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Teledesign TS4000 900MHz UHF/VHF

True cloud-based sensor configuration, logging, reporting and data analysis all-in-one.


Shark (RS232/RS485 Bluetooth Serial Adapter)


A cloud-based interface to configure hardware, visualize data, analyze measurements, manage alarms, calculations, and set up data routing.

MEASUREMENTS TO MIND (M2M) is a growing suite of Stevens products that embraces cloud-computing with an all-inclusive vision of shortening the communication path from the sensors to data on-line. That is, what the sensors MEASURE the MIND sees.

The product finder lets you explore our catalog visually and filter products by type of monitoring, manufacturer, and more.


SOLO (smart SDI-12 power manager)
JL-2 (solar charge controller)
Power Supplies
Solar Panels

Smart SDI-12 power manager that also provides remote power cycling.

The product finder lets you explore our catalog visually and filter products by type of monitoring, manufacturer, and more.

The product finder lets you explore our catalog visually and filter products by type of monitoring, manufacturer, and more.

Hydraprobe logo

HydraProbe is a rugged soil sensor with patented technology that provides continual, consistent accuracy measuring the three most significant soil parameters simultaneously—moisture, salinity and temperature.

hydraprobe soil moisture and salinity

As the most scientifically researched soil sensor available, it has been depended on by the USDA, NOAA, NASA, leading irrigation companies, and many universities for over 20 years. It’s been engineered to be exceptionally rugged and will provide data that you can trust year after year.

Part # 93640

Patented Sensor Technology

HydraProbe uses unique “Coaxial Impedance Dielectric Reflectometry” to provide consistent long-term accuracy of moisture, salinity and temperature in any soil type. This also provides low inter-sensor variability, so every sensor measures the same without the need to calibrate.







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    Maintains accuracy for years with no calibration.

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    5-year warranty

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    Durable 18 gauge, UV-resistant high-density polyethylene cable can remain buried or be exposed.

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    Fully sealed electronics—fully immersible in water.

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    Strong, non-bending, non-corrosive stainless steel tines



Continual, long-term data without calibration.

  • Stable—no sensor drift, ensuring continual accuracy.
  • Patented technology that accurately measures moisture and electrical conductivity permits more accurate optimization of watering and fertilization than with just moisture.
  • Depended on by the USDA, NOAA, leading irrigation companies, and many universities for over 20 years. Used by NASA for ground truthing of satellite-based soil imaging.
  • Soil moisture calibration has been rigorously peer-reviewed, making it one of the most trusted soil sensors available.


Durable stainless steel tines, fully potted components, compact sealed design and a 5-year warranty.

  • Can remain in-situ indefinitely, or relocated and redeployed without worry.
  • Ideal for remote locations, harsh environments and applications where data is critical.
  • Enables measurement of native (undisturbed) soil, even hard-packed clay.
  • Industry-leading 5-year warranty.


Set it and forget it.

  • Repeatable accuracy and stability without the need for calibration in most soils.
  • Digital sensor using the SDI-12 protocol—no setup, just connect to data logger. Compatible with any SDI-12 capable data logger.
  • Zero maintenance required.


Consistent research-grade accuracy every season, every location.

  • Unparalleled spatial and temporal measurement consistency. No sensor-to-sensor variations across locations, seasons, soil types or moisture range.
  • Instant measurement of the 3 most significant soil parameters simultaneously—moisture, salinity and temperature.
  • Unlike most TDR or capacitance-based sensors, HydraProbe is less sensitive to changes in temperature, salinity, and soil mineralogy.

HydraProbe to Go

The HydraProbe Field Portable puts the power of HydraProbe in the palm of your hand.

Take soil measurements anywhere, without the effort or expense of setting up a permanent soil monitoring system. Your smartphone communicates wirelessly with the HydraProbe using an ad-hoc wi-fi network created by the HydraProbe Field Portable.

Simply insert the probe into the soil, and tap on the “Sample” button in the app. The location of each measurement is recorded along with the soil measurement data. All data can be saved and emailed as a .CSV for analysis in Excel.

The Science Behind HydraProbe

HydraProbe is a “dielectric impedance”-based sensor developed by the physics department at Dartmouth College. Unlike capacitance or time domain based soil sensors, HydraProbe fully characterizes the dielectric spectrum using a radio frequency at 50 MHz.

Complex mathematical computations performed by an onboard microprocessor process the reflected signal measurements to accurately determine the soil’s dielectric permittivities, the key parameters behind the soil moisture and bulk EC measurement.

Low inner-sensor variability means there is no need for sensor-specific calibrations.

This method has passed the most rigorous scientific peer review from dozens of journals such as the Vadose Zone Journal, American Geophysical Union, and The Journal of Soil Science Society of America.

