victron energy NMEA 2000 and MFD Integration Victron System onto a Marine MFD User Guide
- October 27, 2023
- victron energy
Table of Contents
NMEA 2000 and MFD Integration Victron System onto a Marine
MFD User Guide
Introduction
1.1 Summary
This document explains how to integrate a Victron system onto a marine MFD
also known as a chart plotter. Compatible brands include Garmin, Raymarine,
the Navico brands B&G, Simrad and Lowrance as well as Furuno.
There are multiple options, and how to best integrate depends on the customer
requirements, preferred MFD brand and model as well as used Victron
components.
Make sure to closely read this full document to find the best method for your
type of system.
Picture showing the two integration options, NMEA2000 and HTML5 App.
Click to see full size and see the difference between the two.
1.2 What is NMEA 2000?
NMEA2000 is a communications standard used for connecting marine sensors and
display units within ships and boats.
Victron Energy is a member of the NMEA 2000 organisation, and we have several
of our products certified by NMEA 2000. NMEA 2000 is sometimes also refered to
as N2K, for brevitiy.
1.3 What is the MFD HTML5 App?
The MFD HTML5 App is a simple to install and setup integration into all main
marine MFD brands, including Raymarine, Garmin, Navico and Furuno. Truly plug-
and-play: once the Victron GX Device and the MFD are connected via ethernet, a
Victron logo will appear in the App menu of the MFD. Behind that button, there
is a page to monitor and control the Victron Energy system. The information on
screen automatically adapts to the installed Victron system.
1.4 Other integration options
This document only covers integration via NMEA2000 as well as the MFD HTML5
App. There are two other alternatives, commonly used to integrate Victron
equipment in a Marine applications.
First of all Modbus-TCP. Typically used on larger vessels, Modbus-TCP is a
protocol commonly used for (custom) designed SCADA systems. The Victron GX
devices all support the Modbus-TCP protocol. More information in the GX
Modbus-TCP Manual.
The other alternative is SignalK. More information about that in the Venus OS
Large manual. Do take note
of the contents of the Support chapter.
Integration details
2.1 Systems with a GX Device
For most installations and integrations, it will be best to use one of our GX
Products. It acts as a
hub, collecting information from connected equipment, such as Inverters,
Battery Monitors and Chargers; and then making them available to the MFD.
The GX devices offer both above introduced integration options: NMEA2000 as
well as the Victron HTML5 App.
The HTML5 integration is available for
Raymarine,
Garmin, Marine MFD GX integration – Furuno – Victron
Energy and Navico brands: B&G, Lowrance and
Simrad. Click those links to go straight to all information,
videos and manuals.
When connected to the onboard NMEA2000 network, the GX Device can read data
from the network (tank level and GPS information). Also it can make data from
Victron devices connected to the GX Device available on the NMEA2000 network.
That latter feature is called NMEA2000-out, more information in the NMEA
2000-out chapter in the Cerbo GX
manual.
Both the NMEA2000 and HTML5 App/Ethernet connections can be made and used at
the same time.
Each has its advantages and disadvantages, and together they complement each
other:
The MFD HTML5 App is the simpler one to setup as its plug and play. It
presents an easy to use system overview without requiring any configuration.
The system overview shown will automatically adapt to the type of Victron
system installed. The (only) available configuration is defining the batteries
as well as giving them names.
The NMEA 2000 integration is more complex, and allows more customisation on
the MFD: the data will show up in the data-tree of the MFD, and most MFDs then
allow the user to configure various pages and combinations of information.
As mentioned above, a GX Device can also read tank level data from NMEA 2000.
More information in the the Installation chapter of the GX manual.
2.2 Products with a VE.Can port
All Victron products that feature a VE.Can port can be directly connected to
the NMEA 2000 network, using the VE.Can to NMEA2000
cable.
- Skylla-i 24V Battery Chargers
- Skylla IP65 Battery Chargers
- Lynx Shunt VE.Can Battery Monitor
- Lynx Smart BMS
- SmartSolar MPPT Solar Chargers with VE.Can communications port
2.3 Tank monitoring integration
The GX devices can measure tank levels, and make the resulting data available
on the NMEA2000 network. Also, they can read tank level data from the N2K
network. Below sections explain the details of each integration type.
Integration A) GX Device to MFD and NMEA2000
Some of Victron GX monitoring products feature built-in tank level inputs. For
example the Cerbo GX, which is the most common GX device, has four inputs that
can take a resistive tank level sender. Also, all GX devices can also have
their number and types of tank level inputs expanded by adding one or multiple
GX Tank 140 modules.
It has four inputs, of which each can be configured to measure either voltage
(0-10V) or current (4-20mA). All tank level inputs feature customisable
naming, setting a type (fresh water, fuel, black water and more), configurable
filtering and damping settings as well as setting up a custom tank shape for
nonsquare tanks.
