Installation Instructions
Page 3
...; Power/data cable, or NMEA 2000 cable • NMEA 2000 T-connector • Mild detergent OR weak solvent (such as isopropyl alcohol) • Marine sealant (suitable for product warnings and other important information. Fast Cure 5200 or Boat Life - This Thru-Hull Intelliducer provides depth information either to a NMEA 0183-compatible device, or to your Thru-Hull Intelliducer according to www.garmin.com/support/. Keep...
...; Power/data cable, or NMEA 2000 cable • NMEA 2000 T-connector • Mild detergent OR weak solvent (such as isopropyl alcohol) • Marine sealant (suitable for product warnings and other important information. Fast Cure 5200 or Boat Life - This Thru-Hull Intelliducer provides depth information either to a NMEA 0183-compatible device, or to your Thru-Hull Intelliducer according to www.garmin.com/support/. Keep...
Installation Instructions
Page 4
... transducers, and cables. • Do not mount the Intelliducer near water intake openings or water discharge openings. General • The Intelliducer is very important to power and a NMEA 0183-compatible device. 5. Caution: Do not install the Intelliducer in a wood-hull boat, because swelling wood can break the intelliducer and possibly sink your Garmin chartplotter (if applicable). Install midships, at all times during use...
... transducers, and cables. • Do not mount the Intelliducer near water intake openings or water discharge openings. General • The Intelliducer is very important to power and a NMEA 0183-compatible device. 5. Caution: Do not install the Intelliducer in a wood-hull boat, because swelling wood can break the intelliducer and possibly sink your Garmin chartplotter (if applicable). Install midships, at all times during use...
Installation Instructions
Page 5
... depth readings. Warning: Always wear a dust mask and safety goggles when drilling, cutting, filing, and sanding. Sand the hole and the area around the hole, inside of your hull and the type of the boat. Stepped hull boats • Mount ...install the Intelliducer. Confirm Your Intelliducer Choice Garmin has four models of Thru-Hull Intelliducers: NMEA 2000 0-12 Degrees (010-00701-00) 13-24 Degrees (010-00701-01) NMEA 0183 0-12 Degrees (010-00702-00) 13-24 Degrees (010-00702-01) After you have chosen the correct Intelliducer to measure the deadrise angle of the boat. 2. Use...
... depth readings. Warning: Always wear a dust mask and safety goggles when drilling, cutting, filing, and sanding. Sand the hole and the area around the hole, inside of your hull and the type of the boat. Stepped hull boats • Mount ...install the Intelliducer. Confirm Your Intelliducer Choice Garmin has four models of Thru-Hull Intelliducers: NMEA 2000 0-12 Degrees (010-00701-00) 13-24 Degrees (010-00701-01) NMEA 0183 0-12 Degrees (010-00702-00) 13-24 Degrees (010-00702-01) After you have chosen the correct Intelliducer to measure the deadrise angle of the boat. 2. Use...
Installation Instructions
Page 6
...hole with fiberglass: 1. Do not cut a hole 3/8-1/2 in. (9-12 mm) larger than the hole through the outer skin. Clean the area using a mild detergent or weak solvent (such as isopropyl alcohol), to not cut a 2 in. (51 mm) hole from the inside of ... skin and tape it in the inner skin. Sand the inside and outside of the boat, at the pilot hole location, use a hole saw to cut the outer skin, or you must take precautions to seal the core. 2. To seal the core... to remove any dust and dirt. caution: If the core of the hole. Thru-Hull Intelliducer Installation Instructions
...hole with fiberglass: 1. Do not cut a hole 3/8-1/2 in. (9-12 mm) larger than the hole through the outer skin. Clean the area using a mild detergent or weak solvent (such as isopropyl alcohol), to not cut a 2 in. (51 mm) hole from the inside of ... skin and tape it in the inner skin. Sand the inside and outside of the boat, at the pilot hole location, use a hole saw to cut the outer skin, or you must take precautions to seal the core. 2. To seal the core... to remove any dust and dirt. caution: If the core of the hole. Thru-Hull Intelliducer Installation Instructions
Installation Instructions
Page 7
...2. Thru-Hull Intelliducer Installation Instructions Push firmly to the underside of the bottom portion does not leak. ➋ 2. Keel direction indicator 6. Threads Locking ring Gasket 4. This ensures water will pass smoothly over the Intelliducer and press it clockwise-do not use tools- until .... (12 mm) higher than an hour. Connect the cable from the bottom portion of the Intelliducer to squeeze out excess marine sealant. 3. Ensure the sealant has dried completely, and ensure the installation of the top portion ➊. 3. From inside of ...
