Maretron Engine Monitoring System Ems100 User Manual

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EMS100  
Engine Monitoring System  
User’s Manual  
Revision 1.1  
Copyright © 2012 Maretron, LLP All Rights Reserved  
Maretron, LLP  
9014 N. 23rd Ave #10  
Phoenix, AZ 85021  
Maretron Manual Part #: M001601  
Revision 1.1  
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Table of Contents  
2.4.1 Connecting to NMEA 2000® Interface ........................................................3  
5.3 NMEA 2000® Parameter Group Numbers (PGNs) ..................................................10  
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Table of Figures  
Figure 2 – NMEA 2000® Connector Face Views ....................................................................... 4  
Table of Appendices  
Appendix A – NMEA 2000® Interfacing.................................................................................... A1  
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1 General  
1.1 Introduction  
Congratulations on your purchase of the Maretron EMS100 Engine Monitoring System.  
Maretron has designed and built your engine monitoring system to the highest standards for  
years of reliable, dependable, and accurate service.  
The EMS100 plugs directly into engine wiring harnesses (through the use of a Maretron wiring  
harness, purchased separately) and converts analog signals such as water temperature and  
oil pressure to the NMEA 2000® digital interface. Critical engine data is then distributed  
throughout the vessel over a single cable where it can be monitored by any NMEA 2000®  
compatible display. The EMS100 is compatible with existing instrument panels and key  
switches so you don’t need to remove them while upgrading to newer digital technology. For  
new installations, the EMS100 and a compatible NMEA 2000® display can replace the  
traditional analog instrument panel.  
The Maretron EMS100 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. Please read carefully and follow  
these instructions for installation, configuration, and usage of the Maretron EMS100 in order to  
ensure optimal performance.  
1.2 Firmware Revision  
This manual corresponds to EMS100 firmware revision 1.1.1.  
1.3 Features  
The Maretron EMS100 Engine Monitoring System provides the following information on the  
NMEA 2000® bus.  
Tachometer  
Engine Hours  
Coolant Water Temperature  
Engine Oil Pressure  
Boost Pressure  
Charging Voltage  
Drive Trim  
Fuel Filter Alarm  
Boost Alarm  
Coolant Water Level Alarm  
Engine Oil Pressure Alarm  
Exhaust (Salt Water Flow) Alarm  
Coolant Water Temperature Alarm  
The EMS100 is compatible with these Yanmar engines:  
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GM Series  
YM Series  
JH Series  
LH Series  
LP Series  
LY Series  
The EMS100 has the following additional features:  
Waterproof Enclosure and Cable System  
Connects to Analog or Digital tachometers  
Can Work With or Without Existing Analog Gauges  
1.4 Quick Install  
Installing the Maretron EMS100 Engine Monitoring System involves the following five steps.  
Please refer to the individual sections for additional details.  
1. Unpack the Box (Section 2.1)  
2. Choose a Mounting Location (Section 2.2)  
3. Mount the EMS100 Engine Monitoring System (Section 2.3)  
4. Connect the EMS100 Engine Monitoring System (Section 2.4)  
5. Configure the EMS100 Engine Monitoring System (Section 2.5)  
2 Installation  
2.1 Unpacking the Box  
When unpacking the box containing the Maretron EMS100, you should find the following items.  
1 – EMS100 Engine Monitoring System  
1 – EMS100 User’s Manual  
1 – Warranty Registration Card  
If any of these items are missing or damaged, please contact Maretron.  
2.2 Choosing a Mounting Location  
The EMS100 is mounted between the engine and the NMEA 2000® network. Please consider  
the following when choosing a mounting location.  
1. The EMS100 is waterproof, so it can be mounted in a damp or dry location.  
2. The orientation is not important, so the EMS100 can be mounted on a horizontal deck,  
vertical bulkhead, or even upside down if desired.  
3. The EMS100 is temperature rated to 55°C (130°F), so it should be mounted away from  
engines or engine rooms where the operating temperature exceeds the specified limit.  
