OKS-4CTRANSDUCER-3828*
Ultrasonic Cleaning Sensor
Vibration Pulse Wave
Angle Probe
Liquid
IP20
RoHS
Industrial Ultrasonic Bath Transducers
Knife/Fork Roasting Pan Coffee Machine Washing
Industrial Ultrasonic Cleaning Machine
Ultrasonic Vibration Sensors
Foam and Carton Packaging
28K 60W P4
Tianjin, China
8543909000
Product Description
Ultrasonic transducers are piezoelectric ceramics that resonate at ultrasonic frequencies and convert electrical signals into mechanical vibrations by the piezoelectric effect of the material. Medical ultrasonic transducers (ultrasonic probes) operate in much the same way, and typically contain an electrical energy storage element and a mechanical vibration system inside. When the transducer is used as a transmitter, the electrical oscillating signal sent from the excitation source will cause a change in the electric or magnetic field in the electrical energy storage element of the transducer, which changes the mechanical vibration system of the transducer through some effect. A driving force is generated to cause it to vibrate, thereby propelling the medium in contact with the mechanical vibration system of the transducer to vibrate and radiate sound waves into the medium. The process of receiving sound waves is exactly the opposite. External sound waves act on the vibrating surface of the transducer, causing the mechanical vibration system of the transducer to vibrate, causing an electric field in the energy storage element of the transducer or by some physical effect. The magnetic field changes accordingly, causing the electrical output of the transducer to produce a voltage and current corresponding to the acoustic signal.
Ultrasonic Transducer classification:
A. piezoelectric chip classification: Black chip P4 series and yellow chip P8 series;
B. Frequency classification: low frequency series (17-23KHz), intermediate frequency series (25-28KHz), medium and high frequency series (33-60KHz) and high frequency series (68-200KHz);
C. Power classification: 30W series (including 35W), 50W series (including 60W), 100W series (including 80W) and other unconventional power;
D. shape classification: straight column and horn type
Ultrasonic Transducer Frequency selection :
The frequency of the transducer is inversely proportional to the wavelength, and the wavelength is related to the diameter of the cavity (strictly speaking, the nucleation time is longer due to the low frequency), and the diameter of the cavity is related to the explosion pressure. The higher the general frequency, the smaller the wavelength, the smaller the diameter of the cavity, the lower the explosion pressure, but the higher the density of the cavity, the better the permeability.
Based on the above principles:
Low frequency (17 ~ 23KHz): When the dirt of the cleaned material is heavy or difficult to be cleaned, and the explosive impact does not cause much damage to the surface of the cleaned material, the low frequency series transducer should be selected. Commonly used industries are: magnetic industry, steam protection industry, textile industry and so on. Note that the noise of this series is large, preferably sound insulation.
Medium frequency (25 ~ 28KHz): If the dirt of the cleaned material is slightly heavy or the cleaning is difficult and moderate, and the explosive impact does not cause much damage to the surface of the cleaned material, the intermediate frequency series transducer should be selected. This series of industries are the most widely used, and are common in machinery processing industry, electroplating industry, catering industry and so on.
Medium and high frequency (33 ~ 60KHz): When the dirt of the cleaned material is light, the cleaning is easy, or the explosive shock damage to the surface of the cleaned material is required, the medium and high frequency series transducer should be selected. Commonly used industries include precision parts, glass glasses, electronic components, circuit boards, etc.
High Frequency (68-200KHz): The dirt is very light and easy to clean. When the explosive impact is prohibited to damage the surface of the cleaned object, the high frequency series transducer should be selected. Commonly used industries are semiconductors, special high-precision parts, etc.
Ultrasonic vibrator features:
1. High performance: high mechanical Q value, high conversion efficiency and excellent quality;
2. The ultrasonic vibrator transducer has large amplitude and superior performance;
3. Ultrasonic vibrator transducer heat resistance: Piezoelectric ceramic material has good heat resistance, can expand the operating temperature range, and has high Q value, small resonance impedance and small heat generation;
4. The ultrasonic vibrator transducer has a neat appearance, no rust, no obvious depressions and scratches.
Ultrasonic cleaning transducer application:
Ultrasonic transducers are widely used. They are divided into industry, agriculture, transportation, life, medical and military according to the applied industry. According to the functions realized, it is divided into ultrasonic processing, ultrasonic cleaning, ultrasonic detection, detection, monitoring, telemetry, remote control, etc.; according to the working environment, it is divided into liquid, gas, biological, etc.; according to the nature, it is divided into power ultrasonic, ultrasonic detection, ultrasonic imaging, etc.
