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| EJA110E |  | Accuracy ±0.055% (optional accuracy ±0.04%) Stability ±0.1% URL / 10 years Response time 90 ms TUV and Exida SIL 2 / SIL3 certification Maximum working pressure 2,300 psi (optional 3,600 psi) |
| The EJA110E high performance differential pressure transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring the flow, level, density and pressure of liquids, gases or steam. the EJA110E converts the measured differential pressure into a 4 to 20mA DC current signal output and can measure, display or remotely monitor static pressure with fast response, remote setting and self-diagnostic functions. | ||
| EJA115E |  | Square root output accuracy ±0.055% Stability ±0.1% URL/10 years TUV and Exida SIL 2/3 certification Response time 90 ms~150 ms 10-segment signal curve characterization |
| The EJA115E with built-in orifice plate differential pressure transmitter is suitable for micro flow measurement and outputs a 4 to 20 mA DC signal corresponding to the measured flow rate. It can measure, display or remotely monitor the static pressure with fast response, remote setting and self-diagnosis. | ||
| EJA118E |  | Accuracy ±0.2% Response time 200 ms TUV and Exida SIL2 / SIL3 certification Local parameter setting (LPS) 10-segment signal curve characterization (Active density compensation for capillary filling fluid) |
| EJA118E diaphragm sealed differential pressure transmitter adopts single crystal silicon resonant sensor technology, suitable for measuring flow, level, density and pressure of high and low temperature, high vacuum, high viscosity and easy crystallization medium, converting differential pressure into 4-20mA DC current signal output, which can measure, display or remotely monitor static pressure with fast response, remote setting, self-diagnosis, etc. | ||
| EJA120E | | Accuracy ±0.2% (optional accuracy ±0.09%) Stability ±0.3% / 1 year Response time 150 ms TUV and Exida SIL 2/3 certification Local Parameter Setting (LPS) True Draft Range design |
| The EJA120E high performance micro differential pressure transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring flow, level, density and pressure of liquids, gases or steam. the EJA120E converts the measured differential pressure into a 4 to 20mA DC current signal output with fast response, remote setting and self-diagnostics. | ||
| EJA130E |  | Accuracy ±0.055% Stability 0.1% URL / 10 years Response time 150 milliseconds Maximum working pressure 4,500 psi TUV and Exida SIL 2/3 certified Local Parameter Setting (LPS) |
| The EJA130E high static differential pressure transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring flow, level, density and pressure of liquids, gases or steam. | ||
| EJA210E |  | Accuracy ±0.075% Stability ±0.1% URL / 1 year Response time 120 ms TUV and Exida SIL2 / SIL3 certification 10-segment signal curve characterization Local Parameter Setting (LPS) |
| The EJA210E flange-mounted differential pressure transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring the level and density of liquids that are prone to crystallization or sedimentation. | ||
| EJA310E | | Accuracy ±0.1% Stability ±0.2% URL / 10 years Response time 90 ms TUV and Exida SIL2 / SIL3 certification Maximum working pressure 3,600 psi Local Parameter Setting (LPS) |
| The EJA310E high performance absolute pressure transmitter uses single crystal silicon resonant sensing technology and is suitable for measuring the pressure of liquids, gases or steam. | ||
| EJA430E | | Accuracy ±0.055% (optional Accuracy ±0.04%) Stability ±0.1% URL / 10 years Response time 90 ms TUV and Exida SIL2 / SIL3 certification Local Parameter Setting (LPS) |
| The EJA430E / High Performance Pressure Transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring the pressure of liquids, gases or steam. | ||
| EJA438E |  | Accuracy ±0.2% Response time 200 ms TUV and Exida SIL2 / SIL3 certification 10-segment signal curve characterization Active density compensation for capillary filling fluid |
EJA438E diaphragm sealed pressure transmitter using single crystal silicon resonant sensor technology, suitable for measuring high and low temperature, high vacuum, high viscosity and easy to crystallize medium pressure, liquid level | ||
| EJA440E | | Accuracy ±0.055% Stability ±0.1% URL/10 years Response time 90 ms TUV and Exida SIL2 / SIL3 certification Local parameter setting (LPS) |
| The EJA440E high performance pressure transmitter uses single crystal silicon resonant sensing technology and is suitable for measuring the pressure of liquids, gases or steam. | ||
| EJA510E |  | Accuracy ±0.055% (optional accuracy ±0.04%) Stability ±0.2% URL / 10 years Response time 90 ms TUV and Exida SIL2 / SIL3 certification Maximum working pressure 8,700 psi Local parameter setting (LPS) |
| The EJA510E high performance absolute pressure transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring the pressure of liquids, gases or steam. | ||
| EJA530E | | Accuracy ±0.055% Stability ±0.1% URL/10 years Response time 90 milliseconds |
| The EJA530E high performance pressure transmitter uses single crystal silicon resonant sensor technology and is suitable for measuring the pressure of liquids, gases or steam. | ||
Why Choose Us:
1. You can get the perfect material according to your requirement at the least possible price.
2. We also offer Reworks, FOB, CFR, CIF, and door to door delivery prices. We suggest you to do deal for shipping which will be quite economical.
3. The materials we provide are completely verifiable, right from raw material test certificate to the final dimensional statement.(Reports will show on requirement)
4. e guarantee to give a response within 24hours(usually in the same hour)
5. You can get stock alternatives, mill deliveries with minimizing manufacturing time.
6. We are fully dedicated to our customers. If it will not possible to meet your requirements after examining all options, we will not mislead you by making false promises which will create good customer relations.
Quality Assurance(including both Destructive and Non-Destructive)
1. Visual Dimension Test
2. Mechanical examining like tensile, Elongation and reduction of area.
3. Impact analysis
4. Chemical examination analysis
5. Hardness test
6. Pitting protection test
7. Penetrant Test
8. Intergranular Corrosion Testing
9. Roughness Testing
10. Metallography Experimental Test
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