CANV2N2 Series Thruster Integration
Specifications
- Product Name: V-CAN Network System
- Model Number: 021000.11
- Compatibility: Mercury, Yanmar, Yamaha, Honda
- Power Supply: 12 Volt CAN bus
- Communication: CAN-bus integration
- Country of Origin: The Netherlands
Product Usage Instructions
V-CAN Network System Installation
The V-CAN network system allows components to communicate over a
single data line. Follow these steps for installation:
- Components with one connection (B) must be connected to the
network using a hub (3). - Components with two connections (A) can be interconnected
directly. - Place the 12 Volt CAN bus power supply (1) in the middle of the
system for optimal performance. - Ensure both ends of the network have terminating resistors (2)
installed.
Thruster Integration Diagrams
Refer to the specific diagrams provided for integrating
thrusters from different manufacturers into the V-CAN network
system.
Frequently Asked Questions (FAQ)
Q: How many connections does the V-CAN network system
support?
A: The system supports components with both single (B) and
double (A) connections for seamless integration.
Q: What is the purpose of the terminating resistor in the
network?
A: The terminating resistor helps in preventing signal
reflections and ensuring proper functioning of the network.
Q: Can components from different manufacturers be integrated
into the V-CAN network?
A: Yes, the V-CAN system allows for integration of components
from various manufacturers like Mercury, Yanmar, Yamaha, and
Honda.
MERCURY YANMAR YAMAHA HONDA
Installation manual
CAN-bus diagrams thruster integration
Copyright © 2025 VETUS B.V. Schiedam Holland
021000.11
V-CAN
V-CAN principle diagram
A
2
3
2
1
B
12 V
NOTE
The V-CAN network system allows components to communicate with each other over a single data line. Components with one connection (B) must be connected to the network using a hub (3). Components with two connections (A) can be simply interconnected. Preferably place the 12 Volt CAN bus power supply (1) in the middle of the system. Both ends of the network should always be equipped with a terminating resistor (2).
2 021000.11
Diagrams thruster integration
MERCURY
-18 -5-
-26
3
MERCURY (NMEA2000) VETUS V-CAN
-4-
3 BOWB 6
-7-
12 V
1 VETUS CANverter CANV2N2 2 CANVHUB 3 BPCABxxHF 4 BOWBxx 5 BPPPA / BPPJA 6 CANVT 7 CANVPS 8 CANVM12A Included with CANverter
Diagrams thruster integration
021000.11 3
YANMAR
-18 -5-
-26
3
YANMAR (J1939) VETUS V-CAN
-4-
3 BOWB 6
-7-
12 V
1 VETUS CANverter CANV2Y2 2 CANVHUB 3 BPCABxxHF 4 BOWBxx 5 BPPPA / BPPJA 6 CANVT 7 CANVPS 8 CANVM12A Included with CANverter
4 021000.11
Diagrams thruster integration
YAMAHA_1
YAMAHA thruster driver
8 -5-
-26
3
YAMAHA VETUS V-CAN
3
-23
-4BOWA 6 -7-
12 V
1 –2 CANVHUB 3 BPCABxxHF 4 BOWAxx 5 BPPPA / BPPJA 6 CANVT 7 CANVPS 8 CANVM12A
Diagrams thruster integration
021000.11 5
YAMAHA_2
YAMAHA thruster driver
8 -5-
YAMAHA VETUS V-CAN
-4-
-26
3
3 BOWB 6
-7-
12 V
1 –2 CANVHUB 3 BPCABxxHF 4 BOWBxx 5 BPPPA / BPPJA 6 CANVT 7 CANVPS 8 CANVM12A
6 021000.11
Diagrams thruster integration
HONDA_1
Preferred connection diagram (use IoT port)
IoT
HONDA BCM 8
-5-
HONDA VETUS V-CAN
-4-
-26
3
3 BOWB 6
-7-
12 V
1 –2 CANVHUB 3 BPCABxxHF 4 BOWBxx 5 BPPPA / BPPJA 6 CANVT 7 CANVPS 8 CANVM12A
Diagrams thruster integration
021000.11 7
HONDA_2 Alternative connection diagram (when IoT port is in use)
-18 -5-
-26
3
HONDA (NMEA2000) VETUS V-CAN
-4-
3 BOWB 6
-7-
12 V
1 VETUS CANverter CANV2N2 2 CANVHUB 3 BPCABxxHF 4 BOWBxx 5 BPPPA / BPPJA 6 CANVT 7 CANVPS 8 CANVM12A Included with CANverter
8 021000.11
Diagrams thruster integration
PDF 021000.11 2025-04
Havenstraat 11 – 3115 HC Schiedam – The Netherlands Tel.: +31 (0)88 4884700 – sales@vetus.com – www.vetus.com
Documents / Resources
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vetus CANV2N2 Series Thruster Integration [pdf] Instruction Manual CANV2N2, CANV2Y2, CANVHUB, CANV2N2 Series Thruster Integration, CANV2N2 Series, Thruster Integration, Integration |