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Integrate the small yet powerful, Water Linked A125 DVL with your ROV to enhance navigation capabilities. This long-range DVL offers improved speed and heading determination, as well as automated station holding. Paired with Deep Trekker BRIDGE sensor technology, the A125 delivers precise navigation data for your underwater missions, ensuring optimal performance and efficiency.
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Precise USBL position
Station keeping
Better navigation in current
Doppler velocity log ROV attachment for stabilization and autonomy
In search and recovery missions, the DVL plays a crucial role in maintaining an optimal altitude for the imaging sonar. For instance, it ensures the sonar remains at a precise depth, such as 15 meters, with the sonar oriented at a 15-degree angle downward. This configuration enhances the effectiveness of the sonar in capturing detailed images during underwater search operations.
The DVL is instrumental in maintaining precise positions during various operations. Whether conducting inspections against a current, deploying a manipulator, or using a laser scanner, the DVL aids in achieving steady and controlled ROV positioning. This capability ensures optimal conditions for detailed inspections and intricate tasks, enhancing overall operational efficiency and accuracy.
Employing a DVL on the ROV facilitates automatic altitude hold, ensuring course stability in currents and maintaining a consistent altitude above the seafloor. This feature is particularly crucial for benthic surveys, as it prevents collisions with the seafloor and minimizes sediment disturbance. The result is a clearer and more effective benthic survey, optimizing data collection and survey outcomes.
Materials | Stainless steel 316 (housing), PEEK (transducer caps) |
---|---|
Depth rating | 600 or 3000 meters |
Device height | 30 mm |
Device diameter | 125 mm |
Device weight (air) | 500 grams |
Operating temperature | -5 to 60 °C |
Device weight (submerged) | 1500 grams |
Ping rate | 2-15 Hz (adaptive to altitude) |
---|---|
Max altitude | 125 meters (Performance at altitudes > 110 meter is dependent on seabed conditions, salinity levels etc.) |
Max velocity | 9 m/s |
Min altitude | 5 cm |
Sensor assist | Integrated AHRS/IMU (Yost Labs TSS-NANO) |
Transducer setup | 4-beam convex Janus array |
Long term accuracy | ±1.01 % (Standard version) ±0.1 % (Performance version) |
Velocity resolution | 0.1 mm/s |
Transducer frequency | MHz |
Transducer beam angle | 22.5 degrees |
Doppler velocity log ROV attachment for stabilization and autonomy
In search and recovery missions, the DVL plays a crucial role in maintaining an optimal altitude for the imaging sonar. For instance, it ensures the sonar remains at a precise depth, such as 15 meters, with the sonar oriented at a 15-degree angle downward. This configuration enhances the effectiveness of the sonar in capturing detailed images during underwater search operations.
The DVL is instrumental in maintaining precise positions during various operations. Whether conducting inspections against a current, deploying a manipulator, or using a laser scanner, the DVL aids in achieving steady and controlled ROV positioning. This capability ensures optimal conditions for detailed inspections and intricate tasks, enhancing overall operational efficiency and accuracy.
Employing a DVL on the ROV facilitates automatic altitude hold, ensuring course stability in currents and maintaining a consistent altitude above the seafloor. This feature is particularly crucial for benthic surveys, as it prevents collisions with the seafloor and minimizes sediment disturbance. The result is a clearer and more effective benthic survey, optimizing data collection and survey outcomes.
Materials | Stainless steel 316 (housing), PEEK (transducer caps) |
---|---|
Depth rating | 600 or 3000 meters |
Device height | 30 mm |
Device diameter | 125 mm |
Device weight (air) | 500 grams |
Operating temperature | -5 to 60 °C |
Device weight (submerged) | 1500 grams |
Ping rate | 2-15 Hz (adaptive to altitude) |
---|---|
Max altitude | 125 meters (Performance at altitudes > 110 meter is dependent on seabed conditions, salinity levels etc.) |
Max velocity | 9 m/s |
Min altitude | 5 cm |
Sensor assist | Integrated AHRS/IMU (Yost Labs TSS-NANO) |
Transducer setup | 4-beam convex Janus array |
Long term accuracy | ±1.01 % (Standard version) ±0.1 % (Performance version) |
Velocity resolution | 0.1 mm/s |
Transducer frequency | MHz |
Transducer beam angle | 22.5 degrees |
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