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The use of piezo ceramic transducers for distance measurement has several advantages. Firstly, they are highly sensitive, which allows for precise measurements to be taken. This is particularly useful in industries such as construction, where accurate measurements are essential for ensuring safety and quality.
Another advantage of using piezo ceramic transducers is their durability. They are made from materials such as ceramic or quartz, which are highly resistant to wear and tear over time. This means that they can be used in environments that are harsh or prone to vibration without losing their measurement accuracy.
Overall, the use is a highly effective and reliable method. Their accuracy and durability make them a popular choice for a variety of industries, including but not limited to construction, automotive, and robotics.
|
Model |
Specifictaion (mm) |
Frequency (KHz) |
Coupling Coefficient (Kp%) |
Static Capacitance (Pf) |
|
CL33-2.0Q |
Φ33*2mm |
68 |
56 |
6200±15% |
|
CL40-2.5Q |
Φ40*2.5mm |
56 |
56 |
6500±15% |
|
CL43-2.5Q |
Φ43*2.5mm |
53 |
56 |
7000±15% |
|
CL50-2.5Q |
Φ50*2.5mm |
45 |
56 |
8200±15% |
|
CL8-2.0M |
Φ8*2mm |
1000 |
≥55 |
500±15% |
|
CL8-1.0M |
Φ8*1mm |
2000 |
≥55 |
650±15% |
|
CL8-0.75M |
Φ8*0.75mm |
3000 |
≥55 |
800±15% |
|
CL10-2.0M |
Φ10*2mm |
1000 |
≥55 |
600±15% |
|
CL10-1.0M |
Φ10*1mm |
2000 |
≥55 |
800±15% |
|
CL10-0.75M |
Φ10*0.75mm |
3000 |
≥55 |
1000±15% |
One of the primary benefits of using piezo ceramic transducers for distance measurement is their sensitivity. They can detect even the slightest vibrations and convert them into electrical signals. This means that they can accurately measure distances with a high degree of precision.
Another advantage of using is their durability. They are designed to withstand harsh environmental conditions such as extreme temperatures, humidity, and pressure. This makes them ideal for use in outdoor environments and in industrial settings where reliability is essential.
Piezo ceramic transducers are also highly versatile and can be used in a wide range of applications. They can be used for measuring distances in a variety of environments, including air, water, and soil. They can also be used to measure distance in machines and equipment, making them useful in various industrial applications.
Overall, the applications are endless. They offer a high degree of accuracy, durability, and versatility, making them an excellent choice for many different industries and applications. Whether you're measuring distances in the laboratory or on the factory floor, piezo ceramic transducers are a reliable and efficient solution. So let's embrace this technology and explore the infinite possibilities of what it can do!
Q: How the distance is measured using ultrasound transducer?
A: The ultrasound transducer sends out waves of sound which travel through a medium, such as air, water or tissue. As the waves encounter objects or boundaries, they are reflected back to the transducer. The time it takes for the wave to travel to the object and back to the transducer is measured and used to calculate the distance between the transducer and the object. This calculation is performed by the ultrasound system's processor, which uses sophisticated software algorithms that can quickly analyze and display the results..
Q: How accurate is ultrasound distance measurement?
A: Ultrasound distance measurement is its precision. It can accurately measure distances from a few millimeters to several meters with an error margin of less than 1%.
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