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Repair | No |
Free Support | Yes |
The OBS-3+ is a submersible turbidity probe that has sideways-facing optics. It uses OBS technology to measure suspended solids and turbidity for applications ranging from water quality in freshwater rivers and streams to sediment transport and dredge monitoring. Campbell Scientific data loggers measure the OBS-3+ probe's output and calculate turbidity.
Read MoreThe OBS-3+ uses its sideways-facing optics to emit a near-infrared light into the water. It then measures the light that bounces back from the water’s suspended particles.
If an obstruction is in the emitted light’s range, the light will scatter back and the turbidity reading will be too high. This probe's sideways-facing optics avoids obstructions above and below the probe. The OBS300 is available for locations that have obstructions around the sides of the probe.
OBS® is a registered trademark of Campbell Scientific.
Range |
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Maximum Submersion Depth |
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Concentration Accuracy |
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Maximum Concentration Range |
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Operating Temperature Range | 0° to 40°C |
Drift over Time | < 2% per year |
Maximum Data Rate | 10 Hz |
Minimum Warm-up Time | 2 s |
Infrared Wavelength | 850 nm ±5 nm |
Daylight Rejection | -28 dB (re: 48 mW/cm-2) |
Optical Power | 2000 µW |
Turbidity Accuracy | 2% of reading or 0.5 NTU (whichever is larger) |
Housing Material | 316 stainless steel or titanium |
Connector | MCBH-5-FS, wet-pluggable |
Diameter | 2.5 cm (0.98 in.) |
Height | 14.7 cm (5.79 in.) |
Weight | 181.4 g (0.4 lb) |
-2.5 Output Option |
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Output Voltage | 0 to 2.5 V (over selected NTU range) |
Supply Voltage | 5 to 15 Vdc |
Current Drain | 15 mA |
-5 Output Option |
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Output Voltage | 0 to 5 V (over selected NTU range) |
Supply Voltage | 5 to 15 Vdc |
Current Drain | 15 mA |
-20 Output Option |
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Output Voltage | 4 to 20 mA (over selected NTU range) |
Supply Voltage | 9 to 15 Vdc |
Current Drain | 45 mA |
Please note: The following shows notable compatibility information. It is not a comprehensive list of all compatible products.
Number of FAQs related to OBS-3+: 19
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The most significant difference between backscatter and side-scatter measurements is the sample volume. A backscatter sensor has a much larger sample volume that helps measure higher turbidity values. The smaller sample volume of side-scatter sensors works better at lower turbidities.
It used to be that NTUs were the unit for all turbidity sensors. In 2007, an ASTM committee formed and established different units for each category of turbidity sensor technology, and there are many. Backscatter sensors such as the OBS-3+ and the OBS501 have units of FBU (Formazin Backscatter Units), whereas ISO 7027 side-scatter sensors have units of FNU (Formazin Nephelometric Units). The side-scatter OBS501 and the ClariVue™ sensors are part of this category. While sensors of different technical designs can be calibrated and measure Formazin the same, they will not make the same measurement in natural waters where size, shape, color, reflectivity, etc., of the particles vary. The ClariVue™ sensor measurements will not match the OBS-3+ measurements in natural waters.
The following are some suggestions:
The OBS-3+ or OBS300 provides two separate outputs to match the two turbidity ranges selected at the time of purchase. Use the curve that matches the turbidity range likely to be experienced during monitoring. Program the data logger to record and store data from each output, or choose which output to use automatically depending on the turbidity.
Campbell Scientific does not offer a display that can be attached directly to the sensor; however, the data logger used to capture and record the data may have a display.
Sensors are calibrated at the factory for measurements up to 4,000 NTUs, if requested at the time of order. Sensor ranges cannot be adjusted outside the factory.
The accuracy is 0.5 NTU or 2% of reading.
Generally, no, as this presents some hazards. For example, this sensor’s field of view in very clear water may extend 20 in., so a pipe less than 20 in. in diameter may distort the readings. Except for very turbid water, Campbell Scientific does not recommend placing this sensor in a pipe.
No. A data logger is necessary.
This has not been tested; however, it is likely that, as the sensor moves through the water, disturbances or bubbles are created that could distort the turbidity measurements.
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