The impedance analyzer can be measured and evaluated to match the circuit. For piezoelectric ceramics, you can directly judge the advantages and disadvantages of the device based on the admittance circle diagram and the logarithmic coordinates. If the ceramic chip is layered or cracked, the logarithmic curve will have multiple peaks and the admittance circle diagram will have multiple small circles.
Whether the horn is properly designed, machined and assembled, or defective, can be seen directly on the guide circle.
|Impedance Analyzer||HS520A Newest|
|Basic Accuracy||< 0.5%|
|Scan Speed||5 sec/one pass (equivalent to 600 scan dots)|
|Frequency Accuracy||±10 ppm|
|Phase Accuracy||0.15 degree|
|Temperature Range||10~40 degree Celsius|
|Frequency Step||0.1Hz to Any|
|Measure Items||Resonance Frequency: Fs|
|Half Power Frequency: F1 and F2|
|Maximum real admittance at Fs: Gmax|
|Dynamic Resistance: R1|
|Anti resonance frequency: Fp|
|Mechanical quality factor: Qm|
|Free capacitance: CT|
|Dynamic inductance: L1|
|Dynamic capacitance: C1|
|Static capacitance: Co|
|electromechanical coupling coefficient: Keff and Kp|
|Maximum real impedance at Fp: Zmax|
Ultrasonic Component Analyzer HS520A series of products for various types of ultrasonic devices for measuring objects, including: piezoelectric ceramics, transducers, ultrasonic cleaning machines, ultrasonic plastic welding machine, underwater acoustic, magnetostrictive materials, ultrasonic grinder, ultrasonic atomization , Ultrasonic cleaning, reversing radar, ultrasonic ranging, phacoemulsification, ultrasonic cleaning, ultrasonic motors, and all other devices and devices used in piezoelectric and ultrasound.
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