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Voltage Inbalance2

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5/6/22, 7:17 AM
https://www.ecmweb.com/print/content/21122735
POWER QUALITY & RELIABILITY
Understanding Voltage Unbalance
Measurements and Calculations
Voltage unbalance is simply a variation in the phase-to-phase voltage in 3phase electrical systems.
Bryan Glenn
A farmer is watering an alfalfa field 24 hours a day using a 3-phase 100-hp
electric motor and adjustable speed drive (ASD). The farmer checks on his field
to find the water not flowing and the pump stopped. Further investigation
reveals that the ASD tripped on “VUmb” or voltage unbalance. The ASD is
reset and runs another 12 hours before shutting down again on “VUmb.” By
the time the electrician is able to troubleshoot the problem, the motor is
running again. What is voltage unbalance and why does the ASD shutdown?
Let’s look into the theory and calculations to check the actual voltage
unbalance.
Voltage unbalance is simply a variation in the phase-to-phase voltage in 3phase electrical systems. For example, in a 480V nominal system, you may
measure phase-to-phase voltage: 463V, 482V, and 474V. It is important to
note that voltage unbalance will generate a current unbalance or magnify any
existing current unbalance. The National Electrical Manufacturers Association
(NEMA) MG1-2016 (Motors & Generators) standard specifies that for every 1%
of voltage unbalance, 6% to 10% of current unbalance will be generated.
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American National Standards Institute (ANSI) C84.1-2016 suggests that the
electric utility system not exceed a 3% voltage unbalance. Many electric
utilities have set limits at 2.5% to 3%; however, there is no standard published
that mandates this value. Voltage unbalance can be caused by various
problems in the electric utility system and in a facility. Generally, improperly
balanced load on electrical distribution circuits, long electrical distribution
radial circuits, a blown capacitor bank fuse, and improperly transposed
transmission circuits will contribute to voltage unbalance. In a facility, voltage
unbalance can be generated from improperly balanced panelboards and
switchgear and poorly wound electric motors.
To calculate voltage unbalance the most common formula used is the
“maximum deviation from average.” An example of the formula is shown
below.
When taking phase-to-phase voltage measurements, the downstream load
must be turned off; if possible, open the main breaker. First, calculate the
average voltage. Second, subtract the average voltage and each phase
measurement to find the greatest difference. This value is the maximum
deviation from average. Finally, divide the average voltage and maximum
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deviation to calculate the voltage unbalance. If you identify that the voltage
unbalance is close to or greater than 3%, then contact the electric utility to
troubleshoot the problem.
Source URL: https://www.ecmweb.com/power-quality-reliability/article/21122735/understandingvoltage-unbalance-measurements-and-calculations
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