The working principle of high-frequency ultrasonic cleaning transducers is to use the piezoelectric effect and inverse piezoelectric effect to convert electrical signals into mechanical vibration signals. When high-frequency electrical signals are applied to the transducer, the transducer generates high-frequency mechanical vibration, which is then transmitted to the amplitude converter. The amplitude lever amplifies the mechanical vibration signal and transmits it to the cleaning solution, thereby achieving the cleaning of the surface of the object.
Type | Length(mm) | Weight(g) | Frequency(KHz) | Resonance Impedance (Ω) |
Static Capacity (pF)±10% |
Input Power(W) |
PU-UT-5435 PZT-4 |
36 | 135 | 54 | 10-20 | 3200 | 35 |
PU-UT-6860 PZT-8 |
80 | 460 | 68 | 10-20 | 3800 | 60 |
PU-UT-68120 PZT-4 |
67 | 588 | 68 | 10-20 | 7800 | 120 |
PU-UT-8060 PZT-4 |
60 | 325 | 80 | 10-20 | 5400 | 60 |
PU-UT-12060 PZT-4 |
56 | 260 | 120 | 10-20 | 5400 | 60 |
PU-UT-13550 PZT-4 |
54 | 215 | 135 | 10-20 | 4200 | 50 |