Amp draw is a measurement of the power being consumed by a
blower motor to move the air through your HVAC system. It’s one of the
lesser-used diagnostic tests, but perhaps if we focus on how to measure amp
draw and learn to better interpret what it can tell us, we will expand our
ability to provide comfort to those we serve.
To interpret the meaning of an amp draw reading, you need to
know the capacity of the blower motor that’s turning the fan. This is found in
the nameplate of the motor and is called “full load amps,” designated by the
initials FLA.
When a motor operates at 100% of its FLA, it’s operating at
100% of its capacity. The goal of the test I’ll present here is to compare the
measured amps that the motor is using to the FLA capacity of the motor.
When a system has been renovated and system performance has
been maximized, it’s common to read amp draw at 80% to 90% of FLA on a most
direct-drive residential units.
If the measured amp draw exceeds the capacity of the motor,
the motor will fail prematurely. Excessive heat is what usually causes damage
to a motor, and when a motor is working beyond its FLA, its life expectancy is
decreased significantly.
If the measured amp draw is only half of the FLA, the
chances are that you have a serious air flow problem that will require
additional work to get the system to perform properly.
Test Instruments
Most of us carry one of many electrical multimeters that are
on the market to test electrical properties. On these meters, there is a
selection for AC Amperage that allows for a wide range of testing sufficient
for all sizes of residential blower motors. An electrical meter will range in
cost from $60 to $500. As with all tools, you get what you pay for.
Some meters come with a built in AC current clip that looks
like two fingers at one end of the meter that wrap around the wire being
tested.
To measure ampacity on most smaller systems, you clamp onto
a wire in the blower compartment, then close the blower compartment door during
the test.
To get access into the blower compartment requires a remote
amp clamp attached to the end of a 3-ft. to 4-ft. cord. The amp clamps look
like a clothespin with two insulated wires that attach it to the meter. This
clamp snaps onto the power lead of the motor and measures the flow of the
current pulled by the motor.
Remember to have your test instruments calibrated annually
so that you can have trust and confidence with your readings and diagnostics.
First, Safety
Before we discuss taking measurements, let’s look at safety.
This amperage measurement is taken with the power on and a fan that often moves
from 500 to 2,000 rpm. With some systems you may have fingers and test leads
dangerously close to this moving fan.
Also, whenever you’re measuring electricity, whether this is
a new test for you or if you’ve successfully performed it a thousand times,
please pay attention to your personal safety.
Here’s my favorite safety quote: Whenever taking electrical
measurements, or working with fans and pulleys, remember that even a fleeting
misunderstanding or inattention to energized equipment may easily carry the
punishment of death, enforced promptly, without the chance of appeal anywhere
on Earth.
No diagnostic measurement is worth a finger.
Should you ever be tempted to reach in and pull out a wire
to test with your bare fingers, be aware that insulation may have been stripped
from the wires and you could be headed for some serious pain, or even the
punishment mentioned above.
Having said that, let's take a look at how to measure amp
draw of a residential direct drive blower. Even if you often deal with large
commercial systems, read on, the same principles apply.
The Test Procedure
1. Disconnect power from the blower motor by shutting it off
at the disconnect box to the unit or unplugging the power source.
2. Open up the blower compartment of the furnace or air
handler. Find the Full Load Amp (FLA) rating of the blower motor. If the motor
is direct-drive these numbers can be difficult to read. They are usually
located on the nameplate located on the side of the motor. An inspection mirror
may be required, just be careful not to read the numbers backwards!
Some air handlers now have the FLA of the blower motor
listed right on the nameplate of the equipment. These manufacturers have gone
the extra mile to understand the needs of their HVAC contractors.
3. Check the rotation of the fan. “Bump” the fan by
depressing the blower compartment safety switch. Check that the blower is rotating
in the right direction, that it is tight on the shaft, and that there is no
restriction or grinding as the motor turns.
4. Locate the power wire leading to the blower motor. This
is normally the wire leading to the air conditioning or high-speed wire on the
speed tap. (Remember to normally balance in cooling mode.) If you have a
single-phase, multiple-speed motor with speed taps, place the unit in cooling
mode with the fan switch in the “on” position and the temperature set to 55F.
One rule of reading amp draw is that only one wire at a time
can be measured. Testing two or more at a time will cancel each other out or
the reading will be false.
If there is not an exposed wire within the unit, you will
have to find an exposed single lead to the motor where you can test. This may
be in the electrical disconnect, or at a junction box.
5. Connect the amp clamp from your electrical meter around
the power wire.
If the only access to the wire is in the blower compartment,
you must be sure that the test is taken with the blower door on, or at least
closed as much as possible.
If the door is left off during the test, the fan will move
more air than it would if it had to pull all its air through the return air
ducting. Therefore, the fan will work harder and the amp draw will be higher
than it would be under normal operating conditions.
6. Read the amp draw of the blower motor. Record the reading
and compare it to the FLA listed on the motor.
Check the amp draw against the manufacturer's fan
performance data to verify the airflow that the fan is producing. A rule of
thumb is that on high speed most motors will draw 70-100% of the FLA if it is
moving the required 400 CFM per ton on residential systems.
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