auto maskin Marine Pro 400 Series Configuration Manual
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auto maskin Marine Pro 400 Series Configuration Manual

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DCU 410E Engine Controller, P/N 1006445
DCU 408E Engine Controller, P/N 1006510
DCU 210E Engine Controller, P/N 1006475
DCU 208E Engine Controller, P/N 1006477
Configuration Manual
Publication P/N 1006423
400 Series / 200 Series
RP 410E Remote Panel, P/N 1006446
RP 210E Remote Panel, P/N 1006476
RP 220E Remote Panel, P/N 1006472
RP 206E Remote Panel, P/N 1006478

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Summary of Contents for auto maskin Marine Pro 400 Series

  • Page 1 Publication P/N 1006423 Configuration Manual 400 Series / 200 Series DCU 410E Engine Controller, P/N 1006445 RP 410E Remote Panel, P/N 1006446 DCU 408E Engine Controller, P/N 1006510 RP 210E Remote Panel, P/N 1006476 DCU 210E Engine Controller, P/N 1006475 RP 220E Remote Panel, P/N 1006472 DCU 208E Engine Controller, P/N 1006477 RP 206E Remote Panel, P/N 1006478...

  • Page 2: Table Of Contents

    Table of content 3.1.1 Access Control Levels 3.2 File 1 Preface 3.2.1 Load any File 1.1 About this Manual 3.2.1.1 Factory Default 1.2 Responsibilities 3.2.1.2 User Uploaded 1.3 Revisions 3.2.2 Delete Configuration File 1.4 Trademarks 3.2.3 Configuration Printout 2 Configuration 3.2.4 Save File as 2.1 Configuration &...
  • Page 3 4.3.4.5 Clutch Pressure 4.4.6.1 J1939 4.3.4.6 Thrustbearing 5 User Interface Temperature 5.1 Configuration 4.3.4.7 Shaft Speed 5.2 Pages 4.3.5 Switch 5.3 Flow Charts 4.3.6 4-20 mA 5.4 RP Home View Configuration 4.3.7 PT100 5.5 Controls 4.3.8 Temperature Sensor 5.6 Shortcuts 4.3.9 Voltage sensor 5.7 Language 4.3.10 24V Input Functions...
  • Page 4 8.6 Operation Mode Configuration 80 11.2.2 DCU Alarms 11.2.3 DCU Acknowledge 8.7 Event Log 11.2.4 IP Address 8.8 Override Configuration 11.2.5 Cameras 8.9 System Voltage Configuration 11.2.6 Station Location 8.10 Sea Trial 11.2.7 Functional Inputs 8.11 Custom Version Text 11.2.8 Functional Outputs 8.12 Factory Reset 11.2.9 Change Password 9 Communication Interface List...

  • Page 5: Preface

    1 Preface 1.1 About this Manual This manual has been published primarily for professionals and qualified personnel. The user of this material is assumed to have basic knowledge in marine systems, and must be able to carry out related electrical work. Work on the low-voltage circuit should only be carried out by qualified and experienced personnel.

  • Page 6: Configuration & Firmware Files

    2.1 Configuration & Firmware Files The DCU may be configured in one of the following three ways. 1. DCU Web Server Configuration Interface 2. DCU User Interface Manu 3. USB Memory Interface 2.1.1 DCU Web Server Configuration Interface The DCU has a built-in web server, offering access to full configuration of the DCU. This is the primary configuration interface.

  • Page 7: Configuration Files

    2.1.3.1 Configuration Files If the USB memory stick contains configuration files, they will be listed here. The configuration filename can only contain the following characters: ● A-z ● A-Z ● 0-9 ● “_” (underscore) ● “-“ (hyphen) The DCU 408E/208E does not have a screen interface and hence this method does not work on that unit.

