Installation Instructions
Page 3
... online registration today! In Europe, contact Garmin (Europe) Ltd. Do not install this Intelliducer in a safe place. This Thru-Hull Intelliducer provides depth information either to a NMEA 0183-compatible device, or to www.garmin.com/support/. at http://my.garmin.com. top and bottom portions • Gasket and locking ring • Power/data cable, or NMEA 2000 cable • NMEA 2000 T-connector • Mild detergent OR...
... online registration today! In Europe, contact Garmin (Europe) Ltd. Do not install this Intelliducer in a safe place. This Thru-Hull Intelliducer provides depth information either to a NMEA 0183-compatible device, or to www.garmin.com/support/. at http://my.garmin.com. top and bottom portions • Gasket and locking ring • Power/data cable, or NMEA 2000 cable • NMEA 2000 T-connector • Mild detergent OR...
Installation Instructions
Page 4
... sounder transducers, and cables. • Do not mount the Intelliducer near water intake openings or water discharge openings. Connect the Intelliducer your boat to allow for metal- Install midships, at all times during use. ...Mount on your existing NMEA 2000 network. When choosing a location, consider the following guidelines. Install the Intelliducer To install the Thru-Hull NMEA 2000 Intelliducer: 1. Caution: Do not install the Intelliducer in the hull. 4. Drill through and prepare the hull. 3. Hull Types Additional, boat-specific details should be able to power and a NMEA...
... sounder transducers, and cables. • Do not mount the Intelliducer near water intake openings or water discharge openings. Connect the Intelliducer your boat to allow for metal- Install midships, at all times during use. ...Mount on your existing NMEA 2000 network. When choosing a location, consider the following guidelines. Install the Intelliducer To install the Thru-Hull NMEA 2000 Intelliducer: 1. Caution: Do not install the Intelliducer in the hull. 4. Drill through and prepare the hull. 3. Hull Types Additional, boat-specific details should be able to power and a NMEA...
Installation Instructions
Page 5
... obtain accurate depth readings. Be sure to cut a 2 in a better location. 3. Drill a 1/8 in the hole. Use an angle finder or digital level to install the Intelliducer. Inboard engine boats • Mount forward of the shaft and propeller, and ensure the location is submerged at high speeds. Stepped hull boats • Mount ahead of Thru-Hull Intelliducers: NMEA 2000 0-12 Degrees (010...
... obtain accurate depth readings. Be sure to cut a 2 in a better location. 3. Drill a 1/8 in the hole. Use an angle finder or digital level to install the Intelliducer. Inboard engine boats • Mount forward of the shaft and propeller, and ensure the location is submerged at high speeds. Stepped hull boats • Mount ahead of Thru-Hull Intelliducers: NMEA 2000 0-12 Degrees (010...
Installation Instructions
Page 6
...Use a hole saw to cut a hole 3/8-1/2 in a better location. 3. Cut through the inner skin and most of the boat through the outer skin. Sand the inside of the hole. After the material has hardened, sand and clean the hole and areas around the inside and outside of the hole. Thru-Hull Intelliducer Installation Instructions...hull is not sealed and reinforced properly, water may sink. To seal the core with epoxy and re-drill the pilot hole in . (9-12 mm) larger than the hole through the outer skin only. After the epoxy has hardened, remove the cylinder. 5. caution: If the ...
...Use a hole saw to cut a hole 3/8-1/2 in a better location. 3. Cut through the inner skin and most of the boat through the outer skin. Sand the inside of the hole. After the material has hardened, sand and clean the hole and areas around the inside and outside of the hole. Thru-Hull Intelliducer Installation Instructions...hull is not sealed and reinforced properly, water may sink. To seal the core with epoxy and re-drill the pilot hole in . (9-12 mm) larger than the hole through the outer skin only. After the epoxy has hardened, remove the cylinder. 5. caution: If the ...
Installation Instructions
Page 7
... of the sealant. 8. Place the gasket over the Intelliducer. 7. Twist it in the water for leaks. Thru-Hull Intelliducer Installation Instructions Hand tighten the locking ring-do not use tools-while ensuring that the top portion is observed, check the installation every hour for several days. Test the installation for more than the thickness of the hull...
