JUMO MIDAS S05
OEM pressure transmitter for universal applications
This pressure transmitter acquires the relative and absolute pressure. The measuring system is fully welded and can be used for all media. The silicon sensor is resistant to overloading even in the lowest measuring ranges. It is mainly used in mechanical and plant engineering and is also suitable for hydrogen applications in electrolyzers, synthesis plants, and mobile fuel cells.
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Modular
structure |
Minimal installation
effort |
Resistant to
overload and with long-term stability |
GENERAL TECHNICAL DATA |
| Output | 4 to 20 mA two-wire; DC 0 to 10 V three-wire |
| Process connection | All screw connections that are standard in the industry |
| Accuracy (linearity) | 0.2 to 0.3 % |
| Medium temperature | -40 to +125 °C |
| Input | 0 to 100 bar relative pressure; 0 to 40 bar absolute pressure |
| Measuring system | Silicon sensor with stainless steel separating membrane |
For small measuring ranges
The product acquires the pressure of liquid and gaseous media with the help of a capacitive ceramic sensor. The value is then converted into an electrical signal. The transmitter is used in such fields as medical technology.
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Long-term
stability |
Chemical
resistance |
High overload
resistance |
Pressure transmitter
This pressure transmitter acquires the relative pressure of liquid as well as gaseous media and transforms it into an electrical signal. It uses the thick film strain gauge measuring principle based on an aluminum oxide ceramic material (Al2O3). It is used in particular in mechanical and plant engineering.
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Low investment
costs |
Has different
output signals |
Long-term stability
+ overload resistance |
Pressure transmitter
The product records the pressure of liquid and gaseous media according to the piezoresistive or thin-film strain gauge measuring principle. The value is then converted into an electrical signal. The transmitter is suitable for universal use.
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High degree of
process reliability |
Long-term
stability |
High overload
resistance |
