GND 10 Installation Instructions
Page 1
... GND 10 device Garmin® marine instrument Ignition or in . (3 mm) bit, drill the pilot holes. 4 Use the included screws to attach the device to share information from the transducers with NMEA 2000, you are unfamiliar with programs such as a gWind sensor Included Nexus mast cable with a magnetic compass, the device should not be installed closer to...
... GND 10 device Garmin® marine instrument Ignition or in . (3 mm) bit, drill the pilot holes. 4 Use the included screws to attach the device to share information from the transducers with NMEA 2000, you are unfamiliar with programs such as a gWind sensor Included Nexus mast cable with a magnetic compass, the device should not be installed closer to...
GND 10 Installation Instructions
Page 2
... withstands incidental exposure to water of Garmin Ltd. Specifications Specification Dimensions (H×W×D) Weight Temperature range Compass-safe distance Waterproof rating NMEA 2000 power draw NMEA 2000 input voltage NMEA 2000 LEN @ 9 Vdc Measurement 170 x 90 x 50 mm (6.7 x 3.5 x 2 in.) 196 g (6.9 oz.) From 5° to a computer using the included USB cable, you can calibrate advanced sensors such...
... withstands incidental exposure to water of Garmin Ltd. Specifications Specification Dimensions (H×W×D) Weight Temperature range Compass-safe distance Waterproof rating NMEA 2000 power draw NMEA 2000 input voltage NMEA 2000 LEN @ 9 Vdc Measurement 170 x 90 x 50 mm (6.7 x 3.5 x 2 in.) 196 g (6.9 oz.) From 5° to a computer using the included USB cable, you can calibrate advanced sensors such...
Technical Reference for Garmin NMEA 2000 Products
Page 1
... NMEA 2000 network-building instructions (NMEA 2000 Network Planning and Construction, page 4), and a list of NMEA 2000 data that are compatible with other NMEA 2000 micro connectors, cables, and NMEA 2000 compatible devices. Garmin uses NMEA 2000 micro connectors on devices, sensors, and T-connectors that may be used for connecting marine sensors and display devices within...
... NMEA 2000 network-building instructions (NMEA 2000 Network Planning and Construction, page 4), and a list of NMEA 2000 data that are compatible with other NMEA 2000 micro connectors, cables, and NMEA 2000 compatible devices. Garmin uses NMEA 2000 micro connectors on devices, sensors, and T-connectors that may be used for connecting marine sensors and display devices within...
Technical Reference for Garmin NMEA 2000 Products
Page 2
...page 6). A cable longer than 6m (20 ft) can be used as a backbone cable or a drop cable. You must use this instead of the backbone. NMEA 2000 Components Item Description T-connector Garmin Part Number 010-11078-00 In-line terminator 010-11096-00 Power isolator 010-11580...the NMEA 2000 network to a 12 Vdc power source (Power Connection Considerations, page 7). 2 m (6.5 ft.) 3 A fuse included A cable up to 6 m (20 ft) can use T-connectors properly when connecting devices to the NMEA 2000 (Power Isolation, page 10). You must install terminators on both ends of a T-connector and...
...page 6). A cable longer than 6m (20 ft) can be used as a backbone cable or a drop cable. You must use this instead of the backbone. NMEA 2000 Components Item Description T-connector Garmin Part Number 010-11078-00 In-line terminator 010-11096-00 Power isolator 010-11580...the NMEA 2000 network to a 12 Vdc power source (Power Connection Considerations, page 7). 2 m (6.5 ft.) 3 A fuse included A cable up to 6 m (20 ft) can use T-connectors properly when connecting devices to the NMEA 2000 (Power Isolation, page 10). You must install terminators on both ends of a T-connector and...
Technical Reference for Garmin NMEA 2000 Products
Page 3
...backbone. Power to the NMEA 2000 network should have an LEN specified on the boat. Item Not pictured Description Field-installable connector Garmin Part Number Notes 010-11094-00: male 010-11095-00: female Can be used to shorten any Garmin NMEA 2000 backbone or drop cable NMEA...switch (instead of directly connected to the battery) because some NMEA 2000 devices are limited to the a device at the end of a T-connector (Linear Backbone Construction, page 6). Drop Cable: A cable connecting an NMEA 2000 device to the NMEA 2000 network. Drop cables are always on the network. A ...