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2.3 Mounting the EMS100  
Attach the Maretron EMS100 securely to the vessel using bolts or screws (not included) as  
shown in Figure 1 below.  
Figure 1 – Mounting the EMS100  
2.4 Connecting the EMS100  
You connect the EMS100 using a Maretron wiring harness (available separately) which is  
designed for a particular type of engine. One end of the Maretron wiring harness has two 12-  
pin Deutsch connectors which plug into the two connectors on the end of the EMS100 product  
enclosure. These connectors are keyed differently, so there is no danger of plugging these in  
incorrectly.  
2.4.1 Connecting to NMEA 2000® Interface  
The Maretron EMS100 provides a connection to an NMEA 2000® interface through a five pin  
male connector located on the Maretron wiring harness, which is purchased separately (see  
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Figure 2). You connect the EMS100 to an NMEA 2000® network by plugging the male  
connector into a female receptacle of the NMEA 2000® network (note the key on the male  
connector and keyway on the female connector). Be sure the cable is connected securely and  
that the collar on the cable connector is tightened firmly. The EMS100 is designed such that  
you can plug or unplug it from an NMEA 2000® network while the power to the network is  
connected or disconnected. Please follow recommended practices for installing NMEA 2000®  
network products.  
Figure 2 – NMEA 2000® Connector Face Views  
2.4.2 Checking Connections  
Once the engine harness connections to the Maretron EMS100 have been completed and the  
engine harness has been connected to the NMEA 2000® bus, supply power to the engine and  
check to see that engine information is being properly transmitted by observing an appropriate  
display. Refer to Section 4, “Troubleshooting”, if no engine information appears, otherwise  
proceed to Section 2.5 entitled “Configuration”.  
2.5 Configuration  
There are several configurable items within the EMS100. You configure the EMS100 using a  
Maretron DSM250 display or other NMEA 2000® display unit that is capable of configuring the  
EMS100. Please refer to the Maretron DSM250 User’s Manual for details. Descriptions of the  
various configurable items appear in the following sections.  
2.5.1 Engine Instance  
In order to allow display equipment to distinguish between data coming from different engines,  
the NMEA 2000® network requires that each engine be assigned a unique instance number in  
the range of 0-252. The EMS100 comes from the factory programmed with an instance  
number of 0. Conventions for instance numbers for common engine configurations are as  
follows:  
Single Engine = 0  
Dual Engines: Port Engine = 0, Starboard Engine = 1  
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Triple Engines: Port Engine = 0, Starboard Engine = 1, Center Engine =2  
2.5.2 Drive Trim Gauge Type  
The EMS100 comes from the factory preprogrammed with the characteristics of drive trim  
gauge types for supported engines. If the EMS100 is used with an analog drive trim gauge,  
you must select the correct type of gauge for this setting in order for the data to be displayed  
correctly. If you have no drive trim gauge present, select the “No Gauge” option for this  
setting.  
2.5.3 Drive Trim Sender Type  
The EMS100 comes from the factory preprogrammed with the characteristics of drive trim  
senders for supported engines. If the engine to which you are connecting the EMS100 has a  
drive trim sender, you must select the correct type of drive trim sender for this setting in order  
for the data to be displayed correctly. If you have no drive trim sender present, select the  
“Disabled” option for this setting.  
2.5.4 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.  
2.5.5 Boost Pressure Gauge Type  
The EMS100 comes from the factory preprogrammed with the characteristics of boost  
pressure gauge types for supported engines. If the EMS100 is used with an analog boost  
pressure gauge, you must select the correct type of gauge for this setting in order for the data  
to be displayed correctly. If you have no boost pressure gauge present, select the “No Gauge”  
option for this setting.  
2.5.6 Boost Pressure Sender Type  
The EMS100 comes from the factory preprogrammed with the characteristics of boost  
pressure senders for supported engines. If the engine to which you are connecting the  
EMS100 has a boost pressure sender, you must select the correct type of boost pressure  
sender for this setting in order for the data to be displayed correctly. If you have no boost  
pressure sender present, select the “Disabled” option for this setting.  
