Motor Current Signature Analysis (MCSA)
MCSA detect broken rotor bars
using current signal only & it tells the user what is from the point of
test towards the load.
Electrical Signal Analysis(ESA)
ESA detects Motor fault using both
Voltage and current & it tells the user about information from the point of
test towards the supply
MCSA Vs ESA
MCSA is primarily used by the vibration
industry using special current probes which allow the vibration data collectors
to take current input. This current is then converted from analog to digital,
filtered and produced as an FFT (Fast Fourier Transform) spectra of amplitude
versus frequency. ESA has been primarily used by the dedicated ESA instrument
manufacturers and includes the voltage waveform as an input. The primary
difference is that current tells the user what is from the point of test
towards the load and voltage provides information from the point of test
towards the supply. This allows the user to quickly determine where a
particular signature exists.
ESA Advantages
1. ESA provides the capability of
detecting power supply issues, severe connection problems, airgap faults, rotor
faults, electrical and mechanical faults in the motor and driven load,
including some bearing faults
2. It is important to note that the
technology should not be considered a replacement for vibration analysis in
mechanical analysis, but provides excellent data on motor condition from
incoming power through to the rotor
3. From the bearings to the mechanical
load still remains in the realm of vibration, in most cases.
Fault Detection Using ESA
One
of the original concepts behind the development of ESA was to eliminate the
loss of instrumentation to test MOV’s in the dangerous areas within nuclear
power plants. The primary failure of these machines is the rotor which would
overload and melt when limit switches failed. It was discovered that the rotor
bar failure signature was unique enough that not only could the signature be
quickly identified, but that condition values could be applied easily.
When the Pole Pass Frequency
sidebands (P1 and P2) of Figure 1 are compared to the values in Table 1, and
the condition of the rotor bars can be determined. However, in this case, the
motor is 4,160 Vac and the data was taken from the Motor Control Center (MCC)
Current Transformers (CT). The result can be a dampening effect on those peaks
resulting in the analyst needing to estimate the severity of the fault.
Where
SS is Synchronous Speed, RS is Running Speed, LF is Line Frequency and PPF is
the Pole Pass Frequency
Concerning
most other faults detected with ESA, the number of rotor bars and stator slots
in the design of the motor is necessary. Many of the ESA instrument
manufacturers have built algorithms into their software which can assist the
analyst in estimating either number.
In figure 2, the motor is an 800
horsepower, 1785 RPM, 101 Amp, Louis Allis motor with 58 rotor bars and 72
stator slots. SM1 and SM2 are peaks related to the movement of the coil ends of
the motor windings. As measured through the CT’s, the values are about -78 dB
which would be more severe if the current was measured directly. With an RPM of
28.793 Hz (1727.6 RPM), the stator mechanical (coil movement) frequencies would
be the number of stator slots times the running speed plus and minus the line
frequency. In this case, 2013.1 Hz and 2133.1 Hz which relates to the fields
passing through the coils ends and interacting with the rotor fields.
Excessive coil movement will cause
fractures in the coils as they leave the stator slot. In the case of the 800
horsepower motor, this movement coupled with oil contamination caused the
winding to fail where the windings leave the slot.
2 comments:
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