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Satlantic Instruments

To help you find the products that were formerly on the Satlantic website, we have listed them here. Alternatively you can always find them through search or the Model Number List.

A versatile platform for measuring the apparent optical properties of the ocean and designed to interchange Sea-Bird Scientific's hyperspectral or multispectral optical sensors.
A versatile platform for measuring the apparent optical properties of shallow water.
The SUNA V2 UV nitrate sensor is the ultimate chemical-free solution for autonomous monitoring of nitrogen-based nutrient concentrations in ocean, estuarine, and high turbidity freshwater environments to 500 m.
Routine, robust and accurate water quality monitoring for nitrate, UV absorbance, fluorescence, CDOM, backscattering, dissolved oxygen, temperature, and salinity.
SeaFET pH Sensor
The SeaFET™ V2 Ocean pH sensor is an ion selective field effect transistor (ISFET) type sensor for accurate long-term pH measurements in salt water.
The Deep SUNA nitrate sensor is the ultimate solution for monitoring nitrate concentrations with AUVs in deep ocean environments to 2000 m.
 SeapHOx™ Ocean CT(D)-pH-DO Sensor
The SeapHOx™ V2 combines the SeaFET™ V2 pH sensor with the SBE 37-SMP-ODO MicroCAT CTD+DO sensor.
The Deep SeapHOx™ V2 combines the Deep SeaFET™ V2 pH sensor with the SBE 37-SMP-ODO MicroCAT CTD+DO sensor. The Deep SeaFET V2 adapts the MBARI/SIO/Honeywell Deep-Sea DuraFET technology to measure pH in a deep moored package.
The SAS Solar Tracker works in conjunction with the Surface Acquisition System (SAS) (measures above-water ocean colour) to maintain the correct pointing angle with respect to the sun, and thus permits autonomous operation.
Provides superior data along with high quality construction to stand up even in the harshest conditions.
Hyperspectral radiometers, with a calibrated range of 350 - 800 nm and fully characterized cosine response, are designed to be mounted on real-time profilers, coastal and deep water buoys, autonomous underwater vehicles, research vessels and airplanes.
A combination of precision optics and high performance microelectronics which can be operated as a stand-alone device or in a networked environment as a part of a larger system.
Provides highly accurate measurements of PAR (400–700 nm) in all aquatic environments.
The Bioshutter II is an autonomous underwater shutter attachment designed for use with Sea-Bird Scientific radiometers.
Flexible platforms that expand sensor capabilities of profiling floats by providing multispectral radiometry, nitrate, scattering, beam attenuation, chlorophyll, and CDOM measurements to complement the temperature, salinity and oxygen measurements of the profiling float.
Submersible battery packs to support long-term deployments of our sensors and systems.
Specifically designed for long-term coastal and freshwater environmental data logging. Its rugged design, compact size, file management capabilities and low sleep current requirements make it ideal for remote systems.
Designed for extremely fast sampling rate in above-water measurements of ocean colour using Sea-Bird Scientific's multispectral or hyperspectral digital optical sensors.
An advanced active fluorometer designed to measure variable chlorophyll fluorescence in photosynthetic organisms.
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