NMEA1 Trim Tabs Configuration This describes the configuration of the Bennett EP 30 trim tabs firmware version 1 0 7 NMEA1 NMEA 2000 Trim Tab Indicator Kit The EP 30 configuration menu is shown below in Figure 33 below and currently has the single entry Trim Tabs Calibration Configuration Device Configuration NA Manufacturer Model SHE HW SW 00 Lowrance EP Trim Ta _ 10 0 10 7 Trim Tabs Calibration Scroll Down nfiguration Screen Power Bach
26. Operator Cancels Alert ithe input Signal falls below High Alert Clear Point Figure 185 High Alert Parameters A high alert is triggered i e becomes an active alert once an input signal has risen above the High Alert Set Point and the Set Delay time has elapsed If the Set Delay is set to zero then the alert is immediately triggered once the input signal rises above the High Alert Set Point The Set Delay is used to reduce false or spurious alerts As an example setting the Set Delay to 5 seconds will eliminate any temporary transitions of the input signal above the High Alert Set Point lasting less than 5 seconds from triggering an alert Once the alert is triggered it becomes an active alert An alert remains active until e The input signals falls below the High Alert Clear Point and the Clear Delay time has elapsed If the Clear Delay is set to zero then the alert immediately transitions to the Awaiting Cancel once the input signal falls below the High Alert Clear Point as shown in the example above e The user accepts the alert in which case it transitions into the Accepted state The Clear Delay is used to reduce false or spurious alerts 8 3 7 1 2 Trigger Configuration Page 164 Revision 1 4 2 Maretron Alert Detail Trigger Configuration Trigger Type GIES Re triqger Period 0 00 min sec Alert Set Point F Alert Set Delay 0 00 min sec Alert Clear Point F Alert Clear Delay 0 00 min
27. Selection Screen ccccecccecccecceeceeceeeceeeseeeaeeeeeeeeeeseeseeeaes 64 Figure 53 DSM250 Copy alarms settings from local depl y 64 Figure 54 DSM250 Copy device selection from local deplay 65 Figure 55 DSM250 Copy favorite settings from local display cccecccecceeceeeeeeese esse eeseeeeeeeeeeaes 66 Figure 56 Favorite Settings Transfer Completion Screen ccccccccceceeeeeeseeeeeeeeneeeseeeseueeaeeeseesees 66 Figure 57 DS1100 Configurallon SCEGGn eer rro E re ERE REESE e UNSER Oa Qed Ov koe ein Edd 69 Figure 58 DST100 Advanced Configuration Screen ccccccccecccececeeeaeeeeeeceeeseeeseeeseeeaeeseeseeeseees 69 Figure 59 Calibrating the DSM250 for DST100 Speed through Weater 70 Figure 60 Setting the Transducer Depth Offset in a DGIi00 ccc cccceeeceeeeeeeeeeeeeeeeeeseeees 71 Figure 61 Resetting the DST100 Trip Distance log 72 Figure 62 EMS100 Configuration Screen cccccccecccsecceeeceeeceeceuecaeecaeecaeeseeeeueseueseeseeeseeeeeeeneneas 73 Figure 63 GPS100 Configuration Gcreen ees eeseeeseeseeeseeeseeeseeeeeeteeseegas 78 Figure 64 GPS100 Advanced Configuration Gcreen 78 Figure 65 Configuring Antenna Altitude on a Gb100 eeee esse eeseeeeeesseesaeeseeess 19 Figure 66 Configuring Satellite Elevation Mask on a GPS100 ccc eee eeeceeeceeeeeeeaeeeaeeeeeeseeees 80 Figure 67 Configuring PD
28. TLM100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the Binary Switch Status message by pressing the Enter key on the message to be configured Options are Off The fluid level message will not be transmitted On The fluid level message will be transmitted at its default NMEA2000 rate which is once every 2 5 seconds Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 16 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 16 2 Label A label may be assigned to the TLM100 as an aid to identifying the device over the network Typically this label will describe the location of the TLM100 and a description of the contents of the tank 6 16 3 Tank Capacity In order for the TLM100 to produce readings of the amount of fluid remaining in the tank the tank capacity must be programmed into the TLM100 adapter Figure 138 below shows a screen shot of the tank capacity being configured To program the tank capacity use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Tank Capacity menu item Then press the Enter key to move the highlight over the numerical tank capacity value Use the Increase and Decrease keys to Revision 1 4 2 Page 129 DSM250 User s Manual change the value to the desired tank capacity value and finally press the Accept key to confirm your selection
29. Tripped for the amount of time specified in this field the alert will become inactive 8 3 7 7 Trigger Type is Outside Radius Alert The Outside Radius Alert is used to signal an alert whenever the vessel moves outside a programmable distance in any direction away from a reference point expressed as a longitude and latitude This alert is useful when the vessel is anchored or moored and the vessel should not drift outside a perimeter and if it does an alert is activated The point of reference can be selected from the current position or it can be manually entered Figure 193 shows an Outside Radius Alert and associated parameters The Outside Radius Alert and the Anchor Alert are very similar The radius of the Outside Radius Alert is specified in either Nautical Miles or Kilometers while the radius of the Anchor Alert is specified in Feet or Meters 8 3 7 7 1 Parameters Outside Radius Alert Parameters transitions to the Awaiting Cancel slate ality Clear Delay seconds Lk 5 o a au LJ c g Q a a D e m Go c b Ka a Figure 193 Outside Alert Parameters Revision 1 4 2 Page 171 DSM250 User s Manual 8 3 7 7 2 Trigger Configuration Outside Radius Alert Alert Detail Trigger Configuration Trigger Type mOutside Radius Alert Re triqger Period 5 00 min sec Alert Set Point 3 00 Nautical Miles Alert Set Delay 0 06 min sec Alert Clear Point 2 50 Nautical Miles Alert Clear Delay
30. a list of devices that have been detected on the NMEA2000 bus This list is kept in memory permanently to reduce the overhead of requesting device information each time one of these pages is requested Pressing the Enter key while this selection is highlighted will clear the list of devices It will be necessary to perform this action to remove traces of devices that have been removed from the bus 5 2 4 1 4 Restore Factory Defaults This option restores all settings on the DSM100 device to their factory default state 5 2 4 2 Advanced Information The Advanced Information Page displays information pertaining to the permanent setup and configuration of the DSM250 Revision 1 4 2 Page 29 DSM250 User s Manual Display Settings Advanced Information Boot Version 0 0 0 Bus Status Device Instance 0x00 0 Hardware Version 2 0 Industry Group Marine 4 Installation Description SI B Label Load Equivalency Number 13 650 mA Max Manufacturer Maretron 137 Figure 16 DSM250 Advanced Information Screen Most of the items within the Advanced Information menu are obvious and not described here although a less obvious menu item Bus Status is described below 5 2 4 2 1 Bus Status The DSM250 is capable of monitoring the NMEA 2000 network and displaying certain statistics Baud Rate the speed capability of the connected network given in bits per second bps Voltage the network voltage as meas
31. and yellow if it is a Warning In addition the state of the alert 0 will be shown as follows Active The enclosing box will flash between a solid red or yellow and white Accepted The enclosing box will be a solid red or yellow Awaiting Cancel The enclosing box will be outlined in red or yellow as shown in Figure 182 8 1 1 Alert Status Screen The list of Active Alerts is displayed in tabular form on the Alert Status Screen This Screen may be displayed by selecting the Alert Status option from the Main Menu Revision 1 4 2 Page 159 DSM250 User s Manual Alert s Pending 1 Source Pr Inactive Local 3 OT 10 46 49 Local 5 8 2 Accepting or Cancelling an Alert Active Alerts may be accepted 4 3 2 by the operator to indicate that the operator has taken responsibility for the Alert Alerts that have been triggered and the cause removed without being accepted by a user must be cleared 8 2 1 From a Favorite Screen The Alert with the highest priority that requires accepting or cancelling is shown at the bottom left of the screen see Figure 182 This Alert may easily be accepted or cancelled without changing screens by pressing the Power button 8 2 2 From the Alert Status Screen Alert s Pending 1 Source Pri Descnption Inactive Local 3 e 10 46 49 Local 5 Use the Scroll Up and Scroll Down buttons to select the Alert to be accepted or cancelled and then press the Enter button An Alert Description
32. are negative when they should be positive or vice versa then the current transformer has been installed backwards If this happens then instead of reconnecting the current transformer you may change the value of this parameter from the default value of Normal Install to Inverse Install to correct for this Valid options are Revision 1 4 2 Page 47 DSM250 User s Manual e Inverse Install e Normal Install Use the Scroll Up and Scroll Down buttons to select the correct option and then press Enter to save the value 6 2 1 2 Current Transformer B If you notice that the power measurements of phase B are negative when they should be positive or vice versa then the current transformer has been installed backwards If this happens then instead of reconnecting the current transformer you may change the value of this parameter from the default value of Normal Install to Inverse Install to correct for this Valid options are e Inverse Install e Normal Install Use the Scroll Up and Scroll Down buttons to select the correct option and then press Enter to save the value 6 2 1 3 Current Transformer C If you notice that the power measurements of phase C are negative when they should be positive or vice versa then the current transformer has been installed backwards If this happens then instead of reconnecting the current transformer you may change the value of this parameter from the default value of Normal In
33. be done while at sea Confiquration Device Configuration H Manufacturer Model SH HW SWZ 00 Maretron DST 400 Qn 10 10 h2 Advanced Configuration Device Instance E Installation Description Figure 58 DST100 Advanced Configuration Screen 6 7 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network Revision 1 4 2 Page 69 DSM250 User s Manual 6 7 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 7 2 Clear Speed Calibration The Clear Speed Calibration configuration parameter shows you the currently used correction factor All STW readings for the particular DST100 indicated by the SN are multiplied by this number to arrive at the displayed number You can remove the correction factor by pressing the Enter key with the Clear Speed Calibration menu item selected And then choose Clear using Scroll Up or Scroll Down keys followed by the Enter key This changes the correction factor back to
34. buttons 8 3 4 3 Instance The Instance corresponds to the instance of the data type on the bus The desired option is selected using the Scroll Up and Scroll Down buttons 8 3 5 Description This is a textual field that will be displayed on the DSM250 and transmitted to Alert Slave devices It is intended to describe the alert e g Fire 8 3 6 Location This is a textual field that will be displayed on the DSM250 and transmitted to Alert Slave devices It is intended to describe the location at which the problem was detected e g Main Stateroom 8 3 Trigger Configuration This set of fields is used to describe the condition under which the alert will be triggered The sub fields will vary depending on the Trigger Type which in turn is determined by the Trigger Source 8 3 7 1 Trigger Type is High Alert A high alert is used to signal you when a parameter value rises above a threshold you determine For example you can set an alert to occur whenever the freezer temperature rises above 0 C 8 3 7 1 1 Description A high alert and associated diagram are shown in the figure below Revision 1 4 2 Page 163 DSM250 User s Manual High Alert Parameters Eo Inactive Active state after Mu Active Set Delay seconds mums Awaiting Cancel Input Signal rises above High Alert SetPoint High Alert transitions to the Awaiting Cancel state after Clear Delay seconds Set Delay G c Ub Uu ef E G High Afert i Clear Point
35. center position 3 Press lt Abort gt to cancel calibration and revert to old calibration data Accept Figure 85 Center Rudder Angle Calibration The third step in the custom rudder angle sender calibration process is to turn the wheel hard over to port and to measure the angle or the rudder angle from center with a protractor or other instrument Use the Increase and Decrease keys until the highlighted rudder angle value is at the measured value and then press Enter to accept the value and store it within the RAA100 Figure 84 shows a screenshot of the starboard rudder calibration screen You may also press the Abort Key to end the calibration process Rudder Angles Calibration Three seperate calibration points are used to calibrate the rudder hard over starboard center hard over port 1 Turn wheel hard over to port i Use arrow keys to select rudder angle 3 Press Accept to set rudder angle at hard over port position 14 Press lt Abort gt to cancel calibration and revert to old calibration data Power Abort Increase Decrease Accept Figure 86 Port Rudder Angle Calibration Once you have accepted the port rudder angle value a confirmation screen appears indicating that the rudder angle calibration has been successfully completed Figure 87 below shows a screenshot of this confirmation screen Revision 1 4 2 Page 95 DSM250 User s Manual Rudder A
36. column indicates whether data from that particular device is accepted for display by the USB100 On or that the USB100 ignores data transmitted by this device Off By scrolling to the device and pressing the Enter key you may then use the Scroll Up and Scroll Down B keys to toggle the Display status for this particular device Once you Page 140 Hevision 1 4 2 Maretron are satisfied with the state of the Display setting press the Enter key to accept the setting The USB100 will retain information on devices that have been removed from the bus or powered down Offline so that when they are placed back on the bus they will assume their prior Display setting Revision 1 4 2 Page 141 DSM250 User s Manual 6 21 Maretron WSO100 Configuration The DSM250 is capable of performing configuration of the WSO100 Wind Weather Sensor This describes the configuration of the Maretron WSO100 firmware version 2 0 12 Figure 155 below shows a screenshot of the WSO100 configuration menu Confiquration Device Configuration NA Manufacturer Model SNF HWe Swe 8 Maretron WSO T00 1600471 20 207 Advanced Configuration Device Label ROOF Installation Offset Calibration Wind Data Damping Period 4 0s Barometric Pressure 29 80 Inches Mercury Outside Humidity 13 Percent Outside Temperature 82 F Scroll Scroll Power Up Down Figure 155 WSO100 Configuration Screen 6 21 1 Advanced C
37. eie eee eiae eu eoe ev eie teo niei edes 139 Figure 153 USB100 Advanced Configuration Screen cece eeaeeeeeeseeeceeeseeeseeeseesaess 139 Figure 154 USB100 Device Selection Gcreen esee nennen nnns 140 Figure 156 WSO100 Advanced Configuration Screen esses enne 142 Figure 157 WSO100 NMEA 2000 PGN Enable Disable Screen 143 Figure 158 WSO100 Installation Offset Screen nennen nnn nnns 145 Figure 159 WSO100 Configuration Aborted Due to Low Wind Gpoeed 145 Figure 160 Installation Offset Success Confirmation Gcreen 146 Figure 161 Installation Offset Abort Confirmation Screen ccccccccccceccceeeaeeeeeeeeeeceeeceeeseeeaeeeaees 146 Figure 162 Setting the Wind Data Damping Period eseeeseeeseeeeennnnn nenne 147 Figure 163 Setting the Barometric Pressure nennen nnne nnne nnne nnn nenas 147 Figure 164 Setting the Outside Humidity ec ccecceecceeeceeeceeeeeeceeeceeeceeeseeeseeeeeseueseeeseeeeeeeaaes 148 Figure 165 Setting the Outside Temperature nennen nennen 148 Figure 166 Anchor Watch Display Exvample s irsiririrscisseisisirsissicinieneseisieseiniaeseinurae teienei 149 Figure 167 Compass Rose Display Course Up Example ccccccccccecceeeeeeeeeeeseeeceeeseeeaeesaues 150 Figure 168 Compass Rose North Up Display 150 Figure 169 Gauge Display El e E 151 Figure 170 Rudder Angle Gauge Display Exvample 151 Figure 171
38. fluid level The TLA100 will measure the sender resistance at each point and create a custom calibration map which relates the resistance of the sender with the fluid levels Figure 122 below shows a screenshot of the DSM250 with the Custom Calibration option highlighted Custom calibration is necessary for non rectangular tanks and for non standard values of resistances for tank level senders To perform custom calibration of the tank level sender use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Custom Calibration menu item Then press the Enter key to confirm your selection and begin the calibration process Configuration Device Configuration NA Manufacturer Model SH HW SW TO Maretron TLA 00 AT 151 10 14 Tank Levels Calibration set to American Standard 240 33 ohm Set to European Standard 10 180 ohm Scroll Scroll Ur Power Bach Down Enter Figure 122 Performing Custom Calibration of the Tank Level Adapter The first step in custom calibration of the tank level sender is to provide an estimated capacity of the tank This estimated capacity must be within 25 of the actual capacity To set the estimated tank capacity use the arrow keys to adjust the displayed value until the desired value is shown Then press the Accept key to confirm your selection and continue with the calibration process If you desire to stop the calibration pro
39. gefeelt 148 2288 28 20 ol ee 149 2E 0000517110118 PII 2 EEEE EE EE EEE EEEE 149 7 2 Compass Rose Display E 149 Fo CWE DIPA y ee ee ee 150 TA OPS AS RT EE 152 LO NUMEN DISDIAY e Ge 152 L RODO ROSI BE 153 Tal EMG E AD WEEN 154 Lo Wealer LIS DIY sss 0 0 E EEEE EEEE EEE EEE 155 LI WARO EE UU UU 156 A0 eel Prase DISplay 156 Fek TRI TADDA eee E E E E E E E E 157 GANZ OWING WIGTEE IIS DIA M T m 157 rS Tank Gaude RE e UE 158 o A En ae ee ee E E E eee ee 159 Bel DISBIAVING EM 159 XN Alert eei Eege 159 82 ACCEDING OF Canceling ai AGN E 160 921 FromaFayorite ti NT 160 O2 Trom ine AISI Status SGEN n eE E E IMEEM MEME 160 ao ee nie En E um T m 161 S Ga e e ET ISAS CONTO D 162 Doa neg Ke ne ee ee ee 162 SC SG ME Ee le 162 Oot WIG OSE SOUR CS E RT 163 oro no gue Ice NET ETE TT 163 sO LOCO EE omo 163 oro HEIEREN 163 Oaa COC AUN E 177 OSI OMG 177 8 3 10 Remote Annunciators E 178 oom OW Ee e Le Bee ER Oe el RE 178 8 3 12 Operating Mode Undenway 178 8 3 13 Operating Mode ATIClIOFBG E 179 EUN EENEG 179 8 4 Deleting an IC EMT 179 oo el ie te ANAG E 180 8 6 Setting the Vessel Operating Mode 181 Ol Advanced Conngu raUO NET TT 182 MEE 0107 12 EE 183 0 2 ROMO Alert AUGIDIG ccc cverexetovarenesenarexehovensretexcsanchevatevehaxeteuctaxeseuahexanexetexeneretoxatentsora 183 ee PAS ln Le CS OU esac
40. in yellow when Active and always appear below alarms on the Alert Status Screen 4 3 2 Alert Terminology The following alert terminology consistent with International Maritime Organization Code on Alarms and Indicators is used in N2KView and the DSM250 e Accept The user action of acknowledging the existence of an alert Alerts are only accepted when they are Active e Cancel The user action of removing an alert from the list of displayed alerts Alerts may only be cancelled if the condition causing the alert has been removed e Clear An alert is cleared when the condition causing the alert is removed This is not a user action e rigger An alert is triggered when the condition monitored by the alert is met 4 3 3 Alert Priority Each alert has a priority which you can define ranging from O to 4000 with O the highest or most important priority and 4000 the lowest or least important priority Alarms always have a higher priority than Warnings i e an Alarm with a priority of 4000 has a higher priority than a warning with priority 4 3 4 Vessel Alert Operating Modes You can configure alerts to operate in one or more fixed operating modes 1 disabled 2 moored 3 underway or 4 anchored This allows you to easily enable or disable groups of individual alarms depending on the vessel s operating mode Setting the vessel alert operating mode is described in section 8 6 The Operating Mode is one of Page 20 Hevisio
41. information on devices that have been removed from the bus or powered down Offline so that when they are placed back on the bus they will assume their prior Display setting Page 62 Hevision 1 4 2 Maretron 6 6 Maretron DSM250 Configuration You can use the DSM250 to configure other remotely located DSM250 units by using the Remote DSM250 configuration menu as shown in Figure 51 below This describes the configuration of the Maretron DSM250 firmware version 1 3 10 There are three configurable items for the remote DSM250 Remote Device Selection Copy device selection from local display and Copy favorite settings from local display Configuration Device Configuration NA Manufacturer Model SN HW SW T Maretron DSM250 T13001 8 10 13 0 Advanced Configuration opy alarms settings trom local display Copy device selection from local display Copy display settings from local display Copy favorite settings from local display Copy DST100 calibrations from local display Copy all settings from local display Label Test Remote Device Selection Scroll Scroll Up Power nal Enter Down Figure 51 DSM250 Remote Configuration Screen 6 6 1 Remote Device Selection A DSM250 unit can be used to configure a remote DSM250 to set which NMEA 2000 devices are selected for display on the remote DSM250 unit In this manner multiple devices of the same type may be used on a NMEA 2000 network in a fail
42. 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 Revision 1 4 2 Page 197
43. kWH Import displays total energy consumed by the utility Phase A Frequency displays frequency of the AC power on phase A of the Utility Phase A L N Voltage displays phase A Line to Neutral RMS voltage of the Utility Phase A L L Voltage displays phase A Line to phase B Line RMS voltage of the Utility Phase B Frequency displays frequency of the AC power on phase B of the utility Phase B L N Voltage displays phase B Line to Neutral RMS voltage of the Utility Phase B L L Voltage displays phase B Line to phase C Line RMS voltage of the Utility Phase C Frequency displays frequency of the AC power on phase C of the utility Phase C L N Voltage displays phase C Line to Neutral RMS voltage of the Utility Phase C L L Voltage displays phase C Line to phase A Line RMS voltage of the Utility 4 2 4 Anchor Watch The DSM250 provides a graphical display of the Anchor Alert section 8 3 7 9 parameters When the vessel is anchored the position of vessel at the point of dropping the anchor is entered in to the Anchor Alert plus the maximum distance that the boat can drift from that position normally a little more than the amount of Anchor Chain that you have let out If the boat moves beyond that radius Page 12 Hevision 1 4 2 Maretron an Alert is triggered The Anchor Watch display shows the last reported position of the vessel relative to the reported Anchor Drop position and the radius of the alert see section 7 1 for more details on
44. on an NMEA 2000 network must have a unique instance identifier to allow display devices to distinguish it from other transmissions on the network The NMEA2000 Transmission Instance menu item allows you to configure the transmission instance identifier which will be sent over the NMEA 2000 network along with transmission related NMEA 2000 messages In order to configure this parameters use the Scroll Up or Scroll Down B keys to move the highlighted cursor to the NMEA2000 Transmission Instance menu item Then press the Enter key to move the highlight to the numeric value on the right as shown in Figure 79 below Because only one such mapping can take place each Transmission and each Engine on the J1939 network must have its own J2K100 Gateway The J1939 Source Address see section 6 10 4 identifies the transmission on the J1939 network the Transmission Instance indentifies the transmission to the NMEA2000 network Confiquration Device Configuration NA Manufacturer Model SNR HWe SW BE Maretron J2K 400 74010 10 10 7 Advanced Configuration Device Label J2K 01 Engine Instance 2 41939 Source Address 0 Refresh J1939 source address list Transmission Instance Ei Scroll Scroll Up Down Figure 79 NMEA2000 Transmission Instance Configuration Revision 1 4 2 Page 89 Enter DSM250 User s Manual Use the Scroll Up or Scroll Down keys to change the value to the desired value you wi
45. perform installation offset calibration at this time press the Abort 9 key and the speed calibration will not be altered The Page 70 Revision 1 4 2 Maretron speed calibration process provides a method for the actual STW reading produced by the DST100 to be adjusted within the DSM250 i e calibration data is not stored within the DST100 WARNING Unlike resetting the trip log and setting the depth offset which actually programs the DST100 so that all displays receive the same information speed calibration must be performed at individual displays in order to show calibrated speed through water 6 7 4 Transducer Depth Offset The DSM250 can set the transducer depth offset parameter in a DST100 depth speed temperature transducer If you are interested in the actual water depth as opposed to the depth beneath the keel then you should program a positive value equal to the distance from the waterline to the depth of the DST100 The DSM250 will then add the measured depth of the water as seen by the DST100 to the programmed offset value to produce the total water depth If you are interested in the depth of water beneath the keel then you should program a negative value equal to the distance between the DST100 and the bottom of the keel The DSM will then subtract the programmed offset from the measured depth of the water as seen by the DST100 showing you the depth of water beneath the keel You program the transducer depth offset b
46. pointing straight up and the compass rose rotates to indicate the heading pointed to by the needle Figure 167 and 2 North Up where the rose always has North straight up and the needle rotates pointing in the direction of the heading bearing or course parameter Figure 168 Revision 1 4 2 Page 149 DSM250 User s Manual Figure 1 68 ain Rose North Up id 7 3 Gauge Display The gauge display shows the selected data in a graphical format resembling an analog gauge There is a general gauge format for most types of display and a specialized rudder gauge display A full screen example of a tachometer display can be seen in Figure 169 below Page 150 Revision 1 4 2 Maretron Engine 0 Speed Figure 169 Gauge Displa y Example A full screen example of the rudder gauge display can be seen in Figure 170 below a a EI 30 20 49 g 10 2 Figure 170 Rudder Angle Gauge Display Example Revision 1 4 2 Page 151 DSM250 User s Manual 7 4 GPS Status Display The GPS Status display shows the following data about the selected GPS receiver GPS operating mode 2D 3D DGPS Satellite signal strength up to 12 satellites Satellite azimuth and elevation up to 12 satellites Position HDOP Time Date Accuracy of position An example of a full screen GPS Status display can be seen below GPS Status 30 DGPS LL mam 33 34 081 N 112706 531 W 22 36 52 Alt 373 m 12 HDOP 0 9 E E
47. safe configuration For example a certain compass unit may be selected from several available compasses for display on the remote DSM250 The Remote DSM250 Device Selection Menu for an example network configuration can be seen in Figure 52 below WARNING Do not select multiple devices of the same type for display This will result in multiple and possibly conflicting readings Configuration Device Configuration NA Manufacturer Model SNF HW SW 11 Maretron DSM250 1309901 10 1 0 th 12 Remote Device Selection NA Manut Model SH Stt Disp 80 Maretron WSO 10 Fal Tii a Onl On 50 Maretron USB 0 1150111 OnL n H Maretron DSH 2 TREO Onl n 49 Maretron SL 200 1120437 OnL n d Maretron GPS RR 1H027377 Onl n Revision 1 4 2 Page 63 DSM250 User s Manual Figure 52 DSM250 Remote Device Selection Screen The NA column of the menu displays the node address the device is using The Manuf column of the menu displays the manufacturer of the device The Model column displays the model number of the device The SN column displays the serial number of the device so that any of two or more devices of the same manufacturer and model number may be distinguished from one another The Stat column indicates whether the device is currently connected to the bus and is responding to queries Online or has been disconnected from the bus has lost power or for some other reason is not responding to queries Offli
48. second 5 2 6 Wind True Vessel Ref This menu items allows you to select whether the true wind direction and speed referenced to the vessel are relative to the water or the ground Sailors are generally interested in measurements relative to the water while power boaters are interested in measurements relative to the ground Station is for home applications i e fixed mounting location unlike a vessel that changes direction Formats that may be selected are the following e Water e Ground e Station 5 2 7 7 Temperature This menu item allows you to select the units to be used for the display of all temperature related information Units that may be selected are the following e F e C 5 2 7 8 Atmospheric Pressure This menu item allows you to select the units to be used for the display of atmospheric barometric pressure Units that may be selected are the following e Inches Mercury in Hg e Bar e Mlllibars Revision 1 4 2 Page 41 DSM250 User s Manual e Millimeters Mercury mm Hg e kPa 5 2 9 Fluid Pressure This menu item allows you to select the units to be used for the display of fluid pressure Units that may be selected are the following e Pounds Square Inch PSI e kPa e Bar 5 2 7 10 Volume This menu item allows you to select the units to be used for the display of all liquid volume related information Units that may be selected are the following e Liters e Imperial Gallons UK Gallons e Gallon
49. textual value 6 3 1 3 NMEA2000 PGN Enable Disable The ALM100 Annunciator Module transmits the NMEA2000 PGN 130824 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration NA Manufacturer Model SH HWE SW D Maretron ALM TUO H6004 1 10 10 5 Advanced Configuration NMEA2000 PGN Enable Disable T0824 Annunciator E Op Figure 43 ALM100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the Annunciator message or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are e Disable The Annunciator message will not be transmitted e Default The Annunciator message will be transmitted at its default NMEA2000 rate and each time the value changes e 0 5s 5s The Annunciator message will be transmitted at the period specified and each time the value changes Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 3 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 3 2 Instance From here the instance number used in the Annunciator message may be set 6 3 3 Label A label may be assigned to the ALM100 as an aid to identifying the device over
50. the alert being accepted while it was Active To avoid such alerts from being missed by the user the alert is required to be cancelled You may cancel the alert at this time causing it to become an nactive Alert or you may disable the alert causing it to become a Disabled Alert Should the condition trigger the alert again the alert will transition back to the Active state incrementing a counter which is displayed on the Alert Status Screen in the What Happened column 4 3 6 Available Alert Classes The DSM250 has several classes of alerts depending on the parameter for which an alert is being configured Low Alert The alert will become active if the monitored value drops below the value in this alert for longer than the time specified in the Set Delay field High Alert The alert will become active if the monitored value rises above the value specified in this alert for longer than the time specified in the Set Delay field Data Unavailable Alert The alert will become active if the monitored value is not received or is received but with a value of Data Not Available for longer than the time specified in the Set Delay field On Alert The alert will become active if the monitored switch or flag becomes ON for longer than the time specified in the Set Delay field Page 22 Hevision 1 4 2 Maretron e Off Alert The alert will become active if the monitored switch or flag becomes OFF for longer than the time
51. the display 4 2 5 DC The DSM250 supports the display of information for up to 64 DC sources including alternators batteries solar cells wind generators etc with special parameters for batteries i e State of Charge Time Remaining etc Current displays electrical current being sourced to from the battery Voltage displays voltage measured at the battery Temperature displays battery case temperature State of Charge displays estimated state of charge of the battery please consult the battery monitors documentation for details State of Health displays estimated state of health of the battery please consult the battery monitors documentation for details Time Remaining displays estimated time remaining for the battery given its current temperature and rate of discharge please consult the battery monitor s documentation for details Ripple Voltage displays magnitude of the AC component riding on top of the DC voltage Power displays the power produced or consumed by the battery 4 2 6 Depth Transducer Offset when negative it displays distance from the depth transducer to the bottom of the keel when positive it displays distance between the depth transducer and the waterline Water Depth displays the current water depth including the transducer offset If the transducer offset is programmed to a negative number then the water depth represents the depth below the keel If the transducer offset is positive
