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| Quantity: | |
|---|---|
PH00200QB
Piezohannas
PH00200QB
200Khz Ultrasonic Transducer for Ultrasonic Gas Flowmeter
Technical parameters:
Model | PH00200QB |
Center resonant frequency (kHz) | 200KHZ±3% |
Fequency Bandwidth | 20kHz |
Launch angle beam (-3dB full angle) | 12±2° |
integrated sensitivity (0 dB=10 Vp-p;CW; distance:16cm | -65dB min |
Electrostatic capacitance | 2000PF±20% |
Minimum parallel impedance | 200Ω±30% |
Maximum working voltage (Pulse - 2% duty cycle) | <100V |
Operating temperature | -20 ~70℃ |
Protection level | IP65 |
Case Material | PBT |
Image:
Outline Dimension:
Frequency-Resistance Curve
Frequency-Phase Angle Curve:
Directivity curve
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Application of Gas Flow Meter:
Industrial gas flow meters are widely utilised for liquid and water applications, it has long been accepted that clamp on gas flowmeter technology could not be applied to mass gas flow measurement primarily due to fundamental theoretical measurement limits. the transmitted sound energy is received by traditional ultrasonic transducers. However, advances in clamp on gas flow measurement technology and processing have meant that despite lower acoustic impedance levels and higher attenuation levels in most gases, a clamp on gas flow meter can now measure transit times in gases where signal-to-noise ratios are extremely low. It is now possible to measure natural gas, steam, compressed air, hydrogen, compressed air and many more using clamp on flow meters.
200Khz Ultrasonic Transducer for Ultrasonic Gas Flowmeter
Technical parameters:
Model | PH00200QB |
Center resonant frequency (kHz) | 200KHZ±3% |
Fequency Bandwidth | 20kHz |
Launch angle beam (-3dB full angle) | 12±2° |
integrated sensitivity (0 dB=10 Vp-p;CW; distance:16cm | -65dB min |
Electrostatic capacitance | 2000PF±20% |
Minimum parallel impedance | 200Ω±30% |
Maximum working voltage (Pulse - 2% duty cycle) | <100V |
Operating temperature | -20 ~70℃ |
Protection level | IP65 |
Case Material | PBT |
Image:
Outline Dimension:
Frequency-Resistance Curve
Frequency-Phase Angle Curve:
Directivity curve
Application of Gas Flow Meter:
Industrial gas flow meters are widely utilised for liquid and water applications, it has long been accepted that clamp on gas flowmeter technology could not be applied to mass gas flow measurement primarily due to fundamental theoretical measurement limits. the transmitted sound energy is received by traditional ultrasonic transducers. However, advances in clamp on gas flow measurement technology and processing have meant that despite lower acoustic impedance levels and higher attenuation levels in most gases, a clamp on gas flow meter can now measure transit times in gases where signal-to-noise ratios are extremely low. It is now possible to measure natural gas, steam, compressed air, hydrogen, compressed air and many more using clamp on flow meters.
