Page 1 DSM410 NMEA 2000 Multi-function Color ® Graphic Display User’s Manual Revision 1.7.2 Copyright © 2017 Maretron, LLP All Rights Reserved Maretron, LLP 9014 N. 23 Ave #10 Phoenix, AZ 85021-7850 http://www.maretron.com Maretron Manual Part #: M003091 Revision 1.7.2 Page i...
Page 2 DSM410 User’s Manual Revision History Revision Description 1.7.2 Original document. Page ii Revision 1.7.2...
Page 3: Table Of Contents
Installation ............................2 Unpacking the Box ......................2 Choosing a Mounting Location ................... 2 Mounting the DSM410......................2 2.3.1 Flush Mounting the DSM410 ..................2 Connecting the DSM410 ....................3 2.4.1 Checking the Connection ....................3 Operating the DSM410 ........................4 Turning the DSM410 On ....................
Page 4 Transducer Depth Offset ..................... 53 6.1.10 Trip Log ........................54 Bennett EP-30 (NMEA1) Trim Tabs Configuration ............55 6.2.1 Trim Tabs Calibration ....................55 Maretron ACM100 Configuration ..................57 6.3.1 Advanced Configuration ....................57 6.3.2 AC Circuit Type ......................60 6.3.3...
Page 5 Instance ........................76 6.7.4 Channel #1-#6 Configuration ..................76 Maretron DSM200 Configuration ..................79 6.8.1 Remote Device Selection .................... 79 Maretron DSM150/DSM250/DSM410 Configuration ............81 6.9.1 Remote Device Selection .................... 81 6.9.2 Copy alarms settings from local display ..............82 6.9.3 Copy device selection from local display ..............
Page 6 6.12.13 Water Temperature Sender Offset ................100 6.12.14 Preset Engine Hours ....................100 6.12.15 Tachometer Flywheel Teeth ..................101 6.13 Maretron FFM100 Configuration ..................102 6.13.1 Advanced Configuration .................... 102 6.13.2 Device Label ......................104 6.13.3 Operating Mode ......................104 6.13.4 Channel #0…...
Page 7 6.18.6 J1939 Source Address Configuration ............... 144 6.18.7 Refresh J1939 source address list ................145 6.19 Maretron NBE100 Configuration ..................145 6.19.1 Advanced Configuration .................... 145 6.20 Maretron RAA100 Configuration ..................146 6.20.1 Advanced Configuration .................... 147 6.20.2 Label ......................... 148 6.20.3 Rudder Angle Calibration ..................
Page 8 6.26.3 Tank Capacity ......................188 6.26.4 Tank Levels Calibration .................... 189 6.26.5 Tank Number ......................194 6.26.6 Tank Type ......................... 194 6.27 Maretron TLM150 Configuration ..................194 6.28 Maretron TLM200 Configuration ..................194 6.29 Maretron TMP100 Configuration ..................195 6.29.1 Advanced Configuration .................... 195 6.29.2 Channel Configuration ....................
Page 9 Flashing Screen ......................262 Restore Factory Defaults ....................262 Maintenance ..........................263 10 Troubleshooting ......................... 264 11 Technical Specifications ......................265 12 Technical Support ........................270 13 Installation Template ........................271 14 Maretron (2 Year) Limited Warranty................... 272 Revision 1.7.2 Page ix...
Page 10 Figure 4 – Keypad and Key Names ...................... 5 Figure 5 – Entering a Textual Value ...................... 7 Figure 6 – DSM410 Running in Favorite Screens Mode ..............25 Figure 7 – Main Menu ......................... 26 Figure 8 – Configuration Screen ......................27 Figure 9 –...
Page 11 Figure 76 – DST100 Configuration Screen ..................88 Figure 77 – DST100 Advanced Configuration Screen ................ 88 Figure 78 – Calibrating the DSM410 for DST100 Speed through Water ..........89 Figure 79 – Setting the Transducer Depth Offset in a DST100 ............90 Figure 80 –...
Page 12 Figure 132 – IPG100 N2KServer Information Screen ............... 135 Figure 133 – IPG100 Client List Display ................... 136 Figure 134 – IPG100 Maretron Cloud Services Status Display............137 Figure 135 – J2K100 Configuration Screen ..................139 Figure 136 – J2K100 Advanced Configuration Screen ..............139 Figure 137 –...
Page 13 Figure 143 – J2K100 J1939 Source Address Configuration ............. 144 Figure 144 – NBE100 Configuration Screen ..................145 Figure 145 – NBE100 Advanced Configuration Screen ..............146 Figure 146 – RAA100 Configuration Screen ..................147 Figure 147 – RAA100 Advanced Configuration Menu ..............147 Figure 148 –...
Page 14 DSM410 User’s Manual Figure 191 – TLA100 NMEA 2000 ® PGN Enable/Disable Screen ............ 177 Figure 192 – Configuring the Tank Capacity ..................178 Figure 193 – Tank Capacity Change Confirmation Screen ............... 178 Figure 194 – Performing Custom Calibration of the Tank Level Adapter .......... 179 Figure 195 –...
Page 15 Figure 239 – Setting the Outside Humidity ..................208 Figure 240 – Setting the Outside Temperature ................. 209 Figure 241 – Anchor Watch Display Example ................... 210 Figure 242 – Bar Graph Display Example ..................211 Figure 243 – Compass Rose Display (Course Up) Example ............211 Figure 244 –...
Page 16 DSM410 User’s Manual Figure 287 – Trigger Configuration – Off Alert .................. 244 Figure 288 – Trigger Configuration Editor – Tripped Alert ..............245 Figure 289 – Outside Alert Parameters ..................... 246 Figure 290 – Trigger Configuration – Outside Radius Alert .............. 246 Figure 291 –...
Page 17: General
The Maretron DSM410 is designed to operate 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.
Page 18: Installation
If mounting with silicone adhesive, apply the adhesive to the portion of the DSM410 that will come into contact with the mounting surface once installed. 6. If mounting with machine screws, insert the screws into the front of the DSM410 and tighten to nuts on the back side of the mounting surface.
Page 19: Connecting The Dsm410
® cable connector is tightened firmly. Connect the other end of the cable (male) to the NMEA 2000 network in the same manner. The DSM410 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.
Page 20: Operating The Dsm410
To turn the DSM410 off, press and hold the power key. The DSM410 will display a countdown screen, which can be seen in Figure 3. If you continue to hold the power key, the DSM410 will power down in approximately three seconds. If you release the power key before these three seconds have elapsed, the DSM410 will return to its current operational state.
Page 21: Keypad Essentials
Figure 3 – Powerdown Countdown Screen 3.3 Keypad Essentials The DSM410 has a five-key keypad located below the screen. Each key has slightly different functions depending on the operating mode. Figure 4 below shows the DSM410 keys and their names.
Page 22: Navigating In A Menu
3.3.2 Choosing a Value from a List When editing a value chosen from a list, the keys on the DSM410 keypad have the following functions: ) –...
Page 23: Figure 5 - Entering A Textual Value
Figure 5 – 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.
Page 24: Settings Lock Mode
5. The DSM410 is now in settings lock mode. You can verify this by pressing the Enter key to display the main menu. You should see only the “Alert Status” and “Favorite Screens Mode”...
Page 25: Important Concepts
DSM410 supports up to 16 different favorite screens. 4.2 Categories and Data Types The DSM410 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: ...
Page 26: Ac Bus
Total Power Factor – displays power factor of the generator Total kWH Export – displays total energy produced by the generator (for the Maretron ACM100, this parameter’s value may be reset to zero with the control mode of the display – see Section 5.2.7.14 for details)
Page 27: Ac Utility
Total Power Factor – displays power factor of the utility Total kWH Export – displays total energy produced by the utility (for the Maretron ACM100, this parameter’s value may be reset to zero with the control mode of the display – see Section 5.2.7.14 for details)
Page 28: Anchor Watch
Phase C Power Factor – displays power factor of phase C of the Utility 4.2.4 Anchor Watch The DSM410 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).
Page 29: Elec. Distribution
4.2.8 Elec. Distribution The DSM410 supports control of the DCR100, Carling OctoPlex AC and DC Boxes, and other electrical distribution devices that utilize NMEA Command of the 127501 Binary Switch Status message for controlling loads. Switch/Breaker – controls the ON/OFF state of a switch or circuit breaker Breaker Current –...
