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The BlueROV2 is the world’s most affordable high-performance ROV. With a 6-thruster vectored configuration, open-source electronics and software, and plenty of expandability, it’s the perfect ROV for inspections, research, and adventuring.
SKU: BLUEROV2-VP HS Code: 9015.80.8080BlueROV2 Base Package
Tube Configuration
SKU: BR-100196
HS Code: 9015.80.8080
SKU: BR-100415
HS Code: 9015.80.8080
Available options:
BlueROV2 Heavy Configuration Retrofit Kit
SKU: BR-101130
HS Code: 9503.00.00
Available options:
Twisted Pairs - 1
Twisted Pairs - 4
Tube Configuration
Tether Length (m)
SKU: BR-100862-025
HS Code: 8544.11.00.30
SKU: BR-100862-050
HS Code: 8544.11.00.30
SKU: BR-100862-100
HS Code: 8544.11.00.30
SKU: BR-100862-150
HS Code: 8544.11.00.30
SKU: BR-100862-200
HS Code: 8544.11.00.30
SKU: BR-100862-300
HS Code: 8544.11.00.30
Available options:
Number of Lights - 2
Number of Lights - 4
Lumen Subsea Light (Pre-Connected Sets)
SKU: BR-101130
HS Code: 9503.00.00
Available options:
Fathom Spool
SKU: BR-100627
HS Code: 9503.00.00
The standard size spool can hold up to 150 meters of Fathom Tether or up to 540 meters of Fathom Slim Tether.
Size: Large (300m)
SKU: BR-100990
HS Code: 9503.00.00
The large size spool can hold up to 300 meters of Fathom Tether or up to 1080 meters of Fathom Slim Tether.
Available options:
Ping360 Scanning Imaging Sonar
SKU: BR-100399
HS Code: 9015.80.8080
Available options:
Color: Blue
SKU: BR-100009
HS Code: 9504.50.0000
Color: Black
SKU: BR-100727
HS Code: 9504.50.0000
The BlueROV2 is the world’s most affordable high-performance underwater ROV. With six- and eight-thruster configurations, a number of available accessories, and open source software, it has an unprecedented level of performance, flexibility, and expandability. With several thousand units out in the field, the BlueROV2 is one of the most popular underwater drones on the market!
The BlueROV2 comes partially assembled and requires 6-8 hours of user assembly to complete. During the assembly process, you learn how all of the components of the system work and fit together and it leaves you with the knowledge needed to make upgrades and improvements in the future!
At the front of the ROV is a high definition (1080p, 30fps) wide-angle low-light camera optimized for use on the ROV. It’s mounted to a tilt mechanism so that the pilot can control the camera tilt to look up or down, even when the ROV is level.
The ROV can be configured with two or four dimmable Lumen Lights, providing up to 6,000 lumens to illuminate the ocean depths.
The ROV uses the patented T200 Thrusters in a vectored configuration, providing a high thrust-to-weight ratio and the ability to move precisely in any direction. The ROV comes with six thrusters but is expandable to eight thrusters with the Heavy Configuration Retrofit Kit, providing full six-degree-of-freedom control and feedback stability.
The BlueROV2 can be configured with either acrylic plastic or anodized aluminum enclosures. The acrylic enclosures are rated to a depth of 100 meters 100 meters (330 ft) and the aluminum enclosures are rated to a depth of 300 meters (985 ft). The ROV is constructed from high-quality, well-proven components like our Locking Watertight Enclosures and WetLink Penetrator and it comes with a vacuum test pump to verify a proper seal before each dive.
Designed like a work class or research class ROV, the BlueROV2 has an open frame that carries the electronics and battery enclosures, thrusters, buoyancy foam, and ballast weights. This simple design is robust and expandable, making it easy to attach accessories such as an ROV gripper or scanning sonar. We have a payload skid available that extends the frame further and allows you to attach much larger payloads. We’ve seen people use this for scientific instruments, pressure washer attachments, additional battery enclosures, and more.
The BlueROV2 is designed to be expanded and modified and many of our users have made significant modifications to suit their particular applications. Replacing the standard frame with a custom frame, you can create just about any underwater robot you can imagine!
The BlueROV2 is controlled by the Navigator Flight Controller and BlueOS. The Navigator is a purpose-built controller for ROVs and other robotic applications that has onboard sensors including an inertial measurement unit (IMU) and magnetometer to measure orientation and compass heading and a leak sensor to alert you of any water ingress. It has 16 outputs that can be connected to thrusters, lights, grippers, and other accessories as well as a number of serial and I2C communication ports to communicate with sensors and sonars. It has plenty of room for expandability!
