$8.40
Pressure range | -1~400 bar | Long-term stability | ≤±0.2% FS/year |
Accuracy | ±1% FS, Others on request | Response time | ≤4ms |
Input voltage | DC 5V,12V, 3.3V,9-36V | Overload pressure | 150% FS |
Output signal | 4~20mA, 0.5~4.5V, Others on request | Burst pressure | 200-300% FS |
Operating temperature | -40 ~ 105 ℃ | Cycle life | 500,000 times |
Compensation temperature | -20 ~ 80 ℃ | Sensor material | 96% Al2O3 |
Operating current | ≤3mA | Pressure medium | Media compatible with ceramic materials |
Temperature drift (zero&sensitivity) | ≤±0.03%FS/ ℃ | Weight | ≈0.02 kg |
Insulation resistance | >100 MΩ at 500V |
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Mail: info@xdbsensor.com
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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.