Page 30: Environment
Trip Fuel Used field of the 127497 Trip Parameters, Engine message, such as the Maretron FFM100, may be reset with the control mode of the display – see Section 5.2.7.14 for details) Warning – displays warning conditions generated by the engine 4.2.10...
Page 31: Fuel Management
Time to empty is only applicable if the conditions remain the same. Total Fuel Capacity – displays the total capacity of all fuel tanks. The DSM410 can only compute total fuel capacity assuming all totalized tanks are transmitting their capacity.
Page 32: Gps
(fuel flow transducers that are capable of being reset via the 126208 NMEA 2000 command of the Trip Fuel Used field of the 127497 Trip Parameters, Engine message, such as the Maretron FFM100, may be reset with the control mode of the display – see Section 5.2.7.14 for details).
Page 33: Mechanical
4.2.19 Navigation The DSM410 is not a primary navigation device; that is, it does not provide means for entering and storing waypoint and route data. The DSM410 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 ®...
Page 34: Pressure/Vacuum
® NMEA 2000 command of the Distance Since Last Reset field of the 128275 Distance Log message, such as the Maretron DST110, may be reset with the control mode of the display – see Section 5.2.7.14 for details) Page 18...
Page 35: Tank
4.2.25 Tank The DSM410 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 –...
Page 36: Transmission
DSM410 User’s Manual 4.2.28 Transmission The DSM410 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.
Page 37 (SOG) (depending on the unit setting of the “Wind True Vessel Ref.” Parameter, see Section 5.2.7.6) Revision 1.7.2 Page 21...
Page 38: Alerts
Alerts. Optionally, an Annunciator message is sent to devices capable of sounding an audio alarm (e.g. the ALM100). Currently, the DSM150, DSM250, DSM410, and the N2KView™ Vessel Monitoring Software are capable of generating and receiving Alert Messages.
Page 39: Alert States
Alert Status Screen, and by a flashing colored box at the top right of the DSM410 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).
Page 40: Available Alert Classes
Alert Status Screen in the “What Happened” column. 4.3.6 Available Alert Classes The DSM410 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.
Page 41: Operating Modes
Auto mode – the DSM410 automatically cycles between “favorite” screens, at time intervals which are individually programmable for each “favorite” screen. An example screen of the DSM410 running in favorite screens mode can be seen in Figure 6 below. Figure 6 – DSM410 Running in Favorite Screens Mode...
Page 42: Menu Mode
The menu mode is entered while viewing favorite screens by pressing the Enter key ( In menu mode, the DSM410 may be configured by scrolling up and down the menu and selecting one of the submenus found there. The DSM410 Main Menu can be seen in Figure 7 below.
Page 43: Alert Setup Menu
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 DSM410, and to change the operating mode of the vessel. See section 7.25 for details on the Alerts.
Page 44: Figure 9 - Device Selection Screen
) to accept the setting. The DSM410 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.
Page 45: Display Settings Menu
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.
Page 46: Figure 12 - Dsm410 Primary Device Selection
DSM410 User’s Manual 5.2.4.1.2 Primary Device Selection Not all the data displayed by the DSM410 can be taken directly off the NMEA 2000 bus. Some require calculations with other parameters before the desired value can be displayed. An example 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.
Page 47: Figure 13 - Dsm410 Advanced Information Screen
Baud Rate: the speed capability of the connected network given in bits per second (bps), Voltage: the network voltage as measured by the DSM410 in Volts, Traffic: the percent usage of the total available bandwidth measured by the DSM410, Receive Rate: the DSM410 measured received rate in frames per second (fps),...
Page 48: Figure 15 - Backlight Menu
The DSM410 has three user-programmable lighting levels which may be cycled through using the Lights key ( ) on the keypad while the DSM410 is operating in favorite screens mode. Each time you quick press the Lights key ( ) in favorite screens mode, the DSM410 backlight will transition between the “Low”...
Page 49: Figure 16 - Color Palette Selection Screen
Set #1 while changing between color palettes when using a long press of the Lights key ( ) when the DSM410 is operating in favorite screens mode. Change the “Color Set:” 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.
Page 50: Figure 18 - Setting The Demo Mode
DSM410 to return to using data from the NMEA 2000 bus. In order to be able to demonstrate all of the DSM410’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 DSM410...
Page 51: Figure 19 - Setting The Keyboard Beep Option
Figure 19 – Setting the Keyboard Beep Option 5.2.4.7 Label Each DSM410 can be given a software label. Normally this label will indicate the position of the DSM410 and is used by the Alert System to identify one DSM410 from another.
Page 52: Favorite Screens Mode
DSM410 User’s Manual 5.2.5 Favorite Screens Mode The DSM410 supports two methods of operation in favorites mode: “Auto”, in which the DSM410 automatically cycles through all favorite screens that have been enabled for Auto mode, and “Manual”, in which the DSM410 continues to display the currently displayed favorite screen until you...
Page 53: Figure 23 - Favorite Screen Parameters
Auto/Manual – this favorite screen is displayed in both Auto and Manual modes 5.2.6.2 Format The DSM410 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.
Page 54: Figure 24 - Setting The Favorite Screen Format
In Auto mode, this parameter determines the amount of time this favorite screen is displayed before the DSM410 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.
Page 55: Figure 26 - Selecting The Data Category
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 displayed is a two-step process. First, press the Enter key ( ) and select the category of data to be displayed.
Page 56 You use the instance field to tell the DSM410 which GPS to use for displaying data. Most of the time, the DSM410 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 DSM410 displays that are a combination of information from multiple products on the network.
Page 57: Units Menu
NMEA 2000 bus. If the DSM410 is not showing heading or COG (i.e., no needle on compass rose or dashes for digital displays), it’s probably a good indication that variation isn’t available on the network. The DSM410 can’t calculate true heading given magnetic heading from a compass if variation isn’t available.
Page 58 DSM410 User’s Manual 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:  Nautical Miles  km  Statute Miles 5.2.7.4 Boat Speed...
Page 59 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:  Inches Mercury (in Hg)  Bar  Millibars  Millimeters Mercury (mm Hg) ...
Page 60 DSM410 User’s Manual 5.2.7.14 Force This menu item allows you to select the units to be used for the display of force. Units that may be selected include the following:  Newtons  Kilograms  Pounds 5.2.7.15 Mass This menu item allows you to select the units to be used for the display of mass. Units that may be selected include the following: ...
Page 61: Control Mode
 Engine Trip Fuel Used – may be reset to zero for fuel flow transducers that are capable of ® being reset via the 126208 NMEA 2000 command message, such as the Maretron FFM100  Trip Volume – may be reset to zero for fluid flow transducers that are capable of being reset ®...
Page 62 ® NMEA 2000 command message, such as the Maretron DST110, may be reset with the control mode of the display – see Section 5.2.7.14 for details For resetting “Engine Total Fuel Used”, “Trip Volume”, or “Trip Log”, use the following procedure to reset the total in the transducer providing the value.
Page 63: Device Configuration
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 Current Loop Monitor (CLM100) – set the channel operating mode, set transducer characteristics, and set damping Maretron Direct Current Monitor (DCM100) –...
Page 64 DSM410 User’s Manual 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.
Page 65: Figure 29 - Device Configuration Screen
Figure 29 – 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#”...
Page 66: Airmar Depth/Speed/Temperature Transducers
DSM410 User’s Manual 6.1 Airmar Depth/Speed/Temperature Transducers The DSM410 supports configuration and calibration of the following Airmar ® Depth/Speed/Temperature transducers that have NMEA 2000 interfaces:  DST800  DT800  P39  P79  B122  ST850  ST800  HT200...
Page 67: Device Instance
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.
Page 68: Speed Calibration
DSM410 User’s Manual 6.1.6 Speed Calibration The Airmar speed transducer speed through water (STW) initial accuracy is significantly affected by the location or placement of the speed transducer within the hull. The speed transducer can be corrected for these inaccuracies using the speed calibration procedure. You calibrate the speed ) with the “Speed Calibration…”...
Page 69: Transducer Depth Offset
Figure 33 – Airmar Temperature Transducer Water Temperature Calibration Screen 6.1.9 Transducer Depth Offset The DSM410 can set the transducer depth offset parameter in an Airmar depth 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 depth transducer.