52. to beep every time a key is pressed Conversely the keypad beep may be disabled if desired Revision 1 4 2 Page 33 DSM250 User s Manual Display Settings Language English Backlight Color Setup GM Jemo Mode Of Bus Status Serial Port Settings Power Figure 22 Setting the Keyboard Beep Option 5 2 4 7 Label Each DSM250 can be given a software label Normally this label will indicate the position of the DSM250 and is used by the Alert System to identify one DSM250 from another Display Settings Advanced Configuration Advanced Information Backlight Color Setup Demo Mode Off Normal Use Mode Keypad Beep Off Label Language English software Version 1 4 2b6 Figure 23 Editing the DSM250 Label 5 2 4 8 Language The DSM250 currently supports two languages English and Dutch Nederlands Support for other languages is planned for future firmware releases To change the currently used language use the Scroll Up B or Scroll Down keys to move the highlight to the Language menu item and then press the Enter key to move the highlight to the language selection on the right Use the Scroll Up B or Scroll Down B keys to change the selection to the desired value and then press the Enter key to confirm your selection The DSM250 will then reset itself after which the selected language will be used for menus and titles 5 2 4 9 So
53. until the desired value is shown Then press the Accept key to confirm your selection and continue with the calibration process If you desire to stop the calibration process pressing the Abort key 9 will end the process and return you to the Tank Levels Calibration menu Tank Levels Calibration 1 Use arrow keys to select estimated tank capacity 81 4 Gal 2 With empty tank press Accept to begin calibration process 3 Press lt Abort gt to cancel calibration and revert to old calibration data Power Abort Increase Decrease Accept Figure 141 Tank Levels Calibration Capacity Estimation Revision 1 4 2 Page 131 DSM250 User s Manual The next step in the calibration process is to fill the tank and indicate the volume of fluid in the tank at various points while filling the tank This process should be started with an empty tank You only need to indicate two calibration points for a rectangular tank and can use up to 16 calibration points for a tank with a more complex shape Figure 142 shows a screenshot of the first calibration step Enter the first calibration point with an empty tank 0 0 Gallons liters by pressing the Accept key The Current Point highlight will advance to the next point i Tank Levels Calibration Only two settings empty and full are required to calibrate rectangular tanks Up to calibration points can be used for irregular shaped tanks 1 Use arrow keys to select curre
54. which the DCM100 is monitoring See section 3 3 4 for details on how to enter a textual value Page 60 Hevision 1 4 2 Maretron 6 5 Maretron DSM200 Configuration You can use the DSM250 to configure other remotely located DSM200 units by using the Remote DSM200 configuration menu shown in Figure 49 below This describes the configuration of the Maretron DSM200 firmware version 1 10 There is one configurable item for the remote DSM200 configuration and that is Remote Device Selection Configuration Device Configuration NA Manufacturer Model SHE HW SW D Haretron DSH200 1100005 12 10 Remote Device Selection Figure 49 DSM200 Remote Configuration Screen 6 5 1 Remote Device Selection A DSM250 unit can be used to configure a remote DSM200 to set which NMEA 2000 devices are selected for display on the remote DSM200 unit In this manner multiple devices of the same type may be used on a NMEA 2000 network in a fail safe configuration For example a certain compass unit out of several may be selected for display on the remote DSM200 The Remote Device Selection menu for an example network configuration can be seen in Figure 50 below WARNING Do not select multiple devices of the same type for display This will result in multiple and possibly conflicting readings Configuration Device Configuration NA Manufacturer Model SNF HW SW 11 Maretron DSH 200 192090045 12 1 15 0AT Remote Device Selection NA Manu
55. you have multiple units on the network Page 100 Revision 1 4 2 Maretron 6 12 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 12 1 3 NMEA2000 PGN Enable Disable The RIM100 Run Indicator Module transmits the NMEA2000 PGN 127501 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration H Manufacturer Model SN HWt SM D4 Maretron RIMM 060 10 111 Advanced Configuration NMEA2000 PGN Enable Disable LIEBE CE Figure 94 RIM100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the Binary Switch Status message or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are e Disable The status message will not be transmitted e Default The status message will be transmitted at its default NMEA2000 rate which is once every 15 seconds and each time the value changes e 1s 15s The stat
56. 0 User s Manual for more details on the use of magnetic variation by the SSC200 compass By default the SSC200 is capable of receiving variation information on either its NMEA 0183 or NMEA 2000 interfaces This causes the SSC200 to use variation data from either the NMEA 0183 interface or the NMEA 2000 interface Confiquration Device Configuration NA Manufacturer Model SN HW SW 49 Maretron SSC 200 1120224 20 20 11 Advanced Configuration Installation Offset Calibration Invert Installation Normal Installation Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period 2 05 Rate of Turn Zero Offset Calibration Variation Source lll ALENE T Srey scroll scroll Up Down Figure 113 Setting Variation Source to NMEA 0183 or NMEA 2000 factory default Power Enter You should need to alter this setting only if e There are variation sources available on both the NMEA 2000 and NMEA 0183 interfaces or e here is no magnetic variation source available If variation sources are available on both the NMEA 2000 and NMEA 0183 interfaces you must tell the SSC200 which source to use Figure 114 below shows the NMEA 0183 source selected This causes the SSC200 to use variation data from the NMEA 0183 interface and ignore all other variation sources i e NMEA 2000 interface and manual entries Confiquration Device Configuration NA Manufacturer Model SH HWe Sw
57. 128 Od6 F Advaticed C OD HgllleallODl ssoretocesetinead etie eod vb erad tidie ad td oan od oodd old ro vob ooo M oto DOM oe 128 60162 gt 0 c ee 129 016o TINK y c AY germ 129 0 16 4 Tank Levels e e c super botte bo poe Ebo beq Ded equite LP beris etui DU Eb 130 6 16 5 TankNumber nnn nenne nnn nene nsa re rea serre saa pers sa seres nans 134 B10 20 WANK YDG mm REED TEE 134 6 17 Maretron TEM 150 ContIgulatlOE c o eoo ERES E EE HEEL USUS Ea eto Ia oes EN aei etogue 135 6 18 Maretron TLM200 Configuration esses 135 6 19 Maretron TMP100 Configuration seeeseeseeseeeeeeen nennen nennen nnns 136 60 191 Advanced Configura lOM EE 136 0 19 2 e Elei KE e ie tel e e WEE 137 EE EE eege 138 6 20 Maretron USB 100 COnMGQUIATION eerste pua ta iva beta sa ote ERE 139 0 20 1 Advanced Be Mie Te E 139 6 20 2 REMOS Device ENER 140 6 21 Maretron WSO100 Configuration ccccccceccceccceeeseeeaeeeeeeceeeceeeseeeeueeseeeeeeseeeseeeaeetaees 142 Do P AdacedgtobiteHelobiusutenselere T totos a uoa ra edi sd 142 0 21 2 Device E e 144 6 21 9 Installation OnSet CallDFATIOE EE 144 60214 wind Data Damping E Le e EE 146 Page vi Hevision 1 4 2 Maretron 6 21 9 BaromelriC FICSSUNG ic cscescttecasnastnancnattrcneretbacnenchtnanesabbsananch zcnanehtnanenabenenasehsncnerestnanexs 147 0216 Qu tside RUMIdI E 147 oL
58. 181 Tank Gauge Display Page 158 Revision 1 4 2 Maretron 8 Alerts The DSM250 can act as both an Alert Source and an Alert Monitor An Alert Source monitors parameters received on the NMEA2000 bus against a user entered threshold and displays alerts when parameters go out of range It will also transmit this Alert information to other Alert Monitors on the bus Platinum copies of N2KView or other DSM250s and sound the ALM100 annunciators as required Operators may accept or cancel the Alerts from the buttons on the front of the DSM250 An Alert Monitor the DSM250 monitors the bus for Alert messages from Alert Sources and displays the remote Alert information on the DSM250 s screen Operators may accept or cancel the remote Alerts from the buttons on the front of the DSM250 in which case an Alert Command Message is sent back to the Alert Source 8 1 Displaying Active Alerts Active Alerts are overlaid on all the favorite screens 10 37 2 i Alert s Pending 1 J Wind Lir Wind Speed emp Outside Hum Gutside Z DU zu E En ipd 2800 Temp hzide 2 00 24h 18h 12h Gh Oh Figure 182 Alert Display The number of Alerts with pending operator actions is shown in the top right corner This will be colored red if the highest pending Alert is an Alarm and yellow if it is a Warning The description of the active Alert with the highest priority is shown at the bottom left of the screen This will be colored red if itis an Alarm
59. 2000 PGN Enable Disable Restore Factory Defaults Cancel Increase Decrease Accept Figure 66 Configuring Satellite Elevation Mask on a GPS100 The allowable values for Elevation Mask are between 90 and 90 This number represents the elevation of a satellite above the horizon Satellites with 0 elevation are at the horizon while satellites with 90 elevation are directly overhead The GPS will exclude satellites with an elevation lower than the value of this parameter from the position solution 6 9 1 4 PDOP Mask The DSM250 is capable of setting the PDOP Mask on a Maretron GPS100 You can choose this setting by pressing the Enter key with the PDOP Mask menu item selected which causes the screen shown in Figure 67 to be displayed Confiquration Device Configuration NA Manufacturer Model SH HWe Swe 21 Maretron GPS Ww 211 21 20 1 Advanced Configuration Device Instance 211 GPS Antenna Altitude 0 00 m GPS Elevation Mask 7 5 GPS PDOP Mask B GPS SNR Mask 28 00 dB Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Cancel Increase Decrease Accept Figure 67 Configuring PDOP Mask on a GPS100 The allowable values for PDOP Mask are between 1 and 20 This number represents the Position Dilution of Precision which indicates the accuracy of the computed position and is a function of the positions of the received satellites If the PDOP of a given position s
60. 6 21 1 4 Instance Temperature This entry allows you to program the NMEA 2000 device instance for the temperature transmitted in PGN 130312 You usually will not need to modify the default value of 0 unless you have multiple temperature sensors on the network Note that the TMP100 module also generates these PGNs 6 21 1 5 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later 6 21 1 6 NMEA2000 PGN Enable Disable The WSO100 Ultrasonic Wind and Weather Station transmits a number of NMEA2000 PGNs which can be turned on or turned off by the DSM250 display For the vast majority of installations the factory setting is appropriate but if it becomes necessary to disable one of the transmitted messages from the WSO100 for instance if you have a separate thermometer humidity sensor barometer on the network it is possible to do so with the DSM250 Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration H Manufacturer Model SHz HW SWE BA Maretron WSOT C041 20 207 Advanced Configuration NMEA2000 PGN Enable Disable LEN a On DOUM Environmental Pa
61. 9 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network Page 136 Revision 1 4 2 Maretron 6 19 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later 6 19 1 3 NMEA2000 PGN Enable Disable The TMP100 Temperature Module transmits a number of the NMEA2000 PGNs which can be turned on or turned off by the DSM250 display For reasons of compatibility with older NMEA2000 devices some of these PGNs are redundant disabling these PGNs will reduce the amount of traffic on the NMEA2000 bus Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration NA Manufacturer Model SH HW SW 29 Maretron TMP 100 4450009 10 111 Advanced Configuration NMEA2000 PGN Enable Disable DOUM Environmental Parameters Ont T3311 Environmental Parameters n THOT Temperature n T3823 Temperature High Range Ott Figure 150 TMP100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the tr
62. A 0183 interface Configuration Device Configuration NA Manufacturer Model SH HWE SW 9 Maretron SSC AN TI20707 2l 20 11 Advanced Configuration NMEA0183 Settings EU atm 4800 bps Sentence Rate Selection Load Default Sentence Rate Selection Figure 102 8SC200 NMEA 0183 Settings Screen 6 14 1 3 1Baud Rate The SSC200 compass supports NMEA0183 communication at both 4800 baud and 38400 baud All SSC200 Compasses are shipped with a baud rate of 4800 baud This value may be changed by selecting the Baud Rate option in the menu and pressing Enter The use the Scroll Up and Scroll Down buttons to select the desired baud rate and press Enter to save the value 6 14 1 3 2Sentence Rate Selection The NMEA 0183 interface is a very low bandwidth interface The SSC200 is capable of transmitting a wide variety of NMEA 0183 sentences and can exceed the bandwidth of the NMEA 0183 interface if all sentences are transmitted at maximum rates causing lost data in NMEA 0183 multiplexers or on the SSC200 interface itself It is important therefore to limit the types of NMEA 0183 sentences transmitted only to those that are necessary for other products which are connected to the NMEA 0183 interface Figure 103 below shows the SSC200 NMEA 0183 Settings gt Sentence Rate Selection menu In this menu you can selectively enable and disable the different NMEA 0183 sentences that the SSC200 can transmit and you can program the transmission
63. Defaults configuration which allows you to return the GPS100 to the factory settings Configuration Device Configuration NA Manufacturer Model SNe HWe SWe 21 Maretron GPS T0 211 21 20 1 Advanced Configuration old start GPS Engine GPS Mode Auto Label GPS211 JP15 SHIELD SBAS WAAS EGNOS MSAS Enable Power Down Scroll Scroll Up Figure 63 GPS100 Configuration Screen 6 9 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea The Advanced Configuration Screen is shown below Configuration Device Configuration NA Manufacturer Model SHE HW SW JC Maretron GPS W THOOZ7 11 16 H Advanced Confiquration Device Instance GPS Antenna Altitude 0 00 m GPS Elevation Mask 7 5 GPS PDOP Mask Disable GPS SNR Mask 28 00 dB Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 64 GPS100 Advanced Configuration Screen Page 78 Hevision 1 4 2 Maretron 6 9 1 1 Device Instance The Device Instance will be used to identify the GPS100 device on the network Unless there are multiple GPSs on the network this should be left at Zero 6 9 1 2 GPS Antenna Altitude The DSM250 is capable of setting the antenna altitude on a Maretron GPS100 You can choose this sett
64. Device Label J2K 01 Engine Instance 2 J1939 Source Address Refresh J1939 source address list Transmission Instance 1 Scroll Down Enter Figure 78 J1939 Source Address Configuration To set the J1939 source address use the Scroll Up and Scroll Down keys to move the highlighted cursor to the J1939 Source Address menu item Press the Enter key to move the cursor over to the source address value on the right as shown in Figure 78 above Then use the Scroll Up and Scroll Down keys to change the J1939 Source Address value until it matches the J1939 source address of the engine genset or transmissions for which you desire this J2K100 to translate data onto the NMEA 2000 network Page 88 Hevision 1 4 2 Maretron 6 10 5 Refresh J1939 source address list The configuration screen for the J2K100 will examine the bus to determine to which devices it can connect This is presented in a list at the bottom of the screen To update the list after adding a device highlight this entry and press the Enter button Configuration Device Configuration NA Manufacturer Model SH HWe Swe BE Maretron E AU T4010 10 10 7 Advanced Configuration Device Label J2K 01 Engine Instance L7 41939 Source Address 0 Refresh J1939 source address list Transmission Instance 1 Scroll Scroll Up Down 6 10 6 Transmission Instance This entry allows a transmission to be mapped to an NMEA2000 instance number Each transmission
65. E 78 6 9 1 Advanced Contguraton ees eeseeeseeceeeceeeseeeseeeseesseeseeseeeaeeeaes 78 SG EC ee King C a gt EE 82 D 9 9 ere Mode SEUN ee ee ie EE ee er re ee eee 83 Oi DOVES CIDO E 84 0 95 SBAS WAAS Enable Disable xc c5cccscscscicacseacrcancusnwiansdarutarenaeseaneaaeetenstacseenstacwsineteewesds 84 6 10 Maretron J2K100 Configuration ccccccccccccecceeeeeeeeeeece ees eeseeeeeeseeeseeeseeeseeseueteeeseeeseeeaes 85 D ID T Avance d COMMU e Gecccsccssecaneceveresceescrenceasesecccassenscanseenarensecnasonssenseontsenncaserenscanseas 85 SN LARRIEU e 87 6 109 Let le E ue 87 0 10 4 J1999S0 rce Address ConiguraliO EE 88 6 10 5 Refresh J1939 source address let 89 6 10 6 Transmission lnstonce A 89 6 11 Maretron RAA100 Configuration cccccccccceccseceeeceece ees eeaeeeeeeeeeeseeeseeeseeeeeeseeeseeeseeeaes 91 om m MP Advanced Configura e EE 91 REM E I M 92 6 11 3 Rudder Angle Calibration E 93 SM M Rader NUMDOT aeree eeaeee TM 96 OTRS OPa MOI er a E T A E E 97 6 11 6 Gauge Resistance re E e 98 Orta Gauge R sistanc tO eT Ee 98 6 12 Maretron RIM100 Configuration ccccccccccecceeeceeece cece eeseeeseeeeeeceeeseecseeseeeseeeseeeaeeeaess 100 b 12 1 Advanced C eu e TEE 100 SSPAAEBITUSREIO N TENUERE 101 Hevision 1 4 2 Page v DSM250 User s Manual 6 12 33 INStaNCE E 102 0124 Channel CorfidUlatlOL E 102 6 43 MareronSIMTOO Conguf AMON r
66. ETTEN 8 ku Ee 11 Al Favole ni 11 4 2 Categories and Data Re 11 ro AC BUS 11 AZZ AC GENE AION E 11 e GE AC OU EE 12 424 JATICDOP e baceeccsgacc E E E EE EE E E 12 dI DO EE 13 A2 o DOD NEE 13 AA ue He cece te 13 EE 13 2 29 uel Wai aC CINGIN EE 15 e Ch LAN 15 e GC MI ACHING NE TM 16 AZ KE aile te RE t D ODER 16 uM SEM M NER 16 SN ad RAOT ee a EE 16 Eat UE Ee 16 BZ AO DOCS E 17 S Cu Kan 17 AO NC POC FA O cerea a sneanedes 18 e M Eo WANG eoe TREES 18 2 2 20 EE 18 4 2 21 WVOeSSOl scrovstoraseuatavetaxeteveharatenatexatevetexeteveseucteratesesteedinobinedhesstnesacesacottasshceddastieettassizenavess 18 ELA 19 Revision 1 4 2 Page iii DSM250 User s Manual LA JM a e E E A E S 20 e SEN WS Ta Ee EE ZU E e En Un Lee ZU Bor Eu Ee A E ZU 4 3 4 Vessel Alert Operating Modes nennen nnne nnne nnns 20 43 9 Alert EE 22 e ATI Glas E 22 BD ODERAING ee DU eebe ere 24 5 1 eege EES 24 OZ MENU MOGO EO EEEO NEEE 24 921 Aler Sep MENU EE 26 922 AE EE 26 Ro Gone ce Miis EE 26 5 244 Display Settings E EE 2f 929 Favole Screens ee EE 35 5 2 6 Favorite Screens Setup Menu hisntennknnn nnana a a a 35 927 E CR d scis miiseisesentsei istaria n aa deidad neei
67. F 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 Procedure Page 196 Revision 1 4 2 Maretron 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
68. Figure 129 European Standard Sender Calibration 6 15 5 Tank Number Next the tank number must be configured A tank number can have a value between 0 and 15 Each tank of a particular type must have a tank number that is different from all other tanks of the same type For instance only one TLA100 on a fuel tank may have tank number equal to 0 A screenshot of tank number configuration is shown in Figure 130 below In order to configure the tank number use the Scroll Up B or Scroll Down B keys to move the highlighted cursor to Tank Number then press the Enter key to move the cursor over to the tank number value Use the Scroll Up or Scroll Down keys to select the desired tank number Finally press the Enter key to confirm your selection and store the new tank number within the TLA100 Confiquration Device Configuration NA Manufacturer Model SH HW SW I3 Maretron TLA 100 KIK 10 16 H Advanced Configuration Label Aft Fuel Tank Capacity 1 0 Gallons Tank Levels Calibration Tank Number Tank Type Fuel Operating Mode NMEA2000 Scroll Power Down Figure 130 Configuring the Tank Number 6 15 6 Tank Type The TLA100 can be used in tanks containing any of a number of different types of fluids So that network connected monitoring devices can determine easily what sort of fluid is in the monitored tank the TLA100 must be programmed to indicate the fluid type it is moni
69. Figure 177 Wind Rose Display 7 10 Moon Phase Display The DSM250 supports a moon phase display which shows the current phase of the moon at the current location An example screenshot of the moon phase display appears in Figure 178 below Moon Phase Last Quarter Figure 178 Moon Phase Display Page 156 Revision 1 4 2 Maretron 7 11 Trim Tab Display The DSM250 supports a trim tab display in which the relative positions of the port and starboard trim tabs are displayed on a dual bar graph A screenshot of the trim tab display appears in Figure 179 below Trim Tabs 47 96 _ 10095 L Port Figure 179 Trim Tab Display 7 12 Swing Meter Display The DSM250 supports a swing meter display similar to those found on dedicated swing meters for displaying the rate of turn of the vessel in degrees per minute The swing meter is available in ranges of 30 minute 100 minute or 300 minute A screenshot of the swing meter display appears in Figure 180 below Rate of Turn STBD EN DegreesiMinute Figure 180 Swing Meter Display Revision 1 4 2 Page 157 DSM250 User s Manual 7 13 Tank Gauge Display The DSM250 supports a tank level gauge display type which shows percentage of fluid remaining in a tank on an analog gauge with 180 of travel A screenshot of a tank gauge display showing a fuel tank s level appears in Figure 181 below Tank Fuel 0 Level Figure
70. Half Left Qtr Qtr three parameters will be displayed the first occupying the left half of the screen the second occupying the upper right hand corner of the screen and the third occupying the lower right hand corner of the screen Qtr Half Qtr three parameters will be displayed the first occupying the top left hand corner of the screen the second occupying the upper right hand corner of the screen and the third occupying the lower right hand corner of the screen Half Left Right two parameters will be displayed the first occupying the left half of the screen and the second occupying the right half of the screen Half Top Bottom two parameters will be displayed the first occupying the top half of the screen and the second occupying the bottom half of the screen Page 36 Hevision 1 4 2 Maretron e 2 Qtrs Half Bottom three parameters will be displayed the first occupying the upper left hand corner of the screen the second occupying the upper right hand corner of the screen and the third occupying the bottom half of the screen e Half Top 2 Qtrs three parameters will be displayed the first occupying the top of the screen the second occupying the lower left hand corner of the screen and the third occupying the lower right hand corner of the screen e Four Quarters four parameters will be displayed the first occupying the upper left hand corner of the screen the second occupying the upper right han
71. Maretron DSM250 NMEA 2000 Multi function Color Graphic Display User s Manual Revision 1 4 2 Copyright 2009 Maretron LLP All Rights Reserved Maretron LLP 9014 N 23 Ave 10 Phoenix AZ 85021 7850 http www maretron com Maretron Manual Part M001301 Hevision 1 4 2 Page i DSM250 User s Manual Revision History Original document Added sections on Alert and Anchor Watch and configuration of more devices Page ii Revision 1 4 2 Maretron Table of Contents E en EE 1 SM Vu reel Ee le EE 1 12 Firmware REVISI N Et T 1 to BS Po Nu um 1 ME CUedi m 1 MEE ON aces t uc 2 Ar OMORO EE 2 2 2 Choosing a Mounting Location 2 29 Mounino MeD M9 E 2 291 S UNace Mounting Me BD9lVIZD9U DEE 2 2 3 2 Flush Mounting the DSM250 icc iccc iir rtr eter tete n to ut tioni tima e En ena siae aee 3 2 9 9 GimDal MOUNTING trie RE RE AE 4 2 4 Connecting the DSM250 ssssssseessesseeseee sese nne nee naeiae sese sase ases ssa sa sse sese sane sese annis 5 24 1 Checking the Connecti sn oot pepe sata sabe gabe gabe vabo ehe sebo vata sata yeba vob axeta seta seta quta yat vota xat exahoys 5 3 Operating ihe DSM250 6 est TOMNI EE tee 6 eZ TUM TE RER E E E E E EEEE EE 6 SS ONPG Gu NETTE T 3 9 1 Navigatng IN a MENU MR oom Mi CHOOSI ANa e un ER EE 8 39 9 AWNING EN Bi Ee UE 8 394 Enennga TEE R
72. NA Manufacturer Model SHE HWE SW B4 Maretron DCH SW HRS 10 104 Advanced Configuration NMEA2000 PGN Enable Disable T7536 DC Detailed Status n TIS Battery Status n Figure 46 DCM100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the these messages or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are e Disable The message will not be transmitted e Default The message will be transmitted at its default NMEA2000 rate e 1 0s 5 0s The message will be transmitted at the period specified Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key Page 56 Hevision 1 4 2 Maretron 6 4 1 5 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 4 2 Current Sensor Zero Offset Calibration The DCM100 is shipped with a Hall effect current sensor In order to match the DCM100 unit and the sensor to one another and ensure maximum accuracy you should perform this calibration step while there is no current flowing through the current sensor Move the highlight bar to the Current Sensor Zero Offset Calibration and press the Enter button The following confirmation screen will be displayed Current Sensor Zero Offset Cal You are about to zero out your current sensor If you do not want to do this press Cancel Make s
73. OP Mask on a GbGI00 80 Figure 68 Configuring SNR Mask on aGbGiIO00 nennen nennen nennen nana 81 Figure 69 GPS100 NMEA 2000 PGN Enable Disable Screen 02 Figure 70 Restoring Factory Defaults on the GPS100 1 0 cece cece cece eeee secs eeseeeseeeaeeeseeeeeeseeees 82 Figure 71 Performing a Cold Start of the GbG700U eeeeeeeeeseeeaeesseeeeeeseeeseeeges 83 Figure 72 Configuring GPS Operating Mode on a GbG700 83 Figure 73 COnnguring SBAS orsa GPSTOU EE 84 Figure 74 J2K100 Configuration Gcreen 85 Figure 75 J2K100 Advanced Configuration Screen nannannenoansnnnnnsrnnnnrrrnrrnrrnrnnrnnrnrrnrrrrrnrrnennene 85 Figure 76 J1939 Diagnostic Messages Confguraton 86 Figure 77 J2K100 NMEA 2000 PGN Enable Disable Screen 87 Figure 78 J1939 Source Address Configuration ccccceccceecceccceeeeeeeaeeceeeceeeceeeseeeaeeeseeeeeeseeeseeeaes 88 Figure 79 NMEA2000 Transmission Instance Contguraton 89 Figure 80 RAAT OO E E ene Eden suus suticu a e sens send seus sia oe nei gerer ri ora det 91 Figure 81 RAA100 NMEA 2000 PGN Enable Disable Screen 92 Figure 82 Rudder Angle Calibration Options cccccccccceccceeceeeeeeeeeeeeeeese esse eeseeeeeeseeeseeeseeeseeeseeeas 93 Figure 83 Custom Rudder Angle CG albraton 94 Figure 84 Starboard Rudder Angle Calibration cccccccccccecceeceeceeese ees eeaeeeeeeseeeseeeseeeeeeseeeseeeaes 94 Figure 85 Center Rudder Ang
74. One way to verify connectivity is to enter the device selection menu which is described in Section 5 2 3 2 Refer to Section 10 Troubleshooting if no information appears Revision 1 4 2 Page 5 DSM250 User s Manual 3 Operating the DSM250 3 1 Turning the DSM250 On To turn on the DSM250 press the power key the leftmost of the five keys on the keypad The DSM250 will display a warning and ask you to press the Accept key to acknowledge the warning and continue operation of the DSM250 see Figure 5 below Biet Maretron DSM250 Maretron DSM250 Software Version 1 4 2 Model Version 2 0 serial Number 1319999 WARNING By pressing Accept you acknowledge that while Maretron products are designed to be accurate and reliable they should be used only as aids to navigation and not a5 a replacement for traditional navigation aids and techniques Accept Figure 5 DSM250 Power Up Screen Alternatively you may power down the DSM250 by pressing and holding the power key see Section 3 2 below for details 3 2 Turning the DSM250 Off To turn the DSM250 off press and hold the power key The DSM250 will display a countdown screen which can be seen in Figure 6 If you continue to hold the power key the DSM250 will power down in approximately three seconds If you release the power key before these three seconds have elapsed the DSM250 will return to its current operational state Page 6 Revision 1 4 2 Maretron
75. Page 192 Revision 1 4 2 Maretron 13 Installation Template Please check the dimensions before using the following diagram as a template for drilling the mounting holes because the printing process may have distorted the template wz 3 16 Diameter 3 16 Diameter 1 3972 Holes Holes Cut 2 25 diameter Cut the surface out along the dotted line Drill Drill 3 16 Diameter 3 16 Diameter NE Holes Holes 2 979 2 975 Surface Mounting Template Figure 200 Surface Mounting Template Revision 1 4 2 Page 193 DSM250 User s Manual Figure 201 Flush Mounting Template Page 194 Revision 1 4 2 Maretron Revision 1 4 2 Page 195 DSM250 User s Manual 14 Maretron 2 Year Limited Warranty Maretron warrants the DSM250 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 unable to deliver a replacement that is free from defects in mat
76. ST100 calibrations from local denl y 66 6 6 7 Copy all settings from local display ccccccccccceccceeeeeeeeeeeeeeceeeseeeseeeseeseeeseeeseeeaeeeaes 67 Page iv Hevision 1 4 2 Maretron 06009 LGD Sl E ria ieai i ei iieis 67 6 6 9 Remote Device Gelechon 68 Oy Maeron Do 100 Coni ar de EE 69 OF Advanced CO POUT Atl OND se reouciusdiqui astetrasieti cient uui aed se us nium iE ie Ei iiS 69 D6z Clear SOCCd REH een HU EEEE EE EGDE RU RUE DOES 70 6 7 3 Speed Calibration EE D OO UIT 70 6 7 4 Transducer Depth OffSOL uussesedesxdsa ag ditch cea ihcas 71 SEMEN PEO a UU Lu ur 11 6 0 Meteo EMS100 COnnQuratlON essccecsecvssazseeeesecveveeteaseeveteesseeecassee sceenesdidseuseeudecveieeexessieee 73 exon MEE ENJING ue 73 6 8 2 Boost Pressure Gauge Tvpe 73 6 8 3 Boost Pressure Sender MEss 14 6 8 4 Boost Pressure Sender Offset uiii Age See Seege ro eb eege ege Age Age 14 689 Bi UR ele REITER Ke 14 0096 Dive TIM Ener 14 68 7 Dive d KREE ee 15 Doo UNMPressure Gauge TYPO sasennsentaentacntecntenstecadacsiccnacantaanieorteantaenheennseseaeneersdareoonteeniessts 15 6 8 9 Oil Pressure Sender Tvpe 15 6 8 10 Oil Pressure Sender Ottset 15 6 8 11 Water Temperature Gauge Tvpe nennen nnne nennen nnns 15 6 8 12 Water Temperature Sender Tvpe 76 6 8 13 Water Temperature Sender Offset 76 5 9 14 PI O TENONO FIO lt n EER TEE ER MEUS PIED DEDE URDU 76 665 19 Teachomelter FIVWICGC TEGi E 76 6 9 Maretron GPS100 Configuration ENE
77. TE eai EE aE EREN eE ATOR 40 oO Device COMMGULATON enisi E ATE N 43 6 1 Bennett EP 30 NMEA1 Trim Tabs Contguraton 45 oe A aS ACI Lee 45 62 Maretron ACMTOO Cong uration eege 47 02 1 Advanced Conngura le E 47 022 ele ue VDG c eem 49 D25 AAC Device Ee EE 50 6 2 4 Device Instance EE 50 029 Label P 50 6 2 6 Reset otal Energy ISecoF ded susce ee e ee ed 50 6 9 Maretron ALMTOO ConflQUufatlOF i innotuerunt oerte geed 52 0 9 1 Advanced Conig ralON secession a a cobro eee 52 6092 Cae O saa E Lt 53 Oaoa E E o EE 53 634 TFeSCANNUNCIIO geg 54 DA Maretron DCM100 Configuration sesseesssssessseeneennnnennnennennennnnnnnnnn nnns 55 0 41 Advanced C OMNGUI all ON EE 55 6 4 2 Current Sensor Zero Offset CG albraton 57 OAS DETI E raa TTE 58 OAA InstallCe EE 60 049 Ee 60 6 5 Waretron DSMZ00 COMMGQUPATION sss a E AE AR EREE ESEE 61 OSI REMO DEVE gt CIS CHO naina Ta E T 61 6 6 Mareron at EE DEET 63 6 6 1 Remote Device Gelechon 63 6 6 2 Copy alarms settings from local display 64 6 6 3 Copy device selection from local display cccccceccceccceeceeeeeeeeeeeseeeceeeseeeaeeseeseeeaes 65 6 6 4 Copy display settings from local display cccccccccceccceeeeeeeeeeeeeeseeeseeeseeseeeseeseeeaes 65 6 6 5 Copy favorite settings from local deplay cece cece eecceeeceeeceeeseeeseeeeeeeeeeseeeseeeaeeaes 65 6 6 6 Copy D
78. Voltage You may program here the nominal voltage of the battery which is used only for reporting over the NMEA 2000 network Available choices are 6 12 24 32 36 42 and 48 Volts 6 4 3 3 Equalization You may indicate here whether or not the battery supports equalization This is used only for reporting over the NMEA 2000 network Available choices are e Supported e Not Supported 6 4 3 4 Temperature Coefficient The capacity of a battery generally increases with increasing temperature So that the DCM100 can properly calculate the battery s state of charge program this parameter with the increase in battery capacity in percent per increase in temperature in degrees Celsius The temperature coefficient can be set to a value between 0 C 5 C 6 4 3 5 Peukert Exponent The Peukert Exponent for the battery can be set to a value between 1 0 and 1 5 Please refer to section 4 8 on page 11 for details Page 58 Hevision 1 4 2 Maretron 6 4 3 6 Charge Efficiency Factor The Charge Efficiency Factor for the battery can be set to a value between 5 and 100 Please refer to Section 4 6 1 on page 11 for details 6 4 3 7 Fully Charged Voltage In order for the DCM100 to determine when a battery is fully charged it uses three parameters The Fully Charged Voltage indicates the value voltage at which the battery is considered fully charged if the battery voltage remains above this value and the battery current remains below the Full
79. YANMAR Oil Pres Sender Offset 0 Water Temp Gauge Type No Gauge Water Temp Sender Type YANMAR Water Temp Sender Offset 0 Tach Flywheel Teeth 1129 Preset Engine Hours 10 NMEA2000 PGN Enable Disable Restore Factory Defaults Scroll Up Figure 62 EMS100 Configuration Screen 6 8 1 Engine Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple engines on the network By convention the Port Engine is given an instance number of 0 and the Starboard Engine an instance number of 1 If there is a third center engine it should be given an instance number of 2 6 8 2 Boost Pressure Gauge Type The EMS100 comes from the factory preprogrammed with the characteristics of boost pressure gauge types for supported engines If the EMS100 is used with an analog boost pressure gauge you must select the correct type of gauge for this setting in order for the data to be displayed correctly Valid options are Revision 1 4 2 Page 73 DSM250 User s Manual e No Gauge select this option if there is no boost pressure gauge present e YANMAR Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 3 Boost Pressure Sender Type The EMS100 comes from the factory preprogrammed with the characteristics of boost pressure senders for supported engines If the engine to which you
