Overview & Features
Conductivity and Temperature Logger
Small and economical salinity logger. Easy to mount on gear. For use on subsea gear and moorings for long-term oceanographic studies. Adding Star-Oddi’s protective housing offers flexible mounting options and added protection.
Key features
- Smallest conductivity logger on the market
- Easy to mount on gear
- Wide salinity range, low to high conductivity
- Long battery life - up to 5 years
- High pressure tolerance
Smallest CT on the market
This small autonomous salinity probe DST CT measures and records conductivity and temperature. In addition to the three measured parameters the software calculates and displays salinity values and velocity in graphical and tabular form upon data conversion. It is only 50 mm in length and 15 mm width.
Easy to mount on gear with protective housing
A plastic protective housing is available, recommended when fastening the data logger to subsea gear and moorings. Whilst protecting the logger it also gives flexible mounting options, with attachment points at the top and bottom. A wire clip is also available for ease of fastening to the research subject.
Applications
DST CT is small and economical when compared to bulkier CTs on the market. The CT salinity measuring device is used for a variety of studies including:
- Oceanography and hydrography - long term stationary monitoring or surveying
- Fisheries research - CT attached to fishing gear
- Data collection on underwater vehicles – small sized CT is an advantage.
- For using the CT on fish and marine animals, click here.
Wide salinity range, low to high conductivity
The DST CT can capture conductivity from 3 to 68 mS/cm. Low conductivity range, 0.1–6 mS/cm, is also available, ideal for measuring in brackish water.
Long battery life - up to 5 years
Measuring at 10 minute interval, the logger can last up to 5 years.
High pressure tolerence
The conductivity recorder can be used in underwater environments from shallow water to deep sea, up to 2500 meters.
Conductivity cells are part of the logger housing
The conductivity sensor electrodes are located inside a small cup at the end of the logger housing, temperature sensor is located close to the membrane.
Don’t know your applicable conductivity range?
The suitable range depends on the minimum and maximum salinity and temperature in the area where the loggers will be used. Provided with that information we can recommend a suitable range.
You can also calculate the most suitable conductivity range for your study with the free SalCalc conductivity calculator software.
Simple in Use, From Setup to Data Retrieval
The logger and the accompanying items are designed for ease of use throughout the research process, from setting up the logger, attaching it, to retrieving and analysing the data. The CT logger is supported by the SeaStar software and a Communication Box which have to be purchased with the first order.
Programming the Logger
To launch the CT probe for measuring it is placed into the Communication Box interface that connects with a USB cable to a PC computer. In the SeaStar software, the user sets the start time, start date and sampling interval before starting the logger in measurement mode. The logger synchronizes its internal clock with the date & time on the computer being used.
Single or multiple intervals
There are two modes for sampling, either at a single interval throughout the period or multiple intervals. When choosing multiple interval programming it is possible to define up to seven different intervals and a number of measurements for each interval. Shifting between wide and narrow intervals can help in extending the measuring period due to memory limitation and have more frequent measurements during certain time periods.
Memory and Battery Life Calculations
The software automatically calculates when memory fills up based on certain interval settings, making it easier for the user to decide how to program the logger. Estimation on battery consumption during that time period is also calculated.
Uploading the Data
After recovering the logger, it is inserted into the communication box and the recorded data is uploaded to the software. The results are displayed both in graphic and tabular form and the data can be exported to other programs. The time series data shows each measurement with its own time stamp.
Low energy consumption
After data retrieval the logger can be reused, as long as the batteries last. Battery life estimation is always reported upon connection with the logger. Due to the low energy consumption circuitry design the battery life is long, but actual lifetime depends on usage and sampling interval used.
Communication box
The Communication Box serves as an interface between the DST and a PC computer. It is used for connecting to the DST, when starting the logger and retrieving data. DST is inserted into the hole of the box for wireless communications. The box comes with a USB cable for connecting to a PC computer.
SeaStar software
The SeaStar software for Windows is needed to operate the DST. Data is displayed in a graph and table. The time series data file can be opened in other programs. An installation product key is provided when ordering the software, for online downloading.
Plastic protective housing
Star-Oddi offers protective housing for the DST to give more flexible mounting options and to protect the data logger when used under more harsh environmental conditions. When used as a stand alone logger it can be attached fishing gear, moorings, deployment lines or other equipment. It has attachment points (6 mm in diameter) on top and bottom. The protective housing is made of polyurethane (PUR) plastic. The housing dimensions are 75 mm in length x 30 mm in diameter. Weight is 50 g in air and 10 g in water.
Wire clip for plastic protective housing
Wire fasteners for DST protective housings. Ideal for fastening the equipment to fishing gear and long lines. The wire fasteners are made of non-corrosive stainless steel with a clip to ensure secure fastening. The length of the wires can be adjusted to fit the application.
Copper Grid for DST CTD/CT - Anti-biofouling Device
Reduce growth formation: The copper grid, inserted into the
plastic protective housing which complements our salinity logger,
decreases biofouling to a large degree. Fouling of conductivity sensors
is a common problem when doing long-term measurements of salinity data
as it leads to a decline in conductivity accuracy. Using the copper grid
helps preventing this problem, with the aim of keeping the cells clean.
Fits inside the plastic protective housing: Plastic bolts
are inserted into the housing and through the copper grid in two places.
This ensures that the copper is kept firmly in place at the water entry
holes. We recommend buying backup copper grids as they may be needed
swapped out, especially after measuring non-stop for several months.
Application: The copper grid is ideal for long-term
monitoring when the conductivity logger is left unattended for one month
or more. We still recommend cleaning the cells with warm water using a
cotton bud after surfacing.
Stainless steel protective housing for DST
Star-Oddi offers stainless steel protective housing for DST loggers (we recommend using them with a plastic housing to give extra protection). It is ideal when fastening to cables, moorings or fishing gear. Dimensions of the steel housing are 125 mm x 42.4mm. Thickness is 3.25mm and it weighs 356 g in air.