  • Page 8: Firmware Files

    Insert USB memory stick, select a file, and then select USE to copy and activate this configuration file. 2.1.3.2 Firmware Files The USB memory can be used to copy a new firmware to the DCU and also any connected If upgrading both the DCU and the RP firmware, then make sure to upgrade the RP firmware first! 2.1.3.3 Copy Configuration File or Event Log This function copies the current configuration file and/or the event log to the USB memory...

  • Page 9: Further Connection Settings

    2.2.2 Further Connection Settings 2.2.2.1 Change the IP address of the DCU If necessary, the IP address of the DCU can easily be changed. The last two digits in the IP address becomes the engine number. becomes ​ E ngine #4 Example: IP address 192.168.0.​...

  • Page 10: Connection To A Lan Using Fixed Ip Addresses

    If for instance the LANs subnet is 192.168.230 and the DHCP’s IP address range is set to 50 – 210, valid IP addresses of the DCU would be for instance 192.168.230.211, 192.168.230.7 or 192.168.230.231. Do not use the DCU built-in DHCP-server (the Menu / Connect a PC… menu entry) in a LAN with its own DHCP server, since two DHCP servers in the same LAN may create conflicting IP addresses.

  • Page 11: Dcu

    The Home screen lists the following menu items. 2.3.1 DCU This is the top level menu for the entire DCU configuration. All configuration performed, except password and network configuration, is stored in the portable configuration file within the DCU. 2.3.2 RIO This is the top level menu for the optional expansion I/O modules, the RIO modules.

  • Page 12: Troubleshooting

    2.3.7 Troubleshooting The troubleshooting section makes it possible to troubleshoot I/O and communication on the DCU, and also the RIO units. The following can be verified for the DCU: ● Supplies ● Switch inputs ● 4-20 mA inputs ● PT100 inputs ●...

  • Page 13: Access Control

    3.1 Access Control The DCU configuration is protected with a PIN code. Select this option to change the PIN code. First, type in the old PIN, and then the new PIN twice. If the PIN is unknown or forgotten, then find the encrypted code and send this to service@auto-maskin.com to obtain the correct PIN.

  • Page 14: Save File As

    3.2.4 Save File as This saves the current configuration of the DCU into a file. The default file extension is .cfg. 3.2.5 Save CANopen EDS-file DCU 410E/408E only. This saves the CANopen I/O electrical datasheet to a file on your PC. 3.2.6 Upload to DCU Uploaded files are files transferred to the DCU.

  • Page 15: Engine Model

    3.6 Engine Model home / dcu / engine model The default name is “Engine”. Name the engine better, for example “Auxiliary” or “Doris”. The last two digits in the DCU IP address becomes the engine number. If the IP address is 192.168.0.110, then the engine in this example is named “Auxiliary #10”.

  • Page 16: Communication

    home / dcu / service interval / configure Service Enabled​ selects whether the service interval timer is active or not. Next Service At​ selects the hour counter value in the DCU for the first service. Note that this happens only one time. This is useful if the first service should have a shorter interval than the regular service interval.

  • Page 17: Miscellaneous

    3.9 Miscellaneous Described in a separate chapter. 3.10 Language See Language description in the User Interface chapter. This section is identical. 4 I/O Configuration The I/O section holds menu items for input and output channels. Input channels are sensors going in to the DCU (eg. Switch Input, 4-20 mA Input) and output channels are sensors being controlled by the DCU (eg.
  • Page 18 DCU + Event RP + Event DCU + RP DCU + RP + Event Silent Event DCU + Silent Event RP + Silent Event DCU + RP + Silent Event Sea Trial Only Select ​ N ot in use​ if the channel shall be disabled. Select ​...