...backbone. Power to the NMEA 2000 network should have an LEN specified on the boat. Item Not pictured Description Field-installable connector Garmin Part Number Notes 010-11094-00: male 010-11095-00: female Can be used to shorten any Garmin NMEA 2000 backbone or drop cable NMEA...switch (instead of directly connected to the battery) because some NMEA 2000 devices are limited to the a device at the end of a T-connector (Linear Backbone Construction, page 6). Drop Cable: A cable connecting an NMEA 2000 device to the NMEA 2000 network. Drop cables are always on the network. A ...
Technical Reference for Garmin NMEA 2000 Products
Page 4
... NMEA 2000 device to the backbone using a T-connector. When creating the diagram, be as detailed as needed....Power connection and distribution (Power Connection Considerations, page 7) • Proper network termination (Network Termination, page 11) • Cable length and device limits (NMEA 2000 Cable Length and Device Limitations, page 12) 4 After you create a diagram...power source, and you should start by creating a diagram of the network for the backbone and each of the connected devices. • You should note the power consumption (LEN) of each connected device. You must install...
... NMEA 2000 device to the backbone using a T-connector. When creating the diagram, be as detailed as needed....Power connection and distribution (Power Connection Considerations, page 7) • Proper network termination (Network Termination, page 11) • Cable length and device limits (NMEA 2000 Cable Length and Device Limitations, page 12) 4 After you create a diagram...power source, and you should start by creating a diagram of the network for the backbone and each of the connected devices. • You should note the power consumption (LEN) of each connected device. You must install...
Technical Reference for Garmin NMEA 2000 Products
Page 5
...(GPS or satellite) Marine instrument Ignition or in-line switch and fuse 12 Vdc power source Drop cable Female terminator Backbone extension cable T-connector Male terminator 5 Some devices or sensors can be powered by the NMEA 2000 network, and others may require a separate power connection. Consult the installation instructions ...for each device you connect to your NMEA 2000 network to make sure you supply power to each device or sensor on the network. Sample NMEA 2000 Network NOTE: This diagram illustrates only the ...
...(GPS or satellite) Marine instrument Ignition or in-line switch and fuse 12 Vdc power source Drop cable Female terminator Backbone extension cable T-connector Male terminator 5 Some devices or sensors can be powered by the NMEA 2000 network, and others may require a separate power connection. Consult the installation instructions ...for each device you connect to your NMEA 2000 network to make sure you supply power to each device or sensor on the network. Sample NMEA 2000 Network NOTE: This diagram illustrates only the ...
Technical Reference for Garmin NMEA 2000 Products
Page 6
.... 6 The top of a T-connector is used to connect a device or power to the network only, and the backbone cannot route through a backbone cable extension. NMEA 2000 devices and power NMEA 2000 drop cables and network power cables must connect to the side of one another ...cables and network power cables must connect to the side of a T-connector, and never to the top of the last T-connector in the backbone, and cannot connect to one another using a cable connected to the sides of a T-connector. NMEA 2000 Network with Correct Linear Backbone Construction Female terminator installed...
.... 6 The top of a T-connector is used to connect a device or power to the network only, and the backbone cannot route through a backbone cable extension. NMEA 2000 devices and power NMEA 2000 drop cables and network power cables must connect to the side of one another ...cables and network power cables must connect to the side of a T-connector, and never to the top of the last T-connector in the backbone, and cannot connect to one another using a cable connected to the sides of a T-connector. NMEA 2000 Network with Correct Linear Backbone Construction Female terminator installed...
Technical Reference for Garmin NMEA 2000 Products
Page 7
..., not the side. • The power cable can install these considerations: • The dedicated NMEA 2000 power cable must observe these devices using a power isolator (Power Isolation, page 10). 7 When connecting the NMEA 2000 network to power, you must connect the power cable to the power source through an in-line switch. • The dedicated NMEA 2000 power cable must connect to the top...