2.5.7 Boost Pressure Sender Offset  
Often, the characteristics of individual boost pressure senders vary from their specified values.  
This setting allows you to apply an offset to the resistance value of the boost pressure sender  
in order to allow you to bring the digital value reported by the EMS100 into agreement with that  
displayed by the analog gauge.  
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2.5.8 Oil Pressure Gauge Type  
The EMS100 comes from the factory preprogrammed with the characteristics of oil pressure  
gauge types for supported engines. If the EMS100 is used with an analog oil pressure gauge,  
you must select the correct type of gauge for this setting in order for the data to be displayed  
correctly. If you have no oil pressure gauge present, select the “No Gauge” option for this  
setting.  
2.5.9 Oil Pressure Sender Type  
The EMS100 comes from the factory preprogrammed with the characteristics of oil pressure  
senders for supported engines. If the engine to which you are connecting the EMS100 has a  
oil pressure sender, you must select the correct type of oil pressure sender for this setting in  
order for the data to be displayed correctly. If you have no oil pressure sender present, select  
the “Disabled” option for this setting.  
2.5.10 Oil Pressure Sender Offset  
Often, the characteristics of individual oil pressure senders vary from their specified values.  
This setting allows you to apply an offset to the resistance value of the oil pressure sender in  
order to allow you to bring the digital value reported by the EMS100 into agreement with that  
displayed by the analog gauge.  
2.5.11 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. If you have no water temperature gauge present, select the “No  
Gauge” option for this setting.  
2.5.12 Water Temperature Sender Type  
The EMS100 comes from the factory preprogrammed with the characteristics of water  
temperature senders for supported engines. If the engine to which you are connecting the  
EMS100 has a water temperature sender, you must select the correct type of water  
temperature sender for this setting in order for the data to be displayed correctly. If you have  
no water temperature sender present, select the “Disabled” option for this setting.  
2.5.13 Water Temperature Sender Offset  
Often, the characteristics of individual water temperature senders vary from their specified  
values. This setting allows you to apply an offset to the resistance value of the water  
temperature sender in order to allow you to bring the digital value reported by the EMS100 into  
agreement with that displayed by the analog gauge.  
2.5.14 Engine Hours  
The EMS100 reports engine hours based on how long the EMS100 has been powered from  
the engine. The EMS100 comes from the factory preprogrammed with an engine hours  
reading of 0 hours. If you are installing the EMS100 on an engine that has been in service, or  
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if you have overhauled an engine, you can use this setting to preset the engine hours reading  
to the desired value.  
2.5.15 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 the EMS100 is connected to. The factory default value of this parameter is 129.  
2.5.16 NMEA 2000® PGN Enable/Disable  
The EMS100 is capable of transmitting several different kinds of NMEA 2000® messages (or  
PGNs) associated with engines. You can use this setting to enable or disable transmission of  
each of these message types.  
2.5.17 Restore Factory Defaults  
This setting will cause all user-programmable settings on the EMS100 to be restored to the  
values that were in the EMS100 when it was shipped from the factory.  
3 Maintenance  
Regular maintenance is important to ensure continued proper operation of the Maretron  
EMS100. Perform the following tasks periodically:  
Clean the unit with a soft cloth. Do not use chemical cleaners as they may remove  
paint or markings or may corrode the EMS100 enclosure or seals.  
Ensure that the unit is mounted securely and cannot be moved relative to the mounting  
surface. If the unit is loose, tighten the mounting screws.  
Check the security of the connections to the engine wiring harness and re-seat or  
tighten if necessary.  
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4 Troubleshooting  
If you notice unexpected operation of the Maretron EMS100, follow the troubleshooting  
procedures in this section to remedy simple problems. If these steps do not solve your  
problem, please contact Maretron Technical Support (refer to Section 0 for contact  
information).  
Symptom  
Troubleshooting Procedure  
No engine data visible  
on NMEA 2000®  
network.  
