Ultra High Pressure Transmitter, 0-70-1000MPa
Factory price ultra high pressure transmitter has a measurement range from 0-70MPa up to 1000MPa. It has an accuracy of up to 0.5%FS and can work stably in the temperature range of -40℃ to 85℃. It has a variety of output signals, supporting 4-20mA, 0-5V and 0-10V, and can be used in oil and gas, hydraulic equipment, ultra-high pressure test systems and laboratories.
Overview
The sensor core base of the ultra-high pressure transmitter is made of integral stainless steel, without any welding or sealing ring structure, no leakage risk, and can ensure that customers' requirements for production safety and reliability are met.
Features
- The pressure transmitter has excellent shock and vibration resistance and can maintain stable operation under high pressure and complex environments.
- The overall sturdy stainless-steel structure is easy to install, maintenance-free, safe and reliable to use.
- Ultra-high pressure transmitter has an accuracy of up to 0.5%FS, ensuring good stability during long-term use.
- The integrated stainless-steel design, no welding or sealing ring structure, completely eliminates the risk of leakage.
- The transmitter can operate stably in a wide temperature range of -40℃ to 85℃, adapting to various extreme working conditions.
Specification
| Range |
0-70-1000MPa (optional) |
| Accuracy |
0.5%FS, 1.0%FS (optional) |
| Output |
4-20mA, 0-5V, 0-10V (optional) |
| Power supply |
5VDC, 24VDC, 9-36VDC (optional) |
| Process connection |
G1/2, M20*1.5 (customizable) |
| Electrical connection |
Hirschmann connector, aviation plug, direct lead, M12*1 (optional) |
| Load capacity |
Current type: R=(U-8V)/0.02Ω |
| Temperature compensation |
0~70℃ |
| Operating temperature |
-40~85℃ |
| Safe overload |
150% |
| Ultimate overload |
200% |
| Temperature drift |
0.02%FS/℃ |
| Long-term stability |
0.2%FS/year |
| Wetted material |
17-4PH |
Dimension (mm)
Electrical connections
Tips: Ultra-high pressure transmitter vs. conventional pressure transmitter
Ultra-high pressure transmitters are designed to withstand extremely high pressure environments and are commonly used in high-pressure applications such as oil and gas, hydraulic systems, and deep-water exploration. Its structure adopts a reinforced stainless-steel design, which is resistant to vibration and shock, can withstand a higher pressure range, and eliminates the risk of leakage through an integrated design. Ultra-high pressure transmitters usually have high accuracy and stability, and are suitable for long-term operation under extreme conditions.
Conventional pressure transmitters are mainly used in more conventional industrial fields and are suitable for environments with lower pressure ranges, such as manufacturing, HVAC, and general industrial control. Its design is relatively simple, the price is relatively economical, and it is also convenient to install and maintain. Ordinary pressure transmitters meet most conventional pressure measurement needs in terms of accuracy and stability, but are not suitable for extremely high-pressure environments.
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