Page 70: Trip Log
6.1.10 Trip Log The DSM410 is capable of clearing the trip log counter within an Airmar speed transducer. You zero ) with the “Trip Log:” menu item selected which results in the trip log by pressing the Enter key ( ) key while the “Reset”...
Page 71: Bennett Ep-30 (Nmea1) Trim Tabs Configuration
6.2 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 36 below, and currently has the single entry “Trim Tabs Calibration…”. Figure 36 –...
Page 72: Figure 38 - Ep-30 Intermediate Calibration Screen
DSM410 User’s Manual After you press the Accept ( ) key, a screen, shown in Figure 38 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.
Page 73: Maretron Acm100 Configuration
6.3 Maretron ACM100 Configuration This describes the configuration of the Maretron ACM100 firmware version 1.0.8.2. Figure 40 – ACM100 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.
Page 74 DSM410 User’s Manual 6.3.1.2 Current Transformer B The ACM100 with firmware revision 1.0.7 or newer supports two different types of current sensors: the 100A current sensor included with the unit and an optional 400A current sensor. This menu entry allows you to indicate which type of current sensor you have installed for phase B.
Page 75: Figure 42 - Acm100 Nmea 2000 Pgn Enable/Disable Screen
The ACM100 Alternating Current transmits a number of the NMEA2000 PGNs which can be turned on or turned off by the DSM410 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 bus.
Page 76: Ac Circuit Type
DSM410 User’s Manual 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:  Off – The PGN will not be transmitted ...
Page 77: Reset Total Energy Recorded
6.3.6 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 78: Maretron Alm100 Configuration
DSM410 User’s Manual 6.4 Maretron ALM100 Configuration This describes the configuration of the Maretron ALM100 firmware version 1.0.5. Figure 44 – ALM100 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.
Page 79: Instance
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. 6.4.1.3 NMEA2000 PGN Enable/Disable The ALM100 Annunciator Module transmits the NMEA2000 PGN #130824 which can be turned on or turned off by the DSM410 display.
Page 80: Test Annunciator
DSM410 User’s Manual 6.4.4 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 64 Revision 1.7.2...
Page 81: Maretron Clm100 Configuration
6.5 Maretron CLM100 Configuration This describes the configuration of the Maretron CLM100 firmware version 1.0.1.6. Figure 47 – CLM100 Configuration Screen 6.5.1 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.
Page 82: Advanced Configuration
The CLM100 Current Loop Monitor can transmit the NMEA2000 PGNs #65286, 127751, 130313, 130314, 130816, and 130840 which can be turned on or turned off by the DSM410 display. Only the PGN's which correspond to the configuration of the channels will be shown in this list. Pressing the Enter key with “NMEA2000 PGN Enable/Disable…”...
Page 83: Figure 50 - Clm100 Channel Configuration Screen
Figure 50 – CLM100 Channel Configuration Screen 6.5.3.1 Label A label may be assigned to each channel of the CLM100 as an aid to identifying the parameter that is being displayed. Typically this label will describe the function or location of the sensor. 6.5.3.2 Function The CLM100 can support 4-20mA current loop transducers of many different types.
Page 84: Maretron Dcm100 Configuration
The data damping is configurable between 0.1-25.0 seconds. The default data damping period is 3.0 seconds. 6.6 Maretron DCM100 Configuration This describes the configuration of the Maretron DCM100 firmware version 1.0.4. Figure 51 – DCM100 Configuration Screen Page 68...
Page 85: Advanced Configuration
See section 3.3.4 for details on how to enter a textual value. 6.6.1.4 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 DSM410 display. Pressing the Enter key with “NMEA2000 PGN Revision 1.7.2 Page 69...
Page 86: Current Sensor Zero Offset Calibration
DSM410 User’s Manual Enable/Disable…” menu item selected causes the DSM410 to display the following screen (Figure 53). Figure 53 – 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.
Page 87: Dc Type
Figure 54 – 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.
Page 88 DSM410 User’s Manual  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. 6.6.3.1 Battery Type The available battery types are ...
Page 89: Instance
6.6.3.8 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”...
Page 90: Maretron Dcr100 Configuration
DSM410 User’s Manual 6.7 Maretron DCR100 Configuration The DSM410 is capable of configuring the Maretron DCR100 DC Relay device. This section describes the configuration of the Maretron DCR100 firmware version 1.1.1. The main DCR100 configuration screen is shown below. Figure 56 – DCR100 Configuration Screen 6.7.1 Advanced Configuration...
Page 91: Figure 58 - Dcr100 Current Sensor Zero Offset Calibration Screen
Figure 58 – DCR100 Current Sensor Zero Offset Calibration Screen Press Begin to execute the calibration process or Cancel to return to the previous menu. During the calibration process, all channels will be turned off. When the calibration is complete, the following screen will be displayed.
Page 92: Device Label
This option restores all settings on the device to their factory default state. 6.7.2 Device Label This entry allows you to assign a text label to the device. This label is visible in Maretron analysis and display products and allows you to easily identify the particular device.
Page 93: Figure 61 - Dcr100 Channel Configuration Screen (Dcr Mode)
Figure 61 – DCR100 Channel Configuration Screen (DCR Mode) 6.7.4.1.1 Label This entry allows you to assign a text label to the device. This label is visible in Maretron analysis and display products and allows you to easily identify the particular device.
Page 94: Figure 62 - Dcr100 Channel Configuration Screen (Alm Mode)
Figure 62 – DCR100 Channel Configuration Screen (ALM Mode) 6.7.4.2.1 Label This entry allows you to assign a text label to the device. This label is visible in Maretron analysis and display products and allows you to easily identify the particular device.
Page 95: Maretron Dsm200 Configuration
6.8.1 Remote Device Selection ® A DSM410 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 ®...
Page 96 DSM410 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.
Page 97: Maretron Dsm150/Dsm250/Dsm410 Configuration
Figure 65 – DSM150/DSM250/DSM410 Remote Configuration Screen 6.9.1 Remote Device Selection A DSM410 unit can be used to configure a remote DSM150/DSM250/DSM410 to set which NMEA ® 2000 devices are selected for display on the remote DSM150/DSM250/DSM410 unit. In this manner, ®...
Page 98: Copy Alarms Settings From Local Display
“Display” setting. 6.9.2 Copy alarms settings from local display It is possible to copy the alarm settings from a DSM410 unit to a remotely located DSM150/DSM250/DSM410. 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.
Page 99: Copy Device Selection From Local Display
Figure 67 – DSM150/DSM250/DSM410 Copy alarms settings from local display After you select this menu item and press Enter, the alarm settings from this DSM410 unit will be copied to the selected remote DSM150/DSM250/DSM410 unit. 6.9.3 Copy device selection from local display...
Page 100: Copy Display Settings From Local Display
6.9.5 Copy favorite settings from local display It is also possible to copy the favorite screen settings from one DSM410 to a remote DSM150/DSM250/DSM410 unit. This menu item can be seen selected in Figure 70 below. Figure 70 – DSM150/DSM250/DSM410 Copy favorite settings from local display By selecting this menu item and pressing Enter, all the favorite screen settings will be copied from the local DSM150/DSM250/DSM410 to the selected remote DSM150/DSM250/DSM410 unit.
Page 101: Copy Dst100 Calibrations From Local Display
This is the single operation that makes it easy to have multiple DSM150/DSM250/DSM410 displays on a boat. Set one DSM150/DSM250/DSM410 up so that all its settings are correct, and quickly transfer all the alarms, device settings and display setting to another DSM150/DSM250/DSM410.
Page 102: Label
Figure 73 – DSM150/DSM250/DSM410all settings from local display 6.9.8 Label The Label of the DSM150/DSM250/DSM410 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.
Page 103: Figure 75 - Dsm150/Dsm250/Dsm410 Remote Device Selection
Figure 75 – DSM150/DSM250/DSM410 Remote Device Selection Revision 1.7.2 Page 87...
Page 104: Maretron Dst100 Configuration
DSM410 User’s Manual 6.10 Maretron DST100 Configuration The DSM410 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.
Page 105: Clear 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 DSM410 can correct for these inaccuracies using the speed calibration procedure. You calibrate the DSM410 for the DST100 STW by pressing the Enter ) with the “Speed Calibration…”...
Page 106: Transducer Depth Offset
DST100. The DSM410 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.
