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Maretron Fuel Flow Package with Display, FFM flow monitor, and n2k kit (Fuel Sensors required)
Maretron Fuel Flow Package with Display, FFM flow monitor, and n2k kit (Fuel Sensors required)
 
Brand New with Factory's Warranty
List Price: US$1,299.00
Our Price: US$999.00
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Product Code: MAREFUELPACK

Description
 

Maretron 4.1" High Bright Color Display, Black DSM410-01

4.1" High Bright Color Display - Black

Maretron’s DSM410 is a 4.1” high-resolution sunlight viewable color display that interprets and displays NMEA 2000® instrument, navigation, and vessel monitoring data. The DSM410 is a user friendly dedicated marine display with custom screen configurations and an easy-to-use five-key illuminated keypad. In addition to the monitoring and display capabilities, the DSM410 features an alert/alarm package and electrical switching capability.

Unlike traditional single-display units, DSM410 users can choose numeric, gauge, bar or graph formats in single or multiple displays, with cycling options possible for a wide range of favorite data. These multiple display options conserve mounting space and reduce overall system cost.

The DSM410 will directly connect with any NMEA 2000® network and with the exception of AIS data will display any or all information captured throughout the vessel. Various audio and visual alarms are also programmable.

The DSM410 displays a multitude of information including AC power, anchor status, battery, depth, electrical distribution, engine, environment, fuel management, GPS, heading, navigation, pressure/vacuum, rudder, speed, status indicators, tanks, temperature, time, transmission, water makers, weather, wind and more.

The DSM410 includes a comprehensive, flexible alert capability. Configure audio and visual alerts on virtually any data that the DSM410 is capable of monitoring. Available alert types include:

  • High alert
  • Low alert
  • Data unavailable alert
  • On alert
  • Off alert
  • Circuit breaker tripped alert
  • Course alert
  • GPS quality alert
  • Outside radius alert
  • Inside radius alert
  • Direction alert
  • Timer alert

The DSM410 is capable of sharing alert information with other DSM410 units as well as any DSM150, DSM250 and N2KView® installations on the network. An alert defined on any device can be acknowledged on any other device on the network.

Maretron's DSM410 is engineered and manufactured to the highest standards (IEC 60945 Maritime Navigation and Radiocommunication Equipment). Its compact waterproof housing will provide years of reliable performance.

Examples of data that the DSM410 can display are:

  • AC power (Average Frequency, Voltage and Current, Phase-Neutral Frequency, Voltage and Current, Phase-Phase Frequency, Voltage and Current
  • Anchor Watch
  • Battery / DC (Voltage, Current, Battery Temperature, Battery State of Charge, Battery Time Remaining, Ripple Voltage, Power)
  • Depth (Water Depth, Depth below Transducer)
  • Electrical (Resistance)
  • Electrical Distribution (Switch/Breaker, Breaker Current, On/Off/Error Counters, On/Off/Error Timers)
  • Engine Monitor (Boost Pressure, Hours, Coolant Pressure, Coolant Temperature, Exhaust Gas Temperature, Fuel Pressure, Fuel Rate, Oil Pressure, Oil Temperature, Tachometer, Tilt/Trim, Voltage, Fuel Econmony, Fuel Consumption, Percent Load, Percent Torque, Trip Fuel Used, Warning Indicators)
  • Environment (Barometer, Heat Index, Humidity, Temperatures, Wind Chill)
  • Fluid Flow (Flow Rate, Trip Volume)
  • 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 Remaining)
  • GPS (COG, Lat/Lon, SOG, Satellites, Time, Accuracy)
  • Heading (Heading, Rate of Turn, Variation)
  • Humidity (Inside, Outside, User Defined
  • Indicators (Status, , On/Off/Error Counters, On/Off/Error Timers)
  • Mechanical (dB, Force, Strain)
  • Motion (Acceleration, Angle, Angular Velocity, Angular Acceleration, Distance, Rotation Rate, Velocity)
  • Navigation (BOD, BTW, COG, XTE, DTW, ETA, Lat/Long, Rolling Road, Set/Drift, SOG, TTG, VWG, Waypoint Number and Name)
  • Pressure / Vacuum
  • Rudder
  • SMS (Status, Signal Strength)
  • Speed (Through Water, Over Ground, Total Log, Trip Log)
  • Tanks (Capacity, Level, Remaining)
  • Time (Local, UTC, Moon Phase, Sunrise, Sunset, Twilight)
  • Transmission (Gear, Oil Pressure, Oil Temperature, Warning Indicators)
  • Vessel (Heave, Pitch, Roll, Trim Tabs, Keel)
  • Watermaker (Sea Recovery Status display)
  • Wind (Apparent direction and speed, True direction and speed, Groud direction and speed)
Quick Guide View (pdf)
Owners Manual View (pdf)

