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PHW-1M-01T
Piezohannas
PHW-1M-01T
Custom 1MHz ADCP Ultrasonic Transducer Piezoelectric
Technical parameters:
Items | Technical Parameters | Image | |
Name | ADCP ultrasonic transducer |
| |
Model | PHW-1M-01T | ||
Frequency | 1MHz±5% | ||
Detection Distance | 0.05 ~ 3m | ||
Minimum Parallel lmpedance | 15Ω±20% | ||
4000pF±20% @1KHz | |||
Sensitivity | Driving Voltage:24V,Distance:0.3m,Echo Amplitude:2.5V | ||
-40~+80℃ | |||
≤10Kilos or 1MPa | |||
| (Beamwidth) Half-power Beam Width@-3dB:2.4°±0.5, Sharp Angle:5.8°±1 | ||
Housing Material | composite material | ||
Usage | Doppler Effect ultrasonic flowmeter,ADCP | ||
See the product structure drawing | |||
Protection Level | IP68 | ||
Weight | 100g±5%(Length:2m) | ||
Wiring Instructions | White-,Black-, shielded wire;(temperature sensor is optional) | ||
Admittance Curve | Product Structure Diagram | ||
|
Block diagram of ultrasonic transducer :
Schematic Diagram of Temperature Sensor:
Split type Cable instruction:
Standard wire is 10M, signal will attenuate 6dB for each 50M increasing of wire.
1. Three core wiring instructions:
Red: transducer +
Blue: temperature sensor +
Black: public -
ADCP Application:
ADCP uses sound waves to measure the speed and direction at which water moves across an entire water column. An ADCP will transmit constant (high) frequency pulses of sound which scatter off of moving particles in the water. Measured frequencies of return signal will vary based on the direction of water flow. These pulses extend to the bottom of the ocean and as such, an ADCP measures current speed and direction at many different depths simultaneously.ADCPs use acoustic transducers which emit and receive acoustic pulses from different directions. Trigonometric relations allow for the derivation of current direction; each transducer represents cardinal direction on a coordinate plane (north-south, east-west, and up-down).
Custom 1MHz ADCP Ultrasonic Transducer Piezoelectric
Technical parameters:
Items | Technical Parameters | Image | |
Name | ADCP ultrasonic transducer |
| |
Model | PHW-1M-01T | ||
Frequency | 1MHz±5% | ||
Detection Distance | 0.05 ~ 3m | ||
Minimum Parallel lmpedance | 15Ω±20% | ||
4000pF±20% @1KHz | |||
Sensitivity | Driving Voltage:24V,Distance:0.3m,Echo Amplitude:2.5V | ||
-40~+80℃ | |||
≤10Kilos or 1MPa | |||
| (Beamwidth) Half-power Beam Width@-3dB:2.4°±0.5, Sharp Angle:5.8°±1 | ||
Housing Material | composite material | ||
Usage | Doppler Effect ultrasonic flowmeter,ADCP | ||
See the product structure drawing | |||
Protection Level | IP68 | ||
Weight | 100g±5%(Length:2m) | ||
Wiring Instructions | White-,Black-, shielded wire;(temperature sensor is optional) | ||
Admittance Curve | Product Structure Diagram | ||
|
Block diagram of ultrasonic transducer :
Schematic Diagram of Temperature Sensor:
Split type Cable instruction:
Standard wire is 10M, signal will attenuate 6dB for each 50M increasing of wire.
1. Three core wiring instructions:
Red: transducer +
Blue: temperature sensor +
Black: public -
ADCP Application:
ADCP uses sound waves to measure the speed and direction at which water moves across an entire water column. An ADCP will transmit constant (high) frequency pulses of sound which scatter off of moving particles in the water. Measured frequencies of return signal will vary based on the direction of water flow. These pulses extend to the bottom of the ocean and as such, an ADCP measures current speed and direction at many different depths simultaneously.ADCPs use acoustic transducers which emit and receive acoustic pulses from different directions. Trigonometric relations allow for the derivation of current direction; each transducer represents cardinal direction on a coordinate plane (north-south, east-west, and up-down).
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