Ultrasonic Transducer classification:
A. piezoelectric chip classification: Black chip P4 series and yellow chip P8 series;
B. Frequency classification: low frequency series (17-23KHz), intermediate frequency series (25-28KHz), medium and high frequency series (33-60KHz) and high frequency series (68-200KHz);
C. Power classification: 30W series (including 35W), 50W series (including 60W), 100W series (including 80W) and other unconventional power;
D. shape classification: straight column and horn type
Ultrasonic Transducer Frequency selection :
The frequency of the transducer is inversely proportional to the wavelength, and the wavelength is related to the diameter of the cavity (strictly speaking, the nucleation time is longer due to the low frequency), and the diameter of the cavity is related to the explosion pressure. The higher the general frequency, the smaller the wavelength, the smaller the diameter of the cavity, the lower the explosion pressure, but the higher the density of the cavity, the better the permeability.
Based on the above principles:
Low frequency (17 ~ 23KHz): When the dirt of the cleaned material is heavy or difficult to be cleaned, and the explosive impact does not cause much damage to the surface of the cleaned material, the low frequency series transducer should be selected. Commonly used industries are: magnetic industry, steam protection industry, textile industry and so on. Note that the noise of this series is large, preferably sound insulation.
Medium frequency (25 ~ 28KHz): If the dirt of the cleaned material is slightly heavy or the cleaning is difficult and moderate, and the explosive impact does not cause much damage to the surface of the cleaned material, the intermediate frequency series transducer should be selected. This series of industries are the most widely used, and are common in machinery processing industry, electroplating industry, catering industry and so on.
Medium and high frequency (33 ~ 60KHz): When the dirt of the cleaned material is light, the cleaning is easy, or the explosive shock damage to the surface of the cleaned material is required, the medium and high frequency series transducer should be selected. Commonly used industries include precision parts, glass glasses, electronic components, circuit boards, etc.
High Frequency (68-200KHz): The dirt is very light and easy to clean. When the explosive impact is prohibited to damage the surface of the cleaned object, the high frequency series transducer should be selected. Commonly used industries are semiconductors, special high-precision parts, etc.
Ultrasonic vibrator features:
1. High performance: high mechanical Q value, high conversion efficiency and excellent quality;
2. The ultrasonic vibrator transducer has large amplitude and superior performance;
3. Ultrasonic vibrator transducer heat resistance: Piezoelectric ceramic material has good heat resistance, can expand the operating temperature range, and has high Q value, small resonance impedance and small heat generation;
4. The ultrasonic vibrator transducer has a neat appearance, no rust, no obvious depressions and scratches.
Ultrasonic cleaning transducer application:
Ultrasonic transducers are widely used. They are divided into industry, agriculture, transportation, life, medical and military according to the applied industry. According to the functions realized, it is divided into ultrasonic processing, ultrasonic cleaning, ultrasonic detection, detection, monitoring, telemetry, remote control, etc.; according to the working environment, it is divided into liquid, gas, biological, etc.; according to the nature, it is divided into power ultrasonic, ultrasonic detection, ultrasonic imaging, etc.