Maretron FFM100 Fuel Flow Monitor

Maretron's FFM100 provides precision fuel flow information to help fuel consumption, which can save thousands of dollars in fuel operating cost. The FFM100 uses state-of-the-art, positive displacement metering technology for unprecedented accuracy. In fact, the accuracy of the FFM100 is nearly that of commercial vessel systems costing tens of thousands of dollars, yet the FFM100 cost less than existing recreational systems found on the market today. Additional benefits of the positive displacement metering technology are the elimination of flow conditioning components such as straighteners and pulsation dampers. Other flow meter technologies require flow conditioning components that increase system and installation cost. The FFM100 also uses true temperature compensation with embedded temperature sensors within the meters. The returning fuel is generally hotter than the supply fuel and if not properly compensated, inaccuracies as much as 5% can occur in computing the engine's fuel consumption. The FFM100 also detects momentary reverse flow in the fuel lines due to fluctuating pressure caused by the injection pump. Less accurate systems count the reverse fuel flow as part of the consumed fuel where the FFM100 properly accounts for momentary reverse flow.

Lastly, the FFM100 can be used for fluid types other than fuel (e.g., water, oil, etc.) by ordering the appropriate flow sender.

The FPM100 is NMEA 2000® certified so you can view any and all information anywhere on the vessel using a compatible NMEA 2000® display. The FFM100 is a key component of Maretron's N2KView® vessel monitoring and control system.

  • FFM100 converts a variety of flow senders (e.g., fuel, water, etc.) to NMEA 2000® Network Data
  • All flow senders ordered separately depending on application (i.e., single fuel flow sender for gas engine, dual fuel flow senders for diesel engine, water flow sender for sea water, etc.)
  • Fuel flow senders facilitates fuel consumption optimization for reduced fuel operating cost
  • Fuel flow senders use positive displacement metering technology for superior accuracy over other measurement technology such as turbine meters
  • Fuel flow senders do not require costly fuel conditioning components like flow straighteners and pulse dampers
  • Fuel flow senders implement true temperature compensation with precision built-in thermistors for increased accuracy
  • Fuel flow senders automatically detect reverse flow due to fluctuating pressure difference from injection pumps
  • Fuel flow senders pass particle sizes up to 70 micrometers (diesel fuel filters normally filter down to 2 micrometers to prevent clogging injectors)

Application

  • Diesel Fuel Flow Monitoring
  • Gasoline Fuel Flow Monitoring
  • Cooling Water Flow Monitoring

FFM100 Application Diagrams




FFM100 Example - Basic System (One Engine)

Network Diagram

FFM100 Example - Basic System (Two Engines)
Network Diagram

FFM100 Sensor Select Guide

The following process exists as an aid for selecting the appropriate size fluid flow sensor(s) for your motored application. We highly encourage consulting with the Engine’s manufacturer for their recommendations before implementing any 3rd party solutions.

Maretron/Carling Technologies/Littelfuse will not be held responsible for any improper sensor selection or installation. Please consult with a local manufacturer and/or certified marine mechanic.

* If you are wanting to monitor a fluid other than a Fuel profile (Diesel, Gasoline/Petrol), please consult with our tech support team for guidance on the appropriate sensor line via email at [email protected].

Terminology Reference Table

gph / GPHGallons per Hour
lph / LPHLiters per Hour
HPHorsepower
NPTNational Pipe Thread
Flow RateThe quantity of fluid that is passing through a cross-section of a pipe in a specific period of time.
Burn RateAlso known as Maximum Consumption, the quantity of fluid that is consumed for a period of time during a combustion process.


Sensor Table

Sensor SizeFlow Rate (gph)Flow Rate (lph)Port Inlet Size
M1AR0.53 – 26.42 – 100¼” NPT
M2AR6.60 – 13225 – 500¼” NPT
M4AR47.6 – 396180 – 1500½” NPT
M8AR127 – 1,110480 – 4,200¾” NPT
M16AR158.5 – 1,585600 – 6,0001” NPT

* Please take note of the inlet size of the sensor as an adapter may be required to interface into your fuel line setup. DO NOT choose a larger size sensor to mitigate fuel line adapters as this will hinder the accuracy of the readout or may not read at all. The flow sensors are rated according to the volume of fluid able to pass through the sensor and should not hinder the performance of the engine per principles of fluid dynamics.

For further technical reference about the Fuel Sensors behavior, please visit the FFM100 User Manual.