Read more about the different soil sensor technologies at soilsensor.com

About EC (Electrical Conductivity / Salinity)

  • The bulk EC (electrical conductivity) of the soil is correlated to the soil’s salinity because salts when mixed with water will conduct electricity. The bulk EC parameter is sometimes called “salinity”.
  • Many nutrients are salts—a source of salinity. Nutrient accumulation, poor drainage and saline irrigation water can lead to the unwanted buildup of salinity in soil.
  • High bulk EC can affect moisture readings and create errors with capacitance based moisture sensors. HydraProbe’s soil moisture measurement is less sensitive to salinity than other capacitance based probes.
  • The soil bulk EC can change dramatically with water content and can be affected by the quality of the irrigation water, fertilization, drainage, and other natural processes.
  • Compaction, clay content and organic matter, can influence moisture holding trends over time, also affecting bulk EC capacities in soil.
  • The effect of bulk EC on the moisture availability to a plant’s roots is great. As salinity changes the water needs also change.
  • A temperature corrected bulk EC parameter is available so the user can make comparison independent of soil temperature.
  • Because HydraProbe also measures the dielectric permittivities, algorithms can be applied to approximate the EC of the soil pore water allowing for better soil salinity characterizations.


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What's the Easiest and Quickest Way to Start Collecting Data and Access it Anywhere?

The Answer's in the Cloud.

eTracker is a cellular modem and "virtual" cloud-based data logger in one (meaning you don't need to install a separate data logger). Simply connect your sensor and a power source to eTracker and you're done. Configure (or reconfigure) anytime from any Internet-connected device, and use Stevens-Connect to retrieve your data, or forward it to your favorite software system.

Technical Specifications





Real dielectric permittivity (isolated)

< ± 0.5% or ± 0.2 dielectric units

1 to 80 where 1 = air, 80 = distilled water


Soil moisture for inorganic & mineral soil

± 0.01 WFV for most soils
± 0.03 max for fine textured soils*

From completely dry to fully saturated (from 0% to 100% of saturation)


Bulk electrical conductivity

± 2.0% or 0.02 S/m whichever is typically greater

0 to 1.5 S/m



± 0.3°C

-10°C to +60°C


Inter-sensor variability

< ± 0.012 WFV (θ m3 m-3)





Power supply

9-20 VDC

9-20 VDC

Power consumption

<1 mA idle / 10 mA active for 2 seconds during duty cycle

<10 mA idle / 30 mA active


3-wire: power, ground, data

4-wire: power, ground, com+, com-

Max. cable length

60 m (197 ft.)

1,219 m (4,000 ft.) Non-spliced: 304.8 m (1,000 ft.)

Baud Rate



Communication protocol

SDI-12 Standard v. 1.2

Custom or open spec


Serial; allows multiple sensors to be connected to any RS485 or SDI-12 data logger via a single cable.


Operating temperature range

  • In soils: freezing to +60°C
  • Standard temperature probe range: -10°C to +60°C
  • Extended temperature probe range: -30°C to +60°C**
  • Extra extended temperature probe range: -40°C to +75°C***

Storage temperature range

-40°C to +65°C

Water resistance

Tolerates continuous full immersion


18 gauge (22 gauge for RS-485 and analog versions), UV resistant, direct burial

Vibration and shock resistance

Excellent; potted components in PVC housing and 304 grade stainless steel tines



4.9” (124 mm)


1.6” (42 mm)
Optional slim housing version available: 1.4" (35.8 mm)


7 oz. (200 g)
Optional slim housing version available: 6.5 oz. (184 g)

Cable weight

0.86 oz/ft (80g/m)

Sensing volume (cylindrical region)

Length: 2.2” (5.7 cm) Diameter: 1.2” (3.0 cm)

Measurement parameters


Voltage 1


Voltage 2


Voltage 3


Voltage 4


Voltage 5


Soil Temperature in Celsius


Soil Temperature in Fahrenheit


Water fraction by volume


Loss Tangent


Soil Conductivity (temperature corrected) in Siemens / meter


Real dialectric permittivity


Real dielectric permittivity (temperature corrected)


Imaginary dialectric permittivity


Imaginary dialectric permittivity (temperature corrected)


Soil conductivity in Seimens / meter


Diode Temperature in Celsius


Saved for future development


ADC Reading 1


ADC Reading 2


ADC Reading 3


ADC Reading 4


ADC Reading 5

* Accuracy may vary with some soil textures.
** Extended temperature range sensor (down to -30° F / 60° C) available
*** Extra Extended Temperature Range version available, which can measure down to -40°F (-40°C) for research, cold-climate, high-altitude, arctic applications or any other measurement situation where there will be significant below-freezing ground temperatures. Up to 75°C Degrees for some applications.

Featured Articles

Enhancements in Meteorological and Hydrological Models Using Soil Moisture Data

It has long been known that there is a strong relationship between soil water content and the health and yield of crops. But only in the past few decades has science quantified the specifics of these relationships. This research has expanded to develop a relationship between soil moisture levels and the impact on meteorological and hydrological models and forecasts.

Read More

HydraProbe FAQs

Here are 7 questions and answers about using the Stevens HydraProbe.

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The Stevens HydraProbe Inorganic Soil Calibrations

The Stevens HydraProbe can be calibrated to accommodate almost any inorganic soil regardless of clay content or organic matter. While the default calibrations are suitable for most soils, other published calibrations can be used to obtain a higher level of accuracy if specific textural information about the soil is available.

Read More

Soil Geomorphology and Identification

When working with or studying the soil, it’s important to know what type of soil is being examined. Each type of soil has different characteristics, and will have different effects on water infiltration rates, water holding capacity, evapotranspiration rate, and other soil characteristics.

Soil sensors are one popular way of measuring soil moisture, salinity, temperature level, conductivity, and other characteristics that are important to researchers, farmers, and others who rely on soil data for their work.

Read More