The GX Device can transmit the resulting tank levels to the NMEA2000 network.
See the NMEA2000out chapter in the GX
manual for information on how to set that up. Note that
the MFD HTML5 App does not include showing tank levels.
Integration B) NMEA2000 to GX Device and VRM Portal
The other way around is possible as well: the Victron system reading tank
level data from NMEA2000.
The tank data will be shown in the GX device user interface as well as on the
VRM Portal. Screenshots below.
Compatible tank senders are listed in the [2. Installation
(victronenergy.com)](https://www.victronenergy.com/media/pg/Cerbo_GX/en/installation.html
UUID-9813aef4-8178-293b-12ef-0048b064271f)
Above picture: GX Touch 50, showing multiple tank levels. Coming from either
the NMEA2000 network, directly connected resistive tank senders or via the GX
Tank 140 accessory.
Below screenshot shows a similar system, but then on the VRM
Portal.
2.4 Using our converter interfaces (DEPRECATED!)
- VE.Bus to NMEA 2000 interface
- VE.Direct to NMEA 2000 interface, for BMV Battery Monitors (only).
Note that the use of both those interfaces is deprecated. Use a GX device instead.
NMEA2000 Details
3.1 PGN Lists
Refer to our Datacommunication
whitepaper, page 8 and beyond, for a
list of Victron products and their supported PGNs.
3.2 NMEA 2000 instancing
NMEA 2000 Instances are used to identify multiple similar products connected
on the same network.
More information as well as how to configure them is explained in Changing
NMEA2000
instances.
3.3 Terminators and network layout
A N2K CAN-bus network needs to be laid out as in a backbone configuration,
using drop cables to connect to each device. Also, there should be only two
terminators in the network. Therefore:
- Use the NMEA 2000 cable as the backbone.
- Run a separate drop cable separately to each Victron device VE.Can to NMEA 2000 micro-C male cable – Victron Energy
- Only terminate the NMEA 2000 backbone, do not terminate on the VE.Can side.
3.4 Further reading on Victron and NMEA 2000
- Data communication white paper
- Cerbo GX manual, NMEA 2000 chapter
- NMEA 2000 – N2K – Victron Community (victronenergy.com)
Varia
4.1 Raymarine & EmpirBus
Besides using NMEA 2000 and/or the Lighthouse App, integration onto Raymarine
MFDs can also be done with an Empirbus NXT MCU . Though both are connected to the same N2K network, the NXT MCU
translates the N2K PGNs originating from the Victron equipment into Raymarine
proprietary messages.
In the EmpirBus Studio software you will find dedicated Victron building blocks than
can be drawn onto the diagram.
Next, use the EmpirBus Graphical tool to design the pages for on the Raymarine MFDs.
The EmpirBus system requires the data instance of battery status and dc
detailed status to be unique when using multiple sources. (how to change data
instances)
4.2 Maretron
All data sent out by Victron devices on the N2K network can be picked up by
the Maretron MFDs & software. See the Maretron N2KView® vessel monitoring and
control software.
FAQ
Q1: Can/must both Ethernet and and N2K connection be made between Victron
GX and MFD?
Both can be made at the same time.
Ethernet is needed to get the MFD App, as explained above.
And an N2K connection is needed to get data to show in other fields on the
MFD.
See annotated screenshot above for which is what.
From: https://www.victronenergy.com/live/– Victron Energy
Permanent link: https://www.victronenergy.com/live/ve.can:nmea-2000:start
Last update: 2021-04-29 20:46
Victron Energy – https://www.victronenergy.com/live/
References
- N2KView® vessel monitoring and control software - Maretron
- NMEA 2000 - N2K - Victron Community
- VE.Can to NMEA 2000 micro-C male cable - Victron Energy
- VRM Portal - Victron Energy
- VE.Bus to NMEA 2000 interface - Victron Energy
- Documentation [Victron Energy]
- victronenergy.com/live/_media/ve.can:nmea-2000:image_hml5_nmea2k_arrows.png
- GX Modbus-TCP Manual [Victron Energy]
- Changing NMEA2000 instances [Victron Energy]
- Changing NMEA2000 instances [Victron Energy]
- NMEA 2000 & MFD integration guide [Victron Energy]
- Venus OS Large image: Signal K and Node-RED [Victron Energy]
- Victron GX product range [Victron Energy]
- 2. Installation
- 11. Marine MFD integration by NMEA2000
- Marine MFD GX integration - Furuno - Victron Energy
- Marine MFD GX integration - Navico - Victron Energy
- Marine MFD GX integration - Garmin - Victron Energy
- Marine MFD GX integration - Raymarine - Victron Energy
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