Page 107: Figure 80 - Resetting The Dst100 Trip Distance Log
“Reset” menu item is selected will complete the operation. Resetting the trip log 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 display locations). Figure 80 – Resetting the DST100 Trip Distance Log Revision 1.7.2 Page 91...
Page 108: Maretron Dst110 Configuration
DSM410 User’s Manual 6.11 Maretron DST110 Configuration The DSM410 is capable of configuring Maretron’s DST110 for several different parameters including trip log resetting, transducer depth offset, temperature calibration, and speed calibration. Figure 81 – DST110 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.
Page 109: Clear Speed Calibration
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.
Page 110: Speed Calibration
DSM410 User’s Manual 6.11.3 Speed Calibration The DST110 speed through water (STW) initial accuracy is significantly affected by the location or placement of the DST110 within the hull. The DST110 can be corrected for these inaccuracies using the speed calibration procedure. You calibrate the DST110 STW by pressing the Enter key ( ) with the “Speed Calibration…”...
Page 111: Transducer Depth Offset
DST110. The DSM410 will then add the measured depth of the water (as seen by the DST110) 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 DST110 and the bottom of the keel.
Page 112: Trip Log
(at the source). 6.11.7 Trip Log The DSM410 is capable of clearing the trip log counter within a DST110 depth/speed/temperature ) with the “Trip Log:” menu item transducer. You zero the trip log by pressing the Enter key ( selected which results in the screen shown in Figure 80.
Page 113: Maretron Ems100 Configuration
6.12 Maretron EMS100 Configuration This describes the configuration of the Maretron EMS100 firmware version 1.4.1. 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.
Page 114: Boost Pressure Sender Type
DSM410 User’s Manual must select the correct type of gauge for this setting in order for the data to be displayed correctly. Valid options are:  No Gauge – select this option if there is no boost pressure gauge present.
Page 115: Drive Trim Sender Offset
Select the required option using the Scroll Up and Scroll Down keys followed by the Enter key. 6.12.7 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.
Page 116: Water Temperature Gauge Type
DSM410 User’s Manual Select the required option using the Increase and Decrease keys followed by the Enter key. 6.12.11 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, you must select the correct type of gauge for this setting in order for the data to be displayed correctly.
Page 117: Tachometer Flywheel Teeth
6.12.15 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 with the number of flywheel teeth or alternator pulses per revolution for the engine to which the EMS100 is connected.
Page 118: Maretron Ffm100 Configuration
DSM410 User’s Manual 6.13 Maretron FFM100 Configuration The DSM410 is capable of configuring the Maretron FFM100 Fluid Flow Monitor. This describes the configuration of the Maretron FFM100 firmware version 1.1.2. Figure 90 – FFM100 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.
Page 119 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.
Page 120: Device Label
DSM410 User’s Manual Figure 92 – FFM100 NMEA 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: Off –...
Page 121: Figure 93 - Ffm100 Channel #0 First Configuration Screen (Differential Mode)
6.13.4.1 Channel #0 (Differential Mode) This section describes the Channel #0 configuration parameters when the FFM100’s operating mode has been set to “Differential”. The Channel #0 (Differential Mode) menu is too large to fit on a single screen, so it is shown in two separate screenshots below. Figure 93 –...
Page 122 6.13.4.1.9 Temperature Label Program this parameter with a text string which identifies the particular temperature parameter being monitored by this channel. Maretron display products will display this label text when you are selecting data to display. 6.13.4.1.10 Flow Instance Program this parameter to match the desired instance number of the fluid flow reading for this channel.
Page 123: Figure 95 - Ffm100 Channel #0 First Configuration Screen (Two Independent Sensors Mode)
0. 6.13.4.1.13 Volume Label Program this parameter with a text string which identifies the particular volume parameter being monitored by this channel. Maretron display products will display this label text when you are selecting data to display. 6.13.4.2 Channel #0 Configuration Menu (Two Independent Sensors Mode) This section describes the Channel #0 configuration parameters when the FFM100’s operating mode...
Page 124 DSM410 User’s Manual 6.13.4.2.1 Sensor You may select whether this channel is connected to a “3-phase” sensor (Maretron fuel flow sensors with three pulse outputs), or a “1-phase” sensor (other manufacturer’s fluid flow sensors with a single pulse output). 6.13.4.2.2...
Page 125: Channel #1
6.13.4.2.12 Flow Label Program this parameter with a text string which identifies the particular fluid flow parameter being monitored by this channel. Maretron display products will display this label text when you are selecting data to display. 6.13.4.2.13 Volume Instance Program this parameter to match the desired instance number of the volume reading for this channel.
Page 126: Figure 97 - Ffm100 Channel #1 Configuration Screen (Differential Mode)
6.13.5.1.6 Temperature Label Program this parameter with a text string which identifies the particular temperature parameter being monitored by this channel. Maretron display products will display this label text when you are selecting data to display. Page 110 Revision 1.7.2...
Page 127: Figure 98 - Ffm100 Channel #1 First Configuration Screen (Two Independent Sensors Mode)
Figure 99 – FFM100 Channel #1 Second Configuration Screen (Two Independent Sensors Mode) 6.13.5.2.1 Sensor You may select whether this channel is connected to a “3-phase” sensor (Maretron fuel flow sensors with three pulse outputs), or a “1-phase” sensor (other manufacturer’s fluid flow sensors with a single pulse output). 6.13.5.2.2...
Page 128 6.13.5.2.9 Temperature Label Program this parameter with a text string which identifies the particular temperature parameter being monitored by this channel. Maretron display products will display this label text when you are selecting data to display. 6.13.5.2.10 Fluid Type Program this parameter to match the type of fluid whose flow is being monitored.
Page 129: Maretron Fpm100 Configuration
6.13.5.2.12 Flow Label Program this parameter with a text string which identifies the particular fluid flow parameter being monitored by this channel. Maretron display products will display this label text when you are selecting data to display. 6.13.5.2.13 Volume Instance Program this parameter to match the desired instance number of the volume reading for this channel.
Page 130: Figure 101 - Fpm100 Advanced Configuration Screen
The FPM100 Fluid Pressure Module transmits a number of the NMEA2000 PGNs which can be turned on or turned off by the DSM410 display. Pressing the Enter key with “NMEA2000 PGN Enable/Disable…” menu item selected causes the DSM410 to display the following screen (Figure 102).
Page 131: Channel #0-5
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: Off – The PGN will not be transmitted On –...
Page 132: Figure 104 - Fpm100 Channel #0 Second Configuration Screen (Tank Mode)
“Tank”. 6.14.2.1.2 Label This entry allows you to assign a text label to the device. This label is visible in Maretron analysis and display products and allows you to easily identify the particular device. 6.14.2.1.3...
Page 133: Figure 105 - Fpm100 Tank Levels Calibration Menu
 Custom Calibration – use for non-rectangular tanks (also, most accurate in any case, but requires more effort)  Rectangular Tank – By inputting some dimensions of a rectangular tank, the FPM100 is able to interpolate the volume of liquid from the bottom of the tank to the surface. Figure 105 –...
Page 134: Figure 106 - Tank Levels Calibration Capacity Estimation
DSM410 User’s Manual Figure 106 – 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.
Page 135: Figure 108 - Intermediate Level Calibration
Figure 108 – 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.
Page 136: Figure 110 - Custom Tank Level Calibration Confirmation Screen
DSM410 User’s Manual Figure 110 – Custom Tank Level Calibration Confirmation Screen 1.1.1.1.1.2 Rectangular Tank This menu allows calibration of the FPM100 for tanks with a rectangular cross-section. Empty Tank Depth - enter the depth of the fluid when the tank is empty (this distance is usually zero)
Page 137: Figure 112 - Fpm100 Channel (Pressure/Vacuum Mode) Configuration
 Fuel  Fresh Water  Waste Water  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. 6.14.2.1.9 Data Damping Period If the channel’s Function is set to Tank, the default data damping period is 16.0 seconds.
Page 138: Maretron Gps100 Configuration
2.0.1 shown here. The GPS100 has several different programmable parameters that are configurable by the DSM410 display. Normally, it is not necessary to configure the GPS100 although there may be some circumstances where configuration is desirable.
Page 139: Advanced Configuration
GPSs on the network, this should be left at zero. 6.15.1.2 GPS Antenna Altitude The DSM410 is capable of setting the antenna altitude on a Maretron GPS100. You can choose this ) with the “Antenna Altitude:” menu item selected which causes setting by pressing the Enter key ( the screen shown in Figure 115 to be displayed.
