DT812BV-235-N2

Airmar DT812BV-235-N2 235 kHz Tilted Element Smart Sensor 12 degree Tilt Bronze NMEA 2000

Airmar DT812BV-235-N2 235 kHz Tilted Element Smart Sensor 12 degree Tilt Bronze NMEA 2000
Free Shipping on this product
Your Price
$399.99
In Stock

Shipping Information
Return Policy
Why Buy From Fondriest?

Details

Airmar DT812BV-235-N2 235 kHz Low Profile Tilted Element™ Smart™ Sensor 12° Tilt Bronze NMEA 2000

Airmar has taken its proven Tilted Element™ and broadband technologies and applied them to its leading line of Smart™ Sensors. The DT800 is a low-profile, retractable, thru-hull sensor that computes accurate depth and temperature data and sends it to any NMEA 0183 or NMEA 2000® display. The DT800 operates at a frequency of 235 kHz and can run simultaneously with other Airmar 50/200 kHz transducers on-board with no interference. The broadband ceramic delivers depth readings to 183M (600'), as well as accurate shallow-water readings in as little as 500 mm (1.6').

Airmar's Smart™ Sensors have embedded microelectronics - the transducer element and signal processor are only millimeters apart. The signal from the depth transducer is processed right inside the sensor itself. All that is needed to receive depth and temperature data is a single cable into a compatible device or display. Because the ceramic is tilted inside the housing, the transducer beam is oriented straight down, resulting in strong bottom echo returns and accurate depth readings. The retractable housing with a self-closing valve reduces water flow into the vessel when the transducer is removed for cleaning.

Smart™ Sensor Features
  • Enhanced depth performance
  • Maximum Depth Range: 180M (594')
  • Minimum range 0.5M (1.6')
  • Urethane face provides better sensitivity
  • Excellent high-speed performance
  • Fixed 20° tilt for 16° to 24° deadrise
  • Fixed 12° tilt for 8° to 15° deadrise
  • Fixed 0° tilt for 0° to 8° deadrise
  • NMEA 2000 output
  • 100 W RMS power
  • Frequency: 235 kHz
  • Cone: 12°
  • All models have depth and temperature
  • 235 kHz eliminates interference with fishfinders
  • Retractable insert provides ease of serviceability
  • Usable Shaft Length: 57mm (2.25")
  • .6M(19.8') NMEA 2000® devicenet cable and connector
  • 51mm (2") housing
  • Blanking plug included
  • Accommodates maximum hull thicknesses 54mm (2-1/8")
  • Accommodates minimum hull thicknesses 6.3mm (0.25")
Image Part # Product Description Price Stock Order
Airmar DT812BV-235-N2 235 kHz Tilted Element Smart Sensor 12 degree Tilt Bronze NMEA 2000 DT812BV-235-N2 AIRMAR DT800 12 DEGREE TILTED NMEA2000 DEPTH AND TEMP SMART
$399.99
In Stock

In The News

The Arizona Department of Environmental Quality's Water Quality Division

With an average rainfall of only 12.5 inches per year and a population that's growing faster than the country's , Arizona is a state that faces unique challenges, especially when it comes to clean, safe water. The Water Quality Division of the Arizona Department of Environmental Quality (ADEQ) protects and enhances public health and the environment by monitoring and regulating drinking water. And although they make use of the latest scientific methods and new technology, given the current state of Arizona's water system, they also rely upon low-tech equipment and cooperation from members of the community to monitor water quality in the state. Team members in the Groundwater Protection Program work to sample, test and characterize groundwater quality in all 51 of Arizona’s basins.

Read More

Latest Satellite and Eddy Covariance Data Shows Vulnerability of Trees to Drought

William Anderegg, assistant professor of biology at the University of Utah, has spent years studying drought-stricken trees all over the world. As climate change is expected to cause increased drought severity in the future, the work of Anderegg and his colleagues becomes increasingly important. In a previous interview for the Environmental Monitor , Anderegg found that a tree’s hydraulic safety margin was the best indicator of whether a tree would survive drought. The hydraulic safety margin is an expression of how the tree reacts under drought conditions, where there is very little water being pulled up the tree’s transport system and air is being pulled up instead. “It’s like a heart attack for the tree,” he noted.

Read More

A Balancing Act In The Grand Canyon: The High Flow Experiments

You've probably heard of the Four Corners region of the United States; that's where the corners of Arizona, New Mexico, Utah and Colorado meet at one point. These same four states are also part of the Colorado River Storage Project (CRSP), which began to change the face of the American West in 1956, enabling the population explosions in places like Phoenix and Los Angeles to continue thanks to usable water. Glen Canyon Dam is 220 meters high and 480 meters wide, and this massive structure has changed this section of the Colorado River all the way to Lake Mead dramatically. It has also increased low-flow magnitudes, decreased peak flow magnitudes and volumes and caused fluctuations in daily discharge levels that the area relies upon for generation of hydroelectric power.

Read More