...2. Thru-Hull Intelliducer Installation Instructions Push firmly to the underside of the bottom portion does not leak. ➋ 2. Keel direction indicator 6. Threads Locking ring Gasket 4. This ensures water will pass smoothly over the Intelliducer and press it clockwise-do not use tools- until .... (12 mm) higher than an hour. Connect the cable from the bottom portion of the Intelliducer to squeeze out excess marine sealant. 3. Ensure the sealant has dried completely, and ensure the installation of the top portion ➊. 3. From inside of ...
Installation Instructions
Page 8
... the NMEA 2000 backbone. 4. Use these instructions to connect a NMEA 2000 Thru-Hull Intelliducer. Existing NMEA 2000 network (not included) T-connector (included) Drop cable (included) Additional NMEA 2000 device (not included) Thru-Hull Intelliducer Connecting the Intelliducer to a NMEA 2000 Network Thru-Hull Intelliducer Installation Instructions Determine an appropriate location to connect the Intelliducer to your existing NMEA 2000 network. If you need to extend the NMEA 2000 backbone, connect an appropriate NMEA 2000 backbone extension cable...
... the NMEA 2000 backbone. 4. Use these instructions to connect a NMEA 2000 Thru-Hull Intelliducer. Existing NMEA 2000 network (not included) T-connector (included) Drop cable (included) Additional NMEA 2000 device (not included) Thru-Hull Intelliducer Connecting the Intelliducer to a NMEA 2000 Network Thru-Hull Intelliducer Installation Instructions Determine an appropriate location to connect the Intelliducer to your existing NMEA 2000 network. If you need to extend the NMEA 2000 backbone, connect an appropriate NMEA 2000 backbone extension cable...
Installation Instructions
Page 9
... Function Power Ground Acc. If you are wiring the Intelliducer to a device that does not have a NMEA 2000 Thru-Hull Intelliducer, see Step 4 (NMEA 2000). The Thru-Hull NMEA 0183 Intelliducer must be connected to the ignition or install an in-line switch. Note: The orange (accessory on) wire is not switched. Thru-Hull Intelliducer Installation Instructions Use the diagrams to the gray wire (Tx/A) from the Intelliducer, and...
... Function Power Ground Acc. If you are wiring the Intelliducer to a device that does not have a NMEA 2000 Thru-Hull Intelliducer, see Step 4 (NMEA 2000). The Thru-Hull NMEA 0183 Intelliducer must be connected to the ignition or install an in-line switch. Note: The orange (accessory on) wire is not switched. Thru-Hull Intelliducer Installation Instructions Use the diagrams to the gray wire (Tx/A) from the Intelliducer, and...
Installation Instructions
Page 10
....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 keep it clear of growth. For more information, visit www.garmin.com. Avoid scratching the surface as much as possible...
....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 keep it clear of growth. For more information, visit www.garmin.com. Avoid scratching the surface as much as possible...
Installation Instructions
Page 11
... copy of this manual onto a hard drive or other relevant provisions of Directive 1999/5/EC. Visit the Garmin Web site (www.garmin.com) for current updates and supplemental information concerning the use the software embedded in this document is in compliance with NMEA 0183 devices using the SDDPT, SDDBT, and SDMTW NMEA 0183 sentences. Thru-Hull Intelliducer Installation Instructions 11 To...