  • Page 19: Common Configuration For Switch Channels

    4.1.1 Common Configuration for Switch Channels Any switch input channel can be configured to either be used as a configurable input function, or as an ordinary channel. If a function is configured, the DCU will automatically disable the ordinary channel use.
  • Page 20 Automatic Start 210E only. Panel will commence the start sequence. Requires Automatic mode. Automatic Stop 210E only. Panel will commence the stop sequence. Requires Automatic mode. Automatic Start/Stop Panel will commence start when active, and commence stop when inactive. Requires Automatic mode.
  • Page 21 Alarming The Alarming section configures how the switch channel will generate events. Event​ can either be ​ W , ​ A , ​ L oad or ​ S arning​ larm​ Reduction​ hutdown​ . If any type of event (Event or Silent Event) was selected under Channel Use, then select the event severity here. If ​...

  • Page 22: Common Configuration For Analog Channels

    4.1.2 Common Configuration for Analog Channels Active Sensor Range The active sensor range section is only available for 4-20 mA inputs and voltage sensor inputs. Sensor Range Min​ and ​ S ensor Range Max​ select the high and low limits for the sensor, meaning values outside the value sensor range will be determined as out of range.
  • Page 23 Display Major Divider​ selects the desired major divisions in the instrument, for US and Metric values. The major divider number is displayed at each major divider. Display Minor Divider​ selects the desired minor divisions in the instrument, for US and Metric values.

  • Page 24: Flexible I/O

    Event​ selects the desired combination of warning, alarm and shutdown. Select “RPM dependent” for a setpoint that varies with RPM, and complete the boxes. The event threshold (​ W arning Threshold​ , ​ A larm Threshold​ etc) settings contain the event threshold value, in the correct units.

  • Page 25: Config Inputs

    ● 24VDC Supply ● 0VDC ● Switch Input ● Configurable Output ● 4-20mA sensor ● Voltage sensor ● 5V (#6) ● J1939#2 (#20 and #21) Making changes to the flexible I/O configuration may result in damage to sensors connected to the panel. It is recommended to disconnect all sensors from the panel before making changes.
  • Page 26 home / dcu / i/o configuration / engine speed Source The Engine Speed is constructed by reading data from up to five sources simultaneously. These sources are prioritized by the DCU. As long as the ​ R PM Primary Source​ is functional, it is used to form the actual Engine Speed.
  • Page 27 Source DCU 410E/408E DCU 210E/208E J1939 #1 J1939 CAN bus connected to terminals J1939 CANbus connected to terminals 49-51 (COM 4) C1.7-8. J1939 #2 J1939 CAN bus connected to terminals J1939 CANbus #2 connected to Flexible 47-48 (COM5) I/O #20-#21. Magnetic pickup locally connected to Magnetic pickup locally connected to DCU, terminal 44 and 45...

  • Page 28: Individual Speed Sensors

    4.3.2 Individual Speed Sensors Note that any speed signal can be configured here, and that this is treated separately from the Engine Speed channel configured above. By configuring these sensors it is possible to view the current RPM from an individual speed sensor as opposed to the standard Engine Speed sensor that acts on many inputs at once.

  • Page 29: Transmission

    home / dcu / i/o configuration / engine load In order to configure engine load, the DCU requires to have at least one analog channel (4-20 mA, 0-5 V input or J1939) with a Sensor Unit of Percent. For electronic engines this can typically be J1939 PGN 0XF003, SPN 92.
  • Page 30 home / dcu / i/o configuration / transmission / gear Gear Source Gear Source configures the source for the gear information in the DCU. It can be any of the following. ● In Gear Switch (T95 on DCU 410E, configurable on DCU 210E) ●...

  • Page 31: Interlock/Indications

    4.3.4.2 Interlock/Indications home / dcu / i/o configuration / transmission / interlocks All of the interlocks and indications are used in conjunction with Gear Control. Configure the source for each interlock / indication. The sources must be an enabled switch input. 4.3.4.3 Clutch Slip Clutch Slip, if enabled, can be configured to all analog widgets in pages.

  • Page 32: Clutch Slip

    home / dcu / i/o configuration / transmission / clutch slip Source Clutch Slip Source​ configures the source for the clutch slip signal. It can be configured to the following. ● J1939: Percent Clutch Slip Uses the pre-calculated sensor from J1939. ●...