80. acteristics of oil pressure senders for supported engines If the engine to which you are connecting the EMS100 has a oil pressure sender you must select the correct type of oil pressure sender for this setting in order for the data to be displayed correctly Valid options are e Disabled select this option if there is no oil pressure sender present e YANMAR e YANMAR VDO Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 10 Cil Pressure Sender Offset Often the characteristics of individual oil pressure senders vary from their specified values This setting allows you to apply an offset to the resistance value of the oil pressure sender in order to allow you to bring the digital value reported by the EMS100 into agreement with that displayed by the analog gauge Valid options are e 100 100 Select the required option using the Increase and Decrease keys followed by the Enter key 6 8 11 Water Temperature Gauge Type The EMS100 comes from the factory preprogrammed with the characteristics of water temperature gauge types for supported engines If the EMS100 is used with an analog water temperature gauge Revision 1 4 2 Page 75 DSM250 User s Manual you must select the correct type of gauge for this setting in order for the data to be displayed correctly Valid options are e No Gauge select this option if there is no water temperature gauge present e YANMAR e YANMAR VDO
81. al display Copy favorite settings from local display Copy DST100 calibrations from local display Copy all settings from local display Label Test Remote Device Selection Dower scroll Down Figure 53 DSM250 Copy alarms settings from local display After you select this menu item and press Enter the alarm settings from this DSM250 unit will be copied to the selected remote DSM250 unit Page 64 Revision 1 4 2 Maretron 6 6 3 Copy device selection from local display Since it is normally desirable for all DSM250 units on a network to display the same sensors it is possible to copy the device selection settings from a DSM250 unit to a remotely located DSM250 In this way it is possible to make all device selection changes on a single DSM250 unit and then quickly and conveniently duplicate these new device selection settings on other DSM250 units attached to the network Figure 54 below shows this menu item highlighted Confiquration Device Configuration NA Manufacturer Model SNF HWe Swe T Maretron DSMZ 39179 10 13 0 Advanced Configuration Copy alarms settings from local display Copy device selection from local display ungs iT y Copy favorite settings from local display Copy DST100 calibrations from local display Copy all settings from local display Label Test Remote Device Selection Power Wi Scroll Ente Down Figure 54 DSM250 Copy device selection from local display After you
82. alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Point If the distance between the current GPS position and the reference position falls below above the value in this field the alert will become active Alert Set Delay The distance between the current GPS position and the reference position must fall below the Inside Radius Alert Set value for longer than the time in this field in order for an alert to become active Alert Clear Point If the alert is active and the distance between the current GPS position and the reference position rises above the value in this field the alert will become inactive Alert Clear Delay The distance between the current GPS position and the reference position must rise above the Inside Radius Alert Clear value for longer than the time in this field in order for an alert to become inactive Latitude The latitude of the reference position This may be typed in as lt degrees gt lt minutes gt followed by an N or S If the N or S is missing North is assumed Moving the cursor to another field will reformat the contents of this field Longitude The longitude of the reference position This may be typed in as lt degrees gt lt minutes gt followed by an E or W If the E or W is missing East is assumed Moving the cu
83. alibration process and will also adjust the tank capacity to the currently indicated level Figure 144 below shows the calibration screen at the last point with the full tank level and thus the tank capacity set to 101 gallons Tank Levels Calibration Only two settings empty and full are required to calibrate rectangular tanks Up to D calibration points can be used for irregular shaped tanks 1 Use arrow keys to select current tank level 101 Gal 2 Press Accept to set calibration point 3 Press Complete once tank is full to set final calibration point Cument Point 123415267289721711 133 H OE Power Complete Increase Decrease Accept Figure 1 44 Full Level Calibration After you press accept a confirmation screen will appear showing completion of the calibration process and the new tank capacity value A screenshot of this calibration screen is shown below in Figure 145 Tank Levels Calibration Only two settings empty and full are required to calibrate Tank Level Calibration Completed Successfully Tank capacity will be updated to 101 Gal Power Complete Increase Decrease Accept Figure 145 Custom Tank Level Calibration Confirmation Screen 6 16 4 2 Rectangular Tank If you have a rectangular tank and you know the capacity of the tank you can easily calibrate the sender by using the Rectangular Tank menu item Figure 146 below shows this option hig
84. ansmission of a PGN message or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are Off The PGN will not be transmitted On The PGN will be transmitted at its default NMEA2000 rate 0 5s 5s The PGN will be transmitted at the interval specified Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 19 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 19 2 Channel Configuration Individual channels may be configured by using the Scroll Up and Scroll Down buttons to highlight the channel and then pressing the Enter key The following screen will be displayed Revision 1 4 2 Page 137 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SHE HWE SW 9 Maretron THP 00 450000 10 111 Channel ei Instance 4 Source Inside Temperature Label Lobby Power Cancel Increase Decrease Accept Figure 151 TMP100 Channel Configuration Screen 6 19 2 1 Instance The Data Instance of the Temperature as sent in PGNs 130311 130312 and 130823 is set in this field Use the Increase and Decrease buttons to select the correct instance number and the press the Enter button to store it 6 19 2 2 Source In the NMEA2000 PGNs each temperature is associated with a source type Possible values are Bait Well Temperature E
85. are connecting the EMS100 has a boost pressure sender you must select the correct type of boost pressure sender for this setting in order for the data to be displayed correctly Valid options are e Disabled select this option if there is no boost pressure sender present e YANMAR Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 4 Boost Pressure Sender Offset Often the characteristics of individual boost pressure senders vary from their specified values This setting allows you to apply an offset to the resistance value of the boost pressure sender in order to allow you to bring the digital value reported by the EMS100 into agreement with that displayed by the analog gauge 6 8 5 Drive Trim Gauge Type The EMS100 comes from the factory preprogrammed with the characteristics of drive trim gauge types for supported engines If the EMS100 is used with an analog drive trim gauge you must select the correct type of gauge for this setting in order for the data to be displayed correctly Valid options are e No Gauge select this option if there is no trim gauge present e YANMAR Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 6 Drive Trim Sender Type The EMS100 comes from the factory preprogrammed with the characteristics of drive trim senders for supported engines If the engine to which you are connecting the EMS100 has a drive trim sende
86. ation NA Manufacturer Model SNF HWe Swe 8 Maretron WSOT00 1600471 HI 207 Advanced Configuration Device Label ROOF Installation Offset Calibration Wind Data Damping Period 4 0s Barometric Pressure RENMIN AAT Outside Humidity 13 Percen Outside Temperature 82 F Cancel Increase Decrease Accept Figure 163 Setting the Barometric Pressure Use the Increase and Decrease buttons to select the correct pressure and the press the Enter button to store it 6 21 6 Outside Humidity The Humidity is pre calibrated before leaving the factory and should not require adjustment However the current humidity level may be entered in this screen to re calibrate the WSO100 should this be required Revision 1 4 2 Page 147 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SH HWe Swe 8 Maretron WSO T0 T600471 20 207 Advanced Configuration Device Label ROOF Installation Offset Calibration Wind Data Damping Period 4 0s Barometric Pressure 29 80 Inches Mercury Outside Humidity BERGA Outside Temperature 82 F Cancel Increase Decrease Accept Figure 164 Setting the Outside Humidity Use the Increase and Decrease buttons to select the correct humidity and the press the Enter button to store it 6 21 7 Outside Temperature The Temperature sensor is pre calibrated before leaving the factory and should not require adjustment However the current temperature may be en
87. auge Resistance to Sender menu item Then press the Enter key to move the highlight over the numerical resistance value Use the Increase and Decrease keys to change the value to the measured resistance value and finally press the Enter key to confirm your selection and store the value within the TLA100 Confiquration Device Configuration NA Manufacturer Model SNF HWe Swe I3 Maretron TLA 100 AST El 10 16 H Advanced Configuration Label Aft Fuel Tank Capacity 1 0 Gallons Tank Levels Calibration Tank Number 86 Tank Type Fuel Operating Mode NMEA2000 amp Analog Gauge Gauge Resistance to sender FL Gauge Resistance to sender 364 Cancel Increase Decrease Accept Figure 133 Configuring the to Sender Gauge Resistance 6 15 9 Gauge Resistance to Sender If the desired operating mode is NMEA 2000 amp Analog Gauge the two gauge resistances must be programmed please refer to the TLA100 User s Manual for details on how to perform these measurements A screenshot of the to sender gauge resistance configuration is shown in Figure 134 below Page 126 Revision 1 4 2 Maretron To program the to sender gauge resistance use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Gauge Resistance to Gender menu item Then press the Enter key to move the highlight over the numerical resistance value Use the Increase and Decr
88. becomes discharged By default the DCM100 considers a battery to be discharged when its state of charge reaches the Time Remaining Floor value which is by default set to 50 If you desire to use some other state of charge value for the Time Remaining Floor you may change this parameter to the desired value 6 4 3 12 Time Remaining Averaging Period If loads on the battery are switching on and off frequently the battery time remaining value calculated by the DCM100 can vary significantly You may change the time over which current readings are averaged by changing this parameter anywhere in the range of 1 second to 32 minutes 6 4 3 13 Zero Current Threshold The current sensor reading can drift slightly at zero current depending on temperature Over a long period of time this can cause the DCM100 to calculate that a battery is discharging slowly even though it is not The Zero Current Threshold parameter indicates a reading from the current sensor below which no current is considered to be flowing into or out of the battery Revision 1 4 2 Page 59 DSM250 User s Manual 6 4 4 Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of O unless you have multiple units on the network 6 4 5 Label A label may be assigned to the DCM100 as an aid to identifying the device over the network Typically this label will describe the battery or device
89. bs for fastening the DSM250 bracket to the stand Page 4 Revision 1 4 2 Maretron Figure 3 Gimbal Mounting the DSM250 2 4 Connecting the DSM250 The Maretron DSM250 provides a connection to an NMEA 2000 interface through a connector that can be found on the back of the unit The NMEA 2000 connector is a five pin male connector see Figure 4 You connect the DSM250 to an NMEA 2000 network using a Maretron NMEA 2000 cable or compatible cable by connecting the female end of the cable to the DSM250 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 Connect the other end of the cable male to the NMEA 2000 network in the same manner The DSM250 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 Female Connector 1 Shield 2 NET S power supply positive V 3 NET C power supply common V in 4 NET H CAN H 5 NET L CAN L Figure 4 NMEA 2000 Connector Face View 2 4 1 Checking the Connection Once the NMEA 2000 connection to the Maretron DSM250 has been completed observe the display to check to see that information is being properly received
90. cally effect time and distance to empty You should not use the fuel management data types unless you fully understand all the parameters associated with fuel management All fuel tanks and all engines must be included when setting up the DSM250 plus there must be accurate fuel rate sensors installed on the vessel and accurate speed information in order for the DSM250 to properly display fuel management information You should also note that fuel levels may contain significant error if the boat is not sitting level in the water i e sailboat heeled over or a power boat riding bow up won t necessarily report the correct amount of fuel Even when setup correctly the DSM250 should be used only as an aid and not the sole source for fuel management information Total Fuel Economy displays distance traveled per unit fuel used for example miles per gallon or kilometers per liter using the specified GPS and specified engine instances within the favorite screen setup see Section 5 2 6 4 2 for details Total Fuel Rate displays rate of fuel usage per unit time for example gallons or liters per hour for all engine instances specified within the favorite screen setup see Section 5 2 6 4 2 for details Total Fuel Remaining displays total fuel remaining in all fuel tanks specified within the favorite screen setup see Section 5 2 6 4 2 In order for the DSM250 to properly calculate total fuel remaining tank monitors connected to the network m
91. ccommodated but you will need to purchase longer studs 2 Cut out an opening as indicated on the F ush Mount Template a Sorry we should have made the flange larger but be very careful not to go outside the indicated cutout area Be on the safe side and cut the hole a little small and rasp or file to fit 3 Remove the template from the mounting surface 4 Insert the 2 studs into the back of the DSM250 a Make sure the studs are fully inserted into the back of the DSM250 but don t over tighten the studs 5 Remove the back of the case from the DSM250 Revision 1 4 2 Page 3 DSM250 User s Manual a Place your thumbs on top of the studs and your finger along the side of the case and squeeze the back cover off the DSM250 6 Insert the back of the DSM250 through the front side of the cutout 7 Place the back cover on the opposite side of the mounting surface with the mounting holes aligned with the mounting studs and secure with the supplied hardware a Place the flat washer on the stud first followed by the lock washer followed by the knurled nut b Hand tighten the knurled nut Figure 2 Flush Mounting the DSM250 2 3 3 Gimbal Mounting the DSM250 The DSM250 can be gimbal mounted to any horizontal surface such a counter or ceiling as shown in Figure 3 The optional gimbal mounting assembly part number DSMMNTASSBLY includes a bracket and screws for attaching the bracket to the DSM250 a stand and 2 kno
92. ce Label iii Installation Offset Calibration Wind Data Damping Period 4 0s Barometric Pressure 29 80 Inches Mercury Outside Humidity 13 Percent Outside Temperature 80 F 6 21 3 Installation Offset Calibration The WSO100 comes from the factory with a preset orientation so that mounting it with the orientation marks facing the bow of the vessel the sensor will read 0 apparent wind angle when the vessel is sailing directly into the wind please refer to the WSO100 User s Manual for details However the WSO100 can be installed in any orientation with respect to the vessel and any misalignment with respect to the factory preset can be easily compensated for using the Installation Offset calibration menu item To perform installation offset calibration use the Scroll Up or Scroll Down B keys to move the highlighted cursor to the Installation Offset Calibration menu item and then press the Enter key The Installation Offset screen then appears which is shown in Figure 158 below Page 144 Revision 1 4 2 Maretron Installation Offset 4 Point boat directly into wind and motor forward as fast as possible Apparent Direction Apparent Speed 177 4 9 1 Degree Miles hour Figure 158 WSO100 Installation Offset Screen Turn the vessel directly into the wind and motor forward When you are satisfied that the apparent wind is directly on the bow of the vessel press the Accept k
93. cess pressing the Back Key 9 will end the process and return you to the Tank Levels Calibration menu Page 120 Revision 1 4 2 Maretron Tank Levels Calibration 1 Use arrow keys to select estimated tank capacity 100 Gal 2 With empty tank press Accept to begin calibration process 3 Press lt Abort gt to cancel calibration and revert to old calibration data Power Figure 123 Tank Levels Calibration Capacity Estimation The next step in the calibration process is to fill the tank and indicate the volume of fluid in the tank at various points while filling the tank This process should be started with an empty tank You only need to indicate two calibration points for a rectangular tank and can use up to 16 calibration points for a tank with a more complex shape Figure 124 shows a screenshot of the first calibration step Enter the first calibration point with an empty tank 0 0 Gallons liters by pressing the Accept key The Current Point highlight will advance to the next point Tank Levels Calibration Only two settings empty and full are required to calibrate rectangular tanks Up to calibration points can be used for irregular shaped tanks 1 Use arrow keys to select current tank level 0 0 Gal 2 Press lt Accept gt to set calibration point 3 Press lt Complete gt once tank is full to set final calibration point Curent Point Bl 2 3 4 5 6 7 8 999 111
94. cessary Page 184 Revision 1 4 2 Maretron Revision 1 4 2 Page 185 DSM250 User s Manual 10 Troubleshooting If you notice unexpected operation of the Maretron DSM250 follow the troubleshooting procedures in this section to remedy simple problems Symptom Troubleshooting Procedure No activity on the display Check the connection to the NMEA 2000 and connector and tighten if necessary Ensure that power is supplied to the connected NMEA SS cable data appears as a dash instead a value Data fluctuates between two different Two devices on the network are NENNEN the values same data Check the Instance Numbers on all devices transmitting that data If these steps do not solve your problem please contact Maretron Technical Support refer to Section 12 for contact information Warning There are no user serviceable components inside the Maretron DSM250 Opening the DSM250 will expose the sensitive electronic components to adverse environmental conditions that may render the unit inoperative Please do not open the DSM250 as this will automatically void the warranty If service is required please return the unit to an authorized Maretron service location Page 186 Revision 1 4 2 Maretron 11 Technical Specifications opecifications Parameter Value Comment Standard Connector QVGA Resolution Red LED Backlighting Certifications NMEA 2000 Maritime Navigation and Radiocommunication Equipmen
95. conds which should be appropriate for most applications However you may use the DSM250 to tune the damping period to anywhere between 0 1 seconds and 5 0 seconds if you desire To do this use the Scroll Up or Scroll Down keys to move the highlighted cursor to the Wind Data Damping Period menu item then press the Enter key to move the highlight to the numerical value on the right This is shown in Figure 162 below Use the Increase and Decrease keys to adjust the damping period to the desired value and then press the Enter key to accept the value and store it within the WSO100 Page 146 Revision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model SN HWe SW 8A Maretron WSOTNQ 1 0471 20 207 Advanced Configuration Device Label ROOF Installation Offset Calibration Wind Data Damping Period Barometric Pressure 29 80 Inches Mercury Outside Humidity 13 Percent Outside Temperature 80 F Cancel Increase Decrease Accept Figure 162 Setting the Wind Data Damping Period 6 21 5 Barometric Pressure The WSO100 has an internal barometer which is pre calibrated before leaving the factory If the unit requires re calibrating then this field allows the entry of the actual pressure This may be necessary if the vessel is on a lake with an altitude other than sea level and the user wishes to normalize the barometric pressure to sea level Configuration Device Configur
96. crease Decrease Accept Figure 91 Setting the to Sender Gauge Resistance Revision 1 4 2 Page 99 DSM250 User s Manual 6 12 Maretron RIM100 Configuration This describes the configuration of the Maretron RIM100 firmware version 1 1 1 The DSM250 may be used to configure the channels on the Run Indicator Module RIM100 After selecting the RIM100 from the list of devices on the network the following screen will be displayed Configuration Device Configuration NA Manufacturer Model SN HW SWE D4 Maretron HIM T0 710017 10 111 Device Label engine room Instance 2 Channel 1 Channel 2 Channel 3 Channel 4 Channel 5 Channel 4 Figure 92 RIM100 Configuration Screen 6 12 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SHE HW SW D4 Maretron RIM SN 10012 10 111 Advanced Confiquration Device Instance fo Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 93 RIM100 Advanced Configuration Screen 6 12 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless
97. ction e g an AC selection switch might have as an input the shore power and another input from the generator connecting the ACM100 at the output of the AC selection switch would require the ACM100 to be configured as Bus 6 2 4 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple ACM100s on the network 6 2 5 Label A device label may be assigned to the ACM100 as an aid to identifying the device over the network i e Shore Power or Port Generator etc Typically this label will describe the equipment to which the ACM100 is connected See section 3 3 4 for details on how to enter a textual value 6 2 6 Reset Total Energy Recorded The ACM100 will accumulate the total amount of energy produced by a Generator or a Utility Pressing the Enter key while this item is highlighted will start the process to reset this value to zero The following confirmation screen is displayed Page 50 Hevision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model Are you sure you want to reset energy recoed Power Cancel Accept Figure 40 Reset Total Energy Recorded Confirmation Screen Press Accept to reset the value or Cancel to return to the previous screen Revision 1 4 2 Page 51 DSM250 User s Manual 6 3 Maretron ALM100 Configuration This describes the configuratio
98. ction 8 1 and sounding the internal speaker The sounding of the speaker may be disabled i e only visual indications are displayed by setting this parameter to Disable The options here are e Enable e Disable 8 7 3 Flashing Screen As an extra means to gain the operator s attention to an Active Alert the DSM250 may be set up to flash the entire screen between Red for Alarms or Yellow for Warnings and Black The flashing may be disabled by setting this option to Disable The options here are e Enable e Disable 8 8 Restore Factory Defaults The Alert parameters of the DSM250 may be restored to the factory defaults by pressing the Enter button while this item is highlighted The operator will be prompted to confirm this action before it taken Alert Setup Add New Alert Are you sure you want to restore factory defaults Power Cancel Revision 1 4 2 Page 183 DSM250 User s Manual 9 Maintenance Regular maintenance is important to ensure continued proper operation of the Maretron DSM250 Perform the following tasks periodically e Clean the unit with a soft cloth Do not use chemical cleaners as they may remove paint or markings or may corrode the DSM250 enclosure or seals e Ensure that the unit is mounted securely and cannot be moved relative to the mounting surface If the unit is loose tighten the mounting screws e Check the security of the cable connected to the NMEA 2000 interface and tighten if ne
99. d corner of the screen the third occupying the lower left hand corner of the screen and the fourth occupying the lower right hand corner of the screen Favorite Screens Setup Favorite 1 Favorite Mode Auto Manual Format FTIIT Auto Change Interval 5 Seconds Window 1 Data Fuel Management Total Fuel Economy Type Numeric Window 2 Data Wind Speed True North Ref Type Numeric Window 3 Data Wind Dir Apparent Scroll Scroll Ur Down Power Figure 27 Setting the Favorite Screen Format 5 2 6 3 Auto Change Interval In Auto mode this parameter determines the amount of time this favorite screen is displayed before the DSM250 automatically cycles to the next higher numbered favorite screen in the auto mode This parameter is programmable to anywhere between 1 second and 180 seconds Favorite Screens Setup Favorite Mode Auto Manual Format 4 Quarters Auto Change Interval SENTITA Window 1 Data Fuel Management Total Fuel Economy Type Numeric Window 2 Data Wind Speed True North Ref Type Numeric Window 3 Data Wind Dir Apparent Power Cancel Increase Decrease Accept Figure 28 Setting the Auto Change Interval Revision 1 4 2 Page 37 DSM250 User s Manual 5 2 6 4 Window Data The Window Data section of the menu allows you to select a particular type of data to be displayed in each part of the screen Selecting the data to be dis
100. d only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SHE HW SW AU Maretron J2K 100 1240004 10 10 7 Advanced Configuration Device Instance 6251 Installation Description J1939 Diagnostic Messages Disable NMEA2000 PGN Enable Disable Restore Factory Defaults JEI SA Hone Figure 75 J2K100 Advanced Configuration Screen 6 10 1 1 Device Instance The Device Instance will be used to identify the J2K100 module on the network If a GenSet is connected to the J1939 network and the AC parameters passed through the J2K100 interface the GenSet will also be identified using Device Instance number Revision 1 4 2 Page 85 DSM250 User s Manual 6 10 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 10 1 3 J1939 Diagnostic Messages The J2K100 can optionally pass through J1939 diagnostic messages used to indicate fault conditions on engines and transmissions from the J1939 interface to the NMEA2000 network so that NMEA
101. der Angle Calibration Rudder Number 1 Dual rudder starboard Operating Mode NMEA2000 amp Analog Gauge Gauge Resistance to sender EE Gauge Resistance to sender 199 Cancel Increase Decrease Accept Figure 90 Setting the to Sender Gauge Resistance 6 11 7 Gauge Resistance to Sender If the desired operating mode is NMEA 2000 amp Analog Gauge the two gauge resistances must be programmed please refer to the RAA100 User s Manual for details on how to perform these measurements A screenshot of the to sender gauge resistance configuration is shown in Figure 91 below To program the to sender gauge resistance use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Gauge Resistance to Sender menu item Then press the Enter key to move the highlight over the numerical resistance value Use the Increase and Decrease keys to change the value to the measured resistance value and finally press the Enter key to confirm your selection and store the value within the RAA100 Page 98 Hevision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model SN HW SW 67 Maretron RAA 100 9999 10 14 9 Advanced Configuration Label Stbd Rudder Angle Calibration Rudder Number 1 Dual rudder starboard Operating Mode NMEA2000 amp Analog Gauge Gauge Resistance to sender 135 Gauge Resistance to sender EE Cancel In
102. disable an Alert must be made very carefully as it nullifies the purpose for having alerts The options here are e Enable e Disable The desired option is selected using the Scroll Up and Scroll Down buttons 8 3 2 Alert Type This allows the selection of the type of Alert see paragraph 0 The options here are e Alarm e Warning The desired option is selected using the Scroll Up and Scroll Down buttons 8 3 3 Priority Each Alarm has a unique priority ranging from O highest priority to 3999 lowest priority Each Warning has a unique priority in the same range however the entire set of Warning Priorities is considered lower than the Alarm Priorities No two Alarms Warnings may have the same priorities and when scrolling through the priorities numbers that are already in use will be omitted from the list The desired option is selected using the Scroll Up and Scroll Down buttons Page 162 Revision 1 4 2 Maretron 8 3 4 Trigger Source This allows the selection of the parameter to be monitored The parameters are laid out as per section 4 2 The trigger source is specified in three parts which when combined will uniquely identify a single parameter on the bus 8 3 4 1 Type The Type corresponds to the category of data The desired option is selected using the Scroll Up and Scroll Down buttons 8 3 4 2 Data The Data corresponds to the Data Type of data The desired option is selected using the Scroll Up and Scroll Down
103. ds and each time the value changes e 1s 15s The status message will be transmitted at the period specified and each time the value changes Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 13 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 13 2 Device Label A label may be assigned to the SIM100 as an aid to identifying the device over the network Typically this label will describe the location of the SIM100 See section 3 3 4 for details on how to enter a textual value Page 104 Revision 1 4 2 Maretron 6 13 3 Instance From here the instance used in the data message may be set 6 13 4 Channel Configuration To configure an individual channel use the Scroll Up and Scroll Down buttons to highlight the channel and then press Enter The following screen will be displayed Configuration Device Configuration NA Manufacturer Model SHE HW SWe D3 Maretron SIM SW 29907 10 111 Channel 1 End Of Line Resistor Label Lobby Figure 99 SIM100 Channel Configuration Screen 6 13 4 1 Mode To be able to detect broken connections a SIM100 channel may be configured to detect an 8kO resistor at the end of the circuit in the open state In this case a fully open circuit will reported as a fault condition See the manual for details Valid Modes are Disable the channel is not being used End Of Line Re
104. dvanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Confiquration Device Configuration NA Manufacturer Model SNe HWe Swe 49 Maretron SSC 200 112024 20 20 11 Advanced Configuration Device Instance f Installation Description NMEAD0183 Settings NMEA2000 PGN Enable Disable Restore Factory Defaults Scroll Down Power Figure 101 SSC200 Advanced Configuration Screen 6 14 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network Page 106 Revision 1 4 2 Maretron 6 14 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 14 1 3 NMEA0183 Settings Several characteristics of the NMEA 0183 interface of the SSC200 may be programmed using the DSM250 display This can be used for initial programming of a SSC200 compass even if only the NMEA 0183 interface is to be used after installation is complete The figure below shows the possible programming options for the NME
105. e 49 Maretron SoC AN 1120224 20 20 11 Advanced Configuration Installation Offset Calibration Invert Installation Normal Installation Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period 2 05 Rate of Turn Zero Offset Calibration Variation Source Power Scroll Scroll Up Down Figure 114 Setting Variation Source to NMEA 0183 Only Enter Page 114 Revision 1 4 2 Maretron Figure 115 below shows the NMEA 2000 source selected Configuration Device Configuration NA Manufacturer Model SNe HW SW 49 Maretron SSC0 1120221 20 20 11 Advanced Configuration Installation Offset Calibration Invert Installation Normal Installation Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period 2 05 Rate of Turn Zero Offset Calibration Variation Source Scroll Scroll Up Down Figure 115 Setting Variation Source to NMEA 2000 Only Power Enter If there is no magnetic variation source available on either the NMEA 2000 or the NMEA 0183 interface and you wish to display true heading information you may manually enter a magnetic variation To set a manual variation value you must change the variation source by pushing the Enter key with the Variation Source menu item selected This highlights the next field where you select Manual Entry by scrolling or through the options until
106. e 105 SSC200 NMEA 2000 PGN Enable Disable Screen 109 Figure 106 SSC200 Installation Offset Calibration Screen 0annnnannennennennennnnnnnnnrerrnrrnrenrrnrnnnnn 110 Figure 107 Setting the Installation Orientation ccc ccccceccceeeeeeeeeeeeeese cece eeseeeaeesseeseeeseeeseeeaees 110 Figure 108 SSC200 Magnetic Deviation Calibration Start Gcreen 111 Figure 109 SSC200 Magnetic Deviation Calibration Progress Gcreen 112 Figure 110 SSC200 Magnetic Deviation Status Gcreen 112 Figure 111 Programming SSC200 Rate of Turn Damping Henod 113 Figure 112 SSC200 Rate of Turn Zero Offset Calibration Screen o nnnnnnnnnnnnnennennnnnnnnenrnnnnenn 113 Figure 113 Setting Variation Source to NMEA 0183 or NMEA 2000 factory default 114 Figure 114 Setting Variation Source to NMEA 0183 On ccc ccccececeeeeeeeeeeeeeeeeeeseeeseeeaeeeaees 114 Figure 115 Setting Variation Source to NMEA 2000 ONIY s s sssnanasnanannnrinonrinrarnnrnnnnrrnrnrrernrreren 115 Figure 116 Entering Manual Vanaton 115 Figure 117 TLA100 Configuration Gcreen nennen nnne nnne nennen nnn snis 117 Figure 118 TLA100 Advanced Configuration Gcreen esses nnne nnns 117 Figure 119 TLA100 NMEA 2000 PGN Enable Disable Screen 118 Figure 120 Configuring the Tank Capacby nennen nennen nne nnns nns 119 Figure 121 Tank Capacity Change Confirmation Sereen nsannnnennenrennennnnnnrnnnnnrnrrrrrrrrnrrnrnn