Page 140: Figure 116 - Configuring Satellite Elevation Mask On A Gps100
If a three-dimensional position fix is obtainable, this value is not used. 6.15.1.3 Elevation Mask The DSM410 is capable of setting the Elevation Mask on a Maretron GPS100. You can choose this ) with the “Elevation Mask:” menu item selected which causes setting by pressing the Enter key ( the screen shown in Figure 116 to be displayed.
Page 141: Figure 117 - Configuring Pdop Mask On A Gps100
6.15.1.5 SNR Mask The DSM410 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 118.
Page 142: Figure 119 - Gps100 Nmea 2000
) keys followed by the Enter key ( 6.15.1.8 Restore Factory Defaults The DSM410 is capable of restoring all programmable settings on a Maretron GPS100 to the factory ) with the “Restore default condition. You can choose this setting by pressing the Enter key ( Factory Defaults”...
Page 143: Cold Start Gps
Figure 120 – Restoring Factory Defaults on the GPS100 6.15.2 Cold Start GPS The DSM410 is capable of restarting the GPS algorithm on a Maretron GPS100. You can choose this ) with the “Cold start GPS Engine” menu item selected which setting by pressing the Enter key ( causes the screen shown in Figure 121 to be displayed.
Page 144: Device Label
See section 3.3.4 for details on how to enter a textual value. 6.15.5 SBAS (WAAS) Enable/Disable The DSM410 is capable of enabling or disabling the SBAS (WAAS) function on a Maretron GPS Antenna/Receiver (GPS100). You can change this setting by pressing the Enter key ( ) with the “SBAS: WAAS,EGNOS,MSAS:”...
Page 145: Figure 123 - Configuring Sbas On A Gps100
Figure 123 – 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. Revision 1.7.2 Page 129...
Page 146: Maretron Gps200 Configuration
DSM410 User’s Manual 6.16 Maretron GPS200 Configuration This describes the configuration of the Maretron GPS200 firmware version 3.5.0. The GPS200 has several different programmable parameters that are configurable by the DSM410 display. Normally, it is not necessary to configure the GPS200 although there may be some circumstances where configuration is desirable.
Page 147: Figure 126 - Gps200 Nmea 2000
) keys followed by the Enter key ( 6.16.1.4 Restore Factory Defaults The DSM410 is capable of restoring all programmable settings on a Maretron GPS200 to the factory ) with the “Restore default condition. You can choose this setting by pressing the Enter key ( Factory Defaults”...
Page 148: Cold Start Gps
Figure 127 – Restoring Factory Defaults on the GPS200 6.16.2 Cold Start GPS The DSM410 is capable of restarting the GPS algorithm on a Maretron GPS200. You can choose this ) with the “Cold start GPS Engine” menu item selected which setting by pressing the Enter key ( causes the screen shown in Figure 121 to be displayed.
Page 149: Figure 129 - Configuring Sbas On A Gps200
Figure 129 – Configuring SBAS on a GPS200 The allowable option for SBAS configuration are either “Disable” which causes the GPS200 not to use SBAS satellites, or “Enable” which causes the GPS200 to use SBAS satellites for developing a position fix. Revision 1.7.2 Page 133...
Page 150: Maretron Ipg100 Configuration
DSM410 User’s Manual 6.17 Maretron IPG100 Configuration This describes the configuration of the Maretron IPG100 firmware version 3.6.0. The DSM410 is capable of configuring settings for the Internet Protocol Gateway (IPG100). A screenshot of the IPG100 configuration menus is shown in Figure 130 below.
Page 151: Figure 132 - Ipg100 N2Kserver Information Screen
® installed, for later reference. Tools such as Maretron N2KAnalyzer allow you to view these values later. The default installation description is blank text.
Page 152: Figure 133 - Ipg100 Client List Display
6.17.1.4 This entry shows a window displaying the current status of the connection to Maretron Cloud Services. Maretron Technical Support personnel may ask for the information in this window if there is a problem connecting to Maretron Cloud Services. Page 136...
Page 153: Device Label
Windows PC, or an iOS or Android smartphone or tablet. If you have an active Maretron Cloud Services account, you must change this setting to “Enable” so that the IPG100 will connect to Maretron Cloud Services. If you do not use Maretron Cloud Services, change this setting to “Disable”.
Page 154: Ip Address
If the “DHCP” parameter is set to “No”, you will need to configure this parameter. 6.18 Maretron J2K100 Configuration This describes the configuration of the Maretron J2K100 firmware version 1.0.13.2. The DSM410 is capable of configuring settings for the J1939 to NMEA 2000® Gateway (J2K100). A screenshot of the J2K100 configuration menu is shown in Figure 135 below.
Page 155: Advanced Configuration
Figure 135 – J2K100 Configuration Screen 6.18.1 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. Figure 136 –...
Page 156: Figure 137 - J2K100 J1939 Diagnostic Messages Configuration
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.
Page 157: Figure 138 - J2K100 Request Engine Hours Configuration
The J2K100 interface transmits several different messages, which can be turned on or turned off by ) with “NMEA2000 PGN Enable/Disable…” menu the DSM410 display. Pressing the Enter key ( item selected causes the DSM410 to display the following screen. Figure 139 – J2K100 NMEA 2000 ®...
Page 158: Device Label
DSM410 User’s Manual 6.18.2 Device Label A label may be assigned to the J2K100 as an aid to identifying the device over the network. See section 3.3.4 for details on how to enter a textual value. NMEA 2000 Instance – Engine 6.18.3...
Page 159: Ac/Icemaker Instance
own J2K100 Gateway. The J1939 Source Address (see section 6.18.4) identifies the transmission on the J1939 network, the Transmission Instance identifies the transmission to the NMEA2000 network. Figure 141 – J2K100 NMEA2000 Transmission Instance Configuration Use the Scroll Up ( ) or Scroll Down ( ) keys to change the value to the desired value you wish to use as the transmission instance identifier, and then press the Enter key (...
Page 160: J1939 Source Address Configuration
DSM410 User’s Manual Figure 142 – J2K100 NMEA2000 AC/Icemaker Instance Configuration Use the Scroll Up ( ) or Scroll Down ( ) keys to change the value to the desired value you wish, and then press the Enter key ( ) to accept the value and store it within the J2K100.
Page 161: Refresh J1939 Source Address List
Enter button. 6.19 Maretron NBE100 Configuration The DSM410 is capable of configuring the Maretron NBE100 Network Bus Extender. This describes the configuration of the Maretron NBE100 firmware version 1.0.0. The NBE100 configuration menu is shown in Figure 144 below.
Page 162: Maretron Raa100 Configuration
6.20 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 DSM410. The RAA100 configuration menu is shown in Figure 146 below. Page 146...
Page 163: Advanced Configuration
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.
Page 164: Label
The RAA100 Rudder Angle Adapter transmits the NMEA2000 PGN #127245 which can be turned on or turned off by the DSM410 display. Pressing the Enter key with “NMEA2000 PGN Enable/Disable…” menu item selected causes the DSM410 to display the following screen (Figure 148).
Page 165: Rudder Angle Calibration
DSM410. 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.
Page 166: Figure 151 - Raa100 Custom Rudder Angle Calibration
Enter key ( ) to confirm your selection and begin the calibration process. Figure 151 shows the DSM410 with the Custom Rudder Calibration menu item highlighted. Figure 151 – RAA100 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 (angle from center) with a protractor or other instrument.
Page 167: Figure 153 - Raa100 Center 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 the RAA100. Figure 153 shows a screenshot of the center rudder calibration screen. You may also press the Abort Key ( ) to end the calibration process.
Page 168: Rudder Number
DSM410 User’s Manual Figure 155 – RAA100 Custom Rudder Calibration Confirmation Screen 6.20.3.2 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°).
Page 169: Operating Mode
Figure 156 – RAA100: Setting the Rudder Number 6.20.5 Operating Mode The RAA100 can be operated in one of two operating modes, depending on the installation.  NMEA 2000 (the only thing that is connected to the resistive sender is the RAA100) ...
Page 170: Gauge Resistance, + To Sender
DSM410 User’s Manual 6.20.6 Gauge Resistance, + to Sender If the desired operating mode is “NMEA 2000 & 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).