  • Page 33: Clutch Temperature

    4.3.4.4 Clutch Temperature home / dcu / i/o configuration / transmission / clutch temperature Source Clutch Temperature Source​ configures the source channel for the Clutch Temperature. The rest of the configuration follows common analog channel configuration. 4.3.4.5 Clutch Pressure Similar to Clutch Temperature configuration. 4.3.4.6 Thrustbearing Temperature Similar to Clutch Temperature configuration.
  • Page 34 home / dcu / i/o configuration / transmission / shaft speed The Shaft Speed channel is configured as any standard analog channel, with the exception of the Source section which is described here. Source Shaft Speed Source​ sets the source for the Shaft Speed channel. Use “Gear”​...
  • Page 35 4.3.5 Switch home / dcu / i/o configuration / switch The switch input channels are configured as any standard switch channel. 4.3.6 4-20 mA home / dcu / i/o configuration / 4-20 mA The 4-20 mA input channels are configured as any standard analog channel. Page 35 (99)
  • Page 36 4.3.7 PT100 DCU 410E/408E only. home / dcu / i/o configuration / pt100 The PT100 input channels are configured as any standard analog channel. 4.3.8 Temperature Sensor DCU 210E/208E only. Page 36 (99)
  • Page 37 home / dcu / i/o configuration / temperature sensor The Temperature Sensor channels are configured as any standard analog channel, with the exception of the Sensor Type in the Sensor section which is described here. Sensor Sensor Type​ sets the type of sensor used. This is typically PT100. Page 37 (99)
  • Page 38 4.3.9 Voltage sensor home / dcu / i/o configuration / voltage sensor The voltage sensor channels are configured as any standard analog channel. For DCU 210E/208E, flexible I/O #6 (C3.1) can be configured as supply for 0 - 5 V sensors.
  • Page 39 home / dcu / i/o configuration / 24v input functions The input functions are configured as the Function part of any standard switch channel. The available functions are listed in that chapter as well. These are configurable input functions only, and not available for standard switch input channel configuration.
  • Page 40 4.3.11.1 Configuration home / dcu / i/o configuration / j1939 / configuration It is possible to configure a 32 samples mean filter for the SPNs listed above. 4.3.11.2 Node Signals The node signals makes it possible to configure a SPN from an individual J1939 node. home / dcu / i/o configuration / j1939 / node signal Source Once a ​...
  • Page 41 home / dcu / i/o configuration / differential General Select ​ D iff Source Signal #1​ and ​ D iff Source Signal #2​ . The sensor unit must be the same for the two selected source signals, for instance they must both be bar, and not one bar and one psi.
  • Page 42 home / dcu / i/o configuration / average / average signal Once a ​ S ensor Unit​ is selected, all enabled channels with that sensor unit are selectable for the average signal. home / dcu / i/o configuration / average / average signal Source Signals Selects the signals to be included in the average channel.
  • Page 43 4.3.13.2 Deviation Configuration Configures the deviation from average for all channels included in the average channel. Page 43 (99)
  • Page 44 home / dcu / i/o configuration / average / deviation configuration 4.3.13.3 Exclude From Average If any of the included average channels shall be excluded from the average calculation, this can be configured here. 4.3.13.4 Naming If any deviation events are configured for the average channel, the custom name of the individual deviation channel can be configured here.
  • Page 45 home / dcu / i/o configuration / special / input voltage The Input Voltage channel is configured as any standard analog channel. 4.3.14.2 Calculated Fuel Rate The DCU can calculate the fuel consumption and present an approximate figure. Page 45 (99)
  • Page 46 home / dcu / i/o configuration / special / calc. fuel rate Calculation Configuration Enabled​ sets if the calculated consumption should be enabled or not. The Boost Pressure MUST be connected to 4-20 mA channel #2. The channel is configured as any standard analog channel. 4.3.14.3 Calculated Engine Hours If the engine hours are not sourced from the J1939 CAN bus, it is being calculated internally by the DCU.