107. e Alert Alert Time The alert will become active at the time specified in this field If the time specified has already passed then the alarm will be set for the next day Entering a number without the colon will assume that the hours are zero Repeat Interval The alert will become active again after the period specified in this field For example if the Alarm Time were set to 8 00 and the Repeat Interval were set to 1 00 1 hour zero minutes the Alarm would become active again at 9 00 10 00 and so on 8 3 8 Local Audible If the Local Audible field is set to Enabled the speaker internal to the DSM250 will be activated when this Alert is triggered 8 3 9 Tone If Local Audible is enabled the tone that is sounded on the DSM250 and the Remote Annunciators can be set here This allows the user to configure the Alerts so that the alert can be identified from the tone The values for Tone are Beeps A continuous series of half second on half second off beeps is sounded This corresponds to the requirements for IMO Code 3 a Continuous A continuous tone is sounded This corresponds to the requirements for IMO Code 2 General Emergency A series of seven one second on one second off tones are sounded followed by a single tone of 7 seconds on The sequence is repeated This corresponds to the requirements for IMO Code 1a 7 pulse General Emergency Alarm SOLAS III 50 III 6 4 Carbon Monoxide This is a series of four one t
108. e DSM250 ignores data transmitted by this device Off By scrolling to the device and pressing the Enter key you may then use the Scroll Up and Scroll Down B keys to toggle the Display status for this particular device Once you are satisfied with the state of the Display setting press the Enter key to accept the setting The DSM250 will retain information on devices that have been removed from the bus or powered down Offline so that when they are placed back on the bus they will assume their prior Display setting 5 2 4 Display Settings Menu The display settings menu allows you to change parameters related to display operation Revision 1 4 2 Page 27 DSM250 User s Manual Display Settings VERG Configuration Backlight Color Setup Demo Mode Off Normal Use Mode Keypad Beep On Label Language English Software Version 1 3 10 Scroll Scroll Power Up Down Figure 13 DSM250 Display Settings Screen 5 2 4 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Display Settings Advanced Configuration Installation Description 1 Helm EAD Primary Device Selection Refresh Network Information Restore Factory Defaults Figure 14 DSM250 Adva
109. e Section 7 6 on page 153 Line Graph see 7 7 on page 154 Weather Screen see Section 7 8 on page 155 Wind Rose see Section 7 9 on page 156 Moon Phase see Section 7 10 on page 156 Trim Tab see Section 7 11 on page 157 owing Meter see Section 7 12 on page 157 Tank Gauge see Section 0 on page 158 5 2 6 4 2 Instance Instance is used to specify which product on the network will be used as the source of the displayed information For example there may be two GPS s on the network each of which will have a unique instance assuming the network has been properly configured You use the instance field to tell the DSM250 which GPS to use for displaying data Most of the time the DSM250 simply displays a single parameter from a device on the network so you will only see one Instance entry There are other parameters that the DSM250 displays that are a combination of information from multiple products on the network For example fuel economy is a combination of fuel rate and Speed Over Ground SOG so you will see two Instance entries one to specify the engine s and one to specify the GPS for SOG 5 2 6 4 3 Alert In setting up the Anchor Watch display type this field is used to specify the associated Anchor Watch Alert priority The list from which the selection is made will be limited to the list of Anchor Watch Alerts already created in the system 5 2 6 4 4 Title Each display type has a user defined title that is displayed above t
110. e displayed graphically in the Anchor Watch Display e Direction Alert The alert will become active if the monitored course differs from the Reference Direction by more than the Offset Wind Direction Set Point for longer than the time specified in the Set Delay field e imer Alert The alert will become active when the time reaches the time specified in the Alarm Time field and thereafter after the intervals specified in the Repeat Interval field Revision 1 4 2 Page 23 DSM250 User s Manual 5 Operating Modes The DSM250 has two main operating modes including normal viewing of information in the favorite screens mode Section 5 1 and the menu mode Section 5 2 5 1 Favorite screens modes After the power up screen see Section 3 1 the DSM250 always enters the favorite screens mode In the favorite screens modes the DSM250 displays one of up to sixteen favorite screens Each favorite screen can display one two three or four information displays Each information display can show any displayable data in any display type supported by that data In favorite screens mode the DSM250 can operate in one of two ways Manual mode a particular favorite screen remains on the display until you selects another one or Auto mode the DSM250 automatically cycles between favorite screens at time intervals which are individually programmable for each favorite screen An example screen of the DSM250 running i
111. e distance to the surface Page 130 Revision 1 4 2 Maretron 6 16 4 1 Custom Calibration The Custom Calibration setting will provide the most accurate tank level readings under any circumstances but it requires that you go through a process in which you gradually fill the tank stopping periodically to input the current fluid level The TLM100 will measure the distance to the surface at each point and create a custom calibration map which relates the fluid levels to the volume in the tank Figure 122 below shows a screenshot of the DSM250 with the Custom Calibration option highlighted Custom calibration is necessary for non rectangular tanks To perform custom calibration of the tank level sender use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Custom Calibration menu item Then press the Enter key to confirm your selection and begin the calibration process Configuration Device Configuration NA Manufacturer Model SHE HWE SW I3 Maretron TLM 400 AT a 10 114 Tank Levels Calibration Custom Calibration Rectangular Tank Figure 140 Performing Custom Calibration of the Tank Level Monitor The first step in custom calibration of the tank level monitor is to provide an estimated capacity of the tank This estimated capacity must be within 25 of the actual capacity To set the estimated tank capacity use the Increase and Decrease keys to adjust the displayed value
112. e from center with a protractor or other instrument Use the Increase and Decrease keys until the highlighted rudder angle value is at the measured value and then press Enter to accept the value and store it within the RAA100 Figure 84 shows a screenshot of the starboard rudder calibration screen You may also press the Abort Key to end the calibration process Rudder Angles Calibration Three seperate calibration points are used to calibrate the rudder hard over starboard center hard over port 11 Turn wheel hard over to starboard 2 Use arrow keys to select rudder angle 3 Press lt Accept gt to set rudder angle at hard over port position 4 Press lt Abort gt to cancel calibration and revert to old calibration data Abort Increase Decrease Accept Figure 84 Starboard Rudder Angle Calibration The second step in the custom rudder angle sender calibration process is to turn the wheel so that the rudder is centered as much as possible Next press Enter to accept the value and store it within Page 94 Revision 1 4 2 Maretron the RAA100 Figure 85 shows a screenshot of the center rudder calibration screen You may also press the Abort Key to end the calibration process Rudder Angles Calibration Three seperate calibration points are used to calibrate the rudder hard over starboard center hard over port 1 Center the rudder 2 Press Accept to set rudder angle at
113. e internally generated simulated data and will ignore any data arriving over the NMEA 2000 bus While in demo mode the DSM250 will display a Demo indicator in the upper right hand corner of the screen Programming this option to On Show Room Mode or On Boat Show Mode No Auto Reset will cause the DSM250 to enter the demo mode while programming this option for Off Normal Use Mode will cause the DSM250 to return to using data from the NMEA 2000 bus In order to be able to demonstrate all of the DSM250 s capabilities the unit allows the user to setup and configure different screens while in demo mode However in a show room environment and five minutes after the last button push i e the customer has walked away the demo unit the DSM250 will reset itself to the default screens There are others times where it is important that the DSM250 doesn t automatically reset after five minutes to the default screens for example at a boat show where it is desired to show specific screens while running in the demo mode and thus the Boat Show Mode WARNING All data displayed in demo mode is simulated Do not use this data for vessel monitoring or navigation purposes Display Settings Language English Backlight Color Setup Keyboard Beep On DEPT EA Off Bus Status serial Port Settings Power Figure 21 Setting the Demo Mode 5 2 4 6 Keyboard Beep The DSM250 has an annunciator that can be programmed
114. e setting is measured in percent of full brightness The Backlight menu can be seen in Figure 18 below Display Settings Backlight ETA 33 Medium 66 High 10055 Power Bach ais Scroll Figure 18 Backlight Menu 5 2 4 4 Color Setup The DSM250 has eight user programmable color palettes The default color palettes are as follows Color Set 1 White Back Ground Black Foreground Color Set 2 Red Back Ground Black Foreground Color Set 3 Blue Back Ground Black Foreground Color Set 44 Green Back Ground Black Foreground Color Set 5 Black Background White Foreground Color Set 6 Black Background Red Foreground Color Set 7 Black Background Blue Foreground Color Set 8 Black Background Green Foreground Choosing the Color Setup menu item from the main Display Settings menu takes you to the screen shown in Figure 19 Revision 1 4 2 Page 31 DSM250 User s Manual Display Settings Color Setup Color Set 1 Color Set 2 Color Set ei Color Set 4 Color Set ei Color Set Color Set 7 Color Set ep Power Figure 19 Color Palette Selection Screen Use the Scroll Up or Scroll Down keys to move the highlight to the color set that you want to change and then press the Enter key Selecting Color Set 1 takes you to the screen shown in Figure 20 Display Settings Color Setup Color Set 1 CE On Inver
115. ease keys to change the value to the measured resistance value and finally press the Enter key to confirm your selection and store the value within the TLA100 Confiquration Device Configuration NA Manufacturer Model SH HW SW I3 Maretron TLA TY AE Di 10 16 H Advanced Configuration Label Aft Fuel Tank Capacity 1 0 Gallons Tank Levels Calibration Tank Number 86 Tank Type Fuel Operating Mode NMEA2000 amp Analog Gauge Gauge Resistance to sender 25 Gauge Resistance to sender KIYI Cancel Increase Decrease Accept Figure 134 Configuring the to Sender Gauge Resistance Revision 1 4 2 Page 127 DSM250 User s Manual 6 16 Maretron TLM100 Configuration The DSM250 may be used to configure and calibrate the Tank Level Monitor TLM100 TLM150 TLM200 This describes the configuration of firmware version 1 1 4 After selecting the TLM100 from the list of devices on the network the following screen will be displayed Configuration Device Configuration NA Manufacturer Model SHE HW SW T3 Maretron TLM 14 N07 51 10 114 Advanced Configuration ET TING Port Mid Tank Capacity 81 4 Gallons Tank Levels Calibration Tank Number 2 Tank Type Fuel Figure 135 TLM100 Configuration Screen 6 16 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configurati
116. ec TEE E 183 8 8 Restore Factory Uetaults 183 SN e E IRI RETE m 184 nn elle ae et ne trot 186 Revision 1 4 2 Page vii DSM250 User s Manual 11 Technical Specifications ccccccccccsccceeceeeceeceeeeeceeeeeeeeeseeeeeeseeeeeeeeeeeceeeseeteeeeeeeeetseeaeeneeeeeetaees 187 12 VECANIGA SU ODOM NET T TT DOTT 191 Je pel ebe ee 193 14 Maretron 2 Year Limited Warranty cccccccceccseceeeceeececeseeeseeceeeceeecaeecaeesaeseeeseeeseeeseeeseeeaes 196 Page viii Hevision 1 4 2 Maretron Table of Figures Figure 1 Surface Mounting the DSM n0 cecceccccccceccseeeeeeeeeece cece eeseeeseessueceeeseeeseeeseeeseeseeeaeeesaees 3 Figure 2 Flush MOUNTING d HR RRE 4 Figure 3 Gimbal Mounting the DSMZna0 ccc cccceccceccseeeeeeceeece cece eeseeeseeeseeceeeseeeseeeseeseeseeeseesagess 5 Figure 4 NMEA 2000 Connector Face View D Figure 5 DSM250 Power Up creen nnne nnn nnnn nne nsu rn sedens sna an ae anrea 6 Figure 6 Powerdown Countdown Gcreen T Figure 7 Keypad and Key hNames 1 Figure 8 Entering a Textual Value A 9 Figure 9 DSM250 Running in Favorite Screens Mode nennen 24 PIOUS O Man MON EET Um 25 Figure 11 ConiguUraUon ee OT 26 Figure 12 Device Selection Gcreen 2f Figure 13 D8M250 Display Settings Gcreen nne nnne nnne nen n assa ns 28 Figure 14 DSM250 Advanced Contfguraton nne nnns nnns 28 Figure 15 DSM250 Primary Device Gelechon nnne nnnns 29 Figure 16 DSM250 Advanced In
117. ed option is selected using the Scroll Up and Scroll Down buttons and then pressing the Enter button again 8 4 Deleting an Alert From the Alert Setup Menu selected the menu item Delete Alert Alert Setup Add Mew Alert Edit Alert Operating Mode Disable Advanced Confiquration Restore Factory Defaults This brings up the list of Alerts managed by the DSM2590 Revision 1 4 2 Page 179 DSM250 User s Manual Alert Setup Delete Alert Priority Enab Type Description Yes Global Alarm Yes Global Alarm Yes Global Alarm Anchor Watch Yes Global Alarm Yes Global Alarm Yes Global Alarm Yes Global Alarm Lat on Yes Global Alarm Yes Global Alarm P A Um En Gi Ee Geh P A Scroll up and down using the Scroll Up and Scroll Down buttons until the alert that must be deleted is highlighted and press the Enter button A confirmation message is displayed Alert Setup Delete Alert Priority Enab Type Description Are you sure you want to delete selected alert Yes Global Alarm Power Cancel Accept Press the Accept button to delete the Alert or the Cancel button to return to the previous screen without deleting the Alert 8 5 Editing an Alert From the Alert Setup Menu selected the menu item Edit Alert Page 180 Revision 1 4 2 Maretron Alert Setup Add New Alert Delete Alert Operating Mode Disable Advanced Configuration Restore Factory Defaults
118. edure 6 14 6 Magnetic Deviation Status Pressing the Enter key with the Magnetic Variation Status menu item selected causes the screen shown in Figure 110 to be displayed Magnetic Deviation Status Est Magnetic Field Strength Horizontal T ul Vertical T3 uT Total Alul Eet Hand Iron Distortion Amplitude 99 ul Direction T Est Sott lron Distortion RMS L En Figure 110 SSC200 Magnetic Deviation Status Screen 6 14 7 Rate of Turn Damping Period The SSC200 is capable of transmitting the rate of turn of a vessel Different applications may require different damping for the rate of turn measurement The DSM250 may be used to set the damping period for the rate of turn measurement to anywhere between 0 1 seconds and 60 seconds Figure 111 shows an example of the damping period set to 2 seconds Page 112 Revision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model SNR HW SW 49 Maretron SG A9 1120224 20 20 11 Advanced Configuration Installation Offset Calibration Invert Installation Mormal Installation Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period Rate of Turn Zero Offset Calibration Variation Source NMEA0183 or NMEA2000 Cancel Increase Decrease Accept Figure 111 Programming SSC200 Rate of Turn Damping Period 6 14 8 Rate of Turn Zero Offset Calibration The DSM250 is ca
119. ee oection 5 2 7 6 Revision 1 4 2 Page 19 DSM250 User s Manual 4 3 Alerts An alert is a signal to a user that there is either an alarm or warning condition requiring user intervention Alerts are integrated in an NMEA2000 system For each Alert one device acts as a master or Alert Source and monitors a parameter against a preset threshold When the parameter crosses this threshold the Alert is displayed on the Alert Source and an Alert Message is sent out on the NMEA2000 bus to other devices capable of displaying Alerts Optionally an Annunciator message is sent to devices capable of sounding an audio alarm e g the ALM100 Currently the DSM250 and the N2KView Vessel Monitoring Software are capable of generating and receiving Alert Messages The Alert may be accepted or cancelled from any capable device in which case an Alert Response Message is sent to the Alert Source which in turn will turn the Annunciators off and inform the devices on the bus of the new Alert Status 4 3 1 Alert Types There are two classes of alerts which are distinguished by their severity e Alarm An alarm is a type of alert announcing a condition requiring immediate attention or user intervention Alarms are shown in red when Active and always appear above the warnings on the Alert Status Screen e Warning A warning is a type of alert announcing a condition requiring non immediate attention for precautionary reasons Warnings are shown
120. elieve that the compass is tilted during the magnetic deviation calibration which can adversely affect the quality of the magnetic deviation calibration especially in northerly latitudes where magnetic inclination magnetic dip is higher If this is the case instead of pressing the Begin key press the No Acc 9 key This will cause the compass to ignore its tilt sensors and assume that the compass is level to the earth s surface during the calibration You must keep the boat level during calibration if you choose this option After you press the Begin key or the No Acc 9 key a status screen will appear Figure 109 Revision 1 4 2 Page 111 DSM250 User s Manual Magnetic Deviation Calibration Completed 0 of 3 circles Heading Rate of Turn 37 9 3 1 Degrees Magnetic Degreesisecond Current Status Deviation in Progress Last Status Idle Power Figure 109 5SC200 Magnetic Deviation Calibration Progress Screen This progress screen shows the number of circles completed the current heading the current rate of turn and the current status of compass calibration If you do not wish to continue magnetic deviation calibration at this time press Abort and the currently stored deviation tables will be retained Once calibration is successful a completion screen will appear If calibration is unsuccessful a screen will appear indicating this and you should repeat the calibration proc
121. enth second on one tenth second off beeps followed by one and a half seconds of silence The sequence is repeated This corresponds to the requirements for Temporal 4 alarms T4 CO Fire This is a series of three half a second on half a second off beeps followed by one and a half seconds of silence The sequence is repeated This corresponds to the requirements for Code 3 ISO 8201 Smoke Fire Revision 1 4 2 Page 177 DSM250 User s Manual 8 3 10 Remote Annunciators Selecting the Remote Annunciators option will bring up a list of 16 ALM100 devices If the Annunciator is active on the NMEA2000 bus and the Annunciator has been given a label the label will be displayed in parenthesis alongside the instance number Note the DSM250 is limited to working with annunciators with data instance numbers in the range 0 15 E Remote Annunciator s Instance Tone Enable i1 Disable Disable Disable Disable Disable Disable Disable Disable Disable To enable a specific Annunciator use the Scroll Up and Scroll Down buttons to position the cursor and then press the Enter button to move to the Tone column The options here are e Enable e Disable The desired option is selected using the Scroll Up and Scroll Down buttons and then pressing the Enter button again The tone of the Annunciator will be the same as that set in 8 3 9 8 3 11 Operating Mode Moored see section 4 3 4 for a description of Operating Modes For
122. epeat this last step or press the Back button top return to the choices on the left To append a punctuation character or other symbol use the Scroll Up and Scroll Down buttons to select Sign and then press Enter to go across to the sign characters Now use the Scroll Up and Scroll Down buttons again to select the required character and press Enter to transfer the character to the cursor position If another sign character is required repeat this last step or press the Back button top return to the choices on the left To append a space use the Scroll Up and Scroll Down buttons to select Space and then press Enter To delete the character immediately preceding the underscore use the Scroll Up and Scroll Down buttons to select Back and then press Enter Note that it is not possible to delete the entire text string use the Back function repeatedly to delete the characters one at a time Revision 1 4 2 Page 9 DSM250 User s Manual To abort the entire textual edit and return to the original field without changing the contents of the field use the Scroll Up and Scroll Down buttons to select Exit without Saving and then press Enter To enter the text string in the original field use the Scroll Up and Scroll Down buttons to select Save and Exit and then press Enter Page 10 Revision 1 4 2 Maretron 4 Important Concepts 4 1 Favorite Screens The DSM250 can display many different types of information in many different configura
123. erials 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 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 otatements 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 writing 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 O
124. ese tdeo FID nti Nt deut S Suio quc duds auod utes 103 0 151 Advanced Connora e EE 103 619 2 Devico LADS M 104 SEN D e Mt SUAING cucuiedccici ugue uiti nena nugas acaduicae geudtioocaendniencocadileni cs a ict otto cited mdr ette a eee dein 105 5 15 4 C nannel Gohliguf te EE 105 6 14 Maretron SSC200 Configuration EE 106 6 14 1 Advanced CGontfguraton 106 6 14 2 Installation Offset GaliDratiO EE 109 6 14 3 Jnverted Installatlor ENUY iicet E EE D ED Ere EE EC D EC re ides vader 110 SM TAM Rs 0 PITT R R 111 6 14 5 Magnetic Deviation Calibration esee 111 64 6 E e tele Tu Ree EE 112 0 14 7 IRate or Turn Damping Period saine atis e SISSE AREA SEA Rt E aA A ep Sint utet d ep Ste dre S PPS Acte 112 6 14 8 Rate of Turn Zero Offset CGalbratnon 113 6 14 9 Variation Source Ent 113 6 15 Maretron TEL ATOO RE ele le L I den BEE 117 En En r Aandi COMMU atl ON EE 117 SNO M Cane EE 118 OAS 9 Tank Capac PR 118 615 4 Tank Levels e ee e BE 119 AER EE OT LC un e 124 OTISO TNK PV OC ses ccecene conten coat on n I m Em 124 6 15 7 Operating Mode o 0anannannennananoanonnnnnnrnrrrrrrrorrrnernrnnrnrrnrrnrrnrrnernernrsnrnrrnrrnrrnrrnernenne gt 125 6 15 8 Gauge Resistance to Gender 126 5 15 9 Gauge Resistance e Sendeli EE 126 6 16 Maretron TEMTOO Configuration oen tere ehe aedem der ee aeu era a Ez aer eher os
125. ey to set this angle to read 0 apparent wind on the WSO100 The WSO100 will only calibrate if the apparent wind speed is greater than 2 2 miles hour If the apparent wind speed is lower than this then an error message will appear which is shown in Figure 159 below and the calibration process will be aborted Installation 1 Poir Unable to set the installation offset Hote Installation offset can be done only at wind speed more than 1 mls 22 mph Power Abort Accept Figure 159 WSO100 Configuration Aborted Due to Low Wind Speed If the wind speed is sufficient then a confirmation screen shown in Figure 160 below will appear indicating that a successful installation offset calibration has completed Revision 1 4 2 Page 145 DSM250 User s Manual Installation Offset 11 Point boat directly iz Figure 160 Installation Offset Success Confirmation Screen You may instead abort calibration by pressing the Abort Key 9 If you do this the installation offset calibration process will be aborted and a message will appear noting that this has happened which appears in Figure 161 below Installation Offset 11 Point boat to wi Installation Offset Calibration has been aborted Previous offset value has been restored Figure 161 Installation Offset Abort Confirmation Screen 6 21 4 Wind Data Damping Period The WSO100 comes from the factory preset with a damping period of 1 5 se
126. f the same type in the system and appears when selecting devices in both the DSM250 and in N2KView oee section 3 3 4 for details on how to enter a textual value 6 14 5 Magnetic Deviation Calibration The DSM250 is capable of performing magnetic deviation calibration on a Maretron SSC200 solid state compass The Rate of Turn Offset Calibration section 6 14 8 should be done before the Deviation Calibration The first screen Figure 108 gives instructions for performing the procedure First begin to turn the boat in a slow circle either clockwise or counter clockwise at about 3 to 12 degrees per second Magnetic Deviation Calibration n Begin to turn boat in a slow circle 0 5 2 min circele or 3 12 le Current Rate of Turn 1 8 s 2 Press Begin to begin calibration or press No Acc to begin calibration with accelerometer disabled No Ace Begin Figure 108 SSC200 Magnetic Deviation Calibration Start Screen Once you have begun the turn press Begin 2 to start the calibration procedure If you do not wish to perform magnetic deviation calibration at this time press Abort and the currently stored deviation tables will be retained If you are in a large vessel it may be difficult to turn the vessel in a small enough circle to avoid significant centrifugal force applied to the compass during magnetic deviation calibration This can cause the built in tilt sensors inside the compass to mistakenly b
127. fer slightly depending on whether a menu is being accessed a selection is being made from a list of possible data values or a numeric value is being increased or decreased 3 3 1 Navigating in a Menu When accessing a menu the keys on the DSM250 keypad have the following functions Revision 1 4 2 Page 7 DSM250 User s Manual Power Key turns the DSM250 off see Section 3 1 on page 6 for details Back Key returns to the next higher level menu If already at the top level menu exits menu mode returns to favorite screens mode Menu levels are indicated with indentation of the text within the menus Scroll Up Key changes the currently selected or highlighted menu item from the presently selected one to the one immediately above it If the top menu item is already selected the selection wraps to the bottom menu item Scroll Down Key changes the currently selected or highlighted menu item from the presently selected one to the one immediately below it If the bottom menu item is already selected the selection wraps to the top menu item Enter Key if the currently selected menu item has a submenu opens that submenu If the currently selected menu item has an editable value indicated by a colon followed by the data value moves the selection to the editable value and changes the keys to edit mode 3 3 2 Choosing a Value from a List When editing a value chosen from a list the keys on t
128. formation Gcreen 30 Foue REECH DISDA NR ETT 30 Figure 18 Backlight Menu m 31 Figure 19 Color Palette Selection Gcreen 32 Figure 20 Color Palette Configuration Gcreen nennen nennen nnns nnne 32 Figure 21 Setting the Demo Mode nennen nnne nnn nnns nh naeh sas nsa ssa ana sanas 33 Figure 22 Setting the Keyboard Beep COptpon ec ccccc cece eecceeeceeeeeeeseeeeeeseeeseeeseeeseeeseeseeeeeseeees 34 Figure 23 Editing the DSM250 Label 0 ccccecccecceeeceeece cece eeeeeceeesaeesaeseeeceueseeseeeseeeeeesenesaneees 34 Figure 24 Setting the Favorite Screens Mode nennen nennen nnn nnn 35 Figure 25 Favorite Screens SElUD SCION E 35 Figure 26 Favorite Screen Parameters nnannannannnnnnnennnnnnrnnrnrrrrrnrrnrrnrrrnrrnrrrrrnrrnrrnrnrrnrrnronrnrrnnrene 36 Figure 27 Setting the Favorite Screen Format nennen nnne nnn nn 37 Figure 28 Setting the Auto Change Internal 37 Figure 29 Selecting the Data Category sessssssssssssessseeeee nennen nne nennen nnns nnn 38 Figure 30 Selecting the Datatobedeplaved nee 38 PIGUET ISI ZOO MNES WIC I E 40 Figure 32 Device Configuration Screen nennen nnne nennen nn assa sana sanas 44 Figure 33 EP 30 Trim Tabs Configuration Screen ccccccccecccececececeeeeeeeeeeeeeeeeeeseeeseeeaeeseeeeeeeseeees 45 Figure 34 EP 30 Trim Tabs Calibration Opening Screen ccccceccceceeeceeece ees eeseeeseeeeeeeeeeseeeseeeae
129. ftware Version This field displays the version of the Firmware running in the DSM250 Page 34 Hevision 1 4 2 Maretron 5 2 5 Favorite Screens Mode The DSM250 supports two methods of operation in favorites mode Auto in which the DSM250 automatically cycles through all favorite screens that have been enabled for Auto mode and Manual in which the DSM250 continues to display the currently displayed favorite screen until you press the Scroll Up or Scroll Down keys in which the DSM250 will display the next higher or lower numbered favorite screen respectively that is enabled for Manual mode Favorite Screens Mode CELME Favorite Screens Setup Units Figure 24 Setting the Favorite Screens Mode 5 2 6 Favorite Screens Setup Menu The DSM250 supports the configuration of sixteen favorite screens The favorite setup screen allows you to select which of the twelve favorite screens you wish to configure Favorite Screens Setup Favorite 1 Favorite 2 Favorite 3 Favorite 4 Favorite 5 Favorite ei Favorite 7 Favorite ep Favorite 9 Favorite 10 Favorite 11 Favorite 12 Power Figure 25 Favorite Screens Setup Screen Once you have selected a favorite screen to configure you will see the screen shown in Figure 26 The exact format of the setup screen will depend on the Format chosen Revision 1 4 2 Page 35 DSM250 User s Manual Favorite Screens Setup Favorite 1
130. has completed successfully You may now press any key to return to the previous menu Trim 1 F 2 f EI Calibration completed successfully Press any key to continue Power Figure 36 EP 30 Calibration Success Message Page 46 Revision 1 4 2 Maretron 6 2 Maretron ACM100 Configuration This describes the configuration of the Maretron ACM100 firmware version 1 0 6 Configuration Device Configuration NA Manufacturer Model SHE HWE SWZ B1 Maretron ACHT 1350904 10 10 6b2 AC Circuit Type 3 Phase Y Ph A B C AC Device Type Utility Device Instance ei Label SHORE POWER Reset Total Energy Recorded Figure 37 ACM100 Configuration Screen 6 2 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SN HNZ SW B1 Haretron ACH TU TEM 10 10 6b7 Advanced Configuration UCSC Inverse Install Current Transformer B Normal Install Current Transformer C Normal Install Damping Period Power 5 05 Damping Period VIE 0 5s Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 38 ACM100 Advanced Configuration Screen 6 2 1 1 Current Transformer A If you notice that the power measurements of phase A
131. he DSM250 keypad have the following functions Power Key turns the DSM250 off see Section 3 1 on page 6 for details Back Key aborts the edit and restores the editable value to its previous value Scroll Up Key changes the currently selected editable value from the presently selected one to the one immediately above it in the list of possibilities If the top menu item is already selected the selection wraps to the bottom menu item Scroll Down Key B changes the currently selected editable value from the presently selected one to the one immediately below it in the list of possibilities If the bottom menu item is already selected the selection wraps to the top menu item Enter Key 9 Accepts the currently displayed value and stores it 3 3 3 Entering a Numeric Value When editing a numeric value the keys on the DSM250 keypad have the following functions Power Key turns the DSM250 off see Section 3 1 on page 6 for details Cancel Key 9 aborts the edit and restores the editable value to its previous value Increase Key amp B increases the editable value Decrease Key decreases the editable value Accept Key 9 Accepts the currently displayed value and stores it 3 3 4 Entering a Textual Value When entering a text string the following menu will be presented Page 8 Revision 1 4 2 Maretron ext Anchor Winch_ Uppercase A Lowercase a Numeric
132. he Enter key 6 11 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 11 2 Label A label may be assigned to the RAA100 as an aid to identifying the device over the network Typically this label will describe the rudder to which the RAA100 is connected e g Port Rudder Page 92 Hevision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model SNF HWe SW 62 Maretron RAA 90 1799991 10 14 3 Advanced Configuration Label uk Rudder Angle Calibration Rudder Number 1 Dual rudder starboard Operating Mode NMEA2000 amp Analog Gauge Gauge Resistance to sender 135 Gauge Resistance to sender 199 See section 3 3 4 for details on how to enter a textual value 6 11 3 Rudder Angle Calibration In order for the RAA100 to indicate an accurate rudder angle it must know how the resistance of the resistive rudder angle sender corresponds to the rudder angle The following screen will be displayed Configuration Device Configuration NA Manufacturer Model SHE HWE SW D Maretron RAA TUO 1200997 10 14 5 Rudder Angle Calibration Set to American Standard 240 33 ohm Set to European Standard 10 180 ohm Figure 82 Rudder Angle Calibration Options There are three methods of calibrating the rudder angle sender 6 11 3 1 Custom Calibration The Custom Calibration setting will provide the most accurate rudder angle readings under an