..., not the side. • The power cable can install these considerations: • The dedicated NMEA 2000 power cable must observe these devices using a power isolator (Power Isolation, page 10). 7 When connecting the NMEA 2000 network to power, you must connect the power cable to the power source through an in-line switch. • The dedicated NMEA 2000 power cable must connect to the top...
Technical Reference for Garmin NMEA 2000 Products
Page 8
...than 1.67 Vdc, you must connect power to balance the voltage drop equally on both sides of the power connection. • If a voltage drop of the power connection in the network depends on the NMEA 2000 network, contact a professional installer for assistance. The network load is... of the network. Distance: Refers to the distance from the battery. Power Distribution and Balance Selecting the proper location of the power connection to the device located furthest away on the network (in meters). The Garmin cable resistance value is not possible on the network load and distance...
...than 1.67 Vdc, you must connect power to balance the voltage drop equally on both sides of the power connection. • If a voltage drop of the power connection in the network depends on the NMEA 2000 network, contact a professional installer for assistance. The network load is... of the network. Distance: Refers to the distance from the battery. Power Distribution and Balance Selecting the proper location of the power connection to the device located furthest away on the network (in meters). The Garmin cable resistance value is not possible on the network load and distance...
Technical Reference for Garmin NMEA 2000 Products
Page 10
... install a power isolator (010-11580-00) in this may result in providing power to the network in two places, and could result in both directions. To accommodate two power connections to the network, you connect the power source is redesigned with the power source... may damage other cases this example), use the LEN from the device connected to that also provide power. Middle-Powered NMEA 2000 Network Designed Correctly Drop cable Length = 2 m Power cable Length = 2 m Drop cable Length = 4 m Drop cable Length = 6 m Backbone cable Length = 10 m Backbone cable Length = 6 m When the NMEA...
... install a power isolator (010-11580-00) in this may result in providing power to the network in two places, and could result in both directions. To accommodate two power connections to the network, you connect the power source is redesigned with the power source... may damage other cases this example), use the LEN from the device connected to that also provide power. Middle-Powered NMEA 2000 Network Designed Correctly Drop cable Length = 2 m Power cable Length = 2 m Drop cable Length = 4 m Drop cable Length = 6 m Backbone cable Length = 10 m Backbone cable Length = 6 m When the NMEA...
Technical Reference for Garmin NMEA 2000 Products
Page 11
...network is separated from the backbone by a long length of backbone extension cable, and the typical T-connector/drop cable/terminator combination is not feasible or is used in -line terminator using a drop cable. You can install either two standard terminators or one in-line terminator on an NMEA 2000...NMEA 2000 Network with Standard Terminators To power and NMEA 2000 devices Female terminator Backbone extension cable Male terminator If the final NMEA 2000 device on this , you can only use an in -line terminator connects to the NMEA 2000 backbone using a male connector, and to the ...
...network is separated from the backbone by a long length of backbone extension cable, and the typical T-connector/drop cable/terminator combination is not feasible or is used in -line terminator using a drop cable. You can install either two standard terminators or one in-line terminator on an NMEA 2000...NMEA 2000 Network with Standard Terminators To power and NMEA 2000 devices Female terminator Backbone extension cable Male terminator If the final NMEA 2000 device on this , you can only use an in -line terminator connects to the NMEA 2000 backbone using a male connector, and to the ...
Technical Reference for Garmin NMEA 2000 Products
Page 12
... cable for assistance. Cable and Connector Type: Garmin uses NMEA 2000 micro connectors for a list of a T-connector to the NMEA 2000 network at the ends of the network. • The total length of all cables and connectors. If you must connect power to NMEA 2000 device is necessary or a specific ... An existing NMEA 2000 network may provide more than micro connectors, so you have installed and configured. If you are unsure of any two points on an NMEA 2000 network must install a power isolator in the backbone. Considerations for Existing NMEA 2000 Networks If a boat has an...