  • Page 47 home / dcu / i/o configuration / special / instantaneous fuel economy General Inst Fuel Rate Signal​ selects the instantaneous fuel rate channel. Vessel Speed Signal​ selects the vessel speed channel. Once both are selected, the instantaneous fuel economy channel is configured as any standard analog channel.
  • Page 48 The Modbus Watchdog can be used to detect loss of communication to an external device. 4.3.17 EGT (Exhaust Gas Temperature) 4.3.17.1 Cylinder Deviation Event The deviation is the difference between the cylinder value and the average value. Deviation is positive (above zero) if the cylinder value is above the average, and negative (below zero) if the cylinder value is below the average.
  • Page 49 home / dcu / i/o configuration / logic signal The logical signal has a Logic Statement attached to it which defines the logic signal. The Logic Statement can consist of up to 20 lines of Boolean algebra. <line> = <value> <operator> <value> Each line of the Logic Statement can utilize AND, OR, or NOT operators.
  • Page 50 The ​ h ighlighted​ functions are the most Awaiting run state Panel finished cranking typically being used. and is waiting for the engine to spin up Function Name Description Running state Engine is running Acknowledge The acknowledge button Crank delay state Crank rest time between button is activated...
  • Page 51 Service Interval One of the configured In Gear In gear service intervals are due On Secondary Panel is running on Engine Protection The panel is in shutdown Supply secondary supply Override override state, and New Alarm Pulse Whenever a new event shutdown channels are appears in the alarm list, now alarming only.
  • Page 52 Crank#2 Secondary crank Delayed Shutdown Shutdown is imminent Imminent Prelube Failed Prelube failed SDU Acknowledge Pulse when SDU event is J1939 DM1 Amber DM1 Amber Lamp in acknowledged Lamp alarm list Event Indicator Event indicator J1939 DM1 Red DM1 Red Lamp in alarm Lamp list DM1 Function...
  • Page 53 4.4.4 Speed Relays A Speed Relay is a relay that activates on a certain engine speed RPM, and deactivates at below the same RPM. home / dcu / i/o configuration / speed relays For instance, speed relay #1 can be configured to activate at 1200 RPM, and will then deactivate at 1199 RPM.
  • Page 54 When a DM1 function is configured, for instance SPN 91, FMI 3, it can be assigned to any output. DM1 Functions are active if the DM1 is active or unacknowledged in the DCU. 4.4.6 J1939 Outputs The DCU has a variety of predefined messages available to be transmitted over J1939. home / dcu / i/o configuration / j1939 outputs Transmit J1939 On Idle Bus​...
  • Page 55 The channels presented must be enabled and of the same quantity. Otherwise, they will not show up in the list. 5 User Interface In this section aspects of the operator user interface is defined. home / dcu / user interface 5.1 Configuration Changes done in configuration will apply globally.
  • Page 56 Show Gear indicator Instead Of All Ok​ should only be set to yes if “ahead/astern” switches are used. This will enable an arrow in the upper right corner of the screen displaying gear position. Pages Show Page Name Popup​ configures the page number and potential naming to be shown for a brief period of time when switching pages.
  • Page 57 Digital channels can be assigned to the following widgets. Value Widgets Event Widgets Enumerable channels can be assigned to the following widgets. Value Widgets Event Widgets Gear channel can be assigned to the following widgets. Value Widgets Event Widget Page 57 (99)
  • Page 58 home / dcu / user interface / pages In the example above, two pages are already created. Click on a page to select it, for instance click on Page 1. Page Details In the picture below, Page 1 is selected. As can be seen above, ​...
  • Page 59 To add a signal to a slot position, select the drop-down list for the desired slot, then select the signal from the selection of available signals. Only signals that have been configured for use are visible in the drop-down list. Edit a Signal Click on the Edit Signal link to edit the signal.