Step 1: Datasheet

Please locate the datasheet of your engine or generator. If you are unable to locate locally or online, please reach out to your local engine or generator manufacturer/dealer to obtain this information as it is crucial to identifying the appropriate sensors.

Step 2: Sensor Quantity

To determine the quantity of sensors per motor to apply, we must first review the engine setup.

Gasoline/Petrol-based Engines

In most cases, offers a single fuel line to the engine with no return to the tank, this requires only 1 sensor.

There are instances, mostly newer model years higher HP, that offers a gas engine setup paired with a return fuel line, we will require 2 sensors for this setup to detect the differential.
* For engines with a return fuel line, we will treat this installation and setup as we do for Diesel engine setups within Step 4 below.

Diesel-based Engines

In most cases, there will be both supply and return fuel lines within the engine setup to be monitored, therefore we will require 2 sensors for this setup.

There are very few instances, diesel engines less than 100HP may only have a supply sensor, no return, we will only require 1 sensor for this setup.
* For engines without a return fuel line, we will treat this installation and setup as we do for Gasoline/Petrol engine setups within Steps 3 and 4 below.

Step 3: Sensor Selection

Once we have obtained our engine’s datasheet and identified the quantity of sensors needed for your specific setup, we can now make our sensor selection.

Gasoline/Petrol-based Engines

For this type of setup where only a single sensor is being applied, review the engine’s datasheet to reveal the value Max Consumption or Max Burn Rate. This value illustrates the maximum fluid flow that would be pushed through the fuel lines while at full throttle.

You will use this value Max Consumption/Burn Rate as the same value as our max Flow Rate. Using the Sensor Table above, locate the smallest size sensor that supports your value. Sensors do cross supported range values.

Diesel-based Engines

For this type of setup where we have both supply and return lines, review the engine’s datasheet to reveal if the manufacturer has already provided these independent Flow Rate values. Unfortunately, most vendors haven’t populated this on datasheets, but it is always the best place to start. If the manufacturer does not provide this value, please locate the value Max Consumption or Max Burn Rate.

Once this Max value is identified, we will need to multiply by 2.5-3, marine industry average over the past 25-30 years, to approximate the maximum Flow Rates of the fuel lines. This estimates the maximum volume of fluid that is being pushed through the lines, whether or not it is used comes after this sensor.

Example: My engine’s data sheet reveals my Maximum Consumption at Wide Open Throttle (WOT) is 25 gph.

25 gph x (2.5 – 3) = Maximum Flow Range of 62.5 – 75 gph Flow Rate
(same conversion when using lph)

This would position this setup to use a set of M2AR Sensors.

*You will need to apply the same size sensor for both the supply and return lines for accuracy.

Step 4: Installation and Setup

The following Knowledgebase articles outline the path for each setup process as described.

Remarks

We can understand and appreciate the concern with the sensor’s ¼” fuel line port on both the M1AR and M2AR sensors. As part of fluid dynamics, the Venturi Effect arises from the conservation of momentum and conservation of mass and relates the pressure along an enclosed flow (in a pipe) to the flow rate through the pipe.

This might seem counter-intuitive because the constricted region looks like it should be an obstacle (such as an inlet diameter reduction), so one would be tempted to think that the flow rate should decrease rather than increase. However, this would violate conservation of mass and conservation of momentum. Instead, to ensure the mass flow rate is conserved, meaning the continuity condition in the Navier-Stokes equation is satisfied, the flow rate must increase through this region.

This ensures that, once the constriction region is passed, the flow rate can be restored to its initial lower value and momentum is conserved throughout the flow region. Our applications rely on this principle to be able to predict a fluid’s reaction when flowing through constricted piping.

If you have any questions, please contact our support team at (866) 550-9100 or [email protected].

Download Sensor Select Guide - PDF

Maretron NMEA2000 Starter Kit

The Kit Includes:

  • One Micro/Mid Powertap Tee CF-SPWR05-CF
  • Two Micro Tee CM-CF-CF
  • Two Micro Terminators TR-CM
  • One 3 meter Cordset CM-CG1-CF-03.0
Note: The price is subject to change at any time without any notice. Not responsible for any typographical errors. Any products can be cancelled from sale at any time.
  • All products sold here come with Full Manufacturer's Warranty
  • Email us at
  • [email protected] for any quesitons
  • WarningWARNING: This product can expose you to chemicals including Di-n-hexyl Phthalate, DnHP, which is known to the State of California to cause reproductive harm, and Vinyl Chloride which is known to the State of California to cause cancer. For more information go to P65Warnings.ca.gov.

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