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©2003 Fluke Corporation. All rights reserved.
Printed in U.S.A. 8/2003 2103535 A-ENG- N Rev A
Fluke 43B displayed 5th
harmonic distortion rising to
80 % of the fundamental prior
to the stop signal.
Theory and analysis
The ideal displacement power
factor (DPF) is 1.0. This occurs
when the current and voltage
are “in-phase.” Inductive motor
loads cause the current to lag,
thereby lowering the DPF. This
usually results in a penalty
charge from the utility, so many
users install a capacitor to
provide DPF c orrection .
However, the combination of
inductance and capacitance will
form a resonant circuit that may
result in high circulating current
at the resonant frequency. It’s
standard practice to size a
capacitor at a value large
enough to correct the DPF to
at least 0.9, but not so large
that it makes the voltage lag the
current. The resulting configuration yields a resonant frequency
between the 5th and 7th
harmonic.
Problems can occur if the
circuit has a source of harmonics near the resonant frequency.
In the case of the backwash
pump, the source of harmonics
was the semiconductor switching operation of the soft start.
Why did the circuit work fine
when powered by the utility,
yet not work when powered by
the generator? The difference is
the source impedance. The low
impedance of the utility means
it can absorb harmonic currents
without causing severe voltage
distortion. The impedance of
the generator is much higher
than that of the utility.
Harmonic currents flowing into
the generator caused enough
voltage distortion to trigger the
negative sequence protection
circuit to produce a stop signal.
Solution
The city engineer solved the
problem by moving the capacitor to the utility side of the
transfer switch. With this
configuration, the generator
never sees the capacitor and
the resonance condition does
not exist when the generator
powers the circuit.
System testing under generator power revealed a problem.
The backwash pump would
suddenly stop part way through
the start sequence. And it was
stopping because the negative
sequence detector was putting
out a stop signal to the motor
controls. What electrical anomaly was the negative sequence
detector protecting the motor
from? Was it a phase loss?
Excessive voltage distortion?
What were the characteristics
and source of this anomaly?
Unfortunately, the city engineer
was unable to answer these
questions with his existing
test equipment. After some
research to identify a device
that would allow him to see
what was going on, he
purchased a Fluke 43B.
Measurements
The engineer suspected voltage
distortion, so he connected the
Fluke 43B phase-to-phase
across the input to the soft
start and selected “Harmonics.”
During the start sequence, the
2 Fluke Corporation Power Quality Case Study: 5th Harmonic resonance