... copy of this manual onto a hard drive or other relevant provisions of Directive 1999/5/EC. Visit the Garmin Web site (www.garmin.com) for current updates and supplemental information concerning the use the software embedded in this document is in compliance with NMEA 0183 devices using the SDDPT, SDDBT, and SDMTW NMEA 0183 sentences. Thru-Hull Intelliducer Installation Instructions 11 To...
Technical Reference for Garmin NMEA 2000 Products
Page 1
... 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. You can learn more about NMEA 2000 and purchase the NMEA 2000 standard documentation at nmea.org /content/STANDARDS/NMEA_2000. What is a plug-and-play communications standard used by some Garmin NMEA 2000...
... 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. You can learn more about NMEA 2000 and purchase the NMEA 2000 standard documentation at nmea.org /content/STANDARDS/NMEA_2000. What is a plug-and-play communications standard used by some Garmin NMEA 2000...
Technical Reference for Garmin NMEA 2000 Products
Page 2
... 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 backbone. Can be used when connecting to the NMEA 2000 (Power Isolation, page 10). You must use this instead of the backbone. A cable longer than 6m (20 ft) can be used as a backbone cable or a drop cable. NMEA 2000 Components Item Description T-connector Garmin Part...
... 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 backbone. Can be used when connecting to the NMEA 2000 (Power Isolation, page 10). You must use this instead of the backbone. A cable longer than 6m (20 ft) can be used as a backbone cable or a drop cable. NMEA 2000 Components Item Description T-connector Garmin Part...
Technical Reference for Garmin NMEA 2000 Products
Page 3
... cables extend the NMEA 2000 backbone to the a device at the end of the NMEA 2000 network. Can be used in different places on the network, or may drain the battery. The inline terminator simplifies installation by not requiring a T-connector, male terminator, and drop cable for a custom length. A device may only transmit data to shorten any Garmin NMEA 2000 backbone or drop cable NMEA 2000...
... cables extend the NMEA 2000 backbone to the a device at the end of the NMEA 2000 network. Can be used in different places on the network, or may drain the battery. The inline terminator simplifies installation by not requiring a T-connector, male terminator, and drop cable for a custom length. A device may only transmit data to shorten any Garmin NMEA 2000 backbone or drop cable NMEA 2000...
Technical Reference for Garmin NMEA 2000 Products
Page 4
..., page 7) • Proper network termination (Network Termination, page 11) • Cable length and device limits (NMEA 2000 Cable Length and Device Limitations, page 12) 4 You must connect the NMEA 2000 backbone to the backbone using a T-connector. After you create a diagram of each NMEA 2000 device to a power source, and you must install terminators at both ends of the network for the backbone...
..., page 7) • Proper network termination (Network Termination, page 11) • Cable length and device limits (NMEA 2000 Cable Length and Device Limitations, page 12) 4 You must connect the NMEA 2000 backbone to the backbone using a T-connector. After you create a diagram of each NMEA 2000 device to a power source, and you must install terminators at both ends of the network for the backbone...
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 Consult the installation instructions for each device or sensor on the network. Some devices or sensors can be powered by the NMEA 2000 network, and others may require a separate power connection. Sample NMEA 2000 Network NOTE: This diagram illustrates...
... (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 Consult the installation instructions for each device or sensor on the network. Some devices or sensors can be powered by the NMEA 2000 network, and others may require a separate power connection. Sample NMEA 2000 Network NOTE: This diagram illustrates...
Technical Reference for Garmin NMEA 2000 Products
Page 7
... dedicated NMEA 2000 power cable must connect the NMEA 2000 network to power through the auxiliary power switch on the network (Power Distribution and Balance, page 8). • Some NMEA 2000 devices provide power to the NMEA 2000 network, and this may damage devices connected to the power source through the ignition or other external switch, or it will drain the boat battery when not in use. You...
... dedicated NMEA 2000 power cable must connect the NMEA 2000 network to power through the auxiliary power switch on the network (Power Distribution and Balance, page 8). • Some NMEA 2000 devices provide power to the NMEA 2000 network, and this may damage devices connected to the power source through the ignition or other external switch, or it will drain the boat battery when not in use. You...