  • Page 60 home / dcu / user interface / controls Aftertreatment Aftertreatment system control, SPN 8148, and operating mode, SPN 9175, can be controlled by DCU if configured. Enable Aftertreatment System Control​ enables the transmission of SPN 8148. If enabled the operator can toggle this in the DCU interface, under Controls. If ​ A ftertreatment System Control in Local Mode​...
  • Page 61 The Gear Control form can be configured as a Shortcut. The Gear Control form is highly dependent on how the Transmission section in Config Inputs under I/O Configuration is configured. The “Gear” widget displays current gear status according to the Gear Source for the Transmission Input.
  • Page 62 5.6 Shortcuts This section allows overriding of the default functions connected to the four soft buttons while in looking at data pages. The following shortcuts are available for configuration. Shortcut Function None No function. Language Show the language selection form. Backlight Show the backlight selection form.
  • Page 63 home / dcu / language 5.7.1 All Signals Press All Signals to display all signals available in the DCU. home / dcu / language / all signals The page displays three columns of signal text. The first column is the English Default text, the second column is the currently selected language (for example English), and the third column is a selectable language in the web interface.
  • Page 64 home / dcu / language / enabled signals only 5.7.3 Service home / dcu / language / service The four Service intervals will indicate with a text. The default text can be changed. As above, press the [default] text to change the default text. 5.7.4 Built-in Events All internal events that can be generated can be customized to a different name.
  • Page 65 home / dcu / language / built-in events The only place where the text is shown is in the alarm list. 5.8 Buzzer Automatic Buzzer Off is a function that may be used during the configuration phase of a DCU. When active, any new event that triggers the Buzzer, will be automatically silenced by the DCU.
  • Page 66 6.1 Settings home / dcu / start/stop/prelube / settings General Page 66 (99)
  • Page 67 DCU Engine Start/Stop Control The DCU Engine Start/Stop Control can be configured to three different modes. ● Exclusive​ , the DCU has exclusive control of the engine start/stop. Warnings will be given for unexpected state changes. ● Shared​ , the DCU has shared control of the engine start/stop. No warnings will be given for unexpected state changes.
  • Page 68 Allow Automatic Start/Stop in All Operation Mode​ should in virtually all installations be set to . If the setting is ​ Y No​ es​ , automatic start/stop will work in any mode of operation. Prohibit Crank Above RPM Threshold​ selects if the DCU should prohibit crank if engine is turning.
  • Page 69 Oscillating Prelube​ enables the oscillating prelube. Oscillating On Time​ sets the number of seconds the DCU shall lubricate the engine. Typical setting is 60 seconds. Oscillating Off Time​ sets the number of minutes between each lubrication action. Typical setting is 60 minutes. Oscillating Feedback​...
  • Page 70 Automatic Start The DCU can start the engine automatically. In order for an automatic start to begin the DCU must be in automatic mode, and an automatic start request must be initiated (for instance terminal 89 on DCU 410E). Initial Start Delay​ sets the time before the first start attempt is performed when an automatic start attempt is initiated.
  • Page 71 If the Secondary Starter is enabled, a 2nd crank output needs to be configured on an output. Cranking Time​ and ​ D elay Between Start Attempts​ are the same as for Starter 1. When Starter 2 is enabled, start modes can be selected under the General section. Automatic Stop The DCU can stop the engine automatically.
  • Page 72 home / dcu / communication 7.1 Network Configuration Set the IP address, netmask and gateway for the DCU. The default values are as follows: ● IP address: 192.168.0.101 ● Netmask: 255.255.255.0 ● Gateway: 192.168.0.1 Make ​ s ure ​ t he IP address is unique on the network. If installing the DCU in an already established ship Ethernet environment, consult the network manager to obtain an IP address.
  • Page 73 home / dcu / communication / canopen Baudrate​ selects the communication speed for the CANopen interface (COM 5 on DCU 410E). Typical setting is 125 kbps. Node Id sets to Node ID for the DCU CANopen interface. The Node IDmust be a unique identifier. Download EDS file​...
