AerospaceMaterial testingSemiconductor equipment
- Pressure Range:−1 bar / 0–0.1 bar / 0–1000 bar
- Accuracy (combined):±0.1% FS
- Protection rating:DIN 43650 (IP65) or M12×1 (IP67)
- Frequency response:1000 Hz
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Hydraulic systemsEnvironmental protection equipmentRefrigeration equipmentConstruction machinery
- Pressure Range:0–0.01 bar up to 1000 bar
- Accuracy:±0.5%F.S.,±0.2%F.S.
- Long-term Stability:≤±0.1%F.S./year
- Output Signals:4–20 mA, 0–5 V, 1–5 V, 0–10 V
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Railway braking systemsHydraulic pressesMedical equipmentSemiconductor equipment
- Pressure Range:0–0.01 bar up to 1000 bar
- Accuracy:±0.5%F.S.,±0.2%F.S.
- Output Signals:4–20 mA, 0–5 V, 1–5 V, 0–10 V
- Protection Rating:IP67 (M12×1 electrical connector)
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Aerodynamics research and testingAerospace applicationsInternal combustion engine systemsHydraulic testing and experimentation
- Pressure Range:0–1 bar up to 600 bar
- Accuracy:±0.5%F.S., ±0.2%F.S., ±0.1%F.S., ±0.07%F.S.
- Media Temperature Range:-40°C to +150°C(Instantaneous temperature resistance up to 2000°C)
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Robotic spraying applicationsPowder material conveying systemsOil and gas equipmentSpecial-purpose industrial equipment
- Pressure Range:-0.1 MPa to 40 MPa
- Accuracy: ±0.5%F.S., ±0.25%F.S.
- Output Signal: 4–20mA
- Burst Pressure:200%F.S.
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Foaming equipmentFood processing machineryFluid handling equipmentGrinding and milling machinery
- Pressure Range:0.1 to 600Bar
- Accuracy: ±0.5%F.S., ±0.25%F.S.
- Mechanical Connection:G1/2,G3/4,M20×1.5,or customized options
- Protection Rating:M12×1(IP67) or DIN43650(IP54)
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Frequently Asked Questions (FAQ)
Q1: What is the lifespan of a pressure transmitter?
Under normal working conditions, a high-quality pressure transmitter can last 5 to 10 years or longer, depending on the environment and maintenance.
Q2: Can pressure transmitters be used in high temperature or corrosive environments?
Yes, we offer high temperature, corrosion-resistant, and explosion-proof pressure transmitters for harsh environments such as oil and gas, chemical processing, and steam systems.
Q3: Do you support OEM or custom pressure sensors?
Yes, we provide OEM/ODM customization, including pressure range, output signal, mechanical connection, electrical interface, and special design for different applications.
Q4: What accuracy can a high precision pressure transmitter achieve?
High precision pressure transmitters can achieve accuracy up to ±0.1%FS or better, suitable for laboratory testing, aerospace, and precision control applications.
Q5: What industries use industrial pressure sensors?
Industrial pressure sensors are widely used in hydraulic systems, construction machinery, water treatment, oil and gas, energy, automation, and food and pharmaceutical industries.
Q6: What is the difference between 4-20mA and RS485 pressure transmitters?
A 4-20mA pressure transmitter uses analog signals and offers strong anti-interference for long-distance transmission, while an RS485 pressure transmitter uses digital communication, enabling multi-device networking and data monitoring.
Q7: What output signals are available for pressure transmitters?
Common output signals include 4-20mA, 0-10V, 0.5-4.5V, RS485 Modbus RTU, and HART communication protocols, which are widely used in industrial automation systems.
Q8: How to choose the right pressure transmitter?
When selecting a pressure transmitter, you should consider pressure range, media type (gas or liquid), output signal (such as 4-20mA or RS485), installation method, and working conditions like high temperature or explosion-proof requirements.
Q9: What is the difference between a pressure sensor and a pressure transmitter?
A pressure sensor detects pressure and outputs a raw signal, while a pressure transmitter converts the signal into standardized industrial outputs such as 4-20mA, 0-10V or RS485 Modbus, making it suitable for industrial automation and control systems.