133. he control The contents of the title are specified in this field There are three options e Default the title of the control is the same as the name of the parameter being displayed e Label the label of the parameter The label is programmed into the remote device and will be transferred to the title when it is received from the remote device This means that if the label of the remote device is changed the title of the control will be automatically updated to match the new label e Custom the title is entered by the user using the method described in section 3 3 4 Revision 1 4 2 Page 39 DSM250 User s Manual 5 2 7 Units Menu The Units Menu allows you to set the desired display units for the DSM250 The following sections provide more detail on the individual unit settings Units WR Magnetic Jepth Feet Distance Nautical Miles Boat Speed Knots Wind Speed Knots Wind True Vessel Ref Ground Temperature F Atmospheric Pressure Inches Mercury Fluid Pressure Pounds Square Inch Volume Gallons Time Format 24 Hour Local Time Offset 0 00 Power Figure 31 DSM250 Units Menu 5 2 7 1 Heading This menu item allows you to select whether heading course and bearing information is displayed in true or magnetic measurements True heading can only be displayed if a variation is available on the NMEA 2000 bus If the DSM250 is not showing heading or COG i e no needle on compass rose or dashe
134. he operating mode within the RAA100 Configuration Device Configuration NA Manufacturer Model SH HW SW 62 Maretron RAA 100 1799991 10 14 9 Advanced Configuration Label Stbd Rudder Angle Calibration Rudder Number 1 Dual rudder starboard Operating Mode I ITZEVDTTEE IET RETI TE Gauge Resistance to sender 139 E Gauge Resistance to sender 199 i Scroll Scroll Power Up Down Figure 89 Setting the Operating Mode Revision 1 4 2 Page 97 DSM250 User s Manual 6 11 6 Gauge Resistance to Sender If the desired operating mode is NMEA 2000 amp Analog Gauge the two gauge resistances must be programmed please refer to the RAA100 User s Manual for details on how to perform these measurements A screenshot of the to sender gauge resistance configuration is shown in Figure 90 below To program the to sender gauge resistance use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Gauge Resistance to Sender menu item Then press the Enter key to move the highlight over the numerical resistance value Use the Increase and Decrease keys to change the value to the measured resistance value and finally press the Enter key to confirm your selection and store the value within the RAA100 Confiquration Device Configuration NA Manufacturer Model SH HW SW 67 Maretron RAA 100 1799991 10 14 9 Advanced Configuration Label Stbd Rud
135. he warnings would be lost For this reason the Vessel Operating mode must be changed at each DSM250 or N2Kview and those alerts which would be disabled noted by the user The Vessel Operating Mode is set through the Alert Setup Screen Scroll Down to the required Operating Mode entry press Enter and then use the Scroll Up Scroll Down buttons to select the new Mode Press Enter to complete the operation Alert Setup Add New Alert Delete Alert Edit Alert Operating Mode Advanced Configuration Restore Factory Defaults The options here are e Disable e Moored e Anchored e Underway 8 Advanced Configuration The Advanced Parameters of the Alert System may be configured through this Screen Enter the screen though the Alert Setup menu and select the Advanced Configuration option Alert Setup Advanced Configuration Ante Wace Enable Remote Alert Audible Disable Flashing Screen Disable The following parameters may be set Page 182 Revision 1 4 2 Maretron 8 7 1 Remote Alerts The DSM250 may be set up to not respond to Alerts generated by other devices on the bus This is a global setting and will apply to all Remote Alerts from all other devices The options here are e Enable e Disable 8 7 2 Remote Alert Audible If Remote Alerts are enabled and an active alert is received from another device on the bus the DSM250 will respond by adding the Alert to its list of Active Alerts se
136. hed to the DCM100 Options are 200A A 200 Amp Current Transducer is connected to the DCM100 This has the part number LEMHTA200 S 400A A 400 Amp Current Transducer is connected to the DCM100 This has the part number LEMHTA400 S Revision 1 4 2 Page 55 DSM250 User s Manual e 600A A 600 Amp Current Transducer is connected to the DCM100 This has the part number LEMHTA600 S Select the required transducer using the Scroll Up and Scroll Down keys followed by the Enter key 6 4 1 2 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network 6 4 1 3 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 4 1 4 NMEA2000 PGN Enable Disable The DCM100 Annunciator Module transmits the NMEA2000 PGNs 127506 and 127508 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration
137. hlighted Use the Scroll Up or Scroll Down keys to move the highlight over this menu item and then press the Enter key Revision 1 4 2 Page 133 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model So HW SW T3 Maretron TLM T0 AT Pi 10 114 Tank Levels Calibration Custom Calibration Rectangular Tank Figure 146 Rectangular Tank Selection The following screen will be displayed Configuration Device Configuration NA Manufacturer Model SHN HW SW I3 Maretron TLM YO AT 1 10 114 Tank Levels Calibration Rectanqular Tank Empty Tank Depth 40 0 Full Tank Depth 2 0 Figure 147 Rectangular Tank Calibration Enter the distance from the face of the TLM100 sensor to the bottom of the tank for the Empty Tank Depth and the distance from the face of the TLM100 sensor to the top of the liquid when the tank is full for the Full Tank Depth After entering the values use the Back button to return the parent menu 6 16 5 Tank Number The Tank Number is the Data Instance used in the data message This can be set from 0 to 15 6 16 6 Tank Type This is set to the type of fluid in the tank Values are Fuel Fresh Water Waste Water Page 134 Revision 1 4 2 Maretron Live Well Oil Black Water Reserved 1 Reserved 7 These values may be used when the contents of the tank does not fit into one of the categories above 6 17 Mare
138. idered a 1D lock three satellites is a 2D lock more than three satellites is a 3D lock and more than three satellites with SBAS is a 3D DGPS lock These different locks are indicative of the quality or accuracy of the given position with 1D having the lowest quality and 3D DGPS providing the highest quality The GPS Quality Alert is used to alert you if the quality of the position falls below a specified quality level 8 3 7 10 1Trigger Configuration GPS Quality Alert Alert Detail Data Status Instance Any Description Location Do Trigger Confiquration Trigger Type aGPS Quality Re trigger Period 5 00 min sec Alert Set Point 3D GPS Alert Set Delay 0 06 min sec Alert Clear Point 3D DGPS Alert Clear Delay 0 06 min sec Local Audible Enable Figure 196 Trigger Configuration GPS Quality Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Point The Alert will be triggered when the qaulity of the GPS fix as reported by the GPS drops lower than the value specified in this field Possible Values are e 3D DGPS best quality e 3D GPS e 2D GPS e 1D GPS e No fix Alert Se
139. iguration can be seen in Figure 12 below NOTE Now that you can select instances for each displayed parameter you do not need to configure this menu This menu entry is retained for backward compatibility Page 26 Revision 1 4 2 Maretron Configuration Device Selection NA Manufacturer Model SHz Status Display 21 n 67 Maretron SSC AN TIANN Online n 3 Maretron DST TN 10003 Online n 4 Maretron USE TN TE4NNM Online n D Maretron D5H 20 100005 Online n Ag Maretron JK T0 TONS Online n 6 Maretron WSO TN TANNN Online n DI Maretron EMS 400 t2007 X Online n B9 Maretron TLA T0 To Online On l Figure 12 Device Selection Screen The NA column of the menu displays the node address the device is using The Manufacturer column of the menu displays the manufacturer of the device The Model column displays the model number of the device The SN column displays the serial number of the device so that any of two or more devices of the same manufacturer and model number may be distinguished from one another The Status column indicates whether the device is currently connected to the bus and is responding to queries Online or has been disconnected from the bus has lost power or for some other reason is not responding to queries Offline The Display column indicates whether data from that particular device is accepted for display by the DSM250 On or that th
140. ill not need to modify the default value of 0 unless you have multiple units on the network Revision 1 4 2 Page 103 DSM250 User s Manual 6 13 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 13 1 3 NMEA2000 PGN Enable Disable The SIM100 Switch Indicator Module transmits the NMEA2000 PGN 127501 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration NA Manufacturer Model SHE HWE SW D3 Maretron SIM TN HAO 10 111 Advanced Configuration NMEA2000 PGN Enable Disable ee a Figure 98 SIM100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the Binary Switch Status message or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are e Disable The status message will not be transmitted e Default The status message will be transmitted at its default NMEA2000 rate which is once every 15 secon
141. ing by pressing the Enter key with the Antenna Altitude menu item selected which causes the screen shown in Figure 65 to be displayed Confiquration Device Configuration HA Manufacturer Model SHN HW SW 21 Maretron GPS AN 21 Advanced Configuration Device Instance 211 GPS Antenna Altitude GPS Elevation Mask GPS PDOP Mask Disable GPS SNR Mask 28 00 dB Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Cancel Increase Decrease Accept Figure 65 Configuring Antenna Altitude on a GPS100 The allowable values for the Antenna Altitude are between 100m and 100m This number represents the altitude or the GPS100 and is used to improve the quality of the position fix if only a two dimensional fix is obtainable If a three dimensional position fix is obtainable this value is not used 6 9 1 3 Elevation Mask The DSM250 is capable of setting the Elevation Mask on a Maretron GPS100 You can choose this setting by pressing the Enter key with the Elevation Mask menu item selected which causes the screen shown in Figure 66 to be displayed Revision 1 4 2 Page 79 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SH HS 21 Maretron GPSTO 211 d Advanced Configuration Device Instance 211 GPS Antenna Altitude 0 00 m GPS Elevation Mask ER GPS PDOP Mask Disable GPS SNR Mask 28 00 dB Installation Description NMEA
142. ing device For instance you probably would want to use a Data Unavailable Alert for the Depth gt Current Depth parameter since it would be advisable to know if the depth sounder were to stop transmitting a depth reading or became unable to determine the depth due to fouling or some other reason On the other hand if you were to set a Data Unavailable Alert on Engine gt Engine Revision 1 4 2 Page 167 DSM250 User s Manual Water Temperature parameter you would then get an alert every time the ignition was switched off and the engine s ECU stopped transmitting data 8 3 7 3 1 Trigger Configuration Alert Detail Alert s Pending 4 Instance Any Description Location Do Trigger Configuration Trigger Type aQData Unavailable Alert Re trigger Period 1 00 min sec Alert Set Delay 0 10 min sec Alert Clear Delay 0 10 min sec Local Audible Enable Tone Continuous Remote Annunciator s Operating Mode Moored Enable Figure 189 Trigger Configuration Data Unavailable Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Delay If a valid value for the parameter being monitored is continually no
143. int Bearing To Waypoint displays the bearing to the destination waypoint Course Over Ground displays the current Course over Ground always referenced to true north Cross Track Error displays the cross track error minimum distance from the boat to the programmed route Distance To Waypoint displays the distance to the destination waypoint Est Time of Arrival displays the Estimated Time of Arrival at the waypoint Lat Lon displays the current latitude and longitude of the vessel Rolling Road displays navigation information for the current leg of the route Set Drift displays the direction set and speed drift of the water current Speed Over Ground displays current Speed over Ground relative to the earth not the water Time To Go displays the estimated Time to Go until arrival at the waypoint VMG to Waypoint displays the Velocity Made Good that is the speed at which the distance to the waypoint is decreasing Waypoint Number this displays the number of the destination waypoint 4 2 14 Rudder The DSM250 supports the display of information for up to four rudders Rudder Angle amp Order displays the angle of the vessel s rudder as indicated by the rudder sensor as well as the angle to which the rudder has been commanded by an autopilot or steering device 4 2 15 Special Devices Watermaker displays a screen with several different parameters associated with Sea Recovery watermakers Page 16 Revision 1
144. interval for the enabled sentences In the figure you can see that the HDG and ROT sentences will be transmitted every 0 1 second 10 times second the ATT sentence will be transmitted once per second and the HDM and HDT sentences are disabled Revision 1 4 2 Page 107 DSM250 User s Manual The last line in the menu enables you to program the lifetime of the variation data received by the SSC200 In Figure 103 you can see that the Variation Time has been programmed to 5 0 seconds This means that if the compass has not received magnetic variation for five seconds it will no longer transmit true heading data as the variation data it has received is now expired On the NMEA2000 side the Heading PGN has separate fields for heading sensor reading and variation The SSC200 always has magnetic heading available when variation is not available timeout or invalid the variation field is set to N A The default value of 5 0 seconds should be adequate for the majority of applications but it may need to be increased for variation sources that transmit less frequently Configuration Device Configuration NA Manufacturer Model SNF HWE SW 99 Maretron SL 200 10707 0 20 11 Advanced Configuration NMEA0183 Settings Sentence Rate Selection DTE ms 10 002 HDH Disable HDT Disable ROT 200ms 5 0Hz ATT ms 10Hz Variation Time S00ms 0 Hz Figure 103 SSC200 NMEA 0183 Sentence Rate Selection Screen 6 14 1 3 3Load Defau
145. l Level displays the percentage of fuel remaining in all fuel tanks 4 2 10 GPS Course Over Ground displays the current Course over Ground either true or magnetic depending on the Heading setting found under the Units menu item Revision 1 4 2 Page 15 DSM250 User s Manual Lat Lon displays the current latitude and longitude of the vessel Speed Over Ground displays the current speed over ground Status displays the current operating mode and status of the specified GPS receiver 4 2 11 Heading Magnetic True displays the current heading of the vessel the direction the vessel is pointing relative to true or magnetic north depending on the unit setting of the heading parameter see section 5 2 7 1 Rate of Turn displays the angular rate of rotation of the vessel about the vertical axis Variation displays the magnetic variation used to convert between true and magnetic headings 4 2 12 Indicator Status displays the on off status of an indicator 4 2 13 Navigation The DSM250 is not a primary navigation device that is it does not provide means for entering and storing waypoint and route data The DSM250 can receive information on the current leg of the voyage from a primary navigation device such as a chart plotter or PC with navigation software and NMEA 2000 interface and display this information Bearing Origin to Destination displays the direction from the origin waypoint to the destination waypo
146. le Calibration ccccccccecceeceeeceeeceeecuceseeceeeceeeseeseeseeeeeeseeeseeeaas 95 Figure 66 Por EE ele En Lei Ee lee A EE 95 Figure 87 Custom Rudder Calibration Confirmation Screen cccccccsecceecceeeceeeceeeaeeeaeeeeeeteeeseeees 96 Figure 88 Setting the Rudder Number 97 Figure 89 Setting the Operating Mode eene nnne nennen nnne sanae nnn 97 Figure 90 Setting the to Sender Gauge Hesistance nennen nnns 98 Figure 91 Setting the to Sender GaugeHesistance nennen nennen nnn nnns 99 Figure 92 IINFFEOO Conriguratiobi SCEE EE 100 Figure 93 RIM100 Advanced Configuration Gcreen 100 Figure 94 RIM100 NMEA 2000 PGN Enable Disable Screen 101 Page x Hevision 1 4 2 Maretron Figure 95 RIM100 Channel Configuration Screen cccccccceccsecceeceeeceeeceeseeeaeeceeeseeeseeeseeeseeeaees 102 Figure 96 SIM100 Configuration Gcreen cece eeseeeseeceeesseeseeeseessueeeeseeesaees 103 Figure 97 SIM100 Advanced Configuration Gcreen 103 Figure 98 SIM100 NMEA 2000 PGN Enable Disable Screen 104 Figure 99 SIM100 Channel Configuration Gcreen nnne 105 Figure 100 SSC200 Configuration Screen nennen nennen nnns nnns 106 Figure 101 SSC200 Advanced Configuration Gcreen nennen nenne 106 Figure 102 SSC200 NMEA 0183 Settings Gcreen E 107 Figure 103 SSC200 NMEA 0183 Sentence Rate Selection Gcreen 108 Figure 104 SSC200 Load Default Periodic Rate Gelechon 108 Figur
147. lert Clear Delay If the switch being monitored is in a state other than Off for the amount of time specified in this field the alert will become inactive 8 3 7 6 Trigger Type is Error Alert When monitoring circuit breakers the error alert can be used to raise an alert when the circuit breaker trips due to over current As with the On and Off alerts the Set Delay and Clear Delay values are used to prevent spurious triggering 8 3 7 6 1 Trigger Configuration Alert Detail Instance 0 PIH DC CKTS Channel 1 Lobby Description Location Po Trigger Configuration Trigger Type Re trigger Period 11 00 min sec Alert Set Delay 0 01 min sec Alert Clear Delay 0 02 min sec Local Audible Enable Tone Continuous Remote Annunciator s Figure 192 Trigger Configuration Editor Tripped Alert Page 170 Hevision 1 4 2 Maretron Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Delay If the switch being monitored is in the Tripped state for the amount of time specified in this field the alert will become active Alert Clear Delay If the switch being monitored is in a state other than
148. ll be copied from the local DSM250 to the selected remote DSM250 unit After copying favorite screen settings it is necessary to restart the remote unit A screen which can be seen in Figure 56 below will appear indicating that favorite settings have been successfully transferred to the remote DSM250 and that the remote DSM250 must be restarted to complete the operation Press Enter to restart the remote DSM250 unit complete the favorite settings transfer operation and return to the previous menu selection Configuration Device Configuration a Manufacturer Model SNF HW SWZ the target device and continue Press any key to restart Power Figure 56 Favorite t Transfer onini Screen 6 6 6 Copy DST100 calibrations from local display DST100 calibration data is not stored in the DST100 device Rather each DSM250 needs to apply its own set of calibration parameters to the raw data received This operation allows one DSM250 to copy its calibration table to a second DSC250 Page 66 Revision 1 4 2 Maretron Configuration Device Configuration NA Manufacturer Model Ob HWe SW T Maretron DSMZ30 9179 10 13 0 Advanced Configuration Copy alarms settings from local display Copy device selection from local display Copy display settings from local display Copy favorite settings from local display Copy wed Bled calibrations from local display scroll p Down 6 6 7 Copy all settings from l
149. longer than the time in this field in order for the alert to become inactive The value is entered as minutes seconds If only one number is entered it will be interpreted as seconds 8 3 7 2 Trigger Type is Low Alert A low alert is used to signal you when a parameter value falls below a threshold you determine For example you can set an alert to occur whenever the port engine oil pressure rises falls below 40 PSI 8 3 7 2 1 Parameters A low alert and associated diagram are shown in the figure below Revision 1 4 2 Page 165 DSM250 User s Manual Low Alert Parameters cos Inactive ENNNNN Active mmm Accepted Clear Delay Clear Point Low Alert transitions to the Inactive state after Clear Delay seconds Low Alert Y transitions to the i L wa b Input Signal rises above Law Alert ks Cleat Point Set Delay l Input Signal falls below Low Alert Set Pomt d C Do GG be Gi c Figure 187 Low Alert Parameters A low alert is triggered i e becomes an active alert once an input signal has dropped below the Low Alert Set Point and the Set Delay time has elapsed If the Set Delay is set to zero then the alert is immediately triggered once the input signal drops below the Low Alert Set Point The Set Delay is used to reduce false or spurious alerts As an example setting the Set Delay to 5 seconds will eliminate any temporary transitions of the input signal above the Low Alert Set Point lasting less
150. low alert except that there are no set or reset points The mere fact that the switch is seen as Off causes the alert to become an active alert assuming the Set Delay is set to zero Likewise if the switch being monitored is seen as On then the alert becomes inactive assuming the Clear Delay is set to zero If the delays are not programmed to zero then the switch must remain Off for the Set Delay before the alert becomes active and must remain On for the Clear Delay before the alert becomes inactive 8 3 7 5 1 Trigger Configuration Revision 1 4 2 Page 169 DSM250 User s Manual Alert Detail Instance 0 PIH DC CKTS Channel 1 Lobby Description Location Do Trigger Configuration Trigger Type Re triqger Period 11 00 min sec Alert Set Delay 0 01 min sec Alert Clear Delay 0 02 min sec Local Audible Enable Tone Continuous Remote Annunciator s Figure 191 Trigger Configuration Data Unavailable Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Delay If the switch being monitored is in the Off state for the amount of time specified in this field the alert will become active A
151. lt Sentence Rate Selection The Load Default Sentence Rate Selection option will reset the NMEA 0183 sentence enable disable status along with transmission intervals and variation time to their factory default settings Confiquration Device Configuration NA Manufacturer Model SH HWe SWe 49 Maretron SSC 200 112024 20 20 11 Advanced Configuration NMEAO0183 Settings sentence Rate Selection Load Default Sentence Rate Selection Scroll Scroll Power Up Down Figure 104 SSC200 Load Default Periodic Rate Selection Page 108 Revision 1 4 2 Maretron 6 14 1 4 NMEA2000 PGN Enable Disable The SSC200 compass transmits several different messages which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration HA Manufacturer Model SNz HWe SW 49 Maretron SC mu 20 201 Advanced Configuration NMEA2000 PGN Enable Disa ble X MMI CALL Magnetic Variation Scroll Scroll Up Down Figure 105 SSC200 NMEA 2000 PGN Enable Disable Screen You can enable or disable specific transmissions by scrolling or through the different transmitted messages and pressing the Enter key on the message to be configured Select whether you want the message to be transmitted On or disabled Off using the Scroll Up or Scroll Down
152. n 1 4 2 Maretron Disabled All alerts are disabled This mode should be used when the vessel is in storage dry dock or otherwise out of operation Moored This mode is used when the vessel is secured to a structure that is permanently attached to the ground like a pier wharf dock or mooring buoy Underway This mode is used when the vessel is not moored nor anchored Anchored This mode is used when the vessel is secured to the sea floor with an anchor Revision 1 4 2 Page 21 DSM250 User s Manual 4 3 5 Alert States Alerts exist in one of five states Disabled A Disabled Alert is an alarm or warning that has yet to be enabled or activated In this state no action will be taken regardless of the value of the monitored parameter A Disabled Alert May be enabled in which case it transitions to the Inactive state Inactive An Inactive alert is an alarm or warning that has been enabled but the condition causing the alert is not present If the alert condition becomes true the alert will become an Active Alert An Inactive alert may be disabled which causes it to transition to the Disabled state New alerts are created in the Inactive State Active An Active alert is an alarm or warning where the condition to trigger the alert has been met and is still present and the operator has not accepted the alert An active alert is indicated by a flashing indicator on the Alert Status Screen and by a flashing colored box at the t
153. n GPS Antenna Receiver GPS100 You can change this setting by pressing the Enter key with the SBAS WAAS EGNOS MSAS menu item selected which causes the screen shown in Figure 73 to be displayed Confiquration Device Configuration HA Manufacturer Model SH HW SW 21 Maretron GPSTO 211 d 20 1 Advanced Configuration Cold start GPS Engine GPS Mode Auto Label GPS211 JP15 SHIELD SBAS WAAS EGNOS MSAS Power TE Scroll Up Down Figure 73 Configuring SBAS on a GPS100 The allowable option for SBAS configuration are either Disable which causes the GPS100 not to use SBAS satellites or Enable which causes the GPS100 to use SBAS satellites for developing a position fix Page 84 Revision 1 4 2 Maretron 6 10 Maretron J2K100 Configuration This describes the configuration of the Maretron J2K100 firmware version 1 0 7 The DSM250 is capable of configuring settings for the J1939 to NMEA 2000 Gateway J2K100 A screenshot of the J2K100 configuration menu is shown in Figure 74 below Confiquration Device Configuration H Manufacturer Model SH HW SW 10 7 AO Maretron JK 1240004 10 Device Label J2K 02 Engine Instance 4 J1939 Source Address 0 Refresh J1939 source address list Transmission Instance ei J SA None Figure 74 J2K100 Configuration Screen 6 10 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and shoul
154. n favorite screens mode can be seen in Figure 9 below Engine 0 Water Temp Engine a Speed Figure 9 DSM250 Running in Favorite Screens Mode The very bottom left hand corner of the screen shows two important parameters 1 it indicates which favorite screen is being displayed in this case Favorite 5 and 2 it indicates that the DSM250 is currently operating in the Manual mode Auto would appear in place of Manual if the DSM250 was operating in Auto mode 5 2 Menu Mode The menu mode is entered while viewing favorite screens by pressing the Enter key 9 Page 24 Hevision 1 4 2 Maretron In menu mode the DSM250 may be configured by scrolling up and down the menu and selecting one of the submenus found there The DSM250 Main Menu can be seen in Figure 10 below Favorite Screens Mode Manual Favorite Screens Setup Units Figure 10 Main Menu The menu has the following structure Alert Setup 5 2 1 Add New Alert 8 2 Delete Alert 8 4 Edit Alert 8 5 Operating Mode 8 6 Advanced Configuration 8 7 Restore Factory Defaults 8 8 Alert Status 5 2 2 Configuration Device Configuration 5 2 3 1 Device Selection 5 2 3 2 Display Settings Advanced Configuration 5 2 4 1 Advanced Information 5 2 4 2 Backlight 5 2 4 3 Color Setup 5 2 4 4 Demo Mode 5 2 4 5 Keypad Beep 5 2 4 6 Label 5 2 4 7 Language 5 2 4 8 sof
155. n of the Maretron ACM100 firmware version 1 0 5 Configuration Device Configuration NA Manufacturer Model Sg HW SW 10 5 T Maretron ALM TO 1600 1 10 Instance 0 Label Bridge Test Annunciator Figure 41 ALM100 Configuration Screen 6 3 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SH HWE SW T Maretron ALM TUO H6004 1 10 10 5 Advanced Configuration Device Instance TS Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 42 ALM100 Advanced Configuration Screen 6 3 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network 6 3 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was Page 52 Revision 1 4 2 Maretron installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a
156. nced Configuration 5 2 4 1 1 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 5 2 4 1 2 Primary Device Selection Not all the data displayed by the DSM250 can be taken directly off the NMEA 2000 bus Some require calculations with other parameters before the desired value can be displayed An example Page 28 Hevision 1 4 2 Maretron would be the display of ground relative wind In this case the wind measured by the weather station needs to be combined with the vessel heading course over ground and speed over ground The instance number of the weather station is specified for each control This table provides the instance numbers of the other parameters used in the calculations Display Settings Advanced Configuration Primary Device Selection CT Any GPS Any Heading Any Inside Humidity Any Inside Temp Any Navigation Any Outside Humidity Any Outside Temp Any Speed Through Water Any Time Any Figure 15 DSM250 Primary Device Selection 5 2 4 1 3 Refresh Network Information The Device Configuration 5 2 3 1 and Device Selection 5 2 3 2 menus display
157. ne The Disp column indicates whether data from that particular device is accepted for display by the remote DSM250 On or that the remote DSM250 ignores data transmitted by this device Off By scrolling to the device and pressing the Enter key you may then use the Scroll Up B and Scroll Down B keys to toggle the Display status for this particular device Once you are satisfied with the state of the Display setting press the Enter key to accept the setting The remote DSM250 will retain information on devices that have been removed from the bus or powered down Offline so that when they are placed back on the bus they will assume their prior Display setting 6 6 2 Copy alarms settings from local display It is possible to copy the alarm settings from a DSM250 unit to a remotely located DSM250 This should be done with care because if more than one Alert Source is monitoring the same parameter then multiple alerts will be generated when the parameter goes out of bounds and each one will need to be independently accepted or cancelled Any alarms existing on the remote DSM250 will be deleted Figure 53 below shows this menu item highlighted Confiquration Device Configuration NA Manufacturer Model SH HW SWe T Maretron DSMZ 39179 10 13 0 Advanced Configuration Copy alarms settings from local display opy device selection from local display Copy display settings from loc
158. nge and store the new tank capacity value within the TLA100 or Press the Cancel Key 9 to cancel the change and leave the old tank capacity programmed into the TLA100 Configuration Device Configuration HA Manufacturer Model SNY n e Changing tank capacity will affect Ta tank level readings Are you sure Accept Figure 121 Tank Capacity Change Confirmation Screen 6 15 4 Tank Levels Calibration In order for the TLA100 to indicate an accurate tank level it must know how the resistance of the resistive tank level sender corresponds to the level of fluid in the tank There are three methods of calibrating the tank level sender Revision 1 4 2 Page 119 DSM250 User s Manual e Custom Calibration use for non rectangular tanks or non standard sensors also most accurate in any case but requires more effort e Set to American Standard 240 33 ohm use for rectangular tanks using a tank level sender with the standard American resistance range 240 ohms at full 33 ohms at empty e Set to European Standard 0 180 ohm use for rectangular tanks using a tank level sender with the standard European resistance range 0 ohms at full 180 ohms at empty 6 15 4 1 Custom Calibration The Custom Calibration setting will provide the most accurate tank level readings under any circumstances but it requires that you go through a process in which you gradually fill the tank stopping periodically to input the current
159. ngine Room Temperature Exhaust Gas Temperature Freezer Temperature Heating System Temperature Inside Temperature Live Well Temperature Main Cabin Temperature Outside Temperature Refrigeration Temperature Sea Temperature User Defined Temperature 129 4 144 Use this when none of the above options are suitable Use the Scroll Up and Scroll Down buttons to select the correct source and the press the Enter button to store it 6 19 2 3 Label A label may be assigned to each channel of the TMP100 as an aid to identifying the temperature that is being displayed Typically this label will describe the function or location of the temperature sensor 6 19 3 Device Label A label may be assigned to the TMP100 as an aid to identifying the device over the network Typically this label will describe the location of the TMP100 Page 138 Revision 1 4 2 Maretron 6 20 Maretron USB100 Configuration Maretron USB100 gateways on the network may be configured using the DSM250 This describes the configuration of the Maretron USB100 firmware version 1 8 2 The USB100 configuration menu is shown in Figure 152 below There is one configurable item for the USB100 and that is Remote Device Selection Confiquration Device Configuration NA Manufacturer Model SHN HW SW 956 Maretron USB 100 1190544 10 18 2 Advanced Configuration Power Scroll Scroll Up Down Figure 152 USB100 Configuration Screen 6 20 1 Advanced Configu
