Follow us:
$45.38
Pressure range: 2-600bar/ 10-400bar
Size mm( diameter x height): Φ18X6.35, Φ13.5X6.35
Supply voltage: 0-30VDC,maximum(30V)
Bridge Road Impedance: 11KΩ+30%
Full range output :≤2 mV/V
Operating temperature: -40~135℃
Storage temperature: -50~+150C
Long-term stability: ≤±0.2%FS/year
Temperature drift (zero & sensitivity): ≤±0.03% FS/C
Overall accuracy (linear + hysteresis): ≤±0.3% FS
Repeatability: ≤±0.2% FS
Zero offset: ≤±0.2 mV/V
Burst Pressure: ≥1.15-3 times range (by range)
Insulation resistance≥±2 KV
Zero-point long-term stability @20℃: 0.25% FS
Relative humidity: 0-99%
Direct contact with liquid materials: 96% Al2O3l
Sensor weight: <7g( Non-customized products)
The sensor is sensitive to the humidity, here are some recommendations for mounting.
Before mounting, put the sensor into a drying oven with 85°C for at least 30 minutes.
During mounting, make sure that the environment humidity keeps under 50%.
After mounting, appropriate sealing measures should be taken to protect the sensor.
The module is a calibrated product, so errors will inevitably occur during the installation process. Before use, the error caused by external factors (installation structure, other accessories, etc.) should be minimized as much as possible.
Subscribe to our newsletter now
+86-19921910756
12th Floor, Santai Building, 137-139 Connaught Road Central, Hong Kong
Mail: info@xdbsensor.com
Copyright © xidibei.com all rights reserved.
| DC5V | DC12V | DC9~36(24)V | DC3.3V |
|---|---|---|---|
| 0.5~4.5V, 1~5V, 0.4-2.4V | 4-20mA, 0-10V, 0.5-4.5V 0-5V, 1-5V | 4-20mA, 0-10V, 0.5-4.5V 0-5V, 1-5V | 0.4~2.4V, I2C |
From a physical perspective, the potential difference that electronic components can achieve when working is limited by the supply voltage. If you try to generate an output signal greater than the supply voltage, it is like asking a container to hold more liquid than its capacity, which is physically impossible.
From the perspective of circuit principles, the supply voltage provides energy and working conditions for each component in the circuit. When trying to generate a signal higher than the supply voltage, the transistors, amplifiers and other components in the circuit cannot provide sufficient gain or energy conversion, and thus such an output cannot be achieved.
In addition, from the perspective of signal integrity and stability, an output signal that exceeds the supply voltage will cause signal distortion, increase noise, and may even damage components in the circuit, affecting the normal operation of the entire system.
