Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
The high mechanical quality of Altrasonic's piezo transducers ensures that these sandwich-type ultrasonic transducers offer high electro-acoustical efficiency and low heat generation.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.
The high mechanical quality of Altrasonic's piezo transducers ensures that these sandwich-type ultrasonic transducers offer high electro-acoustical efficiency and low heat generation.
Piezoelectric ceramic transducers realize the conversion of electrical energy to mechanical energy through the inverse piezoelectric effect, and output power stably.