160. ngles Calibration Three seperate calibration points are used to calibrate Rudder Angles Calibration Completed Successfully Press any key to continue 4 P revert to old calibration data Power Abort Increase Decrease Accept Figure 87 Custom Rudder Calibration Confirmation Screen 6 11 3 2 Set to American Standard 240 33 ohm Use the option for rudders using a rudder angle sender with the standard American resistance range 240 ohms at full port 45 33 ohms at full starboard 45 6 11 3 3 Set to European Standard 0 180 ohm Use this option for rudders using a rudder angle sender with the standard European resistance range 0 ohms at full port 45 180 ohms at full starboard 45 6 11 4 Rudder Number First the rudder number must be configured For a vessel with a single rudder the number should be set to 0 For a vessel with two rudders the port rudder should be set to 0 and the starboard rudder should be set to 1 Each rudder must have a rudder number that is different from all other rudders A screenshot of rudder number configuration is shown in Figure 88 below In order to configure the rudder number use the Scroll Up or Scroll Down keys to move the highlighted cursor to Rudder Number then press the Enter key to move the cursor over to the rudder number value Use the Scroll Up or Scroll Down keys to select the desired rudder number Finally
161. nnne 119 Figure 122 Performing Custom Calibration of the Tank Level Adapter 120 Figure 123 Tank Levels Calibration Capacity Estimation cccccccccceccseceeeeceeeeeeeseeseeeaeeeeeeeaes 121 Figure 124 Empty Level Calibration BEE 121 Figure 125 Intermediate Level Calibration ccc cecccccccccceccceeeceeeeeeeeeeeeeeseeeseeeseeeseessuesseeseeseegees 122 Figure 126 Full Level Calibration cccccccccccceccaecceeeceeeceeeceeeeeeeseeceeeseeeceeesaeeseeeeessueseeeseeessaeeaes 122 Figure 127 Custom Tank Level Calibration Confirmation Screen ccccceeccseeeeeeeeeseeaeeesaeeenaees 123 Figure 128 American Standard Sender Calbraton 123 Figure 129 European Standard Sender Calibration cccccccccccecceecceeeceeeaeeeeeeeeeeceeeseeeseeeseeeaess 124 Figure 130 Configuring the Tank Number 124 Figure 131 Configuring the Tank Tvpe 125 Figure 132 Configuring the Operating Mode nnnannannennennennnnnnnnnnnnnnrrnrnrrnnrnnrnnrnnrnrrnrrnrrnrrnrnnenne 126 Figure 133 Configuring the to Sender GaugeHesistonce 126 Figure 134 Configuring the to Sender Gauge Resistance cece cccceccceeeeeeeeeeceeeceeeseeaeeeaeeeaees 127 Figure 135 TLM100 Configuration Gcreen nennen nnne nnns 128 Figure 136 TLM100 Advanced Configuration Screen ccccccccccsecceeeceeeceeeeeeeaeeceeeseeeseeeaeesseeeaees 128 Figure 137
162. nsmission Parameters Dynamic Gen Avg Basic AC Quantities Scroll Scroll Up Down Figure 77 J2K100 NMEA 2000 PGN Enable Disable Screen Power You can enable or disable specific transmissions by scrolling B or B through the different transmitted messages and pressing the Enter key on the message to be configured Select whether you want the message to be transmitted On or disabled Off using the Scroll Up or Scroll Down keys followed by the Enter key 6 10 1 5 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 10 2 Device Label A label may be assigned to the J2K 100 as an aid to identifying the device over the network oee section 3 3 4 for details on how to enter a textual value 6 10 3 Engine Instance This entry allows the engine to be mapped to an NMEA2000 instance number Each engine on an NMEA 2000 network must have a unique instance identifier to allow display devices to distinguish it from other engines on the network The NMEA2000 Engine Instance menu item allows you to configure the engine instance identifier which will be sent over the NMEA 2000 network along with engine related NMEA 2000 messages In order to configure this parameters use the Scroll Up or Scroll Down B keys to move the highlighted cursor to the NMEA2000 Engine Instance menu item Then press the Enter key to move the highlight to the
163. nt tank level 0 0 Gal 2 Press lt Accept gt to set calibration point 3 Press Complete once tank is full to set final calibration point Current Point Bl 2 3 41 5 67 8 993 111 3 H b HK Power Complete Increase Decrease Accept Figure 142 Empty Level Calibration Each time you press Accept during this process and after the Current Point highlight advances put more fluid into the tank and note the total volume of fluid pumped into the tank at this point Use the Increase and Decrease keys to set the current tank level to the appropriate value and then press the Accept key to store the current calibration point and advance to the next calibration point Figure 143 shows a screenshot of these intermediate calibration points Tank Levels Calibration Only two settings empty and full are required to calibrate rectangular tanks Up to calibration points can be used for irregular shaped tanks 1 Use arrow keys to select current tank level 8 2 Gal 2 Press Accept to set calibration point 3 Press Complete once tank is full to set final calibration point Curent Point 16 3 4 5 6 7 8 990 1112 3 H 5 Power Complete Increase Decrease Accept Figure 143 Intermediate Level Calibration Page 132 Revision 1 4 2 Maretron Once the tank is completely full instead of pressing the Accept key to store the current calibration point press the Complete key This will complete the c
164. nt time and position Sunrise displays the local time of sunrise for the current day and position Sunset displays the local time of sunset for the current day and position Local Time displays the current time referenced to the local time offset see Section 5 2 7 12 on page 42 for details on how to set the local time offset Time UTC displays the current time referenced to Universal Time Coordinated also Known as Greenwich Mean Time or GMT Twilight AM displays the time of nautical twilight e the time of day when the sun is 12 degrees below the horizon in the morning for the current day and position Twilight PM displays the time of nautical twilight i e the time of day when the sun is 12 degrees below the horizon in the evening for the current day and position 4 2 20 Transmission The DSM250 supports the display of information for up to four transmissions Gear displays the current gear of the transmission forward neutral or reverse Oil Pressure displays the pressure of the oil in the transmission Oil Temp displays the temperature of the oil in the transmission 4 2 21 Vessel Keel displays the height of a swing keel Pitch displays the pitch of the vessel rotation about the horizontal axis perpendicular to the ship s keel Roll displays the roll of the vessel rotation about the horizontal axis parallel to the ship s keel Page 18 Hevision 1 4 2 Maretron Trim Tabs displays the po
165. ntry Normally the SSC200 is mounted so that the label on the compass is facing up and the NMEA 2000 and NMEA 0183 connectors are facing towards the bow of the vessel A recent version of SSC200 firmware supports mounting the compass upside down for instance to a ceiling or backwards with connectors facing towards the stern of the vessel so that the SSC200 can be mounted to the aft side of a bulkhead If either of these mounting options is used the DSM250 can be used to inform the SSC200 of this fact so that it can adjust heading rate or turn pitch and roll readings to be corrected accordingly Confiquration Device Configuration NA Manufacturer Model SNF HWe SW 49 Maretron SSC 200 T1021 20 20 11 Advanced Configuration Installation Offset Calibration Invert Installation CTT Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period 2 05 Rate of Turn Zero Offset Calibration Variation Source NMEA0183 or NMEA2000 Scroll Scroll Power Up Down Figure 107 Setting the Installation Orientation Page 110 Revision 1 4 2 Maretron The choices that are offered are Normal Installation default Backward Installation Upside Down Installation or Upside Down and Backward 6 14 4 Label This menu item allows you to set a text label for the device This text label will help you to identify a particular device when you have more than one o
166. numeric value on the right as shown in below Because only one such mapping can take place each engine on the J1939 network must have its own J2K100 Gateway The J1939 Source Address see section 6 10 4 identifies the engine on the 41939 network the Engine Instance indentifies the engine to the NMEA2000 network Revision 1 4 2 Page 87 DSM250 User s Manual Configuration Device Configuration HA Manufacturer Model SH HWe SW BE Maretron JZK 00 140190 10 10 7 Advanced Configuration Device Label J2K 01 Engine Instance 7 41939 Source Address 0 Refresh 41939 source address list Transmission Instance 1 JEI SA None Scroll ii Power Up Use the Scroll Up and Scroll Down keys to change the value to the desired value you wish to use as the engine instance identifier and then press the Enter key to accept the value and store it within the J2K100 6 10 4 J1939 Source Address Configuration A J1939 engine genset and transmission has its own source address on the J1939 network which is different from NMEA 2000 addresses The J2K100 is capable of serving as a gateway between a single J1939 engine genset or a single transmission and the NMEA 2000 network This setting identifies the J1939 source address of the engine genset and a transmission for which the J2K 100 will serve as a gateway Confiquration Device Configuration NA Manufacturer Model SNF HWe Swe BE Maretron IAW P01 10 10 7 Advanced Configuration
167. ocal display This is the single operation that makes it easy to have multiple DSM250 displays on a boat oet one DSM250 up so that all its settings are correct and quickly transfer all the alarms device settings and display setting to another DSM250 Then go in and update the following information to customize the new device e Display Settings gt Advanced Configuration gt Installation Descriptions e Display Settings gt Label Also use this function to copy settings from an old DSM250 to a new DSM250 when replacing the device Configuration Device Configuration NA Manufacturer Model SH HW Swe T Maretron DSM250 T3001 0 10 132 0 Advanced Configuration Copy alarms settings from local display Copy device selection from local display Copy display settings from local display Copy favorite settings from local display Copy DST100 calibrations from local display Copy all settings trom local display Label Test Remote Device Selection Power d Scroll Down 6 6 8 Label The Label of the DSM250 is used by the Alert System to identify the source of an alert Here the label can be changed using the method described in section 3 3 4 Revision 1 4 2 Page 67 DSM250 User s Manual Configuration Device Configuration HA Manufacturer Model T Maretron SN HW SW DSM250 DR 10 13 0 Advanced Configuration Copy alarms settings from local display Copy device selection from local display Cop
168. og zeroes the DST100 s trip log such that all displays receive a zeroed value i e you don t have to perform the operation from other D5M200 DSM250 locations Confiquration Device Configuration NA Manufacturer Model SNe HWe SW 0E Maretron DST O D 50895 DAS Sty X09 Advanced Configuration Clear Speed Calibration 1 000 speed Calibration Transducer Depth Offset 0 8 ft Trip Log 0 0 nm GET Cancel Accept Figure 61 Resetting the DST100 Trip Distance Log Page 72 Hevision 1 4 2 Maretron 6 8 Maretron EMS100 Configuration This describes the configuration of the Maretron EMS100 firmware version 1 2 The EMS100 is configured to match the engine to which it is connected The EMS100 Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SHE He SW C1 Maretron EMSTO Ga 20 L me Engine Instance dei sauge Type No Gauge Drive Trim Sender Type YANMAR Drive Trim Sender Offset 0 Boost Pres Gauge Type No Gauge Boost Pres Sender Type YANMAR Boost Pres Sender Offset 0 Oil Pres Gauge Type No Gauge Oil Pres Sender Type YANMAR Confiquration Device Confiquration NA Manufacturer Model SNe HWe SWE C1 Maretron EMS 100 1220251 20 L Oil Pres Sender Type
169. ollowing data items may be displayed on the rolling road display e COG Course Over Ground Revision 1 4 2 Page 153 DSM250 User s Manual SOG Speed Over Ground BTW Bearing to Waypoint DTW Distance to Waypoint VMG Velocity Made Good ETA Estimated Time of Arrival TTG Time to Go XTE Cross Track Error Set Drift BOD Bearing Origin to Destination HDG Heading Figure 174 below shows a rolling road display The navigation parameters that have been selected are COG SOG ETA and TTG On the navigation highway itself the waypoint name if available is displayed on the upper left and the waypoint number if available is displayed on the upper right The dashed vertical line along the center of the highway represents the current leg of the route The distance of the boat to the left or the right of the line represents the XTE Cross Track Error The angle of the boat relative to the vertical line represents the difference between the boats COG Course Over Ground and the BTW Bearing to Waypoint The scale of the XTE display can be selected by setting a value for the XTE alarm See Section 5 2 1 Alert Setup Menu on page 26 for details COG 320 1 T ETA 09 52 54 SOG 85kts TTG 00 06 02 Waypoint abc2 Figure 174 Rolling Road Display 7 7 Line Graph The line graph display shows the value of a parameter displayed on the horizontal axis versus time on the vertical axis Figure 175 below sho
170. olution is above the value of this parameter then the GPS100 will report that no fix is obtained Disabling the PDOP Mask by setting Page 80 Revision 1 4 2 Maretron the value to will cause the GPS100 to report any position fixes obtained regardless of the accuracy of the fix 6 9 1 5 SNR Mask The DSM250 is capable of setting the SNR Signal to Noise Ratio Mask on a GPS100 You choose this setting by pressing the Enter key with the GPS SNR Mask menu item selected which results in the screen shown in Figure 68 Confiquration Device Configuration NA Manufacturer Model SNF HWe SW 21 Maretron GPS Ww AN 21 20 1 Advanced Configuration Device Instance 211 GPS Antenna Altitude 0 00 m GPS Elevation Mask 7 5 GPS PDOP Mask Disable GPS SNR Mask Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Cancel Increase Decrease Accept Figure 68 Configuring SNR Mask on a GPS100 The allowable values for the SNR Mask are between 1 dB and 60 dB This number represents the signal to noise ratio of a satellite s signal as received by the GPS100 Higher numbers indicate a better quality signal The GPS will exclude satellites with signal to noise ratios lower than the value of this parameter from the position solution 6 9 1 6 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like he
171. on Color Display DSM250 allows configuration of other DSM250s on network Maretron Depth Speed Temp Transducer DST100 set transducer offset zero trip distance log Maretron Engine Monitoring System EMS100 set the gauge types for Boost Pressure Drive Trim Oil Pressure and Water Temperature Preset the Engine Hours Maretron GPS Antenna Receiver GPS100 enable and disable WAAS functionality set the GPS mode program the elevation PDOP and SNR masks set the antenna altitude force a cold start enable disable individual PGN transmission and reset the unit back to its factory defaults Maretron J1939 to NMEA 2000 Gateway J2K100 set J1939 node address set NMEA 2000 engine transmission instance enable pass through of J1939 diagnostic messages and enable disable individual NMEA 2000 PGN transmissions Maretron Rudder Angle Adapter RAA100 Set rudder number operating mode and calibrate rudder position Maretron Run Indicator Monitor RIM100 Set Data Instance for the device and labels for the device and each channel Maretron Switch Indicator Monitor SIM100 Set Data Instance for the device and labels for the device and each channel Set each channel mode Maretron Solid Sate Compass SSC200 set installation offset perform magnetic deviation calibration check magnetic deviation calibration status invert installation configure magnetic variation settings setup NMEAO0183 interface program rate of
172. on is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SH HW SW I3 Maretron TLM TO Ar Ei 10 114 Advanced Configuration Device Instance D Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 136 TLM100 Advanced Configuration Screen 6 16 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of O unless you have multiple units on the network 6 16 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was Page 128 Revision 1 4 2 Maretron installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later 6 16 1 3 NMEA2000 PGN Enable Disable The TLM100 Tank Level Module transmits the NMEA2000 PGN 127505 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration NA Manufacturer Model SHE HWE SW 73 Maretron TLD 229 51 10 114 Advanced Configuration NMEA2000 PGN Enable Disable CE On Figure 137
173. onfiguration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Confiquration Device Configuration NA Manufacturer Model SN HW SW 8A Maretron WSOE 170471 20 207 Advanced Configuration Device Instance Ed Instance Humidity 0 Instance Pressure Si Instance Temperature 0 Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Scroll Down Figure 156 WSO100 Advanced Configuration Screen Power 6 21 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network Device instance is always used in the Wind PGNs Page 142 Revision 1 4 2 Maretron 6 21 1 2 Instance Humidity This entry allows you to program the NMEA 2000 device instance for the humidity transmitted in PGN 130313 You usually will not need to modify the default value of O unless you have multiple humidity sensors on the network 6 21 1 3 Instance Pressure This entry allows you to program the NMEA 2000 device instance for the air pressure transmitted in PGN 130314 You usually will not need to modify the default value of 0 unless you have multiple pressure sensors on the network
174. op right of the DSM250 screen This box will be visible on all screens Also annunciators that are programmed to sound when this alert is active will be sounding during this state An active alert can be accepted by the user causing it to become an Accepted Alert or disabled by the user causing it to become a Disabled Alert If the condition causing the alert is rectified the alert transitions to the Awaiting Cancel state Accepted An Accepted alert is an alarm or warning which was Active and has been accepted by the user A solid indicator on the Alert Status Screen indicates an Accepted alert annunciators are silenced Normally an alert is a serious matter that requires immediate attention and requires a deliberate attempt to remove the condition that caused the alert Sometimes it isn t practical to immediately remove the condition that caused the alert accepting the alert will silence the annunciators while the appropriate user action is being taken To prevent an alert that has accepted by the user from being forgotten an accepted alert will transition back to being Active after a period of time set by the user If the condition causing the alert is rectified cleared the alert will transition to the Inactive state You may disable the alert at this time causing it to become a Disabled Alert Awaiting Cancel An Alert in the Awaiting Cancel state is an alert where the condition that caused the alarm or warning has been removed without
175. pable of displaying rate of turn information from a Maretron SSC200 compass Although the compass provides very accurate rate of turn information it can drift off of zero even though the vessel is not turning Fortunately the SSC200 can learn the zero offset for different conditions found on the vessel You teach the compass these Zero offset values by pressing the Enter key with the Rate of Turn Zero Offset Calibration menu item selected which causes the DSM250 to display the screen shown in Figure 112 The Rate of Turn Offset Calibration should be done before the Deviation Calibration section 6 14 5 Rate of Turn Zero Offset Cal 11 The vessel must remain absolutely still during calibration no pitch or roll or turning Current Rate of Turn 2 min 2 Press Begin to start calibration Figure 1 12 SSC200 Rate of Turn Zero Offset Calibration Screen 6 14 9 Variation Source Entry The SSC200 being a magnetic compass transmits heading information referenced to the magnetic north pole magnetic heading The SSC200 is capable of transmitting heading information referenced to the earth s geographic North Pole true heading In order to produce true heading Revision 1 4 2 Page 113 DSM250 User s Manual information regarding the magnetic variation at the current location is required Please see the SSC20
176. perate within the harsh demands of the marine environment However no piece of marine electronic equipment can function properly unless installed configured and maintained in the correct manner Please read carefully and follow these instructions for installation configuration and usage of the Maretron DSM250 in order to ensure optimal performance 1 2 Firmware Revision This manual corresponds to DSM250 firmware revision 1 4 2 1 9 DSM250 Features The Maretron DSM250 has the following features e NMEA 2000 Interface Waterproof NMEA 2000 Connector Sealed Waterproof Enclosure Powered Directly from NMEA 2000 Port eurface Flush or Gimbal Mounting Adjustable Multi colored Backlighting of Screen and Keys Preserves Night Vision Visual and Audible Alarms 16 User Configurable Favorite Screens Automatic or Manual Scrolling between Screens Capable of Viewing Virtually all NMEA 2000 Information including Batteries Engines Generators Shore Power Tanks Navigation Weather and More 1 4 Quick Install Installing the Maretron DSM250 display involves the following four steps Please refer to the individual sections for additional details e Unpack the Box Section 2 1 e Choose a Mounting Location Section 2 2 e Mount the DSM250 Section 2 3 e Connect the DSM250 Section 2 4 Revision 1 4 2 Page 1 DSM250 User s Manual 2 Installation 2 1 Unpacking the Box When unpacking the box containing the Maretron DSM250 you
177. played is a two step process First press the Enter key and select the category of data to be displayed Favorite Screens Setup Favorite 1 Favorite Mode Auto Manual Format Full Window Auto Change Interval 5 Seconds Window 1 Data MATI Dir Apparent Type Numeric Power Figure 29 Selecting the Data Category Once you select the category press the Enter key to accept this category at which time the highlight will move to the data type field where you can display the particular data type from the selected category to be displayed as shown in Figure 30 Favorite Screens Setup Favorite 1 Favorite Mode Auto Manual Format Full Window Auto Change Interval 5 Seconds Window 1 Data Wind II TIET Type Numeric Power Figure 30 Selecting the Data to be displayed 5 2 6 4 1 Type Once you have selected the particular data item to be displayed you may select the type of data display to be used for that data item The available display types vary depending upon the selected Page 38 Hevision 1 4 2 Maretron data item but may include any of the following see Section 7 for descriptions of the available display types Anchor Watch See Section 7 1 on page 149 Compass Rose see Section 7 2 on page 149 Gauge see Section 7 3 on page 150 GPS Status see Section 7 4 on page 152 Numeric see Section 7 5 on page 152 Rolling Road se
178. r you must select the correct type of drive trim sender for this setting in order for the data to be displayed correctly Valid options are e Disabled select this option if there is no drive trim sender present e YANMAR Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key Page 74 Revision 1 4 2 Maretron 6 8 7 Drive Trim Sender Offset Often the characteristics of individual drive trim senders vary from their specified values This setting allows you to apply an offset to the resistance value of the drive trim sender in order to allow you to bring the digital value reported by the EMS100 into agreement with that displayed by the analog gauge Valid options are e 100 100 select the required option using the Increase and Decrease keys followed by the Enter key 6 8 8 Oil Pressure Gauge Type The EMS100 comes from the factory preprogrammed with the characteristics of oil pressure gauge types for supported engines If the EMS100 is used with an analog oil pressure gauge you must select the correct type of gauge for this setting in order for the data to be displayed correctly Valid options are e No Gauge select this option if there is no oil pressure gauge present e YANMAR e YANMAR VDO Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 8 9 Oil Pressure Sender Type The EMS100 comes from the factory preprogrammed with the char
179. r mounting holes all the way through the mounting surface at the locations indicated on the Surface Mount Template a Use a 3 10 drill bit 3 Drill or cut a single hole for the electrical connector a Usea 2 hole saw b You will probably want this hole to be large enough for your fingers so that you can connect or disconnect the cable without removing the DSM250 4 Remove the template from the mounting surface 5 Insert the 2 studs into the back of the DSM250 Page 2 Revision 1 4 2 Maretron a Make sure the studs are fully inserted into the back of the DSM250 but don t over tighten the studs 6 Insert the studs protruding from the back of the DSM250 through the mounting holes and secure with the provided hardware a Place the flat washer on the stud first followed by the lock washer followed by the knurled nut b Hand tighten the knurled nut Figure 1 Surface Mounting the DSM250 2 3 2 Flush Mounting the DSM250 The DSM250 can be flush mounted to any suitable surface as shown in Figure 2 The steps for this type of mounting are as follows 1 Attach the Flush Mount Template see Section 13 to the surface where the DSM250 is to be located a Make sure the template is level by using one of the horizontal lines as a guide b Scotch tape works well for securing the template c The maximum thickness of the mounting material should not exceed 174 using the provided mounting studs thicker surfaces can be a
180. r the TLA100 to produce correct level measurements A screenshot showing configuration of the operating mode appears in Figure 132 below To configure the operating mode use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Operating Mode menu item then press the Enter key to move the highlight over the operating mode value Use the Scroll Up or Scroll Down keys to change the operating mode to the desired value and finally press the Entry key to confirm your selection and store the operating mode within the TLA100 Revision 1 4 2 Page 125 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SNe HWe Swe I3 Maretron TLA WO A91 151 10 16 H Advanced Configuration Label Aft Fuel Tank Capacity 1 0 Gallons Tank Levels Calibration Tank Number S Tank Type Fuel Operating Mode MUZETE TEOT Scroll Scroll Power Up Down Figure 132 Configuring the Operating Mode 6 15 8 Gauge Resistance to Sender If the desired operating mode is NMEA 2000 amp Analog Gauge the two gauge resistances must be programmed please refer to the TLA100 User s Manual for details on how to perform these measurements A screenshot of the to sender gauge resistance configuration is shown in Figure 133 below To program the to sender gauge resistance use the Scroll Up B or Scroll Down keys to move the highlighted cursor over the G
181. rameters n T3311 Environmental Parameters On THT Temperature n THOT Humidity n TH Actual Pressure On Figure 157 WSO100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the messages by pressing the Enter key on the message to be configured Options are Revision 1 4 2 Page 143 DSM250 User s Manual Disable The message will not be transmitted Default The message will be transmitted at its default NMEA2000 rate 0 5s 5 0s The message will be transmitted at the interval specified Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key Notice that by default the old Environmental Parameters message PGN 130310 is disabled while the new Environmental Parameters message PGN 130311 is enabled The reason for this is that the old message has been discontinued by the National Marine Electronics Association NMEA in favor of the new message If you find that a particular display is not showing particular information i e temperature humidity or barometric pressure go ahead and enable the old message to see if data then becomes available 6 21 1 7 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 21 2 Device Label Confiquration Device Configuration NA Manufacturer Model SN HWe SW 8 Maretron WSO T00 1000471 20 207 Advanced Configuration Devi
182. ration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Confiquration Device Configuration NA Manufacturer Model SH HW SW 956 Maretron USB 100 TESH 10 18 2 Advanced Configuration Device Instance ei Installation Description Restore Factory Defaults Scroll Scroll Up Down Power Figure 153 USB100 Advanced Configuration Screen 6 20 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of O unless you have multiple units on the network Revision 1 4 2 Page 139 DSM250 User s Manual 6 20 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later 6 20 1 3 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 20 2 Remote Device Selection The Maretron NMEA 2000 to NMEA 0183 gateway USB100 can be configured to select which NMEA 2000 devices are selected for display on the computer attached to the USB in
183. re such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 9 1 7 NMEA 2000 PGN Enable Disable The GPS100 transmits several different messages which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the screen shown in Figure 69 Revision 1 4 2 Page 81 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SNe HW SW 21 Maretron GPSTO 211 21 20 1 Advanced Configuration NMEA2000 PGN Enable Disable System ime Magnetic Variation Speed Position Rapid Update COG and S06 Rapid Update GNSS Position Data GNSS DOPs Scroll Scroll Up Down Figure 69 GPS100 NMEA 2000 PGN Enable Disable Screen 99999929 Power You can enable or disable specific transmissions by scrolling or B through the different transmitted messages and pressing the Enter key on the message to be configured Select whether you want the message to be transmitted On or disabled Off using the Scroll Up or Scroll Down keys followed by the Enter key 6 9 1 8 Restore Factory Defaults The DSM250 is capable of restoring all programmable settings on a Maretron GPS100
184. requency displays frequency of the AC power on phase A of the Generator Phase A L N Voltage displays phase A Line to Neutral RMS voltage of the Generator Phase A L L Voltage displays phase A Line to phase B Line RMS voltage of the Generator Phase B Frequency displays frequency of the AC power on phase B of the generator Phase B L N Voltage displays phase B Line to Neutral RMS voltage of the Generator Phase B L L Voltage displays phase B Line to phase C Line RMS voltage of the Generator Phase C Frequency displays frequency of the AC power on phase C of the generator Phase C L N Voltage displays phase C Line to Neutral RMS voltage of the Generator Phase C L L Voltage displays phase B Line to phase A Line RMS voltage of the Generator 4 2 3 AC Utility Average Current displays average current of the AC power on the utility Average Frequency displays average frequency of the AC power on the utility Average L N Voltage displays average line to neutral RMS voltage of the AC power on the utility Average L L Voltage displays average line to line RMS voltage of the AC power on the utility Total Real Power displays real power output by the utility Total Reactive Power displays reactive power output by the utility Total Apparent Power displays apparent power output by the utility Total Power Factor displays power factor of the utility Total KWH Export displays total energy produced by the utility Total
185. rsor to another field will reformat the contents of this field Get Current Position Selecting this line will transfer the current GPS position into the Latitude and Longitude fields 8 3 7 9 Trigger Type is Anchor Alert The Anchor Alert is a special case of the Outside Radius Alert section 8 3 7 7 It is used to signal an alert whenever the vessel moves outside a programmable distance in any direction away from a reference point expressed as a longitude and latitude This alert is useful when the vessel is anchored or moored and the vessel should not drift outside a perimeter and if it does an alert is activated The point of reference can be selected from the current position or it can be manually entered Hevision 1 4 2 Page 173 DSM250 User s Manual The Outside Radius Alert and the Anchor Alert are very similar The Anchor Alert is designed to allow the input of relatively small radius values and may be displayed graphically through the Anchor Watch Display section 7 1 The radius of the Outside Radius Alert is specified in either Nautical Miles or Kilometers while the radius of the Anchor Alert is specified in Feet or Meters See Section 8 3 7 7 for details of the configuration of the Anchor Alert 8 3 7 10 Trigger Type is GPS Quality Alert The accuracy or quality of a position fix provided by a GPS is dependent on the number of satellites used to compute the position A position based on less than three satellites is cons
186. s US Gallons 5 2 7 11 Time Format This menu item allows you to select whether measurements indicating a time of day are displayed in 12 Hour AM PM format or 24 Hour military format 5 2 7 12 Local Time Offset This menu item allows you to indicate the offset of local time relative to Universal Time Coordinated UTC also known as Greenwich Mean Time or GMT in hours and minutes For instance Eastern Standard Time EST would use an offset value of 5 00 5 2 7 13 Date Format This menu item allows you to select the format of any displayed dates Formats that may be selected are the following MM DD YYYY DD MM YYYY MMM DD YYYY DD MMM YYYY 01 31 2005 31 01 2005 JAN 31 2005 31 JAN 2005 EEN ON Page 42 Revision 1 4 2 Maretron 6 Device Configuration The Device Configuration menu enables you to configure certain types of devices on the NMEA 2000 network Devices that may be configured using the DSM250 include the following Bennett EP 30 Calibrate trim tabs Maretron Alternating Current Monitor ACM100 Set circuit type device type instance number and label Reset the total energy recorded Maretron Annunciator ALM100 Set the Data Instance Number and the Label Test the alarm Maretron Direct Current Monitor DCM100 Set the Battery Type and calibrate the current sensor zero offset Maretron Monochrome Display DSM200 allows configuration of other DSM200s on the network Maretr