The Navigator is coupled with a Raspberry Pi 4 computer, which handles all of the processing and computing requirements within the ROV. It runs our open-source BlueOS software that provides the tools and features necessary to operate and expand the vehicle. BlueOS runs the ArduSub vehicle control software, manages the camera and tether connection, and makes it easy to update the software to add new features. BlueOS is a growing project and will continue to provide new features to all BlueROV2s.
At the surface, the pilot controls the ROV through a laptop computer and gamepad controller. The open-source Cockpit application acts as the user interface, providing the live video stream, sensor feedback and information, and the ability to change settings and configuration.
The BlueROV2 is designed for both entry-level and advanced ROV users. It comes with everything you need to get in the water except for a few components
Laptop – We recommend a medium to high-end model with Windows 10, Mac, or Linux operating systems. There are also some compatible tablets including the Windows Surface tablets. iOS and Android are not officially supported at this time.
Gamepad Controller – We recommend the Xbox Wireless Controller or the Logitech F310 controllers.
Battery – We recommend our 14.8v, 18Ah lithium-ion battery for the best battery life, but we can’t ship it to all locations! There are a number of other compatible batteries that can be used as well. We’d recommend getting a few for extended operation.
Battery Charger – We have a recommended charger as well, but any lithium-ion battery charger that can handle your battery will work!
First of all, there are a few configurable options that you’ll have to choose
The Fathom Tether length can be selected from 25 meters all the way up to 300 meters. The length you choose depends on how deep and how far you want to go. For lengths over 50 meters, we’d recommend the Fathom Spool to make it easier to manage.
The lights are available in 2-light and 4-light configurations. If you plan to do a lot of work in poor lighting conditions or at night, we recommend the 4-light configuration.
The BlueROV2 is controlled by the Navigator Flight Controller and BlueOS. The Navigator is a purpose-built controller for ROVs and other robotic applications that has onboard sensors including an inertial measurement unit (IMU) and magnetometer to measure orientation and compass heading and a leak sensor to alert you of any water ingress. It has 16 outputs that can be connected to thrusters, lights, grippers, and other accessories as well as a number of serial and I2C communication ports to communicate with sensors and sonars. It has plenty of room for expandability!
The Navigator is coupled with a Raspberry Pi 4 computer, which handles all of the processing and computing requirements within the ROV. It runs our open-source BlueOS software that provides the tools and features necessary to operate and expand the vehicle. BlueOS runs the ArduSub vehicle control software, manages the camera and tether connection, and makes it easy to update the software to add new features. BlueOS is a growing project and will continue to provide new features to all BlueROV2s.
At the surface, the pilot controls the ROV through a laptop computer and gamepad controller. The open-source Cockpit application acts as the user interface, providing the live video stream, sensor feedback and information, and the ability to change settings and configuration.
Once you’ve got a solid grip on the basics, there are countless ways to expand your BlueROV2! We have a few core accessories:
The Newton Gripper allows you to manipulate and retrieve objects underwater
The Fathom Spool makes it easier to transport and use the tether cable
The Heavy Configuration Retrofit Kit adds two thrusters and more buoyancy for additional stability and payload carrying capacity
The Ping360 Scanning Sonar makes it easier to navigate in low visibility water conditions and locate underwater objects
The Water Linked DVL A50 opens the door to advanced capabilities like position holding and autonomous navigation
Check out our community forums to learn about more integrations!
If you’re looking to customize your ROV even further and add additional sensors, we recommend the following resources
The BlueOS docs site has the documentation and developer guide for BlueOS and ArduSub, the software that controls the ROV.
The BlueROV2 section of our forums have many users who have made significant modifications and can provide guidance and ideas.
Our BlueROV2 Payload Skid product provides additional room on the ROV.
Many of our Distributors specialize in BlueROV2 customizations and modifications!
The BlueROV2 comes partially assembled with the electronics tested. Assembly can be completed in about 6–8 hours with hand tools. The following lists the included subassemblies and other components of the BlueROV2 base package.