Page 171: Figure 159 - Raa100: Setting The - To Sender Gauge Resistance
Figure 159 – RAA100: Setting the – to Sender Gauge Resistance Revision 1.7.2 Page 155...
Page 172: Maretron Rim100 Configuration
This describes the configuration of the Maretron RIM100 firmware version 1.1.1. The DSM410 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.
Page 173: Device Label
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.
Page 174: Instance
DSM410 User’s Manual 6.21.3 Instance From here the instance used in the data message may be set. 6.21.4 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.
Page 175: Maretron Sim100 Configuration
This describes the configuration of the Maretron SIM100 firmware version 1.1.1. The DSM410 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.
Page 176: Device Label
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.
Page 177: Instance
6.22.3 Instance From here the instance used in the data message may be set. 6.22.4 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. Figure 167 –...
Page 178: Maretron Sms100 Configuration
DSM410 User’s Manual 6.23 Maretron SMS100 Configuration This describes the configuration of the Maretron SMS100 firmware version 2.0.1.9. The display may be used to configure the Device Instance and Installation Description on the SMS (Text) Module (SMS100). After selecting the SMS100 from the list of devices on the network, the following screen will be displayed.
Page 179: Label
® installed, for later reference. Tools such as Maretron N2KAnalyzer allow you to view these values later. The default installation description is blank text. See Section 3.3.4 for details on how to enter a textual value.
Page 180: Test
 Bit Error Rate – This entry shows the bit error rate of the cellular network connection. This figure may be requested by Maretron technical support personnel. The middle section of the screen allows you to send a SMS text message to an arbitrary phone number.
Page 181: Maretron Ssc200/Ssc300 Configuration
6.24 Maretron SSC200/SSC300 Configuration This section describes the configuration of the Maretron SSC200 firmware version 5.0.3 and SSC300 firmware version 1.0. Nine configurable parameters for the Maretron SSC200/SSC300 solid state compass may be configured using the Maretron DSM410 display. The Maretron SSC200/SSC300 configuration menu can be seen in Figure 172 below.
Page 182: Figure 174 - Ssc200/Ssc300 Nmea 0183 Settings Screen
Several characteristics of the NMEA 0183 interface of the SSC200/SSC300 may be programmed using the DSM410 display. This can be used for initial programming of a SSC200/SSC300 compass even if only the NMEA 0183 interface is to be used after installation is complete. Figure 174 below shows the possible programming options for the NMEA 0183 interface.
Page 183: Figure 175 - Ssc200/Ssc300 Nmea 0183 Sentence/Rate Selection Screen
The last line in the menu enables you to program the lifetime of the variation data received by the SSC200/SSC300. In Figure 175, 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.
Page 184: Installation Offset Calibration
The SSC200/SSC300 compass transmits several different messages, which can be turned on or ) with “NMEA2000 PGN turned off by the DSM410 display. Pressing the Enter key ( Enable/Disable…” menu item selected causes the DSM410 to display the following screen. Figure 177 – SSC200/SSC300 NMEA 2000 ®...
Page 185: Inverted Installation Entry
SSC200/SSC300 can be mounted to the aft side of a bulkhead). If either of these mounting options is used, the DSM410 can be used to inform the SSC200/SSC300 of this fact so that it can adjust heading, rate or turn, pitch, and roll readings to be corrected accordingly.
Page 186: Label
6.24.5 Magnetic Deviation Calibration The DSM410 is capable of performing magnetic deviation calibration on a Maretron SSC200/SSC300 solid state compass. The Rate of Turn Offset Calibration (Section 6.24.8) should be done before the Deviation Calibration. The first screen (Figure 180) gives instructions for performing the procedure.
Page 187: Magnetic Deviation Status
The SSC200/SSC300 is capable of transmitting the rate of turn of a vessel. Different applications may require different damping for the rate of turn measurement. The DSM410 may be used to set the damping period for the rate of turn measurement to anywhere between 0.1 seconds and 60 seconds.
Page 188: Rate Of Turn Zero Offset Calibration
) with the “Rate of Turn Zero Offset Calibration…” menu item selected which the Enter key ( causes the DSM410 to display the screen shown in Figure 184. The Rate of Turn Offset Calibration should be done before the Deviation Calibration (Section 6.24.5).
Page 189: Figure 185 - Setting Variation Source To Nmea 0183 Or Nmea 2000
the SSC200/SSC300 User’s Manual for more details on the use of magnetic variation by the SSC200/SSC300 compass. By default, the SSC200/SSC300 is capable of receiving variation information on either its NMEA ® 0183 or NMEA 2000 interfaces. This causes the SSC200/SSC300 to use variation data from either ®...
Page 190: Figure 187 - Setting Variation Source To Nmea 2000 ® Only
DSM410 User’s Manual ® Figure 187 below shows the NMEA 2000 source selected. Figure 187 – Setting Variation Source to NMEA 2000 ® Only ® 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.
Page 191 WARNING: Magnetic variation changes as your location on the earth changes; therefore magnetic variation should be adjusted with changes in position. Neither the DSM410 nor the SSC200/SSC300 will make these changes automatically; they are the responsibility of the user.
Page 192: Maretron Tla100 Configuration
DSM410 User’s Manual 6.25 Maretron TLA100 Configuration Maretron TLA100 tank level adapters on the network may be configured using the DSM410. This describes the configuration of the Maretron TLA100 firmware version 1.6.15. The TLA100 configuration menu is shown in Figure 189 below.
Page 193: Label
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.
Page 194: Tank Levels Calibration
DSM410 User’s Manual 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.
Page 195: Figure 194 - Performing Custom Calibration Of The Tank Level Adapter
Figure 194 below shows a screenshot of the DSM410 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.
Page 196: Figure 195 - Tank Levels Calibration Capacity Estimation
DSM410 User’s Manual Figure 195 – 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.
Page 197: Figure 197 - Intermediate Level Calibration
Figure 197 – 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.
Page 198: Figure 199 - Custom Tank Level Calibration Confirmation Screen
DSM410 User’s Manual Figure 199 – Custom Tank Level Calibration Confirmation Screen 6.25.4.2 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)”...
Page 199: Tank Number
Figure 201 – European Standard Sender Calibration 6.25.5 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.
Page 200: Operating Mode
DSM410 User’s Manual 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.
Page 201: Gauge Resistance, + To Sender
Figure 204 – Configuring the Operating Mode 6.25.8 Gauge Resistance, + to Sender If the desired operating mode is “NMEA 2000 & 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).
Page 202: Figure 206 - Configuring The - To Sender Gauge Resistance
DSM410 User’s Manual 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 ) to move the highlight over the numerical resistance value.
Page 203: Maretron Tlm100 Configuration
6.26 Maretron TLM100 Configuration The DSM410 may be used to configure and calibrate the Tank Level Monitor (TLM100 / TLM150 / TLM200). This describes the configuration of firmware version 1.1.6. After selecting the TLM100 from the list of devices on the network, the following screen will be displayed.
Page 204: Label
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.
Page 205: Tank Levels Calibration
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 Accept key to confirm your selection.
Page 206: Figure 212 - Performing Custom Calibration Of The Tank Level Monitor
Figure 194 below shows a screenshot of the DSM410 with the Custom Calibration option highlighted. Custom calibration is necessary for non-rectangular tanks. To perform custom calibration...
Page 207: Figure 213 - Tank Levels Calibration Capacity Estimation
Figure 213 – 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.
Page 208: Figure 215 - Intermediate Level Calibration
DSM410 User’s Manual Figure 215 – 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.
Page 209: Figure 217 - Custom Tank Level Calibration Confirmation Screen
Figure 217 – Custom Tank Level Calibration Confirmation Screen 6.26.4.2 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 218 below shows this option highlighted. Use the Scroll Up ( ) or Scroll Down ( ) keys to move the highlight over this menu item, and...
Page 210: Tank Number
DSM410 User’s Manual Figure 219 – 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.
Page 211: Maretron Tmp100 Configuration
6.29 Maretron TMP100 Configuration Maretron Temperature Modules (TMP100) may be configured using the DSM410. This describes the configuration of the Maretron TMP100 firmware version 1.1.1. The top level of the TMP100 configuration menu is shown below. Figure 220 – TMP100 Configuration Screen 6.29.1...
