BESTARSENSOR Single Layer Single-Sided Piezoelectric Ceramic FT-23G-3.5A1W035
| Resonant frequency | 3.5±0.5 KHz |
| Resonant impedance | 1500 ohm Max |
| Static capacitance at 120Hz/1V | 18±30% nF |
| Insulation resistance at 10VDC | 100M ohm Min |
| Input voltage | 30Vp-p |
| Operating temperature | -20...+70℃ |
| Storage temperature | -30...+80℃ |
| Metal material | SUS316L |
Features:
● High sensitivity and wide frequency response
● Compact structure/easy integration
● Low power consumption and high reliability
● No electromagnetic interference
Description
The FT-23G-3.5A1W035 is an engineered piezoelectric ceramic element that is high-sensitive, broad-frequency response, and extremely stable, and is available in a small form factor. Made of combined advanced piezoelectric ceramic materials and converts mechanical energy to electrical signals that are of a high level of accuracy and signal quality and as a result it is preferred in high-precision sensing, actuation and acoustic applications.
Its small and modular size allows the FT-23G-3.5A1W035 to be fitted into an enormous spectrum of electronic applications; as ultrasonic sensors and vibration sensors to medical equipment and device measurements. Its low power consumption and high reliability will make it have long operation life, even when used continuously or under heavy load which can assist in product design that is energy efficient.
The element has zero electromagnetic interference (EMI) therefore ensures a uniform performance in sensitive electronic areas where the purity and stability of signals are important.
Featuring a composed material with a keenly fined percentage and a sophisticated fabrication process, the FT-23G-3.5A1W035 offers a higher level of responsiveness, durability, and thermal stability. Being a member of the new generation of piezoelectric ceramics, the new disc offers maximized performance over a wide range in frequency- this gives engineers the ability to create smarter and more responsive systems using the proven ceramic technology.
