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One of the most frequent challenges you'll face as a service technician
is determining if a replacement motor that is not an exact duplicate of
the original is suitable for an application. Often, you can use the motor's
nameplate to help you in making the selection, but a nameplate doesn't
always provide you with everything you need to know.
Take nameplate amps, for example. It is common practice to determine
the power input of two motors by comparing nameplate amps of the original
motor with those of the replacement. In other words, if the replacement
motor's rated amps are at least as high as the original, you are reasonably
safe in using it in the application. This practice works best when you're
working with motor types whose efficiency varies little from one design
to another. A good example would be three-phase motors.
But, the nameplate may not tell the entire story, and as a superior service
technician, you need to be aware of the chapters that are missing. Motor
nameplates typically do not include input watts as a power measurement,
nor do they identify the motor's efficiency. In certain applications,
these criteria may be critical factors in deciding if a replacement motor
can do the job.
One case where the nameplate-amp comparison often breaks down is when
you're working with single-phase motors. These motors which include permanent
split capacitor motors, shaded pole motors, as well as split phase and
capacitor-start versions, may vary widely in terms of efficiency within
a single motor design. You have no way of knowing that, however, simply
by looking at the nameplate.
So what happens to the nameplate amp comparison in this instance. Since
nameplate amps reflect total current consumption of the motor (including
current converted to output power and current lost to heat), higher nameplate
amps on a single-phase motor can just as likely indicate poorer conversion
efficiency as increased power output.
Faced with this challenge, the service technician dealing with single-phase
motors needs to look beyond amps and compare the horsepower of the replacement
motor to the original. If nameplate amps and horsepower compare favorably,
you likely will have a suitable replacement.
To be certain, however, it's important that you test the replacement motor
in the application itself. This is especially true when you remember that
there is not a single industry standard for motor efficiency. Best practice
is to measure the amps through the motor terminal or power leads of the
replacement and compare that reading with the amp rating shown on the
replacement motor's nameplate. When you perform this test, make absolutely
sure that the motor is in its normal operating state with all belts, blowers,
baffles, and enclosures in place. If you do not duplicate the motor's
normal working environment, you will not get a true reading of the motor's
total current consumption. You very possibly will end up with an overloaded
condition and eventually an unhappy customer.
Motor manufacturers are becoming increasingly sensitive to motor efficiency
and are working to design motors that deliver higher power while consuming
the same-or fewer-watts. All of this product development means that you,
as a service technician, will probably see motors in the field of similar
power output but with significantly different ampacity. By being aware
of these differences and understanding that you won't find this important
information just by looking at the nameplate, you will be able to provide
correct replacements-and better service-to your customers.
by Neil Simon, aka the Motor Doctor - regional sales
manager for A. O. Smith Electrical Products Company.
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