Page 212: Channel Configuration
The TMP100 Temperature Module transmits a number of the NMEA2000 PGNs which can be turned on or turned off by the DSM410 display. For reasons of compatibility with older NMEA2000 devices, some of these PGNs are redundant; disabling these PGNs will reduce the amount of traffic bus.
Page 213: Device Label
Figure 223 – TMP100 Channel Configuration Screen 6.29.2.1 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.
Page 214: Maretron Usb100 Configuration
DSM410 User’s Manual 6.30 Maretron USB100 Configuration Maretron USB100 gateways on the network may be configured using the DSM410. This describes the configuration of the Maretron USB100 firmware version 1.8.3. The USB100 configuration menu is shown in Figure 224 below. There is one configurable item for the USB100 and that is “Remote Device Selection…”.
Page 215: Remote Device Selection
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.
Page 216: Maretron Vdr100 Configuration
“Display” setting. 6.31 Maretron VDR100 Configuration The DSM410 is capable of performing configuration of the VDR100 Vessel Data Recorder. This describes the configuration of the Maretron VDR100 firmware version 2.0.0.4. Figure 227 below shows a screenshot of the VDR100 configuration menu.
Page 217: Label
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.
Page 218: Default Gateway
If the “DHCP” parameter is set to “No”, you will need to configure this parameter. 6.32 Maretron WSO100 Configuration The DSM410 is capable of performing configuration of the WSO100 Wind/Weather Sensor. This describes the configuration of the Maretron WSO100 firmware version 2.0.13. Figure 229 below shows a screenshot of the WSO100 configuration menu.
Page 219: Figure 230 - Wso100 Advanced Configuration Screen
The WSO100 Ultrasonic Wind and Weather Station transmits a number of NMEA2000 PGNs which can be turned on or turned off by the DSM410 display. For the vast majority of installations, the factory setting is appropriate, but if it becomes necessary to disable one of the transmitted messages Revision 1.7.2...
Page 220: Device Label
WSO100, for instance, if you have a separate thermometer / humidity sensor / barometer on the network, it is possible to do so with the DSM410.Pressing the Enter key with “NMEA2000 PGN Enable/Disable…” menu item selected causes the DSM410 to display the following screen (Figure 231).
Page 221: Installation Offset Calibration
Figure 232 – WSO100 Device Label Menu 6.32.3 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).
Page 222: Figure 234 - Wso100 Configuration Aborted Due To Low Wind Speed
DSM410 User’s Manual miles/hour. If the apparent wind speed is lower than this, then an error message will appear, which is shown in Figure 234 below, and the calibration process will be aborted. Figure 234 – WSO100 Configuration Aborted Due to Low Wind Speed If the wind speed is sufficient, then a confirmation screen, shown in Figure 235 below, will appear, indicating that a successful installation offset calibration has completed.
Page 223: Wind Data Damping Period
The WSO100 comes from the factory preset with a damping period of 1.5 seconds, which should be appropriate for most applications. However, you may use the DSM410 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 ) keys to move the highlighted cursor to the “Wind Data Damping Period:”...
Page 224: Outside Humidity
DSM410 User’s Manual Figure 238 – Setting the Barometric Pressure Use the Increase and Decrease buttons to select the correct pressure, and the press the Enter button to store it. 6.32.6 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.
Page 225: Figure 240 - Setting The Outside Temperature
Figure 240 – Setting the Outside Temperature Use the Increase and Decrease buttons to select the correct temperature, and the press the Enter button to store it. Revision 1.7.2 Page 209...
Page 226: Data Display Types
DSM410 User’s Manual 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. Figure 241 – Anchor Watch Display Example The display is centered on the position at which the anchor is dropped;...
Page 227: Bar Graph
4. To exit the control mode, press the “Lights” key to return to normal operating mode. The highlight will disappear. 7.2 Bar Graph The bar graph display shows a parameter on a vertical bar graph with ten segments. The numeric value of the parameter is shown above the bar graph.
Page 228: Figure 244 - Compass Rose (North Up) Display
DSM410 User’s Manual Figure 244 – Compass Rose (North Up) Display Page 212 Revision 1.7.2...
Page 229: Date
7.4 Date The date display shows a date. The format of the date shown can be set using the “Units…” menu (please refer to 5.2.7.13 for details on how to set the date format). A full-screen of a date display can be seen in Figure 245 below.
Page 230: Gauge Display
DSM410 User’s Manual 7.6 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 247 below.
Page 231: Gps Status Display
7.7 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) ...
Page 232: Half Gauge Display
Figure 250 – Half Gauge Display Example 7.9 Indicator Light The DSM410 is capable of displaying the state of binary (ON/OFF) sensors on the network with an indicator light display that emulates a status light on a control panel. The display may be set up in several different configurations: ...
Page 233: Figure 251 - Configuration Of Indicator Light Display
Figure 251 – Configuration of Indicator Light Display The maximum number of indicator lights you can have on a single screen is 16 (the “4 Quarters” format, with all four windows set to use the “4 rows” or “2 rows, 2 column” indicator light configurations.
Page 234: Numeric Display
DSM410 User’s Manual Figure 253 – Configuration of an Individual Indicator Light Each indicator light has several configurable parameters:  Color-Off – select the color to be displayed when the indicator is in the OFF state. The default color is gray.
Page 235: Figure 254 - Numeric Display Example
Figure 254 – 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. Revision 1.7.2 Page 219...
Page 236: Numeric/Precision
The bottom right hand corner shows the units. 7.12 Rolling Road The DSM410 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.
Page 237: Figure 256 - Configuration Of Rolling Road Display
Figure 256 – Configuration of Rolling Road Display The following data items may be displayed on the rolling road display:  COG (Course Over Ground)  SOG (Speed Over Ground)  BTW (Bearing to Waypoint)  DTW (Distance to Waypoint) ...
Page 238: Line Graph
DSM410 User’s Manual Figure 257 – Rolling Road Display 7.13 Line Graph The line graph display shows the value of a parameter displayed on the horizontal axis versus time on the vertical axis. Figure 258 below shows the line graph display for barometric pressure over a time period of one day.
Page 239: Time (Hh:mm)
Figure 259 – SMS Status Display 7.15 Time (hh:mm) The Time (hm:mm) display shows a time value in an hours and minutes format. Figure 260 below shows an example of this type of display. Figure 260 – Time (hh:mm) Display 7.16 Time (hh:mm:ss) The Time (hm:mm:ss) display shows a time value in an hours, minutes, and seconds format.
Page 240: Vdr Status
Figure 262 – VDR Status Display 7.18 Weather Display The DSM410 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 263 below. Page 224...
Page 241: Figure 263 - Weather Display
Figure 263 – Weather Display 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 ...
Page 242: Wind Rose
Figure 264 – Wind Rose Display 7.20 Moon Phase Display The DSM410 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 265 below.
Page 243: Trim Tabs Bar Graph Display
7.22 Trim Tabs Bar Graph Display The DSM410 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 267 below.
Page 244: Tank Gauge Display
7.24 Tank Gauge Display The DSM410 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 269 below.
Page 245: Switch/Breaker Display
Figure 270 – Watermaker Status Display 7.26 Switch/Breaker Display The DSM410 is capable of controlling loads controlled by a Maretron DCR100 DC Relay, a Carling ® OctoPlex AC Box or DC Box, or other NMEA 2000 load controller which uses NMEA Command of the 127501 Binary Switch Bank Status PGN for control.
Page 246: Figure 272 - Selection Of An Individual Switch/Breaker
DSM410 User’s Manual The maximum number of switches/breakers you can have on a single screen is 16 (the “4 Quarters” format, with all four windows set to use the “4 rows” or “2 rows, 2 column” switch/breaker configurations. In order to configure the individual switch/breaker controls, press the “Enter” key with the selected type highlighted to display a menu with entries for each switch/breaker in the window being configured, as shown in Figure 272 below.
Page 247  Restore Factory Defaults – This restores the switch/breaker to factory default settings. In order to control a switch/breaker using the DSM410, create a screen with a switch/breaker which has been configured to refer to the switch bank instance and indicator number of the switch/breaker you want to control.
Page 248: Figure 274 - Favorite Screen Showing Highlighted Switch/Breaker
DSM410 User’s Manual Figure 274 – Favorite Screen Showing Highlighted Switch/Breaker Page 232 Revision 1.7.2...