| Specification List | |||||||
| Model | Frequency | Capacitance | Resonance Impedance | Size | Power | Insulation resistance | mark |
| (KHz) | (pF) | (Ω) | Radiation head*Height (mm) | (W) | (2500VDC) | ||
| OKS-8CTRANSDUCER-2540 | 40±0.8 | 3100±10% | ≤30Ω | 25*58 | 20w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3045 | 46±1.0 | 2400±10% | ≤25Ω | 45*43 | 35w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3517 | 17±1.0 | 2550±10% | ≤28Ω | 78*93 | 50w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3820 | 20±0.8 | 3800±10% | ≤28Ω | 59*99 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3823 | 23±0.8 | 3800±10% | ≤28Ω | 59*84 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3825* | 25±0.8 | 3800±10% | ≤20Ω | 59*80 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3828* | 28±0.5 | 3800±10% | ≤20Ω | 59*68 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3833* | 33±0.5 | 3800±10% | ≤20Ω | 48*61 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3840* | 40±0.5 | 3800±10% | ≤20Ω | 48*51 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-4520* | 21.5±0.8 | 5600±10% | ≤20Ω | 67*92 | 100w | ≥100MΩ | |
| OKS-8CTRANSDUCER-4528* | 28±0.5 | 5600±10% | ≤20Ω | 67*68 | 100w | ≥100MΩ | |
| OKS-8CTRANSDUCER-5028 | 28±0.5 | 7200±10% | ≤20Ω | 67*68 | 120w | ≥100MΩ | |
| OKS-8CTRANSDUCER-5020 | 20±0.5 | 4650±10% | ≤25Ω | 79*94 | 120w | ≥100MΩ | |
| OKS-4CTRANSDUCER-2540 | 40±0.8 | 2400±10% | ≤30Ω | 25*58 | 20w | ≥100MΩ | |
| OKS-4CTRANSDUCER-2540 | 40±0.8 | 2400±10% | ≤30Ω | 30*50 | 20w | ≥100MΩ | |
| OKS-4CTRANSDUCER-2560 | 60±1.5 | 2300±10% | ≤35Ω | 30*35 | 20w | ≥100MΩ | |
| OKS-4CTRANSDUCER-2565 | 65±1.5 | 2300±10% | ≤35Ω | 25*31 | 20w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3055 | 55±1.0 | 3100±10% | ≤35Ω | 30*45 | 35w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3050 | 52±2.0 | 3100±10% | ≤35Ω | 38*40 | 35w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3528* | 28 ±0.5 | 4000±10% | ≤20Ω | 45*79 | 50w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3540* | 40 ±1.0 | 4000±10% | ≤20Ω | 45*55 | 50w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3825* | 25±0.8 | 4800±10% | ≤20Ω | 59*80 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3828* | 28±0.5 | 4800±10% | ≤20Ω | 59*68 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3833 | 33±0.5 | 4800±10% | ≤20Ω | 48*62 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3835 | 35±0.5 | 4800±10% | ≤20Ω | 45*55 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3840* | 40±0.5 | 4800±10% | ≤20Ω | 48*51 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-4520 | 22±0.5 | 7600±10% | ≤20Ω | 67*92 | 100w | ≥100MΩ | |
| OKS-4CTRANSDUCER-4525 | 25±0.5 | 7600±10% | ≤20Ω | 67*76 | 100w | ≥100MΩ | |
| OKS-4CTRANSDUCER-4528* | 28±0.5 | 7600±10% | ≤20Ω | 67*68 | 100w | ≥100MΩ | |
| OKS-4CTRANSDUCER-4540* | 40±0.5 | 7600±10% | ≤20Ω | 55*53 | 100w | ≥100MΩ | |
| OKS-4CTRANSDUCER-5028 | 28±0.5 | 9600±10% | ≤20Ω | 67*68 | 120w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3868 | 67±2.0 | 4800±10% | ≤20Ω | 50*65 | 50w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3880 | 79±1.5 | 4800±10% | ≤25Ω | 40*54 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-38100 | 100±1.5 | 4800±10% | ≤25Ω | 40*57 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-38120 | 120±1.5 | 4800±10% | ≤25Ω | 40*58 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-35130 | 129±1.5 | 4200±10% | ≤25Ω | 36*54 | 50w | ≥100MΩ | |
| OKS-4CTRANSDUCER-38160 | 160±1.5 | 4800±10% | ≤25Ω | 40*57 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-35165 | 165±5.0 | 4100±10% | ≤60Ω | 42*61 | 40w | ≥100MΩ | |
| OKS-4CTRANSDUCER-25200 | 200±2.0 | 2300±10% | ≤35Ω | 30*35 | 20w | ≥100MΩ | |
| OKS-8CTRANSDUCER-3828/40 | 28/40±1.0 | 3800±10% | ≤30Ω | 65*70 | 60w | ≥100MΩ | |
| OKS-8CTRANSDUCER-2540/130 | 40/130±2.0 | 3100±10% | ≤30Ω | 25*58 | 20w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3840/68 | 38/66±2.0 | 4800±10% | ≤20Ω | 50*65 | 50w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3840/80/130 | 38/79/128±2.0 | 4200±10% | ≤25Ω | 40*54 | 60w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3840/60/80 | 38/65/84±2.0 | 4800±10% | ≤25Ω | 40*54 | 60w | ≥100MΩ | Multi FR |
| OKS-8CTRANSDUCER-5020/40/60 | 20/40/60±2.0 | 5200±10% | ≤25Ω | 78*94 | 120w | ≥100MΩ | |
| OKS-4CTRANSDUCER-3840/100/160 | 38/100/160±2.0 | 4800±10% | ≤25Ω | 40*57 | 60w | ≥100MΩ | |
| Screw hole size (diameter * pitch * depth)M10*1.0*10 | |||||||