Ensure that the NMEA 2000® network is operational by observing  
displays. You should see information from components besides the  
ones attached to the EMS100 which verifies an operational NMEA  
2000® network. If you don’t see data, try disconnecting the NMEA  
2000 connection you made to the EMS100 as something may  
have been connected incorrectly.  
Ensure that the Maretron wiring harness is securely connected  
both to the EMS100 and to the existing engine wiring harness as  
directed in the instructions supplied with the Maretron wiring  
harness.  
Once you are sure that the NMEA 2000 network is operational with  
a connected EMS100, ensure that the NMEA 2000® connector on  
the Maretron wiring harness is securely connected to the NMEA  
2000® network.  
Ensure that the ignition switch for engine is turned on. The  
EMS100 draws the majority of its power from the engine power  
connection.  
Ensure that the EMS100 is programmed with an appropriate  
engine NMEA 2000 instance as described in Section 2.5.1.  
Ensure that all NMEA 2000® messages are enabled (see Section  
2.5.16 for details).  
Incorrect Engine Data  
Ensure that the settings for gauge type, sender type, and number  
of flywheel teeth are programmed appropriately.  
Check the values of sender offset programmed into the EMS100.  
Check the adjustment of the tachometer sensor on the engine.  
Once the EMS100 is connected, you may need to adjust the  
spacing between the sensor and the flywheel teeth.  
Incorrect Tachometer  
Readings  
Warning: There are no user-serviceable components inside the Maretron EMS100.  
Opening the EMS100 will expose the sensitive electronic components to adverse  
environmental conditions that may render the unit inoperative. Please do not open the  
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EMS100, as this will automatically void the warranty. If service is required, please return  
the unit to an authorized Maretron service location.  
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5 Technical Specifications  
As Maretron is constantly improving its products, all specifications are subject to change  
without notice. Maretron products are designed to be accurate and reliable; however, they  
should be used only as aids to navigation and not as a replacement for traditional navigation  
aids and techniques.  
5.1 Specifications  
Parameter  
Type  
Comment  
Tachometer  
Engine Hours  
Oil Pressure  
Coolant Water Temperature  
Boost Pressure  
Analog/Digital Input  
Logged with Key On  
Analog Input  
Configurable by # of Teeth  
Stored Indefinitely in Non-Volatile Memory  
Sensor Voltage Monitor/Sensitize  
Sensor Voltage Monitor/Sensitize  
Sensor Voltage Monitor/Sensitize  
Sensor Voltage Monitor/Sensitize  
Analog Input  
Analog Input  
Analog Input  
Drive Trim Angle  
Charging Voltage  
Lube Oil Filter Alarm  
Alarm/Switch Input  
Alarm/Switch Input  
Alarm/Switch Input  
Alarm/Switch Input  
Alarm/Switch Input  
Alarm/Switch Input  
Alarm/Switch Input  
Alarm/Switch Input  
Boost Pressure Alarm  
Coolant Water Temperature Alarm  
Oil Pressure Alarm  
Exhaust (Salt Water Flow) Alarm  
Clutch Oil Pressure Alarm  
Diesel Preheat Alarm  
5.2 Certifications  
Parameter  
Comment  
Level A  
NMEA 2000®  
Maritime Navigation and Radiocommunication Equipment & Systems  
FCC and CE Mark  
IEC 60945  
Electromagnetic Compatibility  
5.3 NMEA 2000® Parameter Group Numbers (PGNs)  
Description  
PGN #  
PGN Name  
Default Rate  
Periodic Data PGNs  
127488 Engine Parameters, Rapid Update  
127489 Engine Parameters, Dynamic  
126464 PGN List (Transmit and Receive)  
126996 Product Information  
126998 Configuration Information  
059392 ISO Acknowledge  
059904 ISO Request  
060416 ISO Transport Protocol, Connection  
Management  
10 times/second  
1 time/second  
Response to Requested PGNs  
Protocol PGNs  
N/A  
N/A  
N/A  
N/A  
N/A  
N/A  
060160 ISO Transport Protocol, Data Transfer  
060928 ISO Address Claim  
065240 ISO Address Command  
126208 NMEA  
N/A  
N/A  
N/A  
N/A  
Maretron Proprietary PGNs  
128720 Configuration  
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Electrical  
Parameter  
Value  
9 to 16 Volts  
<150mA  
1
Comment  
Operating Voltage  
Power Consumption  
Load Equivalence Number (LEN)  
Reverse Battery Protection  
Load Dump Protection  
DC Voltage  
From Battery  
NMEA 2000® Spec. (1LEN = 50 mA)  
Indefinitely  
Yes  
Yes  
Energy Rated per SAE J1113  
Mechanical  
Parameter  
Size  
Value  
5” x 4.5” x 1.25”  
12 oz.  