Page 249: Alerts
An Alert Monitor, the DSM410 monitors the bus for Alert messages from Alert Sources, and displays the remote Alert information on the DSM410’s screen. Operators may accept or cancel the remote Alerts from the buttons on the front of the DSM410, in which case an Alert Command Message is sent back to the Alert Source.
Page 250: Accepting Or Cancelling An Alert
DSM410 User’s Manual Figure 276 – Alert Status Screen 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.
Page 251: Adding An Alert
Figure 278 – The Alert Detail Screen 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.
Page 252: Enable/Disable Control
DSM410 User’s Manual Figure 280 – 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 disable an Alert must be made very carefully, as it nullifies the purpose for having alerts.
Page 253: Trigger Source
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 DSM410 and transmitted to Alert Slave devices. It is intended to describe the alert (e.g. Fire).
Page 254: Figure 281 - High Alert Parameters
DSM410 User’s Manual Figure 281 – 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.
Page 255: Figure 282 - Trigger Configuration - High Alert
Figure 282 – 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.
Page 256: Figure 283 - Low Alert Parameters
DSM410 User’s Manual Figure 283 – 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.
Page 257: Figure 284 - Trigger Configuration - Low Alert
Figure 284 – 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.
Page 258: Figure 285 - Trigger Configuration - Data Unavailable Alert
DSM410 User’s Manual Figure 285 – 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”...
Page 259: Figure 286 - Trigger Configuration - On Alert
8.3.7.4.1 Trigger Configuration Figure 286 – Trigger Configuration – On 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”...
Page 260: Figure 287 - Trigger Configuration - Off Alert
DSM410 User’s Manual 8.3.7.5.1 Trigger Configuration Figure 287 – Trigger Configuration – Off 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”...
Page 261: Figure 288 - Trigger Configuration Editor - Tripped Alert
Figure 288 – Trigger Configuration Editor – Tripped 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”...
Page 262: Figure 289 - Outside Alert Parameters
DSM410 User’s Manual Figure 289 – Outside Alert Parameters 8.3.7.7.2 Trigger Configuration – Outside Radius Alert Figure 290 – 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.
Page 263: Figure 291 - Trigger Configuration - Inside Radius Alert
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 –...
Page 264 DSM410 User’s Manual 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.
Page 265: Figure 292 - Trigger Configuration - Gps Quality Alert
Trigger Configuration – GPS Quality Alert 8.3.7.10.1 Figure 292 – 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”...
Page 266: Figure 293 - Direction Alert Parameters
DSM410 User’s Manual Figure 293 – Direction Alert Parameters Trigger Configuration – Direction Alert 8.3.7.11.1 Figure 294 – 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”...
Page 267: Local Audible
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 DSM410 will be activated when this Alert is triggered. Revision 1.7.2...
Page 268: Tone
8.3.9 Tone If Local Audible is enabled, the tone that is sounded on the DSM410 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.
Page 269: Sms (Text) Settings
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. SMS (Text) Settings… 8.3.11 For each alert, you may select up to three phone numbers from the phone book to send an alert message to.
Page 270: Operating Mode Moored
8.3.15 Scope Alerts may be constrained to be displayed only on the DSM410 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.
Page 271: Deleting An Alert
From the Alert Setup Menu, select the menu item Delete Alert… . Figure 299 – Deleting an Alert This brings up the list of Alerts managed by the DSM410. Figure 300 – Deleting Alert List 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.
Page 272: Editing An Alert
DSM410 User’s Manual A confirmation message is displayed. Figure 301 – Deleting an Alert: Confirmation 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, select the menu item Edit Alert…...
Page 273: Setting The Vessel Operating Mode
8.6 Setting the Vessel Operating Mode The Vessel Operating Mode must be set on each DSM410. 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 DSM410 will warn the operator about these Alerts to minimize the risk.
Page 274: Sms (Text) Phone Book
8.7 SMS (Text) Phone Book The display is able to transmit SMS (text) messages via a Maretron SMS100 SMS (Text) Module in the event of an alert. This menu allows you to program up to eight different phone numbers to which the display will send alert messages.
Page 275: Figure 305 - Editing The Sms (Text) Phone Book
Figure 305 – Editing the SMS (Text) Phone Book Once you have pressed “Enter”, the screen will change to display the SMS (Text) Phone Book, as shown in the figure below: Figure 306 – SMS (Text) Phone Book Screen To edit a number in the phone book, press Scroll Up and Scroll Down until the desired entry is highlighted, and then press Enter.
Page 276: Figure 307 - Phone Number Editing
DSM410 User’s Manual Figure 307 – Phone Number Editing See Section 3.3.4 for details on editing the phone number. Starting the phone number with the international “+” prefix will allow the number to work regardless of what country the phone’s SIM card phone number is registered in.
Page 277: Advanced Configuration
Figure 309 – SMS Phone Book Test Message Popup Press “Yes” to send a test message, or press “No” to skip sending the test message. You will be returned to the “SMS (Text) Phone Book…” screen. Once you have created all of the phone book entries you need, press the “Back” key to exit the “SMS (Text) Phone Book…”...
Page 278: Remote Alert Audible
 Disable 8.8.2 Flashing Screen As an extra means to gain the operator’s attention to an Active Alert, the DSM410 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.
Page 279: Maintenance
 Clean the unit with a soft cloth. Do not use chemical cleaners as they may remove paint or markings or may corrode the DSM410 enclosure or seals. Do not use any cleaners containing acetone, as they will deteriorate the plastic enclosure.
Page 280: Troubleshooting
DSM410 will expose the sensitive electronic components to adverse environmental conditions that may render the unit inoperative. Please do not open the DSM410, as this will automatically void the warranty. If service is required, please return the unit to an authorized Maretron service location.
Page 281: Technical Specifications
11 Technical Specifications Specifications Parameter Value Comment ® NMEA 2000 DeviceNet Micro-C Connector Display Technology Active Matrix TFT LCD Sunlight Readable Display Resolution 320 x 240 Pixels QVGA Resolution 4.1” Diagonal Display Viewable Area 82.56mm W x 61.92mm H Display Backlighting 3 User-Programmed Levels 0-100% Body Construction Anodized Aluminum...
Page 282 DSM410 User’s Manual Fuel Management Distance to Empty, Time to Empty, Total Fuel Capacity, Total Fuel Level, Total Fuel Consumption, Total Trip Fuel Used, Total Fuel Economy, Total Fuel Rate, Total Fuel Remaining COG, Lat/Lon, SOG, DOP, Satellites, Time, Accuracy...
Page 283 Gen. Phase A AC Basic Quantities 65028 Gen. Total AC Reactive Power 65029 Gen. Total AC Power 065030 Generator Average Basic AC Quantities 065282 Number of Channels (Maretron) 065284 DC Breaker Current (Maretron) 065286 Fluid Flow Rate (Maretron) 065287 Trip Volume (Maretron) 126992...
Page 284 Alert Text (Maretron) 130822 Alert Control (Maretron) 130823 Temperature, High Range (Maretron) 130824 Annunciator (Maretron) 130825 Data Instance/Chan Correlation (Maretron) N/A 130826 Switch Indicator Status (Maretron) 130828 Dometic HVAC Status (Maretron) 130829 Dometic Icemaker Status (Maretron) 130833 Vessel Data Recorder Status (Maretron)
Page 285 130837 Switch Status Timer (Maretron) 130840 Generic Sensor (Maretron) Electrical Parameter Value Comment Operating Voltage 9 to 30 Volts DC Voltage Power Consumption (Maximum) 250mA ® Load Equivalence Number (LEN) NMEA 2000 Spec. (1LEN = 50 mA) Reverse Battery Protection...
Page 286: Technical Support
DSM410 User’s Manual 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.
Page 287: Installation Template
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. 100mm (3.94”) Drill x 4 1.2mm (3/64”) wood screw 3.4mm (1/8”) machine screw 93mm (3.66”) 100mm (3.94”) 114mm (4.49”)
Page 288: Maretron (2 Year) Limited Warranty
DSM410 User’s Manual 14 Maretron (2 Year) Limited Warranty Maretron warrants the DSM410 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...
Page 289 Warranty Return Procedure: To apply for warranty claims, contact Maretron or one of its dealers to describe the problem and determine the appropriate course of action. If a return is necessary, place the product in its original packaging together with proof of purchase and send to an Authorized Maretron Service Location. You are responsible for all shipping and insurance charges.

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