Aanderaa Sensors Stand-Alone Current Sensor

4420, 4520, 4830, 4930, 5800, 5810, 5400
Overview Specifications Documentation & Tools ;
Overview

Overview

The Aanderaa Current Sensors are available in a profiling and a single-point version with three depth ratings.
Aanderaa Current Sensors include the DCPS 5400 Series, the ZPulse DCS Doppler Current Sensor and the In-Line ZPulse DCS Doppler Current Sensor.

Product Features
  • Aanderaa Current Sensors are based on the backscatter acoustic Doppler principle.
  • Built-in solid state 3-axis tilt compensated compass
  • Insensitive to fouling
  • Low maintenance needs
  • Smart sensor for easy integration on the SeaGuard platform

ZPulse Doppler Current Sensor (DCS) 5400 Series

The Aanderaa Doppler Current Sensor is a rugged, true vector averaging sensor for measuring current speed and direction in the sea. The sensor has built-in compass and tilt sensor and may also output sea temperature. The speed range is 0 to 300 cm/s. Low current drain and flexible sampling schemes. New multi-frequency Doppler Current Sensor (DCS) with ZPulse technology achieves better performance using only half the power than previous models. The new, fast response compass and tilt circuitry has no moving parts achieving excellent performance in unstable areas such as in the wave zone close to surface.   > Learn more about ZPulse DCS

In-line ZPulse Doppler Current Sensor (DCS) 5800 / 5810

The inline ZPulse DCS has been designed in order to easily integrate into systems offering a compact and elegant solution.  It is based on a modified version of the ZPulse Doppler Current Sensor 4520. The unit connects to a combined mooring and signal cable in one end and allow for connection of a continuation cable at the opposite end. It can hold a load of up to 1300 kg. It has been developed to replace the previous Aanderaa DCS 4100 using newer technology and extending capabilities.   > Learn more about In-Line ZPulse DCS

DCPS 5400/5400R/5402/5402R/5403/5403R - Doppler Current Profiler Sensor

The Doppler Current Profiler Sensor (DCPS) is a medium range, 600kHz current profiler smart sensor. If features innovative development of the acoustic profiling ability to collect high quality current information also on moving and tilting platforms. The 5400/5400R version is 300m depth rated, the 5402/5402R version is 4500m depth rated and the 5403/5403R version is 6000m depth rated and is intended for commercial as well as research use. It comes with an integrated temperature sensor that can be calibrated on request.   > Learn more about DCPS 5400 Series

Specifications

Specifications

 
 
Specifications
4420/4420R
4520/4520R
4830/4830R
4930/4930R
5800/5800R/5800RR
5810/5810E
5400//5402/ 5403/5400R
Shallow Water
X
N/A
X
N/A
X
X
X/-/-/X
Intermediate Water
N/A
X
N/A
X
X^5
X^5
-/X/-/-
Deep Water
N/A
X
N/A
X
N/A
N/A
-/-/-/X
AiCaP^1
X/-
X/-
X/-
X/-
X/-/-
X/-
X/X/X/-
RS-232
X/-
X/-
X/-
X/-
-/-/X
-/X
X/X/X/-
RS-422^2
-/X
-/X
-/X
-/X
-/X/-
-/X
-/-/-/X
In-line
N/A
N/A
N/A
N/A
X
X
N/A
Temperature
N/A
N/A
X
X
N/A
N/A
X^3
Z-Pulse^4
X
X
X
X
X
X
N/A
Profiler
N/A
N/A
N/A
N/A
N/A
N/A
X
Single point
X
X
X
X
X
X
N/A
Extra sensor connection
N/A
N/A
N/A
N/A
N/A
X
N/A

1 The Seaguard platform and the smart sensor are interfaced by means of a reliable CANbus interface (AiCaP), using XML for plug and play capabilities.

2 RS-422 output for use as stand-alone sensor with long cables.

Integrated temperature sensor 4080 in the DCPS calibrated on request

4 ZPulse technology which improves the statistical precision. Complex acoustic pulses comprising several distinct frequencies are combined into a single acoustic pulse. The ZPulse based DCS separates the received signal into different frequency bands, one for each frequency in the transmitted signal. Further it analyses the frequency shift using a high speed Digital Signal Processor using an ARMA based parametric model processing algorithm to find the Doppler shift frequencies. This multi-frequency technique reduces the required number of pings needed in order to achieve an acceptable statistical error. The achieved measurement precision is proportional to the inverse of the square root of the number of ping measurements in a measurement interval. The ZPulse DCS uses two frequencies and this gives a reduction by a factor square root of two compared to a single frequency sensor. A single frequency sensor needs twice the number of ping to achieve the same precision as the Zpulse DCS.

5 Maximum depth range 2000 meter

Documentation & Tools

Documentation & Tools

Brochure

Case Study