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The piezoelectric pressure sensor is a sensor that uses the piezoelectric effect of piezoelectric materials to convert the measured pressure into an electrical signal. Use electrical components and other machinery to convert the pressure to be measured into electricity. Measuring precision instrument for related measurement work.
♦ Advance Microfused Silicon Strain Gauge, whole-designed elastomer, free of leakage troubles
♦ Efficient lightning protection and strong anti RFI&EMI protection.
♦ Advanced digital temperature compensation and wide working temperature scope
♦ High sensibility, high accuracy, high frequency response and longterm stability
The piezoelectric pressure sensor is a sensor that uses the piezoelectric effect of piezoelectric materials to convert the measured pressure into an electrical signal. Use electrical components and other machinery to convert the pressure to be measured into electricity. Measuring precision instrument for related measurement work.
♦ Advance Microfused Silicon Strain Gauge, whole-designed elastomer, free of leakage troubles
♦ Efficient lightning protection and strong anti RFI&EMI protection.
♦ Advanced digital temperature compensation and wide working temperature scope
♦ High sensibility, high accuracy, high frequency response and longterm stability
Signal output | 4~20mA 0.5~4.5VDC 0~5VDC 0~10VDC |
Signal line specification | 2wire 3wire 3wire 3wire |
Power Voltage | 9~30VDC 5VDC 9~30VDC 15~30VDC |
Accuracy | ±0.1%FS ±0.3%FS ±0.5%FS |
Zero Drift | ±0.02%FS/°C |
Thermal Sensitivity Shift | ±0.02%FS/°C |
Longterm Stability (1 Year) | ±0.1%FS |
Frequency Response (-3dB) | 3.2kHz |
Compensated Temperature | -20~+85°C |
Working Temperature | -40~+125°C |
Storage Temperature | -40~+125°C |
Overload Pressure | 300% FS |
Burst Pressure | 500% FS |
Mechanical Vibration | ±20g |
Impact (11ms) | 100g |
Environmental Protection | IP65 |
Housing Parts | 17-4PH |
Electromagnetic compatibility | EN61000-6 |
Certificates | CE RoHS |
Signal output | 4~20mA 0.5~4.5VDC 0~5VDC 0~10VDC |
Signal line specification | 2wire 3wire 3wire 3wire |
Power Voltage | 9~30VDC 5VDC 9~30VDC 15~30VDC |
Accuracy | ±0.1%FS ±0.3%FS ±0.5%FS |
Zero Drift | ±0.02%FS/°C |
Thermal Sensitivity Shift | ±0.02%FS/°C |
Longterm Stability (1 Year) | ±0.1%FS |
Frequency Response (-3dB) | 3.2kHz |
Compensated Temperature | -20~+85°C |
Working Temperature | -40~+125°C |
Storage Temperature | -40~+125°C |
Overload Pressure | 300% FS |
Burst Pressure | 500% FS |
Mechanical Vibration | ±20g |
Impact (11ms) | 100g |
Environmental Protection | IP65 |
Housing Parts | 17-4PH |
Electromagnetic compatibility | EN61000-6 |
Certificates | CE RoHS |
-Manuals
Piezoelectric Pressure Sensor
-Data sheet
-Manuals
Piezoelectric Pressure Sensor
-Data sheet
The robustness, high frequency and rapid response time of piezoelectric pressure sensors means they can be used in a wide range of industrial and aerospace applications where they’ll be exposed to high temperatures and pressures.
They are often used for measuring dynamic pressure, for example in turbulence, blast, and engine combustion. These all require fast response, ruggedness and a wide range of operation.
Their sensitivity and low power consumption also makes them useful for some medical applications. For example, a thin-film plastic sensor can be attached to the skin and used for real-time monitoring of the arterial pulse.
The robustness, high frequency and rapid response time of piezoelectric pressure sensors means they can be used in a wide range of industrial and aerospace applications where they’ll be exposed to high temperatures and pressures.
They are often used for measuring dynamic pressure, for example in turbulence, blast, and engine combustion. These all require fast response, ruggedness and a wide range of operation.
Their sensitivity and low power consumption also makes them useful for some medical applications. For example, a thin-film plastic sensor can be attached to the skin and used for real-time monitoring of the arterial pulse.