... cable for assistance. Cable and Connector Type: Garmin uses NMEA 2000 micro connectors for a list of a T-connector to the NMEA 2000 network at the ends of the network. • The total length of all cables and connectors. If you must connect power to NMEA 2000 device is necessary or a specific ... An existing NMEA 2000 network may provide more than micro connectors, so you have installed and configured. If you are unsure of any two points on an NMEA 2000 network must install a power isolator in the backbone. Considerations for Existing NMEA 2000 Networks If a boat has an...
Technical Reference for Garmin NMEA 2000 Products
Page 13
Cruising range 127489: Dynamic engine parameters (GPS Speed or Water Speed) Fuel level 127505: Fluid level Tank 1 127505: Fluid level Tank 2 127505: ... speed sensor Fuel level sensor Fuel level sensor Fuel level sensor 13 NMEA 2000 Engine Data Data Type PGN Data Required Battery voltage 127489: Dynamic engine parameters Fuel flow rate 127489: Dynamic engine parameters Hours 127489: Dynamic engine parameters Oil pressure 127489... economy NOTE: The fuel economy data type 127489: Dynamic engine parameters is configurable, based on the (GPS speed or water speed) speed source.
Cruising range 127489: Dynamic engine parameters (GPS Speed or Water Speed) Fuel level 127505: Fluid level Tank 1 127505: Fluid level Tank 2 127505: ... speed sensor Fuel level sensor Fuel level sensor Fuel level sensor 13 NMEA 2000 Engine Data Data Type PGN Data Required Battery voltage 127489: Dynamic engine parameters Fuel flow rate 127489: Dynamic engine parameters Hours 127489: Dynamic engine parameters Oil pressure 127489... economy NOTE: The fuel economy data type 127489: Dynamic engine parameters is configurable, based on the (GPS speed or water speed) speed source.
Technical Reference for Garmin NMEA 2000 Products
Page 14
...: GNSS position data 129284: Nav data 129285: Navigation (route and waypoint) 129283: Cross track error Distance made good 129026: COG/SOG 129029: GNSS position 129284: Nav data 129285: Route Waypoint ...Turn 129026: COG/SOG 129029: GNSS position 129284: Nav data Typical Sender Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Garmin chartplotter Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Heading sensor GPS antenna GPS antenna GPS antenna Garmin chartplotter and GPS...
...: GNSS position data 129284: Nav data 129285: Navigation (route and waypoint) 129283: Cross track error Distance made good 129026: COG/SOG 129029: GNSS position 129284: Nav data 129285: Route Waypoint ...Turn 129026: COG/SOG 129029: GNSS position 129284: Nav data Typical Sender Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Garmin chartplotter Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Garmin chartplotter and GPS antenna Heading sensor GPS antenna GPS antenna GPS antenna Garmin chartplotter and GPS...
Technical Reference for Garmin NMEA 2000 Products
Page 15
NMEA 2000 Trip Data Data Type Odometer Trip odometer Average GPS speed Maximum GPS speed Water odometer Water trip odometer Average water speed Maximum water speed PGN Data Required 129026: COG and SOG 129029: GNSS position data 129026: COG and SOG 129029: GNSS position data 129026: COG and SOG 129029: GNSS position data 129026: COG and SOG 129029: GNSS position data 128259: Water speed 128259: Water speed 128259: Water speed 128259: Water speed Typical Sender GPS antenna GPS antenna GPS antenna GPS antenna Water speed sensor Water speed sensor Water speed sensor Water speed sensor 15
NMEA 2000 Trip Data Data Type Odometer Trip odometer Average GPS speed Maximum GPS speed Water odometer Water trip odometer Average water speed Maximum water speed PGN Data Required 129026: COG and SOG 129029: GNSS position data 129026: COG and SOG 129029: GNSS position data 129026: COG and SOG 129029: GNSS position data 129026: COG and SOG 129029: GNSS position data 128259: Water speed 128259: Water speed 128259: Water speed 128259: Water speed Typical Sender GPS antenna GPS antenna GPS antenna GPS antenna Water speed sensor Water speed sensor Water speed sensor Water speed sensor 15
Technical Reference for Garmin NMEA 2000 Products
Page 16
... Sender Barometric pressure sensor Air temperature sensor Humidity sensor A wind sensor, a water speed sensor, a heading sensor, and a GPS antenna A wind sensor and a GPS Antenna A wind sensor, a water speed sensor, and a heading sensor A wind sensor, a water speed sensor, a heading sensor, and..., a water speed sensor, a heading sensor, and a GPS antenna A wind sensor and a GPS Antenna 1 If a heading sensor and water speed sensor are not present, a less-accurate reading can be calculated using only a wind sensor and GPS antenna. 2 If a GPS antenna is not present, a less-accurate reading can be ...