... of the sealant. 8. Place the gasket over the Intelliducer. 7. Twist it in the water for leaks. Thru-Hull Intelliducer Installation Instructions Hand tighten the locking ring-do not use tools-while ensuring that the top portion is observed, check the installation every hour for several days. Test the installation for more than the thickness of the hull...
Installation Instructions
Page 8
... packaged with a NMEA 2000 T-connector and a NMEA 2000 drop cable. Use these instructions to connect a NMEA 2000 Thru-Hull Intelliducer. If you have an existing NMEA 2000 network, you added to your NMEA 2000 network. Step 4 (NMEA 2000): Connect the Intelliducer to a NMEA 2000 Network Follow these two components to connect the Intelliducer to your existing NMEA 2000 network. For more information on your existing NMEA 2000 network: 1. To connect the Transom Mount Intelliducer to your...
... packaged with a NMEA 2000 T-connector and a NMEA 2000 drop cable. Use these instructions to connect a NMEA 2000 Thru-Hull Intelliducer. If you have an existing NMEA 2000 network, you added to your NMEA 2000 network. Step 4 (NMEA 2000): Connect the Intelliducer to a NMEA 2000 Network Follow these two components to connect the Intelliducer to your existing NMEA 2000 network. For more information on your existing NMEA 2000 network: 1. To connect the Transom Mount Intelliducer to your...
Installation Instructions
Page 9
... = receive. Fuse 12 Vdc 2 A Red Black Orange > Gray > White/Red Power Ground ACC On Rx A(+) > Rx B(-) > NMEA 0183Compliant Device Thru-Hull NMEA 0183 Intelliducer Wired to a NMEA 0183-compliant Device Exceptions: • If your NMEA 0183-compliant device has only one Intelliducer. Use the diagrams to receive data from one receiving wire (Rx), connect it is used when wiring the Intelliducer to the ignition or install an...
... = receive. Fuse 12 Vdc 2 A Red Black Orange > Gray > White/Red Power Ground ACC On Rx A(+) > Rx B(-) > NMEA 0183Compliant Device Thru-Hull NMEA 0183 Intelliducer Wired to a NMEA 0183-compliant Device Exceptions: • If your NMEA 0183-compliant device has only one Intelliducer. Use the diagrams to receive data from one receiving wire (Rx), connect it is used when wiring the Intelliducer to the ignition or install an...
Installation Instructions
Page 10
.... Specifications Physical Unit Dimensions: Weight: Cables: Temperature range: Case Material: 4 /19 32 in. (116.3 mm) L × 4 in. (101.4 mm) W × 3 in. (76.2 mm) D 13 oz. (364 g) NMEA 2000 drop cable - 19 ft. 8 in. (6 m) NMEA 0183 power/data cable - 29 ft. 6 in salt water, you are using the Intelliducer with an existing Garmin chartplotter, upgrade your Intelliducer to -peak) 160 kHz 900 ft. (275 m) (Depth...
.... Specifications Physical Unit Dimensions: Weight: Cables: Temperature range: Case Material: 4 /19 32 in. (116.3 mm) L × 4 in. (101.4 mm) W × 3 in. (76.2 mm) D 13 oz. (364 g) NMEA 2000 drop cable - 19 ft. 8 in. (6 m) NMEA 0183 power/data cable - 29 ft. 6 in salt water, you are using the Intelliducer with an existing Garmin chartplotter, upgrade your Intelliducer to -peak) 160 kHz 900 ft. (275 m) (Depth...
Installation Instructions
Page 11
... part of America copyright laws and international copyright treaties. Garmin reserves the right to change without obligation to notify any unauthorized commercial distribution of this manual onto a hard drive or other relevant provisions of Garmin Ltd. Thru-Hull Intelliducer Installation Instructions 11 You acknowledge that any person or organization of the product. Garmin grants you a limited license to use...
... part of America copyright laws and international copyright treaties. Garmin reserves the right to change without obligation to notify any unauthorized commercial distribution of this manual onto a hard drive or other relevant provisions of Garmin Ltd. Thru-Hull Intelliducer Installation Instructions 11 You acknowledge that any person or organization of the product. Garmin grants you a limited license to use...
