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Accuracy
- 0.01% FS 4
- 0.1%__±0.1 mm 7
- 0.1 mm 2
- 0.02% FS 2
- 0.2%__±1 mm/s 6
- 0.2%__±2.5 mm/s 1
- 0.2% FS 1
- 0.3% FS 1
- 0.3...0.1 1
- 0.04%__0.065% 1
- 0.4 %__± 1 mm/s 1
- 0.5% FS 2
- 0.6%__1% 1
- 0.10% 1
- 0.15% 1
- 0.025%__0.1% 1
- 0.25% 4
- 0.30% 1
- 0.50% 22
- 2.3% FS 1
- 2.5 1
- 3...24 mm 2
- 4% 1
- ±0.2 l/min 1
- ± 0.3%__± 1.5% 2
- ±0.4 l/min 3
- ± 0.5% FS 3
- ± 0.5% FS__± 1% FS 1
- ±0.5% of flow rate 1
- ±0.10 % 1
- ±0.10 %__±0.20 % 1
- ±1% 3
- ±1 % of range, ±3 % of reading (from 15 l/min) 1
- ±1.5mm 1
- ±1.25 mm 1
- ± 1__± 3% 1
- ± 2%__± 2°C 4
- ± 2°C 1
- ±2mm 4
- ±3°C 1
- ± 3 mm 2
- ± 5% 5
- EN1434 Class 3, typical ±(0.5 + 3K/ΔΘ) [%] 1
Connection Type
Flow Rate (l/min)
Measuring range
Medium Temperature
Nominal Diameter
0.15%, ± 3 mm - ±0.4 l/min
6 items
SITRANS LH300
3449
The SIEMENS SITRANS LH300 submersible pressure transmitter sensor for hydrostatic level measurement with protective caps made of PPE, stainless steel and ETFE. The SITRANS LH300 converts the level proportional hydrostatic pressure into a standardised 4 to 20 mA signal. The SIEMENS SITRANS LH300 submersible pressure transmitter consists of a stainless steel housing (Ø 30 mm) with mechanical protection IP68 and the piezo-resistive sensor with a ceramic diaphragm made of 99,6 % purity ceramic ensures versatile use, also good in drinking water systems. The transmitter cable has a diameter of Ø 8 mm and contains a vent pipe to connect to the atmosphere. The pressure transmitter measures liquid levels in tanks, containers, channels and dams. LH300 pressure transmitters are available for various measuring ranges and with explosion protection as an option.
- USD
VTP 15 Turbine Flow Sensor
7821
The SIKA VTP 15 turbine flow sensor is made for flow measurement or dosing applications for liquids. Because of the very compact design, the extensive measuring range and the convincing precision of measurements, almost unlimited applications are possible. The sturdy bearing materials – sapphire and tungsten carbide – also guarantee an exceptionally long endurance. The liquid flowing into the SIKA VTP 15 turbine flow sensor is split into individual jets by the guiding blade. These jets hit the rotor evenly from different directions, setting the rotor in motion. The rotation speed of the rotor is then converted to an electrical pulse signal (frequency): The rotor is fitted with magnets and a Hall effect sensor detects the rotation of the rotor. A flow-proportional frequency signal (square-wave signal) is made available. The construction of the guiding blade and rotor enables to realize the very low start-up flow values.
- USD
VTM 15 Turbine Flow Sensor
7823
The SIKA VTM 15 turbine flow sensor is made for flow measurement or dosing applications for liquids. Because of the very compact design, the extensive measuring range and the convincing precision of measurements, almost unlimited applications are possible. The sturdy bearing materials – sapphire and tungsten carbide – also guarantee an exceptionally long endurance. The liquid flowing into the SIKA VTM 15 turbine flow sensor is split into individual jets by the guiding blade. These jets hit the rotor evenly from different directions, setting the rotor in motion. The rotation speed of the rotor is then converted to an electrical pulse signal (frequency): The rotor is fitted with magnets and a Hall effect sensor detects the rotation of the rotor. A flow-proportional frequency signal (square-wave signal) is made available. The construction of the guiding blade and rotor enables to realize the very low start-up flow values.
- USD
VTH 15 Turbine Flow Sensor
7825
The SIKA VTH 15 turbine flow sensor is made for flow measurement or dosing applications for liquids. Because of the very compact design, the extensive measuring range and the convincing precision of measurements, almost unlimited applications are possible. The sturdy bearing materials – sapphire and tungsten carbide – also guarantee an exceptionally long endurance. The liquid flowing into the SIKA VTH 15 turbine flow sensor is split into individual jets by the guiding blade. These jets hit the rotor evenly from different directions, setting the rotor in motion. The rotation speed of the rotor is then converted to an electrical pulse signal (frequency): The rotor is fitted with magnets and a Hall effect sensor detects the rotation of the rotor. A flow-proportional frequency signal (square-wave signal) is made available. The construction of the guiding blade and rotor enables to realize the very low start-up flow values.
- USD
RLS-1000 Float Switch
8111
The WIKA RLS-1000 float switch is a robust, reliable and inexpensive float switch. The monitoring of levels, as well as dry-run protection and overflow protection, are cost-sensitive applications in the machine-building industry, therefore a float switch is a perfect solution for many plants. The RLS-1000 float switch offers reliable measurements for the level in vessels with water, oil, diesel or other liquids by means of a permanent magnet and frictionless reed contacts at max. 4 defined switch points and can be used in a medium temperature range from -30 to +150 °C (-22 to +302 °F). The WIKA RLS-1000 float switch is simple, easy to use and fast to integrate because it does not need to be calibrated or set during the installation. This greatly improves the ease of handling, especially in confined installation situations. Also, since its robust design makes it resistant to vibrations and shocks, maintenance costs are minimal.
- USD
RLS-2000 Float Switch
8114
The WIKA RLS-2000 float switch is a reliable and inexpensive float switch made of high-quality plastic. The WIKA RLS-2000 float switch is particularly suited for measuring the levels of aggressive and corrosive media, such as bases and acids. For cost-sensitive applications such as the monitoring of levels or overflow and dry-run protection, float switches are an ideal solution. The WIKA RLS-2000 float switch detects the level using a permanent magnet and frictionless reed contacts at up to 4 defined switch points, without contact and thus free from wear. Integration as a limit level switch is simple, convenient and fast, because no adaptation or calibration is required during installation. The robust design minimises service and maintenance costs.
- USD
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