187. s 45 Figure 35 EP 30 Intermediate Calibration Gcreen 46 Figure 36 EP 30 Calibration Success Message 46 Figure 37 ACM100 Configuration Sereen nennen nnne nna nna san nenne snas rna nn 47 Figure 38 ACM100 Advanced Configuration Screen seneannannnnnnnsnrnrrernnrrnrnnnnnrnrrnrrnrrnrrrernrrrrnnnne 47 Figure 39 ACM100 NMEA 2000 PGN Enable Disable Screen 49 Figure 40 Reset Total Energy Recorded Confirmation Gcreen 51 Figure 41 ALM100 Configuration Gcreen nennen nnn nnne nnne nnne sns ananas nn 52 Figure 42 ALM100 Advanced Configuration Gcreen 52 Figure 43 ALM100 NMEA 2000 PGN Enable Disable Screen e 53 Figure 44 DCM100 Configuration Gcreen eee nnne nnne nennen n 55 Figure 45 DCM100 Advanced Configuration Screen cccccceccceceseeeeeeeeeeceeeceeeseeeseeeseeeeeeeeeeseeeaes 55 Figure 46 DCM100 NMEA 2000 PGN Enable Disable Screen 56 Revision 1 4 2 Page vi DSM250 User s Manual Figure 47 Current Sensor Zero Offset Calibration Confirmation Gcreen 57 Figure 48 Current Sensor Zero Offset Calibration Complete Gcreen of Figure 49 DSM200 Remote Configuration Gcreen cc cecccccceecceccceeeeeeceeeceeeseeeseeeseeseeeeaeeseeeseeaes 61 Figure 50 DSM200 Remote Device Selection Screen cccceccceccs eee eeceece cece eeseeeeeeeeeeeeeeeeeeseeeaes 61 Figure 51 DSM250 Remote Configuration Gcreen nennen nennen nnns 63 Figure 52 DSM250 Remote Device
188. s Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 2 1 7 NMEA2000 PGN Enable Disable The ACM100 Alternating Current transmits a number of the NMEA2000 PGNs which can be turned on or turned off by the DSM250 display For reasons of compatibility with older NMEA2000 devices some of these PGNs are redundant disabling these PGNs will reduce the amount of traffic on the NMEA2000 bus Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following Configuration Device Configuration NA Manufacturer Model SH HWE SW B1 Maretron ACH WO TNH 10 10 6b Advanced Configuration NMEA2000 PGN Enable Disable 65006 il Phase C AC Reactive Power il Phase C AC Power il Phase C AC Basic Quantiti il Phase B AC Reactive Power il Phase B AC Power il Phase B AC Basic Quantiti il Phase A AC Reactive Power 599252828 Figure 39 ACM100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of a PGN message or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are e Off The PGN will not be transmitted e On The PGN will be transmitted at its default NMEA2000 rate e 0 5s 5s The PGN will be transmitted at the interval specified Select the required option using the Scroll Up and Scroll Do
189. s for digital displays its probably a good indication that variation isn t available on the network The DSM250 can t calculate true heading given magnetic heading from a compass if variation isn t available Likewise the DSM250 can t calculate magnetic course given true course from a GPS if variation isn t available You can setup a favorite screen to display variation which will help you determine whether or not you have a product on the network broadcasting variation information Maretron s GPS s use the World Magnetic Model to broadcast variation 5 2 7 2 Depth This menu item allows you to select the units to be used for the display of all depth related information Units that may be selected are the following e Meters e Fathoms e Feet 5 2 7 3 Distance This menu item allows you to select the units to be used for the display of all distance related information Units that may be selected are the following e Nautical Miles e km Page 40 Revision 1 4 2 Maretron e Statute Miles 5 2 7 4 Boat Speed This menu item allows you to select the units to be used for the display of all boat speed related information Units that may be selected are the following e Knots e Miles Hour e Km Hour e Meters second 5 2 7 5 Wind Speed This menu item allows you to select the units to be used for the display of all wind speed related information Units that may be selected are the following Knots Miles Hour Km Hour Beaufort Meters
190. screen will be displayed with the details of the Alert and the cursor positioned over the Accept Cancel Alert entry Page 160 Revision 1 4 2 Maretron Alert Detail Alert s Pending 1 Time 2009 08 07 11 57 19 Status Source Local Type Alarm ID Priority 5 0x2005 Description Motion Location Lobby What s happend Went ACTIVE 26 times Accept Cancel Alert Edit Alert Pressing the Enter button at this point will Accept or Cancel the Alert 8 3 Adding an Alert Alerts are created by selecting the parameter to be monitored e g Depth and then selecting the type of Alert e g High Alert Start by going to the Add New Alert entry in the Alert Setup Menu Alert Setup Delete Alert Edit Alert Operating Mode Underway Advanced Configuration Restore Factory Defaults Figure 183 Adding a New Alert Pressing Enter brings up the Alert Edit Screen Revision 1 4 2 Page 161 DSM250 User s Manual A EIER e Ile IM Enable Alert Type Alarm Priority Trigger Source Type d Data d Instance Description Location Do Trigger Configuration Trigger Type d Re trigger Period 0 00 min sec Figure 184 Part of the Alert Edit Screen This allows the entry of all the alert parameters which can vary depending on the type of alert chosen These parameters are 8 3 1 Enable Disable Control This allows individual alerts to be enabled or disabled The decision to
191. scribe the equipment to which the channel is connected See section 3 3 4 for details on how to enter a textual value Page 102 Revision 1 4 2 Maretron 6 13 Maretron SIM100 Configuration This describes the configuration of the Maretron SIM100 firmware version 1 1 1 The DSM250 may be used to configure the channels on the Switch Indicator Module SIM100 After selecting the SIM100 from the list of devices on the network the following screen will be displayed Configuration Device Configuration H Manufacturer Model sH HW SW DS Maretron SIM NW HAM 10 111 Advanced Configuration Device Label P H DC CKTS Instance 0 Channel 1 Channel 2 Channel 3 Channel 4 Channel 5 Channel 4 Figure 96 SIM100 Configuration Screen 6 13 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Confiquration Device Configuration NA Manufacturer Model SN HW SW D3 Maretron SIM 100 220902 10 111 Advanced Configuration Device Instance far Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 97 SIM100 Advanced Configuration Screen 6 13 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually w
192. se Background Off B asl e Tank Fuel 20 Level Blue 100 Figure 20 Color Palette Configuration Screen You can enable or disable Color Set 1 by changing the Color Ger to Off This will disable Color Set 1 while changing between color palettes when using a long press of the Lights key when the DSM250 is operating in favorite screens mode Change the Color Ger back to On to enable this color palette Notice that Color Set 1 has a white background 100 Red 100 Green and 100 Blue equals white and that the foreground color is black You can adjust the three different colors to achieve different color backgrounds Use the Scroll Up 8 or Scroll Down keys to move the highlight to the color you want to change and then press the Enter key Use the Scroll Up or Scroll Down B keys with the percentage number selected to change that particular color s intensity You can also switch the background color to the foreground color by changing the Inverse Background to Page 32 Revision 1 4 2 Maretron On The background will switch to black and the percentage color settings are now used to define the foreground color 5 2 4 5 Demo Mode The DSM250 has a demo mode suited for displaying the capabilities of the unit It causes the DSM250 to operate in a simulated data mode where the DSM250 will install a set of pre defined favorite screens and other configuration and will then display only th
193. sec Local Audible Enable Tone Continuous Remote Annunciator s Operating Mode Moored Enable Operating Mode Underway Enable Figure 186 Trigger Configuration High Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert The value is entered as minutes seconds If only one number is entered it will be interpreted as seconds Alert Set Point If the value of the parameter being monitored rises above the value in this field the alert will become active Alert Set Delay The parameter being monitored must rise above the Alert Set Point value for longer than the time in this field in order for an alert to become active This can be used to prevent false alerts caused by parameter values that briefly have a value that would cause an alert but quickly return to the normal value range The value is entered as minutes seconds If only one number is entered it will be interpreted as seconds Alert Clear Point If the alert is active and the parameter value falls below the value in this field the alert will become inactive Alert Clear Delay The parameter being monitored must fall below the Alert Clear Point value for
194. sec Alert Clear Delay 0 02 min sec Local Audible Enable Tone Continuous Remote Annunciator s Figure 190 Trigger Configuration On Alert Accept Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Delay The condition for the parameter being monitored must be in its error condition for at least the set delay time before the alert will become active An interesting use of the set delay when monitoring a bilge pump for example is to set the Set Delay to a large value say 20 minutes Now if the bilge pump runs for more than 20 minutes at a time the alert will be triggered Alert Clear Delay The condition for the parameter being monitored must be not in its error condition for at least the clear delay time before the alert will become cleared 8 3 7 5 Trigger Type is Off Alert As opposed to high and low alerts that are associated with analog input signals i e many different possible input values there are also switch alerts that are associated with a binary input value sometimes called on or off yes or no enabled or disabled set or reset active or inactive The switch alert is similar to the high and
195. select this menu item and press Enter the device selection settings from this DSM250 unit will be copied to the selected remote DSM250 unit 6 6 4 Copy display settings from local displa Confiquration Device Configuration NA Manufacturer Model SH HW Swe T Maretron DSM250 3001 6 10 13 0 Advanced Configuration Copy alarms settings from local display Copy device selection from local display Sch display settings from local i ee opy favorite settings from local disp Copy DST100 calibrations from local poA Copy all settings from local display Label Test Remote Device Selection Power I T scroll Enter Down 6 6 5 Copy favorite settings from local display It is also possible to copy the favorite screen settings from one DSM250 to a remote DSM250 unit This menu item can be seen selected in Figure 55 below Revision 1 4 2 Page 65 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SH HW SW T Maretron DSM250 T0018 10 13 0 Advanced Configuration Copy alarms settings from local display Copy device selection from local display Copy display settings from local display Copy av orite asinge trom local dis play Copy all settings geg local display Label Test Remote Device Selection Scroll Scroll Up Down Power Figure 55 DSM250 Copy favorite settings from local display By selecting this menu item and pressing Enter all the favorite screen settings wi
196. sh to use as the engine instance identifier and then press the Enter key to accept the value and store it within the J2K100 Page 90 Hevision 1 4 2 Maretron 6 11 Maretron RAA100 Configuration This describes the configuration of the Maretron RAA100 firmware version 1 4 9 Maretron RAA100 rudder angle adapters on the network may be configured using the DSM250 The RAA100 configuration menu is shown in Figure 80 below Configuration Device Configuration NA Manufacturer Model SH HWe Swe 62 Maretron RAA T0 1799991 10 14 9 Advanced Configuration Label Stbd Rudder Angle Calibration Rudder Number 1 Dual rudder starboard Operating Mode NMEA2000 Gauge Resistance to sender 135 Gauge Resistance to sender 199 Scroll Power Down Figure 80 RAA100 Configuration Screen 6 11 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SH HWe Swe 62 Maretron RAA 0 L 10 14 9 Advanced Configuration MAIS HB Ed WM e Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Scroll Power Down 6 11 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You u
197. should find the following items e 1 DSM250 NMEA 2000 Multi function Graphic Display 4 Mounting studs 4 Mounting washers 4 Mounting lock washers 4 Mounting knurled nuts 1 DSM250 User s Manual 1 Warranty Registration Card If any of these items are missing or damaged please contact Maretron 2 2 Choosing a Mounting Location The DSM250 is housed in a waterproof enclosure IEC IP67 rating protected against the effects of temporary immersion in water and can be mounted in either an outdoor location or an indoor location 2 3 Mounting the DSM250 The DSM250 has three mounting options which includes surface mounting flush mounting or an optional gimbal mounting Maretron suggests a location at which the display can be viewed from a relatively straight angle and at which the keys are easily pressed 2 3 1 Surface Mounting the DSM250 The DSM250 can be directly mounted to any suitable surface as shown in Figure 1 The steps for this type of mounting are as follows 1 Attach the Surface Mount Template see Section 13 to the surface where the DSM250 is to be located a Make sure the template is level by using one of the horizontal lines as a guide b Scotch tape works well for securing the template c The maximum thickness of the mounting material should not exceed 177 using the provided mounting studs thicker surfaces can be accommodated but you will need to purchase longer studs 2 Drill the fou
198. sistor an open circuit is a fault condition No End Of Line Resistor an open circuit is not a fault condition Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 13 4 2 Label A label may be assigned to a channel as an aid to identifying the channel over the network Typically this label will describe the function of the switch connected to the channel See section 3 3 4 for details on how to enter a textual value Revision 1 4 2 Page 105 DSM250 User s Manual 6 14 Maretron SSC200 Configuration This describes the configuration of the Maretron SSC200 firmware version 2 0 11 Nine configurable parameters for the Maretron SSC200 solid state compass may be configured using the Maretron DSM250 display The Maretron SSC200 configuration menu can be seen in Figure 100 below Configuration Device Configuration NA Manufacturer Model SH HWe Swe 49 Maretron SSC 200 1120221 20 20 11 Advanced Configuration nstallation Offset Calibration Invert Installation Normal Installation Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period 2 05 Rate of Turn Zero Offset Calibration Variation Source NMEA0183 or NMEA2000 Scroll Scroll Power Up Down Figure 100 SSC200 Configuration Screen 6 14 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an a
199. sition of the vessel s trim tabs 4 2 22 Wind Dir Apparent displays the angle of the wind relative to the vessel center line as it appears to an observer on the deck of a moving or stationary vessel does not subtract out the speed of the vessel Dir Ground Ref displays the angle of the wind relative to true or magnetic north depending on the unit setting of the heading parameter see Section 5 2 7 1 measured relative to a stationary observer calculated using heading course over ground COG and speed over ground SOG Dir True Vessel Ref displays the angle of the wind relative to the vessel center line vessel s speed is subtracted from Apparent wind direction calculated using speed through water STW or speed over ground SOG depending on the unit setting of the Wind True Vessel Ref Parameter see Section 5 2 7 6 Speed Apparent displays the speed of the wind as it appears to an observer on the deck of a moving or stationary vessel does not subtract out the speed of the vessel Speed Ground Ref displays the speed of the wind relative to a stationary observer calculated using heading course over ground COG and speed over ground SOG Speed True Vessel Ref displays the speed of the wind as it would appear to an observer if the vessel was stopped in the water calculated using speed through water STW or speed over ground SOG depending on the unit setting of the Wind True Vessel Ref Parameter s
200. specified in the Set Delay field e ripped Alert The alert will become active if the monitored circuit breaker becomes Tripped for longer than the time specified in the Set Delay field e Course Alert The alert will become active if the monitored course differs from the Reference Direction by more than the Offset COG Set Point for longer than the time specified in the Set Delay field e GPS Quality Alert The alert will become active if the GPS Quality drops below the level set in the GPS Quality Alert Set field for longer than the time specified in the Set Delay field e Outside Radius Alert The alert will become active if the distance between the current GPS position and the Reference Latitude and Longitude rises above the value in the Outside Radius Alert Set field for longer than the time specified in the Set Delay field e Inside Radius Alert The alert will become active if the distance between the current GPS position and the Reference Latitude and Longitude falls below the value in the Outside Radius Alert Set field for longer than the time specified in the Set Delay field e Anchor Alert Similar to the Outside Radius Alert this alert will become active if the distance between the current GPS position and the Reference Latitude and Longitude rises above the value in the Outside Radius Alert Set field for longer than the time specified in the Set Delay field The Anchor Alert is more suited for smaller radii and can b
201. stall to Inverse Install to correct for this Valid options are e Inverse Install e Normal Install Use the Scroll Up and Scroll Down buttons to select the correct option and then press Enter to save the value 6 2 1 4 Damping Period Power If you feel that the monitored Power parameters are changing too quickly or too slowly on the display you can adjust the damping that is applied to the output readings by adjusting this parameter The default damping period is 5 seconds You may change it to a value in the range of 0 2 seconds to 10 seconds Use the Increase and Decrease buttons to select the correct option and then press Enter to save the value 6 2 1 5 Damping Period V I F If you feel that the monitored Voltage Current and Frequency parameters are changing too quickly or too slowly on the display you can adjust the damping that is applied to the output readings by adjusting this parameter The default damping period is 0 5 seconds You may change it to a value in the range of 0 2 seconds to 10 seconds Use the Increase and Decrease buttons to select the correct option and then press Enter to save the value Page 48 Revision 1 4 2 Maretron 6 2 1 6 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such a
202. sually will not need to modify the default value of 0 unless you have multiple units on the network Revision 1 4 2 Page 91 DSM250 User s Manual 6 11 1 2 Installation Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 11 1 3 NMEA2000 PGN Enable Disable The RAA100 Rudder Angle Adapter transmits the NMEA2000 PGN 127245 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration NA Manufacturer Model SHz HWz SW D I Maretron RAA TN 1200902 10 145 Advanced Configuration NMEA2000 PGN Enable Disable ee RN On Figure 81 RAA100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the Rudder message by pressing the Enter key on the message to be configured Options are e Disable The status message will not be transmitted e Default The status message will be transmitted at its default NMEA2000 rate Select the required option using the Scroll Up and Scroll Down keys followed by t
203. t Model SHN Stat Disp 20 Maretron GPSW0 THO On 49 Maretron SSC AN 1443 7 Ou n H Maretron DSH 2 109000 Onl n 20 Maretron USB 100 160111 OnL n 80 Maretron WS0 190 ATP Onl On Power Figure 50 DSM200 Remote Device Selection Screen Revision 1 4 2 Page 61 DSM250 User s Manual The NA column of the menu displays the node address the device is using The Manuf column of the menu displays the manufacturer of the device The Model column displays the model number of the device The SN column displays the serial number of the device so that any of two or more devices of the same manufacturer and model number may be distinguished from one another The Stat column indicates whether the device is currently connected to the bus and is responding to queries Online or has been disconnected from the bus has lost power or for some other reason is not responding to queries Offline The Disp column indicates whether data from that particular device is accepted for display by the remote DSM200 On or that the remote DSM200 ignores data transmitted by this device Off By scrolling to the device and pressing the Enter key you may then use the Scroll Up B and Scroll Down B keys to toggle the Display status for this particular device Once you are satisfied with the state of the Display setting press the Enter key to accept the setting The remote DSM200 will retain
204. t amp Tested to IEC 60945 oystems FCC and CE Mark Electromagnetic Compatibility Supported Display Data Types Description Data Types AC Power Voltage Current Frequency Battery Monitor Voltage Current Temperature Depth Water Depth Transducer Offset amp Coolant Pres amp Temp Fuel Rate Hours Fuel Pres Tilt Trim RPM Boost Pres Voltage Environment Barometer Heat Index Humidity In amp Out Moon Phase Sunrise Sunset CUM Rem Dew Point Cabin Temps Sea Temp Twilight am amp pm Weather Wind Chill Fuel Management Total Fuel Rate Total Fuel Remaining Total Fuel Economy GPS COG SOG Lat Lon DOP Position Satellites Time Heading Vessel Heading Rate of Turn Variation A DTW ETA TTG XTE Datum Set amp Drift Waypoint Number amp Name VMG BOD Set Drift Rolling Road Rudder Rudder Angle Speed _ Total Log Trip Log Speed Through Water Tanks Fluid Level Tank Capacity Amount Remaining m u amp UTC Time amp Date Sunrise Sunset Twilight AM Twilight PM Moon Phase Transmission Gear Oil Temperature and Pressure Vessel Pitch Roll Trim Tabs Keel Revision 1 4 2 Page 187 DSM250 User s Manual me amp True Wind Direction and Speed Ground Referenced Speed and Direction NMEA 2000 Parameter Group Numbers Response to Requested 26464 PGNs 26996 26998 Protocol PGNs 59392 59904 60160 060416 60928 65240 26208 gg A
205. t Delay When the quality of the GPS fix becomes lower than the quality specified in the Alert Set Point field for longer than the time specified in the Alert Set Delay field the alert will become active Page 174 Revision 1 4 2 Maretron Alert Clear Point The Alert will be cleared when the quality of the GPS fix as reported by the GPS becomes better than the value specified in this field Possible values are the same as the Alert Set Point Alert Clear Delay If the alert is active and the quality of the GPS fix becomes higher than the quality specified in the Alert Clear Point field for longer than the time specified in the Clear Delay field the alert will become inactive 8 3 7 11 Trigger Type is Direction Alert A Direction Alert is used to indicate that a heading or wind direction has changed from the reference direction more than a programmable amount For example once a heading has been established an alert can be generated if the heading changes more than a specified amount Direction Alerts may also be set for wind direction The reference direction can be selected from the current direction heading or wind direction or it can be manually entered Figure 197 shows a Direction Alert and associated parameters Direction Alert Parameters Direction Alert transitions to the Active state after d to the Awaiting Cancel state after Gear Delay c g D ZS Q o o c g ti OI cac Gg E no x a E o
206. t received or has an invalid value for the amount of time specified in this field the alert will become active Alert Clear Delay The parameter being monitored must continually be received with a valid value for longer than the time in this field in order for the alert to become inactive 8 3 7 4 Trigger Type is On Alert As opposed to high and low alerts that are associated with analog input signals i e many different possible input values there are also switch alerts that are associated with a binary input value sometimes called on or off yes or no enabled or disabled set or reset active or inactive The switch alert is similar to the high and low alert except that there are no set or reset points The mere fact that the switch is seen as On causes the alert to become an active alert assuming the Set Delay is set to zero Likewise if the switch being monitored is seen as false i e binary 0 then the alert becomes inactive assuming the Clear Delay is set to zero If the delays are not programmed to zero then the switch must remain On for the Set Delay before the alert becomes active and must remain Off for the Clear Delay before the alert becomes inactive 8 3 7 4 1 Trigger Configuration Page 168 Revision 1 4 2 Maretron Alert Detail Instance 0 PIH DC CKTS Channel 1 Lobby Description Location Trigger Configuration Trigger Type dOn Alert Re triqger Period 11 00 min sec Alert Set Delay 0 01 min
207. ted Use the Scroll Up or Scroll Down keys to move the highlight over this menu item and then press the Enter key 99 to write the calibration values within the TLA100 and complete the calibration process Configuration Device Configuration NA Manufacturer Model SHE HW SWE IU Maretron TLA 00 AT 151 10 14 Tank Levels Calibration Custom Calibration set to American Standard 240 33 ohm set to European Standard 10 180 ohm Scroll Scroll Ur Down Power Bach Figure 128 American Standard Sender Calibration 6 15 4 3 European Standard Sender Calibration If you have a rectangular tank and a sender with the standard European resistance range 0 ohms full 180 ohms empty and you know the capacity of the tank you can easily calibrate the sender by using the Set to European Standard 0 180 ohm menu item Figure 129 below shows this option highlighted Use the Scroll Up or Scroll Down BP keys to move the highlight over this menu item and then press the Enter key to store the calibration values within the TLA100 and complete the calibration process Revision 1 4 2 Page 123 DSM250 User s Manual Configuration Device Configuration NA Manufacturer Model SH HW SWz TU Maretron TLA WO Nn 151 10 14 Tank Levels Calibration Custom Calibration Set to European Standard 10 180 ohm Power
208. tered in this screen to re calibrate the WSO100 should this be required Confiquration Device Configuration NA Manufacturer Model SH HW SW 8 Maretron WSO T00 12000471 HI 207 Advanced Configuration Device Label ROOF Installation Offset Calibration Wind Data Damping Period 4 0s Barometric Pressure 29 80 Inches Mercury Outside Humidity 12 Percent Outside Temperature ER Cancel Increase Decrease Accept Figure 165 Setting the Outside Temperature Use the Increase and Decrease buttons to select the correct temperature and the press the Enter button to store it Page 148 Revision 1 4 2 Maretron 7 Data Display Types 7 1 Anchor Watch Display The Anchor Watch Display is a graphical representation of an Anchor Alert See section 8 3 7 9 for details on how to set up the Anchor Alert Anchor Watch Figure 166 Anchor Watch Display Example The display is centered on the position at which the anchor is dropped this point is represented by the anchor symbol The control is always oriented North up with the boundary circle located at the Alert Set Point distance from the anchor position The position of the vessel is represented by the boat symbol This is oriented according to the heading of the boat 7 2 Compass Rose Display The compass rose display shows a heading bearing or course parameter on a compass rose display There are two types of compass roses 1 Course Up where the needle is always
209. terface of the USB100 In this manner multiple devices of the same type may be used on a NMEA 2000 network in a fail safe configuration The USB100 Device Selection Menu for an example network configuration can be seen in Figure 154 WARNING Do not select multiple devices of the same type for display This will result in multiple and possibly conflicting readings Confiquration Device Configuration NA Manufacturer Model SN HWe SW 56 Maretron USB WO 1360544 10 18 2 Remote Device Selection HA Manuf Maretron Maretron Maretron 4 Maretron Power Maretron Maretron Model TLM TUO DSM250 DCW 9400 DCM 900 SSC200 DSM250 GPS WO Scroll Up SN 1500082 13200 Scroll Down Figure 154 USB100 Device Selection Screen Stat Disp Onl On Onl On OnL On The NA column of the menu displays the node address the device is using The Manuf column of the menu displays the manufacturer of the device The Model column displays the model number of the device The SN column displays the serial number of the device so that any of two or more devices of the same manufacturer and model number may be distinguished from one another The Stat column indicates whether the device is currently connected to the bus and is responding to queries Online or has been disconnected from the bus has lost power or for some other reason is not responding to queries Offline The Disp
210. th the full tank level and thus the tank capacity set to 101 gallons Tank Levels Calibration Only two settings empty and full are required to calibrate rectangular tanks Up to 16 calibration points can be used for irregular shaped tanks 1 Use arrow keys to select current tank level 101 Gal 2 Press Accept to set calibration point 3 Press Complete once tank is full to set final calibration point Current Point 1234156789 411711 phi Power Complete Increase Decrease Accept Figure 126 Full Level Calibration After you press accept a confirmation screen will appear showing completion of the calibration process and the new tank capacity value A screenshot of this calibration screen is shown below in Figure 127 Page 122 Revision 1 4 2 Maretron Tank Levels Calibration Only two settings empty and full are required to calibrate Tank Level Calibration Completed Successfully Tank capacity will be updated to 101 Gal Power Complete Increase Decrease Accept Figure 127 Custom Tank Level Calibration Confirmation Screen 6 15 4 2 American Standard Sender Calibration If you have a rectangular tank and a sender with the standard American resistance range 240 ohms full 33 ohms empty and you know the capacity of the tank you can easily calibrate the sender by using the Set to American Standard 240 33 ohm menu item Figure 128 below shows this option highligh
211. than 5 seconds from triggering an alert Once the alert is triggered it becomes an active alert An alert remains active until e The input signals rises above the Low Alert Clear Point and the Clear Delay time has elapsed If the Clear Delay is set to zero then the alert immediately becomes inactive once the input signal falls below the Low Alert Clear Point The Clear Delay is used to reduce false or spurious alerts e he user accepts the alert as shown in the example above Page 166 Revision 1 4 2 Maretron 8 3 7 2 2 Trigger Configuration Alert Detail Trigger Configuration Trigger Type MaLow Alert Re trigger Period 3 00 min sec Alert Set Point 40 F Alert Set Delay 0 10 min sec Alert Clear Point 45 F Alert Clear Delay 0 10 min sec Local Audible Enable Tone Continuous Remote Annunciator s Operating Mode Moored Enable Operating Mode Underway Enable Figure 188 Trigger Configuration Low Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that alert will stop sounding If the condition which caused the alert remains true after the amount of time in this field the alert will return to the Active state and annunciators will begin sounding again for that alert Alert Set Point If the value of the parameter being monitored falls below the value in this field the alert will become active Alert Set Delay
212. the network Typically this label will describe the location of the ALM100 See section 3 3 4 for details on how to enter a textual value Revision 1 4 2 Page 53 DSM250 User s Manual 6 3 4 Test Annunciator The Annunciator may be tested by scrolling the cursor to highlight this entry and then pressing the Enter button The ALM100 will emit a single beep Page 54 Revision 1 4 2 Maretron 6 4 Maretron DCM100 Configuration This describes the configuration of the Maretron ACM100 firmware version 1 0 4 Configuration Device Configuration NA Manufacturer Model SHE HW SWe B4 Maretron DCH SN 2905 10 Advanced Configuration 104 Current Sensor Zero Offset Calibration DC Type Battery Instance ei Label N2K amp DIS Figure 44 DCM100 Configuration Screen 6 4 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model sH HW SW B4 Maretron DCH 4X T 10 104 Advanced Configuration Current Sensor de 200A Device Instance 2 Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 45 DCM100 Advanced Configuration Screen 6 4 1 1 Current Sensor Type Three different current sensors may be attac
213. then the water depth represents water line depth Water Below Transducer displays the distance from the depth transducer to the sea or lake bottom the transducer offset is not taken into account 4 2 7 Engine The DSM250 supports the display of information for up to 64 engines Boost Pressure displays the boost pressure of a supercharger or turbocharger Hours displays the number of hours of operation reported by the engine Exhaust Gas Temp displays the temperature of the engine s exhaust gas Fuel Pressure displays the pressure of the fuel for the engine Fuel Rate displays the rate of fuel consumption for the engine Oil Pressure displays the engine s oil pressure Oil Temp displays the engine s oil temperature Tachometer displays the rotational speed of the engine Tilt Trim displays the tilt or trim of the drive Voltage displays the electrical power supply voltage measured at the engine Water Pressure displays the engine s water pressure Water Temp displays the engine s water temperature Fuel Economy displays the current fuel economy for the engine 4 2 8 Environment Barometer displays the current atmospheric barometric pressure Revision 1 4 2 Page 13 DSM250 User s Manual Heat Index displays the current heat index based on air temperature and humidity Humidity Inside displays the relative humidity from an indoor humidity sensor Humidity Outside displays the relative humidit
