BISOPE series 48 Acceleration sensor ICP, IEPE internal amplification...

BISOPE series 48- Acceleration sensor - ICP, IEPE (internal amplification circuit)

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The amount of charge generated from the transducer (sensor; converter) must express minute differences, so careful attention is required on the measurement path. In particular, noise from cables or noise caused by installation errors can lead to fatal measurement errors. Modern measurement methods are more compact, more accurate, and often include self-calibration. In particular, the external amplifier (Charger type) system used in the past must amplify and use the amount of electricity by using an amplifier in the middle in order to show a large amount of small charge.

ICP Accelometer(Integrated circuit Piezoelectric type=IEPE)

 

When pressure is applied, electricity is generated... The amount of charge generated by the 'piezoelectric effect' is very small, and as you can imagine, it is not enough to perform the 'generating function' that electricity will be generated when vibration is applied to the element. Th

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# Vibration Sensor, #Accelerometer, #Acceleration, #Accelerometer, #Piezoelectric Effect, #Piezoelectric Element, #Piezo, #ICP, #Resonance Measurement, #Frequency Analysis, #Vibration Diagnosis, #Building Vibration, #Bearing Vibration, #Low Frequency Vibration, #vibration education

BISOPE series 22- Non-synchronous rotation component vibration defects

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When analyzing the frequency, it is the first step to distinguish the relationship with the number of revolutions. Among them, harmonics that are compared to synchronous components and are not calculated as integer multiples of TS (turning speed) are called asynchronous(Non-synchronous) components. It refers to a frequency component that is both related to the number of revolutions and has nothing to do with the number of revolutions at all. Among them, the case related to the number of revolutions is a frequency generated by rolling bearings, belts, chains, etc., and is an asynchronous component because it does not fit into an integer multiple. On the other hand, frequencies that are not related at all to rotational speed correspond to frequency groups caused by resonance, electrical faults, fluid excitation, and friction, which are also asynchronous components.

Non Synchronous faults

 

For patterns and signals of defects whose frequencies are not integer multiples of TS or are not related at all, just look for those that are not related to rotation events. That is, the inner and outer rings of rolling bearings do not fit in integer multiples because they continue to rotate according to a certain pattern formula when the shaft rotates once. Also, in the case of other shafts connected by a belt or in the case of the oil whirl, although it is related to the increase or ......

Observation of asynchronous components is generally not good. In particular, frequencies below 1X TS are not normal at all. Oftentimes, it is a defect in itself. It is important to know how it was in the past and how it compares to similar machines, but it is important to analyze and find the cause because it can be a serious matter that needs to be proven through additional tests.

 

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