... Sender Barometric pressure sensor Air temperature sensor Humidity sensor A wind sensor, a water speed sensor, a heading sensor, and a GPS antenna A wind sensor and a GPS Antenna A wind sensor, a water speed sensor, and a heading sensor A wind sensor, a water speed sensor, a heading sensor, and..., a water speed sensor, a heading sensor, and a GPS antenna A wind sensor and a GPS Antenna 1 If a heading sensor and water speed sensor are not present, a less-accurate reading can be calculated using only a wind sensor and GPS antenna. 2 If a GPS antenna is not present, a less-accurate reading can be ...
Technical Reference for Garmin NMEA 2000 Products
Page 17
... sensor, and a heading sensor A wind sensor, a water speed sensor, a heading sensor, and a GPS antenna A wind sensor and a GPS Antenna A wind sensor, a water speed sensor, and a heading sensor GPS antenna 1 If a GPS antenna is not present, a less-accurate reading can be calculated using only a wind sensor, a water speed sensor, and a heading sensor. 2 If a heading sensor and...
... sensor, and a heading sensor A wind sensor, a water speed sensor, a heading sensor, and a GPS antenna A wind sensor and a GPS Antenna A wind sensor, a water speed sensor, and a heading sensor GPS antenna 1 If a GPS antenna is not present, a less-accurate reading can be calculated using only a wind sensor, a water speed sensor, and a heading sensor. 2 If a heading sensor and...
Technical Reference for Garmin NMEA 2000 Products
Page 18
...129026: COG/SOG 129029: GNSS position Wind sensor and a GPS antenna 130306: Wind data 128259: Water speed 130306: Wind...GNSS position Wind sensor and a GPS antenna 130306: Wind data 129284: Nav data Garmin chartplotter and a GPS antenna 130306: Wind data Wind... sensor 128259: Water speed 130306: Wind data Wind sensor and a water speed sensor 129026: COG/SOG 129029: GNSS position Wind sensor and a GPS...wind sensor, a heading sensor, and a GPS 127250: Vessel heading antenna 130306: Wind data 1 If a water speed sensor ...
...129026: COG/SOG 129029: GNSS position Wind sensor and a GPS antenna 130306: Wind data 128259: Water speed 130306: Wind...GNSS position Wind sensor and a GPS antenna 130306: Wind data 129284: Nav data Garmin chartplotter and a GPS antenna 130306: Wind data Wind... sensor 128259: Water speed 130306: Wind data Wind sensor and a water speed sensor 129026: COG/SOG 129029: GNSS position Wind sensor and a GPS...wind sensor, a heading sensor, and a GPS 127250: Vessel heading antenna 130306: Wind data 1 If a water speed sensor ...
Technical Reference for Garmin NMEA 2000 Products
Page 19
... Type PGN Data Required Typical Sender Depth 128267: Water depth Depth transducer 130310: Environmental parameters (old) Temperature 130311: Environmental parameters Water temperature sensor 130312: Temperature Speed 128259 - GNSS position data Typical Sender GPS antenna GPS antenna © 2008 Garmin Ltd. or its subsidiaries 19 Water speed Water speed sensor 127250: Vessel heading Set 128259: Water speed 129026: COG...
... Type PGN Data Required Typical Sender Depth 128267: Water depth Depth transducer 130310: Environmental parameters (old) Temperature 130311: Environmental parameters Water temperature sensor 130312: Temperature Speed 128259 - GNSS position data Typical Sender GPS antenna GPS antenna © 2008 Garmin Ltd. or its subsidiaries 19 Water speed Water speed sensor 127250: Vessel heading Set 128259: Water speed 129026: COG...