214. this Alert to be triggered when the vessel is in the Moored state this option must be set to Enabled The options here are e Enable e Disable The desired option is selected using the Scroll Up and Scroll Down buttons and then pressing the Enter button again 8 3 12 Operating Mode Underway see section 4 3 4 for a description of Operating Modes For this Alert to be triggered when the vessel is in the Underway state this option must be set to Enabled The options here are e Enable e Disable Page 178 Revision 1 4 2 Maretron The desired option is selected using the Scroll Up and Scroll Down buttons and then pressing the Enter button again 8 3 13 Operating Mode Anchored See section 4 3 4 for a description of Operating Modes For this Alert to be triggered when the vessel is in the Anchored state this option must be set to Enabled The options here are e Enable e Disable The desired option is selected using the Scroll Up and Scroll Down buttons and then pressing the Enter button again 8 3 14 Scope Alerts may be constrained to be displayed only on the DSM250 where they are detected In this case the Alert message is not sent out on the NMEA2000 bus and other devices will not display the alert or allow Accepting of Cancelling The Scope does not affect the generation of Annunciator messages The options here are e local the Alert messages are not transmitted e Global the Alert messages are transmitted The desir
215. tion Description This entry allows you to modify the NMEA 2000 installation description text strings You can enter any information you like here such as the date the unit was installed or the location in which it was installed for later reference Tools such as Maretron N2KAnalyzer allow you to view these values later See section 3 3 4 for details on how to enter a textual value 6 15 1 3 NMEA2000 PGN Enable Disable The TLA100 Tank Level Adapter transmits the NMEA2000 PGN 127505 which can be turned on or turned off by the DSM250 display Pressing the Enter key with NMEA2000 PGN Enable Disable menu item selected causes the DSM250 to display the following screen Configuration Device Configuration NA Manufacturer Model SHE HW SWe 73 Maretron TLA 0 Fal Ti i 10 16 4 Advanced Configuration NMEA2000 PGN Enable Disable Ce On Figure 119 TLA100 NMEA 2000 PGN Enable Disable Screen You can enable or disable the transmission of the Fluid Level message or set the frequency of transmission of the message by pressing the Enter key on the message to be configured Options are e Off The status message will not be transmitted e On The status message will be transmitted at its default NMEA2000 rate Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 15 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 15
216. tions It is capable of displaying up to four distinct windows on its screen at one time Rather than making you select from among the many types of available information any time you want to change the displayed data the DSM250 has the concept of Favorite Screens A Favorite Screen is a combination of display settings data to display and formats in which to display the data The DSM250 supports up to 16 different favorite screens 4 2 Categories and Data Types The DSM250 is capable of displaying many types of information In order to make it easier to locate a specific type of information to display the different types of information are organized into general categories AC Bus AC Generator AC Utility Anchor Watch DC Depth Engine Environment Fuel Management GPS Heading Navigation Rudder Speed Indicator Tank Temperature Time Transmission Vessel Wind The following sections explore each category in detail and spell out all of the data types that are available for display if the appropriate sensors are installed in the network 4 2 1 AC Bus Average Frequency displays average frequency of the AC power on the bus Average L N Voltage displays average line to neutral RMS voltage of the AC power on the bus Average L L Voltage displays average line to line RMS voltage of the AC power on the bus Phase A Frequency displays frequency of the AC power on phase A of the Bus Phase A L N Voltage displays phase A Line to Neu
217. to the factory default condition You can choose this setting by pressing the Enter key with the Restore Factory Defaults menu item selected which causes the screen shown in Figure 70 to be displayed This will cause the GPS100 to set all programmable settings to the factory default condition Confiquration Device Configuration HA Manufacturer Model SHN HWE Swe 21 Maretron GPS RO 211 21 2 0 1 Advanced Configuration Device Instance 211 GPS Antenna Altitude 0 00 m GPS Elevation Mask 7 5 GPS PDOP Mask Disable GPS SNR Mask 28 00 dB Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Power Scroll Scroll Up Down Figure 70 Restoring Factory Defaults on the GPS100 6 9 2 Cold Start GPS The DSM250 is capable of restarting the GPS algorithm on a Maretron GPS100 You can choose this setting by pressing the Enter key with the Cold start GPS Engine menu item selected which Page 82 Revision 1 4 2 Maretron causes the screen shown in Figure 71 to be displayed This will cause the GPS100 to discard all position and satellite data and compute a position fix Configuration Device Configuration NA Manufacturer Model SNe HWe SW 21 Maretron GPSTO 211 2 1 2 0 1 Advanced Configuration Cold start GPS Engine PS Mode Auto Label GPS211 JP15 SHIELD SBAS WAAS EGNOS MSAS Enable Scroll Down Figure 71 Performing a Cold Start of the GPS100 Power
218. toring Figure 131 below shows a screen shot of the tank type being configured First use the Scroll Up or Scroll Down Page 124 Revision 1 4 2 Maretron keys to position the highlighted cursor over Tank Type then press the Enter key to move the highlight to the tank type data itself Now use the Scroll Up or Scroll Down keys to change the tank type data to the type desired Finally press the Enter key to confirm the selection and store the value within the TLA100 Available tank types are as follows Fuel Fresh Water Waste Water Live Well Oil Black Water There are also a number of reserved tank types to accommodate possible future undefined tank types Confiquration Device Configuration NA Manufacturer Model SNe HWe SW I3 Maretron TLA 400 AST 151 10 16 H Advanced Configuration Label Aft Fuel Tank Capacity 1 0 Gallons Tank Levels Calibration Tank Number S Tank Type PA Operating Mode NMEA2000 Scroll Scroll Up Down Figure 131 Configuring the Tank Type 6 15 7 Operating Mode The TLA100 can be operated in one of two operating modes depending on the installation e NMEA 2000 the only thing that is connected to the resistive sender is the TLA100 NMEA 2000 amp Analog Gauge in addition to the TLA100 the resistive sender is also connected to a dual coil analog gauge It is important that this setting be performed correctly in order fo
219. tral RMS voltage of the AC Bus Phase A L L Voltage displays phase A Line to phase B Line RMS voltage of the AC Bus Phase B Frequency displays frequency of the AC power on phase B of the bus Phase B L N Voltage displays phase B Line to Neutral RMS voltage of the AC Bus Phase B L L Voltage displays phase B Line to phase C Line RMS voltage of the AC Bus Phase C Frequency displays frequency of the AC power on phase C of the bus Phase C L N Voltage displays phase C Line to Neutral RMS voltage of the AC Bus Phase C L L Voltage displays phase C Line to phase A Line RMS voltage of the AC Bus 4 2 2 AC Generator Average Current displays the average current of the AC power on the generator Average Frequency displays the average frequency of the AC power on the generator Revision 1 4 2 Page 11 DSM250 User s Manual Average L N Voltage displays average line to neutral RMS voltage of the AC power on the generator Average L L Voltage displays average line to line RMS voltage of the AC power on the generator Total Real Power displays real power output by the generator Total Reactive Power displays reactive power output by the generator Total Apparent Power displays apparent power output by the generator Total Power Factor displays power factor of the generator Total kWH Export displays total energy produced by the generator Total kWH Import displays total energy consumed by the generator Phase A F
220. tron TLA100 Configuration Maretron TLA100 tank level adapters on the network may be configured using the DSM250 This describes the configuration of the Maretron TLA100 firmware version 1 6 14 The TLA100 configuration menu is shown in Figure 117 below Configuration Device Configuration NA Manufacturer Model SNF HWe SW I3 Maretron TLA 0 Fala Ti 61 10 16 H Advanced Configuration abel Aft Fuel Tank Capacity 1 0 Gallons Tank Levels Calibration Tank Number S Tank Type Fuel Operating Mode NMEA2000 Scroll Power Down Figure 117 TLA100 Configuration Screen 6 15 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SH HW SW I3 Maretron TLA 400 KIK 10 16 H Advanced Configuration MAIS HB Ed WM e Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Scroll Down Figure 118 TLA100 Advanced Configuration Screen Power 6 15 1 1 Device Instance This entry allows you to program the NMEA 2000 device instance for the unit You usually will not need to modify the default value of 0 unless you have multiple units on the network Revision 1 4 2 Page 117 DSM250 User s Manual 6 15 1 2 Installa
221. tron TLM150 Configuration The TLM150 is the gasoline version of the TLM100 The configuration of the two devices is the same see section O for details 6 18 Maretron TLM200 Configuration The TLM200 is the deep tank version of the TLM100 The configuration of the two devices is the same see section 0 for details Revision 1 4 2 Page 135 DSM250 User s Manual 6 19 Maretron TMP100 Configuration Maretron Temperature Modules TMP100 may be configured using the DSM250 This describes the configuration of the Maretron TMP100 firmware version 1 1 1 The top level of the TMP100 configuration menu is shown below Configuration Device Configuration NA Manufacturer Model SN HWE SWE 29 Maretron THP 100 480009 10 111 Channel 9 Channel 1 Channel 2 Channel 3 Channel 4 Channel en Device Label INSIDE BOX Figure 148 TMP100 Configuration Screen 6 19 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to be done while at sea Configuration Device Configuration NA Manufacturer Model SHE HW SW 2 Maretron TMP 49 2520009 10 111 Advanced Confiquration Device Instance i Installation Description NMEA2000 PGN Enable Disable Restore Factory Defaults Figure 149 TMP100 Advanced Configuration Screen 6 1
222. turn damping zero the rate of turn offset and enable disable individual NMEA 2000 PGN transmissions Maretron Tank Level Adapter TLA100 Set tank type and tank number set operating mode set tank capacity and calibrate for irregular shaped tanks Maretron Tank Level Monitor Shallow TLM100 Set tank type and tank number set operating mode set tank capacity and calibrate for irregular shaped tanks Maretron Tank Level Monitor Gasoline TLM150 Set tank type and tank number set operating mode set tank capacity and calibrate for irregular shaped tanks Maretron Tank Level Monitor Deep TLM200 Set tank type and tank number set operating mode set tank capacity and calibrate for irregular shaped tanks Maretron Temperature Monitor TMP100 Set device label and channel instance temperature source type and label Maretron NMEA 2000 to USB gateway USB100 allows configuration of USB100s on network Hevision 1 4 2 Page 43 DSM250 User s Manual Maretron Ultrasonic Wind and Weather Station WSO100 set installation offset set wind damping rates and enable disable individual NMEA 2000 PGN transmissions More device types will be included in future firmware releases In each case the contents of the Device Configuration menus may vary depending on the version of the firmware within the device The Device Configuration menu is shown in Figure 32 Configuration Device Configuration NA
223. tus N A Electrical Operating Voltage 9 to 16 Volts DC Voltage Operating Voltage Power Consumption 650mA Low Supply Full Brightness Maximum Pe 200m A Nominal Supply Low Brightness Load Equivalence Number UI 2000 Spec 1LEN 50 mA LEN Reverse Battery Protection Yes Indefinitely Load Dump Protection Yes Energy Rated per SAE J1113 Mechanical Size C6875 x 5 75 x 1 75 Including Flanges for Mounting Weight NENNEN Mount Environmental Parameter Value IEC 60954 Exposed Classification Degree of Protection IP67 Operating Temperature 25 C to 55 C ution Electromagnetic Conducted and Radiated Emission per IEC60945 9 Emission Corrosion Salt Mist 4 times 7days 40 C 95 RH after 2 hour Salt Spray Per IEC 60945 8 12 Electromagnetic Conducted Radiated Supply and ESD per IEC 60945 10 Immunity C ating Safety Preca S Dangerous Voltage Electromagnetic Radio Frequency per IEC 60945 12 Revision 1 4 2 Page 189 DSM250 User s Manual Page 190 Revision 1 4 2 Maretron 12 Technical Support If you require technical support for Maretron products you can reach us in any of the following ways Telephone 1 866 550 9100 Fax 1 602 861 1777 E mail support maretron com World Wide Web http www maretron com Mail Maretron LLP Attn Technical Support 9014 N 23 Ave Suite 10 Phoenix AZ 85021 USA Revision 1 4 2 Page 191 DSM250 User s Manual
224. tware Version 5 2 4 9 Favorite Screens Mode 5 2 4 7 Favorite Screens Setup 5 2 6 Units 5 2 6 4 2 Revision 1 4 2 Page 25 DSM250 User s Manual 5 2 1 Alert Setup Menu Selecting Alert Setup from the Main Menu allows you to create delete and edit the Alerts stored in the DSM250 and to change the operating mode of the vessel See section 8 for details on the Alerts 5 2 2 Alert Status Selecting Alert Status from the Main Menu will display a list of currently active Alerts in the DSM250 See section 8 1 1 for details on the Alert Status Screen 5 2 3 Configuration Menu The configuration menu allows you to change the configuration of certain types of Maretron NMEA 2000 devices as well as to select from which NMEA 2000 nodes data may be received The available options within the Configuration screen are shown in Figure 11 Power Scroll Scroll Up Down Emter Figure 11 Configuration Screen 5 2 3 1 Device Configuration The ability to calibrate and configure other devices on the bus is a major portion of this manual For this reason it has been given an entire section See section 6 for details 5 2 3 2 Device Selection The Device Selection menu allows you to enable and disable the display of data from individual NMEA 2000 devices In this manner multiple devices of the same type may be used in redundant and fail safe configurations A typical Device Selection menu for a network conf
225. ure no current is flowing through the current sensor and press Begin to start calibration Power Cancel Figure 47 Current Sensor Zero Offset Calibration Confirmation Screen Make sure that no current is flowing through the sensor and press Begin to execute the calibration process or Cancel to return to the previous menu When the calibration is complete the following screen will be displayed Current Sensor Zero Offset Cal status Calibration Completed Figure 48 Current Sensor Zero Offset Calibration Complete Screen Press the Back button to return to the previous menu Revision 1 4 2 Page 57 DSM250 User s Manual 6 4 3 DC Type You can configure the DCM100 as to what type of DC power source it is monitoring With the exception of the Battery type the value of this parameter is used only for reporting the power source type over the NMEA 2000 network However if you select the Battery type many battery related options become available The following DC Types are selectable e Battery Alternator Convertor Solar Cell Wind Generator If the DC Type is set to battery then the following options may be entered to characterize the battery and allow the estimation of remaining charge etc 6 4 3 1 Battery Type The available battery types are Flooded Wet Gel AGM Other Selecting one of these types causes the remaining parameters to be set to appropriate default values 6 4 3 2 Nominal
226. ured by the DSM250 in Volts Traffic the percent usage of the total available bandwidth measured by the DSM250 Receive Rate the DSM250 measured received rate in frames per second fps Transmit Rate the DSM250 measured transmit rate in frames per second fps Error Count the DSM250 measured error frames since entering the Bus Status screen Receive Counter the number of DSM250 measured received frames and Transmit Counter the number of DSM250 measured transmitted frames Bus Status Baud Rate 250000 bps Voltage 12 1 Volts CAN Frame Traffic 444 96 Receive Rate 845 fps Transmit Rate 2 tps Error Count 4 Times Receive Counter 0 Frames Transmit Counter 0 Frames Figure 17 Bus Status Display Page 30 Revision 1 4 2 Maretron 5 2 4 3 Backlight The DSM250 has three user programmable lighting levels which may be cycled through using the Lights key on the keypad while the DSM250 is operating in favorite screens mode Each time you quick press the Lights key in favorite screens mode the DSM250 backlight will transition between the Low setting the Medium setting and the High setting Note that a quick press of the Lights key changes the screen intensity or backlight while a long press changes the color palette as described in Section 5 2 4 4 The Backlight menu allows you to program the Low Medium and High brightness levels The value that appears next to the appropriat
227. us message will be transmitted at the period specified and each time the value changes Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 12 1 4 Restore Factory Defaults This option restores all settings on the device to their factory default state 6 12 2 Device Label A label may be assigned to the RIM100 as an aid to identifying the device over the network Typically this label will describe the location of the RIM100 See section 3 3 4 for details on how to enter a textual value Revision 1 4 2 Page 101 DSM250 User s Manual 6 12 3 Instance From here the instance used in the data message may be set 6 12 4 Channel Configuration To configure an individual channel use the Scroll Up and Scroll Down buttons to highlight the channel and then press Enter The following screen will be displayed Configuration Device Configuration NA Manufacturer Model SHE HWE SW D4 Maretron RIM TN 10012 10 111 Channel 1 Mode Enable EAH Anchor Winch Figure 95 RIM100 Channel Configuration Screen 6 12 4 1 Mode Each Channel may be enabled or disabled Valid Modes are Disable the channel is not being used Enable the channel is being used Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key 6 12 4 2 Label A label may be assigned to a channel as an aid to identifying the channel over the network Typically this label will de
228. ust provide tank capacity in addition to fluid level Distance to Empty displays the distance you can travel before all fuel is consumed assuming all conditions remain the same The DSM250 computes distance to empty using several different parameters including the total fuel remaining see above and fuel economy also discussed above Remember conditions can rapidly change that may drastically effect distance to empty For example if you are going out to sea with the wind and current behind you the distance to empty may indicate that there is enough fuel to return home when in fact there isn t enough fuel to return Distance to empty is only applicable if the conditions remain the same Time to Empty displays the amount of time you can travel before all fuel is consumed assuming all conditions remain the same The DSM250 computes time to empty using total fuel remaining see above and the engine s fuel rate Remember conditions can rapidly change that may drastically effect time to empty For example if you are going out to sea with the wind and current behind you the time to empty may indicate that there is enough fuel to return home when in fact there isn t enough fuel to return Time to empty is only applicable if the conditions remain the same Total Fuel Capacity displays the total capacity of all fuel tanks The DSM250 can only compute total fuel capacity assuming all totalized tanks are transmitting their capacity Total Fue
229. vice or if you have overhauled an engine you can use this setting to preset the engine hours reading to the desired value Valid options are e Q 99999 hours Select the required option using the Increase and Decrease keys followed by the Enter key 6 8 15 Tachometer Flywheel Teeth The EMS100 needs to know the number of flywheel teeth on the engine or the number of alternator pulses per revolution in order to correctly calculate engine RPM Use this setting to program the EMS100 Page 76 Hevision 1 4 2 Maretron with the number of flywheel teeth or alternator pulses per revolution for the engine to which the EMS100 is connected Valid options are e Q 400 pulses per revolution Select the required option using the Increase and Decrease keys followed by the Enter key Revision 1 4 2 Page 77 DSM250 User s Manual 6 9 Maretron GPS100 Configuration This describes the configuration of the Maretron GPS100 firmware version 1 0 6 Some versions of the GPS100 have a different set of firmware that is currently at version 1 6 14 The configuration of these devices is identical to version 2 0 1 shown here The GPS100 has several different programmable parameters that are configurable by the DSM250 display Normally it is not necessary to configure the GPS100 although there may be some circumstances where configuration is desirable The following sections describe the different configuration modes including the Restore Factory
230. wn keys followed by the Enter key 6 2 1 8 Restore Factory Defaults This option restores all settings on the ACM100 device to their factory default state 6 2 2 AC Circuit Type You must configure the ACM100 as to what type of AC circuit connection it is monitoring The allowable values for this parameter are as follows e Single Phase Phase A use this value when power is connected via a single hot wire and a single neutral wire a typical 110VAC connection in the US or 220VAC connection in Europe Hevision 1 4 2 Page 49 DSM250 User s Manual e Single Phase Phase A B use this value when power is connected via two hot wires 180 out of phase with each other and single neutral wire from a single phase of a transformer a typical 220VAC connection in the US e 3 Phase Y Phase A B C use this value when power is connected via the three hot wires 120 out of phase with each other and single neutral wire from a three phase Y connected circuit 6 2 3 AC Device Type You must configure the ACM100 as to what type of AC source it is monitoring The allowable values for this parameter are as follows e Generator default use this value when you are monitoring the output of an onboard generator e Utility use this value when you are monitoring shore power e Bus use this value if you are monitoring power flowing across a cable that is not located directly at the output of a generator or a shore power conne
231. ws the line graph display for barometric pressure over a time period of one day The line graph display can show the selected data over a time period of 1 2 3 4 5 6 or 7 days Line graph displays are supported only for barometric pressure Page 154 Revision 1 4 2 Maretron Barometric Pressure 30 00 29 75 29 50 29 25 29 00 24h 18h 12h h Oh CT Inches Mercur Figure 175 Line Graph Display 7 8 Weather Display The DSM250 supports a single screen weather display that shows a wide variety of weather related information A screen shot of the weather display appears in Figure 176 below 17 02 14 ae e Ground IW em SIS 29 95 0 07 Figure 176 Weather Display Kew Gibbous 2 00 2th 18h 12h Gh h Bara meter The weather display shows the following information Wind Direction Ground Referenced Wind Speed Ground Referenced Heat Index Wind Chill Outside Temperature Outside Humidity Barometric Pressure Inside Temperature Inside Humidity Dew Point Revision 1 4 2 Page 155 DSM250 User s Manual e Moon Phase e Sunrise e Sunset 7 9 Wind Rose The DSM250 supports a wind rose display which displays apparent wind direction and speed measured relative to the moving vessel or true wind direction and speed measured relative to the moving vessel depending on the parameter selected A screen shot of a wind rose appears in Figure 177 below
232. y Charged Current for the amount of time defined by the Fully Charged Time parameter 6 4 3 8 Fully Charged Current In order for the DCM100 to determine when a battery is fully charged it uses three parameters The Fully Charged Voltage indicates the value voltage at which the battery is considered fully charged if the battery voltage remains above this value and the battery current remains below the Fully Charged Current for the amount of time defined by the Fully Charged Time parameter 6 4 3 9 Fully Charged Time In order for the DCM100 to determine when a battery is fully charged it uses three parameters The Fully Charged Voltage indicates the value voltage at which the battery is considered fully charged if the battery voltage remains above this value and the battery current remains below the Fully Charged Current for the amount of time defined by the Fully Charged Time parameter 6 4 3 10 Battery Temperature In order for the DCM100 to properly determine battery capacity and state of charge it must know the temperature of the battery If you are using a TR3K temperature sensor attached to the battery you should set this parameter to Sensor Otherwise if no temperature sensor is available you can set this parameter to the estimated battery temperature between 25 C and 125 C 6 4 3 11 Time Remaining Floor The DCM100 calculates the time given the current being discharged from the battery before the battery
233. y circumstances but it requires that you go through a process in which you set the rudder to full port then center and then full starboard each time indicating the angle of the rudder to the DSM250 The RAA100 will measure the sender resistance at each point and create a custom calibration map which relates the resistance of the sender with the rudder angle Custom calibration is necessary for non standard values of resistances for rudder angle senders and for rudders with maximum port and starboard angles of anything other than 45 Revision 1 4 2 Page 93 DSM250 User s Manual To perform custom calibration of the rudder angle sender use the Scroll Up or Scroll Down keys to move the highlighted cursor over the Custom Calibration menu item Then press the Enter key to confirm your selection and begin the calibration process Figure 83 shows the DSM250 with the Custom Rudder Calibration menu item highlighted Configuration Device Configuration M Manufacturer Model SHz HW SWz 60 Maretron RAA TUO 1250005 10 12 Rudder Angle Calibration WASTE ee set to American Standard 240 33 ohm Set to European Standard 10 180 ohm Scroll Scroll Up Down Enter Power Bach Figure 83 Custom Rudder Angle Calibration The first step in the custom rudder angle sender calibration process is to turn the wheel hard over to starboard and to measure the angle or the rudder angl
234. y an N or S If the N or S is missing North is assumed Moving the cursor to another field will reformat the contents of this field Longitude The longitude of the reference position This may be typed in as lt degrees gt lt minutes gt followed by an E or W If the E or W is missing East is assumed Moving the cursor to another field will reformat the contents of this field Get Current Position Selecting this will transfer the current GPS position into the Latitude and Longitude fields 8 3 7 8 Trigger Type is Inside Radius Alert The Inside Radius Alert is similar to the Outside Radius Alert except that an alert is activated if the vessel comes within a certain distance or radius of a reference point expressed as a longitude and latitude Figure 195 shows an Inside Radius Alert and associated parameters Page 172 Revision 1 4 2 Maretron 8 3 7 8 1 Trigger Configuration Alert Detail Trigger Configuration Trigger Type minside Radius Alert Re trigger Period 5 00 min sec Alert Set Point 3 00 Nautical Miles Alert Set Delay 0 06 min sec Alert Clear Point 3 50 Nautical Miles Alert Clear Delay 0 06 min sec Latitude 33 34 080 N Longitude 112 06 530 W Get Current Position Local Audible Enable Tone Continuous Figure 195 Trigger Configuration Inside Radius Alert Re trigger Period When you accept an alert it will change to the Accepted state and annunciators that are sounding for that
235. y display settings from local display Copy favorite settings from local display Copy DST100 calibrations from local display Copy all settings from local display Label IEJ Remote Device Selection 6 6 9 Remote Device Selection Page 68 Confiquration Device Configuration HA Manufacturer Model T Maretron Remote Device Selection Na di BA 01 2 Power Manuf Maretron Maretron Maretron Maretron Maretron Maretron Maretron Model GPS T0 DSH250 WSO40 USB 100 DST 100 SN HW SW DSM250 DIR 10 13 0 Stat Disp On On On On On On On scroll Down Enter Revision 1 4 2 Maretron 6 7 Maretron DST100 Configuration The DSM250 is capable of configuring Maretron s DST100 for several different parameters including trip log resetting transducer depth offset and speed calibration This describes the configuration of the Maretron DST100 firmware version 1 0 1 Configuration Device Configuration H Manufacturer Model SH HW SWZ 0 Maretron DST TN 9005 10 10 2 Clear Speed Calibration 1 000 Speed Calibration Transducer Depth Offset 0 0 ft Trip Log 0 0 nm Reset Figure 57 DST100 Configuration Screen 6 7 1 Advanced Configuration Advanced Configuration changes some complex parameters within the device and should only be performed by an advanced user Typically advanced configuration is only done at installation and should not need to
236. y for an outdoor humidity sensor Moon Phase displays the phase of the moon at the current time and position Sunrise displays the local time of sunrise for the current day and position Sunset displays the local time of sunset for the current day and position Dew Point displays the current dew point based on air temperature and humidity Temp Engine Room displays the air temperature from a sensor mounted in an engine room Temp Inside displays the air temperature from a sensor mounted inside the vessel Temp Main Cabin displays the air temperature from a sensor mounted inside the main cabin Temp Outside displays the air temperature from a sensor mounted outside Temp Sea displays the current temperature of the water Twilight AM displays the time of nautical twilight before sunrise for the current day and position Twilight PM displays the time of nautical twilight after sunset for the current day and position Weather displays a screen with a wide variety of weather related data See Section 7 8 for details Wind Chill displays the current wind chill based on air temperature and wind speed Page 14 Hevision 1 4 2 Maretron 4 2 9 Fuel Management WARNING Maretron fuel management products are designed to be accurate and reliable however they should be used only as aids for fuel management and not as a replacement for traditional fuel management techniques BEWARE Conditions can quickly change that drasti
237. y pressing the Enter key with the Transducer Depth Offset menu item selected which results in the screen shown in Figure 60 Confiquration Device Configuration NA Manufacturer Model SH HWe SW 0E Maretron DST O D 5028755 DAS Siv 309 Advanced Configuration Clear Speed Calibration 1 000 speed Calibration mE Transducer Depth Offset BIEN Trip Log 0 0 nm Reset Cancel Increase Decrease Accept Figure 60 Setting the Transducer Depth Offset in a DST100 With the offset value highlighted you can change the offset by using the Increase and Decrease keys or Once you have selected the desired offset push the Enter key 9 to complete the transducer depth offset calibration This procedure actually programs the offset value into the DST100 such that all displays subsequently receive the offset information This means you don t have to program multiple displays each with the corresponding offset information as the information is stored at a single place at the source 6 7 5 Trip Log The DSM250 is capable of clearing the trip log counter within a DST100 depth speed temperature transducer You zero the trip log by pressing the Enter key with the Trip Log menu item selected which results in the screen shown Figure 61 Pressing the Accept key while the Revision 1 4 2 Page 71 DSM250 User s Manual Reset menu item is selected will complete the operation Resetting the trip l
238. you reach Manual Entry Pressing the Enter key with the Manual Entry menu item selected takes you to the screen shown in Figure 116 Confiquration Device Configuration NA Manufacturer Model SH HWe SW 49 Maretron SSC 200 1120224 20 20 11 Advanced Configuration Installation Offset Calibration Invert Installation Normal Installation Label Magnetic Deviation Calibration Magnetic Deviation Status Rate of Turn Damping Period 2 05 Rate of Turn Zero Offset Calibration Variation Source Manual Entry EY Power Enter Up Figure 116 Entering Manual Variation Press the Scroll Up or Scroll Down B key to change the amount of East or West variation Press the Accept Key when the desired number is shown You may also disable manual variation by setting the value to Disable this option appears between the values 0 0 E and 0 1 W when scrolling through the values When manual variation is disabled the SSC200 will not transmit any variation information and heading information will be available only in magnetic heading format Revision 1 4 2 Page 115 DSM250 User s Manual WARNING Magnetic variation changes as your location on the earth changes therefore magnetic variation should be adjusted with changes in position Neither the DSM250 nor the SSC200 will make these changes automatically they are the responsibility of the user Page 116 Revision 1 4 2 Maretron 6 15 Mare
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