The SFM-5 is one of the most advanced sap flow sensors on the market. With this sensor, you can perform minimally invasive, high-precision sap flow measurements on all trees with a trunk diameter greater than 1 cm. It is unique in that it can measure up to 33 parameters, allowing you to also determine the water content of the sapwood. You can use the SFM-5 in all climates without restrictions in the field, but also for research in the greenhouse or laboratory. Thus, the sensor offers you the greatest possible flexibility and is suitable for pure users as well as for scientific questions dealing with plant water use, physiology or hydrology. The SFM-5 is compact and inconspicuous, as the electronics are built into the sensor head. The needles are very stable and 8 mm apart.
How does the SFM-5 work?
The acquisition of the parameters is based on the heat pulse method, which has been successfully used since the 1930s. For this purpose, the sensor head is equipped with three needles, consisting of a central heating needle and two temperature measuring needles, each with a downstream and an upstream thermistor (10 and 20 mm from the needle tip). This three-probe configuration allows determination of sap flow from the root to the canopy and vice versa, with excellent detection of both high and low sap flow rates.
The plug & play capable sensor is connected to a smart interface, built on a microprocessor, which controls all operational settings and calculations, records parameters, converts analog signals into calibrated values and outputs them via the serial interface.
How does the data evaluation work?
The SFM-5 can be connected to all data logger models and brands that support the SDI-12 output protocol, but is also LoRaWAN and NB-IoT compatible. In conjunction with other SFM-5 sensors, dendrometers and environmental sensors such as water potential, soil moisture, evaporation, solar radiation, etc., you can set up customized measurement fields and operate them in a user-friendly way. Simply connect the sap flow sensor to our configured data acquisition or data transmission solutions. We are also happy to assist you in connecting the sensor to your existing data logger, IoT devices, or similar.
You can read out the raw data of all parameters and analyze them as needed (no "black box"). We are happy to provide you with a free Excel evaluation file with the SFM-5 sensors. With the help of the Excel file, the sap flow density and the sap flow, based on the data obtained from the raw temperature da
Feature | Specification |
Sap flow measurements | |
Measurement Range | -1000 to >+1000 cm/hr heat velocity | -200 to >200 cm³/cm²/hr (sap flow density) |
Measurement Error | <3 % or ±0.1 cm/hr heat velocity |
Measurement Resolution | 0.001 cm/hr heat velocity |
Measurement Points | 2: outer and inner |
Measurement Theory | Dual Method Approach (DMA), Heat Ratio (Slow Rates of Flow Method SRFM / heat ration method HRM), Tmax |
Stem (Sapwood) water content measurements | |
Measurement Range | 0 … 100 % volumetric |
Measurement Error | ±3 % |
Measurement Resolution | 0.01 |
Measurement Points | 2: downstream outer and inner |
Stem (Sapwood) Temperature Measurements | |
Measurement Range | -30 … +70 °C |
Measurement Error | ±0.015 °C |
Measurement Resolution | 0.001 °C |
Measurement Points | 4: down- and upstream outer and inner |
Sensor specifications | |
Housing dimensions H x W x D | 50 x 25 x 11 mm |
Needle dimensions | L: 30 mm; Ø1.6 mm |
Position of the thermistors | outside: 10 mm; inside: 20 mm |
Distance between needles | 8 mm |
Response Time | 200 milliseconds |
Power Input | 12 VDC |
Power Consumption | idle: 4 mA; measure: 270 mA; typical measuring cycle: 0,4 mAhr |
Sensor Output | SDI-12 (ver. 1.4) |
Measurement Duration | 120 seconds |
Environmental Rating | IP68; -30 … +70 °C |
Housing Materials | Acrylonitrile Styrene Acrylate |
Needle Materials | Stainless Steel (304) |
Cable Materials | Ozone, UV and weather-resistant according to EN 50396 and HD 605 S2 |
