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Technical Reference for Garmin NMEA 2000 Products 

NMEA 2000 Fundamentals

Power Connection and Distribution

Your NMEA 2000 network must be connected to a 12 Vdc power supply. Do not connect your NMEA 2000 network to any other voltage 

source, such as a 24 Vdc power supply. Use a NMEA 2000 power cable to connect your NMEA 2000 backbone to the auxiliary power switch 

on your boat. If you do not have an auxiliary power switch, or if connecting to the auxiliary power switch causes electrical interference, connect 

the NMEA 2000 power cable directly to the battery and install an in-line switch.

 

CautioN: 

If you connect the NMEA 2000 network to your battery without an in-line switch, it may drain your battery.

Be sure to ground the NMEA 2000 power cable. Connect the bare shield-drain wire to the same location as the ground (black) wire.
The Garmin NMEA 2000 power cable connects to a T-connector like other drop cables. Be sure to connect the NMEA 2000 power cable to the 

top of a T-connector; never connect the NMEA 2000 power cable to the side of a T-connector. You can connect power either at the end of your 

NMEA 2000 network or in the middle. When planning where to place the power cable and the T-connector on your NMEA 2000 network, you 

will need to evaluate how the NMEA 2000 devices connected to your network use power. The NMEA 2000 network will work properly when 

there is no more than a 3 Vdc drop in the supply voltage between the power source and the NMEA 2000 device located farthest from the power 

source on the NMEA 2000 network. To determine the voltage drop in your NMEA 2000 network, use this equation:

Voltage Drop = Cable resistance (ohms/m)* × Distance (from the battery to the farthest device, in meters) × Network Load** × 0.1

* Garmin cable resistance value = 0.0

** Network Load = the sum of Load Equivalent Numbers (LEN) between the battery and the end of the network. The LEN for each device should be visible on 

the device, or provided in the documentation for the device. 

If you calculate a voltage drop of 3.0 Vdc or less, then you can connect power to either the end or the middle of your NMEA 2000 network, 

and it will function correctly.
If you calculate a voltage drop of more than 3.0 Vdc, you must connect power to the middle of your NMEA 2000 network. The location will 

depend on the network load and distance from the battery. Try to balance the voltage drop equally on both sides of the power connection.
If a voltage drop of under 3.0 Vdc is not possible on your NMEA 2000 network, contact a professional installer.

Examples

The following examples show a correctly designed, end-powered NMEA 2000 network; an incorrectly designed NMEA 2000 network; and a 

redesign of the incorrectly designed NMEA 2000 network to correctly balance power on the network. 

End-powered NMEA 2000 network, correctly designed:

CORRECT

+

-

NMEA 2000-

compliant device

LEN = 

NMEA 2000-

compliant device

LEN = 

NMEA 2000-

compliant device

LEN = 7

Power cable 

Length = 2 m

Drop cable 

Length = 2 m

Drop cable 

Length = 6 m

Backbone cable 

Length = 0 m

Backbone cable 

Length = 0 m

Drop cable 

Length = 6 m

When the voltage-drop formula is applied to this example, we 

see that the voltage drop is less than 3.0 Vdc. This NMEA 2000 

network will function correctly when powered at the end.

Voltage Drop = 0.053 × (2 + 10 + 10 + 6) × (4 + 5 + 7) × 0.1 = 2.37 Vdc

Distance

Network load

Cable 

resistance

Distance

Network load

Cable 

resistance

Summary of Contents for Forerunner 225

Page 1: ...Technical Reference for Garmin NMEA 2000 Products...

Page 2: ...rint one copy of this manual or of any revision hereto provided that such electronic or printed copy of this manual must contain the complete text of this copyright notice and provided further that an...

Page 3: ...EA 2000 sensors These sections contain PGN and configuration information for the following products GPSMAP 4 5000 Series chartplotters GMI 10 GFS 10 Intelliducers GWS 10 GHP 10 CCU and GHC 10 GXM 51 V...

Page 4: ...17 VHF 200 17 NMEA 2000 Certified Sensor Configuration Information 18 GPS 17x GPS Antenna 18 Enabling and Disabling WAAS Wide Area Augmentation System EGNOS Euro Geostationary Navigation Overlay Serv...

Page 5: ...be packaged with a drop cable and a T connector Garmin displays may also include additional NMEA 2000 components such as a power cable The NMEA 2000 components included with a Garmin sensor or displa...

Page 6: ...30 meter spool 98 5 feet backbone only 010 11171 01 Specialty Cable Connectors Right angle drop cable 2 meters 6 5 feet pictured 010 11089 00 Field installable connector Male not pictured 010 11094 0...

Page 7: ...kbone Note the power consumption of each device Load Equivalency Number Sample NMEA 2000 Network Ignition or in line switch T connector Male terminator Power cable Battery 12 Vdc Backbone extension ca...