  • Page 74 Baudrate​ and ​ P arity​ selects the communication parameters. The interface always uses 8 data bits and 1 stop bit. Maximum Timeout​ selects the maximum time a request is allowed to take. If a request takes longer the reply is silently discarded. 7.5 Modbus TCP The DCU has a built-in Modbus TCP communication interface.
  • Page 75 home / dcu / communication / j1939 configuration / j1939:1 Source Address​ sets the DCU address for the J1939 interface. Default setting is 0xF2. Request Address​ selects which J1939 address the DCU should request PGNs which are defined by SAE to by on-request. 0xFF is a broadcast request. Default setting is 0x00. Allowed Addresses​...
  • Page 76 Distribute Start/Stop over SPN 3542​ selects if the DCU should perform start/stop over J1939. Distribute Engine Control Mode​ selects if the DCU should transmit ​ S peed/Torque Limit or not. If selected, the ​ T orque Limit​ can be configured as well. Control​...
  • Page 77 8 Miscellaneous These configuration items do not naturally belong in other sections. Do not skip this section, as it highlights important configurations. home / dcu / miscellaneous 8.1 Engine Application Configuration Configuration of the Engine Application and displays which modes of operation are available for said application.
  • Page 78 home / dcu / miscellaneous / engine application configuration Auxiliary Operator Mode selections ● Automatic ● Manual ● Local Combined Operator Mode selections ● Emergency ● Harbor ● Local Propulsion Operator Mode selections ● Remote ● Local Emergency Operator Mode selections ●...
  • Page 79 8.2 Event Configuration home / dcu / miscellaneous / event configuration 8.2.1 Miscellaneous Events home / dcu / miscellaneous / event configuration / miscellaneous events Primary Power Fail Enabled​ and ​ S econdary Power Fail Enabled​ are used to enable events when either supply is low.
  • Page 80 J1939 CAN bus Nodes Lost Warning​ selects if the DCU should issue an event (J1939 Nodes Lost) when a J1939 node is lost on the network. Erratic J1939 Data Warning Enabled​ selects if erratic data on the SPN should generate a sensor fault warning for that SPN.
  • Page 81 8.2.5 Modbus Watchdogs Modbus Watchdogs can be used to generate events if an external device does not kick the watchdog in the DCU within a configured time. In order to kick the watchdog, external devices must write a logical ‘1’ to the Modbus coil.
  • Page 82 Source Set the counter source to be either from the J1939 CAN bus, or from a locally generated counter in the DCU. ● Typically, on an electronic engine this shall be set to J1939. ● Likewise, if there is no CANbus on the engine, this setting must be Local for the counters to work.
  • Page 83 Only Acknowledge Visible Events​ selects if the DCU can only acknowledge events that are visible in the current view of the alarm list when performing an acknowledge all. Disable Remote Acknowledge​ can disable all types or remote acknowledge. Enable DM11​ selects if the DCU should perform a DM11 request when an acknowledge all is performed.
  • Page 84 Commands Only This displays a list of all remote commands to the DCU. Events Only This displays a list of all events that are not alarms. ● Automatic Mode input (terminal 88, or configurable input configured as Automatic Mode). ● Speed Switches ●...
  • Page 85 home / dcu / miscellaneous / override configuration Shutdown Override Configuration Transmit Shutdown Override to SDU​ automatically transmits shutdown override to SDU over the SDU Link. This does not affect the transmitting of shutdown override from SDU to DCU. Transmit Shutdown Override J1939​ selects if the DCU should transmit shutdown override over J1939 link.
  • Page 86 The Sea Trial functionality in the DCU provides tools to define and sample sensor data during sea trial. 8.10.1 Configuration home / dcu / miscellaneous / sea trial / configuration Sea Trial Mode Enabled​ activates sea trial related functions and configuration options.
  • Page 87 home / dcu / miscellaneous / sea trial / configure signal list This section is used to define a list of sensor data that is to be sampled during a sea trial run. Signals Displays the currently configured list of signals. Append Signal By selecting a signal from the combo box and clicking Submit, the chosen signal is added to the list.