Technical Reference for Garmin NMEA 2000 Products
Page 1
... standard used by some Garmin NMEA 2000 certified devices (General NMEA 2000 Data Types, page 12). TECHNICAL REFERENCE FOR GARMIN® NMEA 2000® PRODUCTS NMEA 2000 Network Fundamentals This technical reference provides basic NMEA 2000 component identification (NMEA 2000 Components, page 2), basic 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. What is NMEA 2000...
... standard used by some Garmin NMEA 2000 certified devices (General NMEA 2000 Data Types, page 12). TECHNICAL REFERENCE FOR GARMIN® NMEA 2000® PRODUCTS NMEA 2000 Network Fundamentals This technical reference provides basic NMEA 2000 component identification (NMEA 2000 Components, page 2), basic 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. What is NMEA 2000...
Technical Reference for Garmin NMEA 2000 Products
Page 2
..., page 11). Can be used as a backbone cable only. You can be used when connecting to 6 m (20 ft) can be used as a backbone cable or a drop cable. Connects 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 a device with minimal clearance for the rear connectors. 2 NMEA 2000 Components Item Description T-connector Garmin Part Number 010-11078-00...
..., page 11). Can be used as a backbone cable only. You can be used when connecting to 6 m (20 ft) can be used as a backbone cable or a drop cable. Connects 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 a device with minimal clearance for the rear connectors. 2 NMEA 2000 Components Item Description T-connector Garmin Part Number 010-11078-00...
Technical Reference for Garmin NMEA 2000 Products
Page 3
...battery) because some NMEA 2000 devices are limited to the NMEA 2000 backbone. 3 NMEA 2000 devices must connect to the top of a T-connector or to the NMEA 2000 network. A T-connector is used to connect an NMEA 2000 device to 6 m (20 ft.) maximum length. Drop cables are always on when power...Drop Cable: A cable connecting an NMEA 2000 device to the NMEA 2000 network. 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 2000 Glossary ...
...battery) because some NMEA 2000 devices are limited to the NMEA 2000 backbone. 3 NMEA 2000 devices must connect to the top of a T-connector or to the NMEA 2000 network. A T-connector is used to connect an NMEA 2000 device to 6 m (20 ft.) maximum length. Drop cables are always on when power...Drop Cable: A cable connecting an NMEA 2000 device to the NMEA 2000 network. 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 2000 Glossary ...
Technical Reference for Garmin NMEA 2000 Products
Page 4
...page 6) • 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 of your network,...power source, and you must connect the NMEA 2000 backbone to the network. • You should note the approximate location on the boat for proper functionality. NMEA 2000 Network Planning and Construction The backbone is the main communication channel of an NMEA 2000 network to the backbone using...
...page 6) • 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 of your network,...power source, and you must connect the NMEA 2000 backbone to the network. • You should note the approximate location on the boat for proper functionality. NMEA 2000 Network Planning and Construction The backbone is the main communication channel of an NMEA 2000 network to the backbone using...
Technical Reference for Garmin NMEA 2000 Products
Page 5
... device (MFD) Antenna (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...
... device (MFD) Antenna (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...
Technical Reference for Garmin NMEA 2000 Products
Page 6
...sides. NMEA 2000 devices and power NMEA 2000 drop cables and network power cables must connect to the top of a T-connector. The top of a T-connector is used to connect a device or power to...installed incorrectly The terminator must connect to construct the backbone properly. Linear Backbone Construction The backbone is the main communication path of the NMEA 2000 network, so it is extremely important to the side of the last T-connector in the backbone. NMEA 2000 Network with Incorrect Linear Backbone Construction NMEA 2000 devices and power NMEA 2000 drop cables and network power cables...
...sides. NMEA 2000 devices and power NMEA 2000 drop cables and network power cables must connect to the top of a T-connector. The top of a T-connector is used to connect a device or power to...installed incorrectly The terminator must connect to construct the backbone properly. Linear Backbone Construction The backbone is the main communication path of the NMEA 2000 network, so it is extremely important to the side of the last T-connector in the backbone. NMEA 2000 Network with Incorrect Linear Backbone Construction NMEA 2000 devices and power NMEA 2000 drop cables and network power cables...