Comment  
Excluding Wiring Harness  
Excluding Wiring Harness  
Weight  
Environmental  
Parameter  
Value  
Exposed  
IP68  
IEC 60954 Classification  
Degree of Protection  
Operating Temperature  
Storage Temperature  
Relative Humidity  
Vibration  
-25°C to 55°C  
-40°C to 70°C  
93%RH @40° per IEC60945-8.2  
2-13.2Hz @ ±1mm, 13.2-100Hz @ 7m/s2 per IEC 60945-8.7  
12.5mm Nozzle @ 100liters/min from 3m for 30min per IEC 60945-8.8  
Ultraviolet B, A, Visible, and Infrared per IEC 60945-8.10  
Rain and Spray  
Solar Radiation  
Corrosion (Salt Mist)  
Electromagnetic Emission  
Electromagnetic Immunity  
Safety Precautions  
4 times 7days @ 40°C, 95%RH after 2 hour Salt Spray Per IEC 60945-8.12  
Conducted and Radiated Emission per IEC 60945-9  
Conducted, Radiated, Supply, and ESD per IEC 60945-10  
Dangerous Voltage, Electromagnetic Radio Frequency per IEC 60945-12  
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  
Mail: Maretron, LLP  
Attn: Technical Support  
9014 N. 23rd Ave Suite 10  
Phoenix, AZ 85021 USA  
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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 dimensions.  
4.0”  
Figure 3 – Mounting Surface Template  
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Maretron (2 Year) Limited Warranty  
Maretron warrants the EMS100 to be free from defects in materials and workmanship for two (2) years from the  
date of original purchase. If within the applicable period any such products shall be proved to Maretron’s  
satisfaction to fail to meet the above limited warranty, such products shall be repaired or replaced at Maretron’s  
option. Purchaser's exclusive remedy and Maretron’s sole obligation hereunder, provided product is returned  
pursuant to the return requirements below, shall be limited to the repair or replacement, at Maretron’s option, of  
any product not meeting the above limited warranty and which is returned to Maretron; or if Maretron is unable to  
deliver a replacement that is free from defects in materials or workmanship, Purchaser’s payment for such  
product will be refunded. Maretron assumes no liability whatsoever for expenses of removing any defective  
product or part or for installing the repaired product or part or a replacement therefore or for any loss or damage  
to equipment in connection with which Maretron’s products or parts shall be used. With respect to products not  
manufactured by Maretron, Maretron’s warranty obligation shall in all respects conform to and be limited to the  
warranty actually extended to Maretron by its supplier. The foregoing warranties shall not apply with respect to  
products subjected to negligence, misuse, misapplication, accident, damages by circumstances beyond  
Maretron’s control, to improper installation, operation, maintenance, or storage, or to other than normal use or  
service.  
THE FOREGOING WARRANTIES ARE EXPRESSLY IN LIEU OF AND EXCLUDES ALL OTHER EXPRESS OR  
IMPLIED WARRANTIES, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF  
MERCHANTABILITY AND OF FITNESS FOR A PARTICULAR PURPOSE.  
Statements made by any person, including representatives of Maretron, which are inconsistent or in conflict with  
the terms of this Limited Warranty, shall not be binding upon Maretron unless reduced to writing and approved by  
an officer of Maretron.  