Page 8: ...near construction to your NMEA 2000 network T connectors can be separated by backbone cables or connected directly together Although the male and female connectors on the T connectors and backbone cab...

Page 9: ...EA 2000 network use this equation Voltage Drop Cable resistance ohms m Distance from the battery to the farthest device in meters Network Load 0 1 Garmin cable resistance value 0 053 Network Load the...

Page 10: ...CORRECT NMEA 2000 compliant device LEN 4 NMEA 2000 compliant device LEN 5 NMEA 2000 compliant device LEN 7 Power cable Length 2 m Drop cable Length 2 m Backbone cable Length 10 m Backbone cable Length...

Page 11: ...onnector drop cable terminator combination is not feasible or is too bulky for the area use an in line terminator instead of the final T connector on the backbone Connect the final device to the in li...

Page 12: ...siderations contact your boat manufacturer or a certified NMEA 2000 technician for assistance NMEA 2000 Glossary T connector Three way connector with one male and two female micro connectors A T conne...

Page 13: ...ture 127489 Eng Dynamic NMEA 2000 compatible engine Boost Pressure 127488 Engine Rapid NMEA 2000 compatible engine Trim 127488 Engine Rapid NMEA 2000 compatible engine Rudder Angle 127245 Rudder Rudde...

Page 14: ...sor Wind Speed 130306 Wind Data 129026 COG SOG 129029 GNSS Position 127250 Vessel Heading and 128259 Water Speed If a Heading Sensor and Water Speed Sensor are not present a less accurate reading can...

Page 15: ...Position GPS Antenna Sailing Apparent Wind Speed 130306 Wind Data Wind Sensor Apparent Wind Angle 130306 Wind Data Wind Sensor True Wind Speed 130306 Wind Data and 128259 Water Speed If a Water Speed...

Page 16: ...or Speed 128259 Water Speed Water Speed Sensor Set 129026 COG SOG 129029 GNSS Position 128259 Water Speed and 127250 Vessel Heading GPS Antenna Water Speed Sensor and Heading Sensor Drift 129026 COG S...

Page 17: ...0928 ISO Address Claim 060928 ISO Address Claim 126208 NMEA Command Request Acknowledge Group Function 126208 NMEA Command Request Acknowledge Group Function 126464 Transmit Receive PGN List Group Fun...

Page 18: ...System Time 126996 Product Information 126996 Product Information 127250 Vessel Heading 127488 Engine Parameters Rapid Update 127488 Boost Pressure 127489 Coolant Pressure 127489 Fuel Pressure 127489...

Page 19: ...gement 059392 ISO Acknowledgement 060928 ISO Address Claim 059904 ISO Request 126208 NMEA Command Request Acknowledge Group Function 060928 ISO Address Claim 126464 Transmit Receive PGN List Group Fun...

Page 20: ...Receive PGN List Group Function 126464 Transmit Receive PGN List Group Function 126996 Product Information 126996 Product Information 127250 Vessel Heading 127258 Magnetic Variation 127488 Engine Para...

Page 21: ...mmand Request Acknowledge Group Function 126996 Product Information VHF 200 Transmit Receive 059392 ISO Acknowledgment 059392 ISO Acknowledgment 060928 ISO Address Claim 059904 ISO Request 126208 NMEA...

Page 22: ...information The speed filter averages the data provided by the GPS 17x to provide smoother position data updates The speed filter is most helpful when stationary or in low speed situations 1 While vi...

Page 23: ...uel page or fuel instrument screen on your NMEA 2000 device select Menu Fuel Economy Source 2 Select either GPS Speed or Water Speed to specify which speed sensor is used to calculate fuel economy Usi...

Page 24: ...e fuel level changes with the motion of the boat Perform this test when the boat is not moving To test the gauge type setting 1 When the boat is not moving put the engine in neutral 2 Use the throttle...

Page 25: ...e NMEA 2000 device configuration menu select a specific Intelliducer and select Config Keel Offset 2 Enter the measured distance from the Intelliducer location to the water line or to the keel of the...

Page 26: ...e in the wind speed more gradually and help the gauge needle or wind speed number to move or change more steadily Auto automatically adjusts the filter settings based on wind conditions Configuring th...

Page 27: ...the command with a number between 0 and 254 representing a time constant in increments of 0 25 second or 255 to represent the Automatic setting for example ANGLEFILTER 12 To configure the wind speed f...

Page 28: ...24 Technical Reference for Garmin NMEA 2000 Products NMEA 2000 Certified Sensor Configuration Information...

Page 29: ...rectly on the network page 5 Is the NMEA 2000 network power connected through the ignition switch if not did you install a switch page 5 Is the NMEA 2000 power cable grounded Is the bare wire connecte...

Page 30: ...2009 Garmin Ltd or its subsidiaries Garmin International Inc 1200 East 151st Street Olathe Kansas 66062 USA Garmin Europe Ltd Liberty House Hounsdown Business Park Southampton Hampshire SO40 9RB UK G...

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