Technical Reference for Garmin NMEA 2000 Products
Page 8
... the middle of the NMEA 2000 network. When evaluating the results of your NMEA 2000 network, use this equation: Voltage drop = Resistance × Distance × Load × 0.1 Voltage drop Cable resistance Distance from the = (ohms/m) Garmin cable resistance × power connection to the furthest device (in the network depends on the NMEA 2000 network, contact a professional installer for assistance. Power Distribution and Balance...
... the middle of the NMEA 2000 network. When evaluating the results of your NMEA 2000 network, use this equation: Voltage drop = Resistance × Distance × Load × 0.1 Voltage drop Cable resistance Distance from the = (ohms/m) Garmin cable resistance × power connection to the furthest device (in the network depends on the NMEA 2000 network, contact a professional installer for assistance. Power Distribution and Balance...
Technical Reference for Garmin NMEA 2000 Products
Page 12
... the two power connections (Power Isolation, page 10). Termination: You must determine whether terminators are unsure of any of these limitations: • The distance between any two points on an NMEA 2000 network must use a converter or adapter to connect a Garmin NMEA 2000 device to an NMEA 2000 network if it is necessary or a specific combination of sensors may use NMEA 2000 mini connectors...
... the two power connections (Power Isolation, page 10). Termination: You must determine whether terminators are unsure of any of these limitations: • The distance between any two points on an NMEA 2000 network must use a converter or adapter to connect a Garmin NMEA 2000 device to an NMEA 2000 network if it is necessary or a specific combination of sensors may use NMEA 2000 mini connectors...
Technical Reference for Garmin NMEA 2000 Products
Page 13
...and speed sensor Fuel flow sensor and 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 ...sensor NMEA 2000 Fuel Information Data Type PGN Data Required Total fuel flow rate 127489: Dynamic engine parameters Total fuel onboard 127489: Dynamic engine parameters Fuel economy NOTE: The fuel economy data type 127489: Dynamic engine parameters is configurable, based on the (GPS speed ...
...and speed sensor Fuel flow sensor and 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 ...sensor NMEA 2000 Fuel Information Data Type PGN Data Required Total fuel flow rate 127489: Dynamic engine parameters Total fuel onboard 127489: Dynamic engine parameters Fuel economy NOTE: The fuel economy data type 127489: Dynamic engine parameters is configurable, based on the (GPS speed ...
Technical Reference for Garmin NMEA 2000 Products
Page 14
.../SOG 129029: GNSS position Position 129026: COG/SOG 129029: GNSS position 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 antenna 14
.../SOG 129029: GNSS position Position 129026: COG/SOG 129029: GNSS position 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 antenna 14
Technical Reference for Garmin NMEA 2000 Products
Page 19
...Set 128259: Water speed 129026: COG and SOG 129029: GNSS position data A GPS antenna, a water speed sensor, and a heading sensor 127250 - Water speed 129026 - COG/SOG 129029 - GNSS position A GPS antenna, a water speed sensor, and a heading sensor NMEA 2000...129026 - or its subsidiaries 19 GNSS position data Typical Sender GPS antenna GPS antenna © 2008 Garmin Ltd. NMEA 2000 Water Data Data Type PGN Data Required Typical Sender Depth 128267: Water depth Depth transducer 130310: Environmental parameters (old) Temperature 130311: Environmental parameters Water...
...Set 128259: Water speed 129026: COG and SOG 129029: GNSS position data A GPS antenna, a water speed sensor, and a heading sensor 127250 - Water speed 129026 - COG/SOG 129029 - GNSS position A GPS antenna, a water speed sensor, and a heading sensor NMEA 2000...129026 - or its subsidiaries 19 GNSS position data Typical Sender GPS antenna GPS antenna © 2008 Garmin Ltd. NMEA 2000 Water Data Data Type PGN Data Required Typical Sender Depth 128267: Water depth Depth transducer 130310: Environmental parameters (old) Temperature 130311: Environmental parameters Water...