BESTARSENSOR High Sensitivity Single Layer Piezoelectrics BSU-P7-310B
| Item | Unit | Specification |
| Diameter | mm | 7.0-0.20 |
| Thickness | um | 170-200 |
| Anode Diameter | mm | 6.4±0.1 |
| Trench width | um | 500+0/-20 |
| Wrap around | mm | 1.6-3.1 |
| Free capacitance | nF | 2.5-2.8nF(at 1KHz) |
| Electromechanical Coupling Coefficient | >0.55 | |
| Resonant frequency | KHz | 310±10 |
| Storage temperature | ℃ | >300 |
| Insulation resistance | MΩ | >200(at 50V DC) |
| Robustness check wrap around | Ω | <1 |
| Material | PZT5 | |
| Silver layer adhesion force | N/m㎡ | >2.5 |
Features:
● High sensitivity and signal-to-noise ratio
● High reliability
● Corrosion resistance
Description
Single Layer Piezoelectrics BSU-P7-310B have been the key functional components of ultrasonic sensor and is the key medium through which high frequency sound transmission and reception has been performed efficiently. They allow the transfer of electrical energy into specific mechanical vibrations (and vice versa), which is needed to achieve highSelectivity that is desirable in advanced sensing systems. The materials find applications in consumer electronics ultrasonic sensors due to the high performance and quick response time that they have in their compact products.
Single Layer Piezoelectrics are equally eminent in industrial control, the use of medical equipment, and the Internet of Things. They perform roles in medical diagnostics, in imaging technologies and in measurement devices precise measurement, being stable and high precise are important to making such technology effective. In the case of IoT devices, they facilitate intelligent sensing capabilities making connected systems effectively and safely able to communicate with the environmental surroundings.
Designed in high sensitivity and excellent signal to noise ratio, these materials are able to sense the slightest variation in the echo signal and can be so precise in measuring and detecting things. They also boast excellent reliability to operate uniformly in a long span of operation, even in vibration, during temperature change, or mechanical strain. Single Layer Piezoelectrics have such corrosion-resistant qualities, thus they can be used in any environment that is subject to moisture, chemicals, and other degrading substances- further prolonging the life service of the material.
Single Layer Piezoelectrics through their stable electrical and mechanical properties, in addition to their ability to contribute to the accuracy in sensing abilities of ultrasonic systems, also lead to energy efficiency and design flexibility properties. Integrated into compact consumer devices, or rugged industrial and medical systems, they deliver performance and long life sensing capabilities required by modern applications in many different fields.