IN NO CASE WILL MARETRON BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES, DAMAGES  
FOR LOSS OF USE, LOSS OF ANTICIPATED PROFITS OR SAVINGS, OR ANY OTHER LOSS INCURRED  
BECAUSE OF INTERRUPTION OF SERVICE. IN NO EVENT SHALL MARETRON’S AGGREGATE LIABILITY  
EXCEED THE PURCHASE PRICE OF THE PRODUCT(S) INVOLVED. MARETRON SHALL NOT BE SUBJECT  
TO ANY OTHER OBLIGATIONS OR LIABILITIES, WHETHER ARISING OUT OF BREACH OF CONTRACT OR  
WARRANTY, TORT (INCLUDING NEGLIGENCE), OR OTHER THEORIES OF LAW WITH RESPECT TO  
PRODUCTS SOLD OR SERVICES RENDERED BY MARETRON, OR ANY UNDERTAKINGS, ACTS OR  
OMISSIONS RELATING THERETO.  
Maretron does not warrant that the functions contained in any software programs or products will meet  
purchaser’s requirements or that the operation of the software programs or products will be uninterrupted or error  
free. Purchaser assumes responsibility for the selection of the software programs or products to achieve the  
intended results, and for the installation, use and results obtained from said programs or products. No  
specifications, samples, descriptions, or illustrations provided Maretron to Purchaser, whether directly, in trade  
literature, brochures or other documentation shall be construed as warranties of any kind, and any failure to conform  
with such specifications, samples, descriptions, or illustrations shall not constitute any breach of Maretron’s limited  
warranty.  
Warranty Return Procedure:  
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. Maretron will return the replaced or repaired product with all shipping and handling prepaid  
except for requests requiring expedited shipping (i.e. overnight shipments). Failure to follow this warranty return  
procedure could result in the product’s warranty becoming null and void.  
Maretron reserves the right to modify or replace, at its sole discretion, without prior notification, the warranty listed  
above. To obtain a copy of the then current warranty policy, please go to the following web page:  
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Appendix A – NMEA 2000® Interfacing  
Note: For integer values, the most positive three values are reserved; e.g., for 8-bit unsigned integers,  
the values 0xFD, 0xFE, 0xFF are reserved, and for 8-bit signed integers, the values 0x7D, 0x7E, 0x7F  
are reserved. The most positive value (0xFF and 0x7F, respectively, for the 8-bit examples) represents  
Data Not Available.  
EMS100 NMEA 2000® Periodic Data Transmitted PGNs  
PGN 127488 – Engine Parameters, Rapid Update  
The EMS100 uses this PGN to transmit rapidly changing engine data.  
Field 1: Engine Instance – (8-bit unsigned integer) This field indicates the particular engine  
for which this data applies. A single engine will have an instance of 0. Engines in  
multi-engine boats will be numbered starting at 0 at the bow of the boat incrementing  
to n going in towards the stern of the boat. For engines at the same distance from the  
bow are stern, the engines are numbered starting from the port side and proceeding  
towards the starboard side.  
2: Engine Speed – (16-bit unsigned integer) This field indicates the rotational speed of  
the engine in units of ¼ RPM.  
3: Engine Boost Pressure – (16-bit unsigned integer) This field indicates the  
turbocharger boost pressure in units of 100 Pa.  
4: Engine tilt/trim – (8-bit signed integer) This field indicates the tilt or trim (positive or  
negative) of the engine in units of 1 percent.  
5: Reserved – (16 bits) This field is reserved by NMEA; therefore, the EMS100 sets all  
bits to a logic 1.  
PGN 127489 – Engine Parameters, Dynamic  
The EMS100 uses this PGN to transmit more slowly changing engine data.  
Field 1: Engine Instance – (8-bit unsigned integer) This field indicates the particular engine  
for which this data applies. A single engine will have an instance of 0. Engines in  
multi-engine boats will be numbered starting at 0 at the bow of the boat incrementing  
to n going in towards the stern of the boat. For engines at the same distance from the  
bow are stern, the engines are numbered starting from the port side and proceeding  
towards the starboard side.  