There are some items necessary for operation that are not included with the kit.
| Parameter | Value | |
|---|---|---|
| Physical | ||
| Length | 457 mm | 18 in |
| Width | 338 mm | 13.3 in |
| Height | 254 mm | 10 in |
| Weight in Air (with default Ballast and Blue Robotics Lithium-ion Battery) | 11–12 kg | 24–27 lb |
| Weight in Air (without Ballast or battery) | 9–10 kg | 20–22 lb |
| Cable Penetrator Holes | 18x M10 total, 6x available for expansion | |
| Wetted Materials |
6061-T6, 7075-T6 Anodized aluminum 316, 18-8 Stainless steel HDPE Polycarbonate plastic Nylon Acrylic PTFE Plastic FKM Buna-N R-3318 polyurethane foam Polyurethane foam Polyurethane Epoxy Molykote 111 compound |
|
| Electronics Enclosure | Blue Robotics 4" series WTE | |
| Battery Enclosure | Blue Robotics 3" series WTE | |
| Buoyancy Foam | R-3318 polyurethane foam | |
| Ballast Weight | 9 x 200 g stainless steel weights | |
| Performance | ||
| Maximum Rated Depth |
100 m (w/ acrylic tubes) 300 m (w/ aluminum tubes) |
330 ft (w/ acrylic tubes) 985 ft (w/ aluminum tubes) |
| Temperature Range | 0–30°C | 32–86°F |
| Payload Capacity¹ (configuration dependent) | 1.2 kg (4x Lumens) to 1.4 kg (no Lumens) | 2.6 to 3.1 lbs |
| Maximum Forward Speed | 1.5 m/s | 3 knots |
| Forward Bollard Thrust (45°) | 9 kgf | 19.8 lbf |
| Vertical Bollard Thrust | 7 kgf | 15.4 lbf |
| Lateral Bollard Thrust (45°) | 9 kgf | 19.8 lbf |
| Thrusters | Blue Robotics T200 | |
| ESC | Blue Robotics Basic 30A ESC | |
| Thruster Configuration |
6 thrusters (4 vectored, 2 vertical) |
|
| Battery | ||
| Battery Life (w/ Blue Robotics 15.6Ah battery) |
~2 hours (normal use) ~4 hours (light use) Batteries can be swapped in about 30 seconds |
|
| Battery Connector | XT90 | |
| Lights | ||
| Brightness | 1500 lumens each with dimming control | |
| Light Beam Angle | 135 degrees, with adjustable tilt | |
| Tether | ||
| Diameter | 7.6 mm | 0.30 in |
| Length | 25–300 m | 80–980 ft |
| Working Strength | 45 kgf | 100 lbf |
| Breaking Strength | 160 kgf | 350 lbf |
| Strength Member | Kevlar with waterblock | |
| Buoyancy in Freshwater | Neutral | |
| Buoyancy in Saltwater | Slightly positive | |
| Conductors | 4 or 1 twisted pairs, 26 AWG | |
| Sensors | ||
| IMU | 6-DOF IMU (on Navigator) | |
| Compass | Dual 3-DOF magnetometers (on Navigator) | |
| Internal pressure | Internal barometer (on Navigator) | |
| Pressure/Depth and Temperature Sensor (external) | Blue Robotics Bar30 | |
| Current and Voltage Sensing | Blue Robotics Power Sense Module | |
| Leak Sensor | Integrated leak sensor (on Navigator) | |
| Camera Tilt | ||
| Tilt Range | +/- 90 degree camera tilt (180 total range) | |
| Tilt Servo | Hitec HS-5055MG | |
| Camera | ||
| Camera Model | Low-Light HD USB Camera | |
| Resolution | 1080p | |
| Field of View (Underwater) | 110 degrees (horizontal) | |
| Light Sensitivity | 0.01 lux | |
| Control System | ||
| Onboard Computer | Raspberry Pi 4 (2GB) w/ BlueOS | |
| Autopilot | Blue Robotics Navigator | |
| Autopilot Software | ArduSub | |
| Tether Interface Board | Fathom-X Tether Interface Board | |
| ¹ Certain payload configurations will require additional buoyancy. | ||
QGroundControl User Interface Guide
ArduSub GitBook Documentation (Advanced features and functions)
The ROV communication is Ethernet-based, so Ethernet-based devices can be integrated by tapping into the ROV network through an Ethernet Switch. There is direct access to the onboard Raspberry Pi to integrate 3rd party sensors via USB. Lastly, three spare twisted pairs are available in the tether to connect RS485 devices to the topside.
The maximum speed of the BlueROV2 is 3 knots, but we typically recommend operating in no more than 1-1.5 knots of the current, so there is still reserve control authority to head into the current.
The amount of buoyancy available without ballast weights is 1.2 - 1.4 kg, depending on the number of Lumens mounted. At full gain, the vertical thrusters can produce about 7 kgf of thrust.
We do not manufacture a case to carry or store the ROV. Whenever we travel with them, we use the following cases:
The Pelican Air 1637 fits the standard configuration, and the SKB 2424 will hold the BlueROV2 with a Heavy Kit.
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