Current profiles and wave height & direction data with a single instrument!

400 kHz AWAC_smallWith the Nortek AWAC, you get a current profiler and a wave directional system in one unit. You can measure the current speed and direction in 1-meter thick layers from the bottom to the surface. Waves of all varieties are measureable; this includes long waves, storm waves, short wind waves, or transient waves generated by local ship traffic.

The AWAC is designed as a coastal monitoring system. It is small, rugged, and suitable for multi-year operation in tough environments. The mechanical design is all plastic and titanium to avoid corrosion. The AWAC is available in three transmit frequencies (1 MHz / 600 kHz /400 kHz) which allow for different deployment depths.

The sensor is usually mounted in a frame on the bottom, where it is protected from complications at the surface such as harsh weather, vandalism, and ship traffic. While safely located at the bottom it is operated in online or in stand-alone mode.

In stand-alone mode, the raw data are stored to the internal data logger and power comes from an external battery pack. A variety of options are available with maximum deployment lengths of 10 months with hourly wave data when using lithium batteries.

Online systems have a variety of possible communication configurations. The most common are long, offshore cables (max. 5 km) or acoustic modems. Online systems can be delivered with backup batteries, protected cables, shore side interface units, and online software.


AST breakthrough

The AWAC's extraordinary wave performance has largely to do with the optional Acoustic Surface Tracking (AST). The AST is basically echo-ranging to the surface with the vertically oriented transducer. The beauty of this method of measuring waves is that it circumvents the depth limits imposed by bottom mounted pressure and velocity measurements. Long waves (swell) and storm waves are rarely difficult to measure, however waves generated by local winds are challenging without AST. Moreover, the AST also gives you the ability to derive wave parameters based on times series analyses. This means that the AWAC can directly measure wave parameters such as Hmax, H1/10, Tmean, etc. which other bottom mounted systems simply cannot.


Ice measurements

The surface is a strong acoustic reflector and this is true also when the water surface is covered with ice.  As a result, the AWAC can be used to detect the interface between water and ice.  When compared with a reference measurements (either the pressure sensor or mean measurements during periods of open water), the AWAC can be used to estimate the surface ice thickness.  This method was used already the winter 2008/2009 in the Arctic with very good results

Tidal elevation with improved pressure sensor

From the spring of 2011, an improved pressure sensor with an absolute accuracy of 0.1% of full scale is available for the AWAC.  For a deployment depth of 20 m (and a 50m full scale sensor), this means the absolute accuracy of the sensor is 5 cm, which is within the requirements for many  operational harbor systems


The AWAC software is used to configure the instrument for deployment, retrieve the data and convert all raw data files to ASCII. In order to calculate the wave parameters, you have the choice between the non-graphical QuickWave software and the graphical Storm software. For online systems which require data managements and generating content for internet use (e.g. processed results and graphical plots), the SeaState software serves as the link for all your AWAC wave and current data. For a more detailed description please check out SeaState.