  • Page 88 8.10.5 USB home / dcu / miscellaneous / sea trial / usb Provides USB related functions during sea trial mode if a USB stick is inserted. For example the complete data log can be downloaded. 8.11 Custom Version Text Any custom version text can be entered here and be made available for view in the DCU panel.
  • Page 89 ● Certified by major classification societies (DCU 410E/408E only) 9.1.2 Total I/O capacity The I/O capacity of the DCU can be expanded using one or more of the RIO units. Signal type DCU 400E DCU 200E RIO 410 RIO 210 RIO 412 MK-14 4-20 mA...
  • Page 90 home / rio / rio 410 #1 Hardware Configuration Enable for every RIO device if a warning for lost device should be given. All I/O configuration of the RIO 410 is configured as normal channel configuration as described earlier. 11 RP Configuration The RP remote panel reads the engine configuration from the DCU panel, so no detailed configuration is necessary.
  • Page 91 Select Installation Language The selected language is used during the installation process only. The operator can change language in the menu later. Select Administrator Password First, the RP asks for the default password. From the factory, this is 1234. Next, the RP asks for the administrator password, which must be typed twice. Select IP Address The IP address shall be unique on the ethernet network.
  • Page 92 11.2 Administration Menu To get to the Administrative menu, do as follows. 1. Press the Home button 2. Select the Settings icons 3. Select the Administration icon 4. Type the Administration password made during the startup wizard. The RP administration menu has installation selections that should be considered for each installation.
  • Page 93 Once ready with the selection, press Ok and the RP will automatically self-configure to match each of the selected DCUs configuration. The RP has now saved the connection and will be displaying the instruments pages from the connected DCU. 11.2.1.1 Manually Assignment of DCUs It is possible to manually assign DCUs to the RP, in case a router is used blocking the DCU / RP discovery protocol mechanism.
  • Page 94 Acknowledge Mode ● Not allowed​ . The RP can not acknowledge engine alarms. Select this only if the alarms are to be acknowledged in another panel instead. ● Silence only​ . The Buzzer can be silenced, but the alarms can not be acknowledged. ●...
  • Page 95 11.2.5 Cameras Connect an IP camera to the Ethernet network, and key in the camera IP address. The RP can connect and display images from IP cameras. Below is an example picture from the galley. Select the camera type and set the IP address (as printed on the camera) for the camera. The RP 210E/220E support 1 camera, where the RP 410E supports up to 4 cameras.
  • Page 96 To assign or change the function for an Input Channel, click the channel and select the desired option from the popup dialog. Available functions are: Function Description None No function. Acknowledge Acknowledge all events. Silence Buzzer Silence buzzer. Request Active Station When energized, makes an Active Station request.
  • Page 97 11.2.8 Functional Outputs Certain functions can be configured to control the onboard relays. If the optional relay board module MK-14 is connected to the RP, 14 additional relays will be available. The MK-14 option is only available for RP 410E through COM 5. 11.2.9 Change Password The default password is 1234.
  • Page 98 ● Priority 1​ panels will always become an active station if required. It will take the engine control from panels with priority 1, 2 or 3. ● Priority 2​ panels must ask for engine control. Priority 1 and Priority 2 panels with engine control must agree to the handover.
  • Page 99 In these instances, the RP panel X can be configured to automatically either release its active station status for the engine, or deny the request altogether. Either action takes place after the defined timeout 11.2.11 Lock Leave administrative menu area, and lock the unit. 11.2.12 Start/Stop Buttons Enable or disable the start/stop buttons of the RP.

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