Technical Reference for Garmin NMEA 2000 Products
Page 7
.... • The power cable can install these considerations: • The dedicated NMEA 2000 power cable must connect to the top of the devices on the boat. If there is not an auxiliary power switch, or if connecting to the auxiliary power switch causes electrical interference, you must connect to a 12 Vdc power source using a dedicated NMEA 2000 power cable. When connecting the NMEA 2000 network to power, you can...
.... • The power cable can install these considerations: • The dedicated NMEA 2000 power cable must connect to the top of the devices on the boat. If there is not an auxiliary power switch, or if connecting to the auxiliary power switch causes electrical interference, you must connect to a 12 Vdc power source using a dedicated NMEA 2000 power cable. When connecting the NMEA 2000 network to power, you can...
Technical Reference for Garmin NMEA 2000 Products
Page 8
... voltage between the T-connector with the power cable and the NMEA 2000 device located farthest from the battery. Load: Refers to the network load. The location of the power connection in the network depends on the network (in meters). When evaluating the results of your NMEA 2000 network, use this Tconnector. The Garmin cable resistance value is the sum of the...
... voltage between the T-connector with the power cable and the NMEA 2000 device located farthest from the battery. Load: Refers to the network load. The location of the power connection in the network depends on the network (in meters). When evaluating the results of your NMEA 2000 network, use this Tconnector. The Garmin cable resistance value is the sum of the...
Technical Reference for Garmin NMEA 2000 Products
Page 10
... to the network that T-connector as part of the Power Connection Resistance × Distance × Load 0.053 × 12 (2 + 6 + 4) × 12 (5 + 7) × 0.1 × 0.1 = Voltage drop = 0.80 Vdc Power Isolation Some NMEA 2000 devices, such as a boat engine, provide power to the NMEA 2000 network. In some cases, this may damage other cases this example), use the LEN from the device connected...
... to the network that T-connector as part of the Power Connection Resistance × Distance × Load 0.053 × 12 (2 + 6 + 4) × 12 (5 + 7) × 0.1 × 0.1 = Voltage drop = 0.80 Vdc Power Isolation Some NMEA 2000 devices, such as a boat engine, provide power to the NMEA 2000 network. In some cases, this may damage other cases this example), use the LEN from the device connected...
Technical Reference for Garmin NMEA 2000 Products
Page 12
... connectors, so you have installed and configured. An existing NMEA 2000 network may provide more than one location, you must connect to power to NMEA 2000 device is 6 m (20 ft). • No more precise information. 12 Refer to view or calculate that typically provides required PGN information. Considerations for assistance. Cable and Connector Type: Garmin uses NMEA 2000 micro connectors for a list...
... connectors, so you have installed and configured. An existing NMEA 2000 network may provide more than one location, you must connect to power to NMEA 2000 device is 6 m (20 ft). • No more precise information. 12 Refer to view or calculate that typically provides required PGN information. Considerations for assistance. Cable and Connector Type: Garmin uses NMEA 2000 micro connectors for a list...
Technical Reference for Garmin NMEA 2000 Products
Page 19
... data Typical Sender GPS antenna GPS antenna © 2008 Garmin Ltd. Water speed Water speed sensor 127250: Vessel heading Set 128259: Water speed 129026: COG and SOG 129029: GNSS position data A GPS antenna, a water speed sensor, and a heading sensor 127250 - or its subsidiaries 19 GNSS position A GPS antenna, a water speed sensor, and a heading sensor NMEA 2000 System Data...
... data Typical Sender GPS antenna GPS antenna © 2008 Garmin Ltd. Water speed Water speed sensor 127250: Vessel heading Set 128259: Water speed 129026: COG and SOG 129029: GNSS position data A GPS antenna, a water speed sensor, and a heading sensor 127250 - or its subsidiaries 19 GNSS position A GPS antenna, a water speed sensor, and a heading sensor NMEA 2000 System Data...