Product Introduction
One of the key benefits of ultrasonic transducers is their precision and accuracy in detecting objects and measuring distances. This makes them ideal for use in various industries, including automotive and aerospace, where highly accurate sensor technology is essential for safety and efficiency.
In addition to their precision, ultrasonic transducers are also highly reliable and durable. They can withstand a wide range of environmental conditions, including extreme temperatures and humidity, making them suitable for use in harsh industrial environments.
Ultrasonic transducers are also cost-effective and energy-efficient, making them an attractive option for businesses looking to reduce their operational costs and increase their energy efficiency.
Overall, ultrasonic transducers play a vital role in modern sensor technology, enabling precise and accurate measurement and detection in a wide range of applications. Their reliability, durability, and cost-effectiveness make them an essential component in many industries, helping to drive innovation and progress.







Product Specifications
Classification |
Model |
Frequency (KHz) |
Resonant Impedance (Ω) |
Static Capacitance (PF) |
Insulation Resistance (MΩ) |
Power (W) |
Ultrasonic Cleaning Series |
Q120W-20K |
20±1 |
≤20 |
4800±10% |
≥100 |
120W |
Q100W-28K/40K |
28±/40±1 |
≤20 |
8000±10% |
≥100 |
100W |
|
Q80W-28K/40K |
28±/40±1 |
≤20 |
7000±10% |
≥100 |
80W |
|
Q60W-28K/40K |
28±/40±1 |
≤20 |
5000±10% |
≥100 |
60W |
|
Q60W-68K |
68±1 |
≤20 |
3800±10% |
≥100 |
60W |
|
Q60W-120K |
120±1 |
≤20 |
3800±10% |
≥100 |
60W |
|
Q50W-40K |
40±1 |
≤20 |
4000±10% |
≥100 |
50W |
|
Q40W-40K |
40±1 |
≤30 |
3000±10% |
≥100 |
40W |
|
Q30W-40K |
40±1 |
≤30 |
1800±10% |
≥100 |
30W |
|
Q15W-50K |
50±1 |
≤100 |
1100±10% |
≥100 |
15W |
|
Ultrasonic Medical and Beauty Series |
M50W-80D |
40±1 |
≤20 |
4000±10% |
≥100 |
50W |
M50W-60D M15W-63D |
35±1 1000±50 |
≤20 ≤20 |
4000±10% 3500±10% |
≥100 |
50W 15W |
|
M30W-40K |
40±1 |
≤20 |
2200±10% |
30W |
||
M15W-40D |
3000±100 |
≤20 |
5000±10% |
15W |
||
Ultrasonic Welding Series / Emulsifying Series |
H3000W-15K |
14.9±0.1 |
≤20 |
13500±10% |
≥5000 |
3000W |
H2000W-20K |
19.9±0.1 |
≤20 |
10000±10% |
≥5000 |
2000W |
|
H800W-28K |
27.8±0.2 |
≤20 |
1600±10% |
≥5000 |
800W |
|
H500W-35K |
34.8±0.2 |
≤20 |
3000±10% |
≥5000 |
500W |
|
R80W-20K |
20±1 |
≤20 |
4200±10% |
≥5000 |
80W |
Product Applications
Ultrasonic sensor technology has revolutionized many industries and has found wide application across the world. These sensors use sound waves to precisely measure distance, making them extremely useful in a multitude of applications.
One of the most common uses of ultrasonic sensors is in the automotive industry, where they are used for parking assistance. This feature helps drivers park their cars safely and accurately by detecting objects and obstacles nearby.
Another important application of ultrasonic sensors is in the medical industry. They are used in ultrasound machines to produce images of internal organs and body tissues. These images are then used by medical professionals to diagnose and treat illnesses and diseases.
In addition to the automotive and medical industries, ultrasonic sensors are used in manufacturing and production facilities. They are used to accurately measure distance and position, which helps maintain quality control and increase efficiency in the production process.
Ultrasonic sensors are also important in environmental monitoring applications, where they are used to measure water level, air pollution, and other vital parameters. This information is essential for environmental management and conservation efforts.
In conclusion, the wide range of applications of ultrasonic sensors highlights their importance in various industries. They contribute to improving safety, accuracy, and efficiency, without causing any negative impact on the environment. With continued research and development, ultrasonic sensors will undoubtedly play an increasingly important role in our lives, making them an essential technology for the future.
FAQ
Q: What kind of transducer is used in ultrasonic sensor?
A: One of the most common types of ultrasonic transducers used in ultrasonic sensors is the piezoelectric transducer. It is made of a ceramic disk that vibrates at a specific frequency when an electrical current is applied. The frequency and size of the disk determine the range of the ultrasonic sensor.
Another type of ultrasonic transducer used in sensors is the magnetostrictive transducer. This type of transducer uses a magnetic field to generate ultrasonic waves. It consists of a wire or fiber that is wrapped around a magnetostrictive material. When a current is passed through the wire or fiber, it creates a magnetic field that causes the material to vibrate and generate ultrasonic waves.
Q: What is the advantage of ultrasonic sensor?
A: One of the most significant advantages of ultrasonic sensors is their ability to detect objects accurately, even in low light or dusty environments. Unlike conventional sensors, they do not rely on visual cues, which can be compromised in these conditions. Instead, ultrasonic sensors use sound waves to detect the presence and distance of an object, which is why they are highly accurate and reliable.
Another advantage of ultrasonic sensors is their versatility. They can be used in a range of applications, from measuring the distance between two objects to detecting the presence of a foreign object in a pipeline. Ultrasonic sensors can also be used in robotics and automation systems, where they can help guide robots and autonomous vehicles.
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