2: Engine Oil Pressure – (16-bit unsigned integer) This field indicates the oil pressure of  
the engine in units of 100 Pa.  
3: Engine Oil Temperature – (16-bit unsigned integer) This field indicates the oil  
temperature of the engine in units of 0.1°K. The EMS100 does not provide a value for  
this field.  
4: Engine Temperature – (16-bit unsigned integer) This field indicates the temperature  
of the engine coolant in units of 0.1°K.  
5: Alternator Potential – (16-bit signed integer) This field indicates the alternator voltage  
in units of 0.01V.  
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6: Fuel Rate – (16-bit signed integer) This field indicates the fuel consumption rate of  
the engine in units of 0.0001 cubic meters / hour. The EMS100 does not provide a  
value for this field.  
7: Total Engine Hours – (32-bit unsigned integer) This field indicates the cumulative  
runtime of the engine in units of 1 second.  
8: Engine Coolant Pressure – (16-bit unsigned integer) This field indicates the pressure  
of the engine coolant in units of 100 Pa. The EMS100 does not provide a value for  
this field.  
9: Fuel Pressure – (16-bit unsigned integer) This field indicates the pressure of the  
engine fuel in units of 1000 Pa. The EMS100 does not provide a value for this field.  
10: Reserved – (8 bits) This field is reserved by NMEA; therefore, the EMS100 sets all  
bits to a logic 1.  
11: Engine Discrete Status 1 – (16 bits) This field indicates warning conditions of the  
engine with the following bit assignments (value of 1 indicates warning present):  
Bit 0: Check Engine - The EMS100 always transmits a value of 0 for this field.  
Bit 1: Over Temperature  
Bit 2: Low Oil Pressure  
Bit 3: Low Oil Level - The EMS100 always transmits a value of 0 for this field.  
Bit 4: Low Fuel Pressure - The EMS100 always transmits a value of 0 for this  
field.  
Bit 5: Low System Voltage - The EMS100 always transmits a value of 0 for this  
field.  
Bit 6: Low Coolant Level  
Bit 7: Water Flow  
Bit 8: Water in Fuel  
Bit 9: Charge Indicator  
Bit 10:Preheat Indicator  
Bit 11:High Boost Pressure  
Bit 12:Rev Limit Exceeded - The EMS100 always transmits a value of 0 for this  
field.  
Bit 13:EGR System - The EMS100 always transmits a value of 0 for this field.  
Bit 14:Throttle Position Sensor - The EMS100 always transmits a value of 0 for  
this field.  
Bit 15: Emergency Stop Mode  
12: Engine Discrete Status 2 – (16 bits) This field indicates warning conditions of the  
engine with the following bit assignments (value of 1 indicates warning present):  
Bit 0: Warning Level 1 - The EMS100 always transmits a value of 0 for this field.  
Bit 1: Warning Level 2 - The EMS100 always transmits a value of 0 for this field.  
Bit 2: Power Reduction - The EMS100 always transmits a value of 0 for this  
field.  
Bit 3: Maintenance Needed - The EMS100 always transmits a value of 0 for this  
field.  
Bit 4: Engine Comm Error - The EMS100 always transmits a value of 0 for this  
field.  
Bit 5: Sub or Secondary Throttle - The EMS100 always transmits a value of 0 for  
this field.  
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Revision 1.1  
Bit 6: Neutral Start Protect - The EMS100 always transmits a value of 0 for this  
field.  
Bit 7: Engine Shutting Down - The EMS100 always transmits a value of 0 for this  
field.  
Bit 8-15: These bits are reserved and should be masked when read  
13: Percent Engine Load – (8-bit signed integer) This field indicates the percent load of  
the engine in units of 1 percent. The EMS100 does not provide a value for this field.  
14: Percent Engine Torque – (8-bit signed integer) This field indicates the percent torque  
of the engine in units of 1 percent. The EMS100 does not provide a value for this  
field.  
Revision 1.1  
Page A3  

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