Troubleshooting GE ECM 2.3 Motors | Bard PA13301-A, PA13361-A

TROUBLESHOOTING GE ECM 2.3™ MOTORS

NOTE: Affects Models PA13241, PA13301, PA13361

CAUTION:

Disconnect power from unit before removing or replacing connectors, or servicing motor. To avoid electric shock from the motor’s capacitors, disconnect power and wait at least 5 minutes before opening motor.

Symptom Cause/Procedure

•Noisy blower or cabinet • Check for loose blower housing, panels, etc.

•High static creating high blower speed?

-Check for air whistling through seams in ducts, cabinets or panels

-Check for cabinet/duct deformation

•“Hunts” or “puffs” at • Does removing panel or filter reduce

Motor rocks slightly when starting

Motor won’t start

• No movement

• This is normal start-up for ECM

• Check blower turns by hand

• Check power at motor

• Check low voltage (24 Vac R to C) at motor

• Check low voltage connections

(G, Y, W, R, C) at motor

• Check for unseated pins in connectors on

motor harness

• Test with a temporary jumper between R - G

• Check motor for tight shaft

• Perform motor/control replacement check

high CFM (speed)	“puffing”?
	- Reduce restriction
	- Reduce max. airflow
Evidence of Moisture
• Motor failure or	• Replace motor and Perform Moisture
Check
malfunction has occurred
and moisture is present
• Evidence of moisture	• Perform Moisture Check
present inside air mover
Do	Don’t

• Perform Moisture Check

• Check out motor, controls,

wiring and connections

• Automatically assume the motor is bad.

• Motor rocks,	• Check for loose or compliant motor mount
but won’t start	• Make sure blower wheel is tight on shaft
	• Make sure blower wheel is tight on shaft
	• Perform motor/control replacement check
Motor oscillates up	• It is normal for motor to oscillate with no
load & down while being	on shaft
tested off of blower
Motor starts, but
runs erratically
• Varies up and down	• Check line voltage for variation or “sag”
or intermittent	• Check low voltage connections
	(G, Y, W, R, C) at motor, unseated pins in
	motor harness connectors
	• Check “Bk” for erratic CFM command (in
	variable-speed applications)
	• Check out system controls, Thermostat
	• Perform Moisture Check
• “Hunts” or “puffs” at	• Does removing panel or filter reduce
high CFM (speed)	“puffing”?
	- Reduce restriction
	- Reduce max airflow

thoroughly before replacing

motor

• Orient connectors down so

water can’t get in

- Install “drip loops”

• Use authorized motor and

model #’s for replacement

• Keep static pressure to a

minimum:

- Recommend high

efficiency, low static filters

- Recommend keeping filters

clean.

- Design ductwork for min.

static, max. comfort

- Look for and recommend

ductwork improvement,

where necessary

• Size the equipment wisely

• Check orientation before

inserting motor connectors

• Locate connectors above 7 and 4 o’clock

positions

• Replace one motor or control model # with

another (unless an authorized replacement)

• Use high pressure drop filters some have ½"

H20 drop!

• Use restricted returns

•Oversize system, then compensate with low airflow

•Plug in power connector backwards

•Force plugs

• Stays at low CFM	• Check low voltage (Thermostat) wires and
despite system call	connections
for cool or heat CFM	• Verify fan is not in delay mode; wait until
	delay complete
	• “R” missing/not connected at motor
	• Perform motor/control replacement check
• Stays at high CFM	• “R” missing/not connected at motor
	• Is fan in delay mode? - wait until delay time
	complete
	• Perform motor/control replacement check
• Blower won’t shut off	• Current leakage from controls into G, Y or W?
	Check for Triac switched thermostat or solid-
	state relay
Excessive noise	• Determine if it’s air noise, cabinet, duct or
	motor noise; interview customer, if necessary
• Air noise	• High static creating high blower speed?
	- Is airflow set properly?
	- Does removing filter cause blower to slow
	down? Check filter
	- Use low-pressure drop filter
	- Check/correct duct restrictions

Moisture Check

•Connectors are oriented “down” (or as recommended by equipment manufacturer)

•Arrange harness with “drip loop” under motor

•Is condensate drain plugged?

•Check for low airflow (too much latent capacity)

•Check for undercharged condition

•Check and plug leaks in return ducts, cabinet

Comfort Check

•Check proper airflow settings

•Low static pressure for lowest noise

•Set low continuous-fan CFM

•Use humidistat and 2-speed cooling units

•Use zoning controls designed for ECM that regulate CFM

•Thermostat in bad location?

Manual	2100-467D
Page	22 of 25

PA13361-B, PA13301-A, PA13241-A, PA13361-A specifications

The Bard PA13361-B, PA13361-A, PA13241-A, and PA13301-A are high-efficiency packaged air conditioning units known for their exceptional performance in residential and commercial settings. These models are designed to provide effective cooling solutions while maximizing energy efficiency and comfort.

One of the standout features of these models is their robust construction, made to withstand varying environmental conditions. The units are engineered with corrosion-resistant materials, making them ideal for both indoor and outdoor applications. This durability ensures that they can operate effectively in diverse climates, providing consistent cooling performance year-round.

The PA13361-B and PA13361-A models are equipped with advanced thermostatic control systems that allow for precise temperature adjustments. This technology enhances user comfort and contributes to energy savings by ensuring the system operates only when needed. Users can easily manage their indoor environment through intuitive controls, making it straightforward to tailor the cooling output to their preferences.

In terms of energy efficiency, these Bard units are designed to operate at low energy consumption levels while delivering powerful cooling capabilities. The integration of high-efficiency compressors and refrigerants contributes substantially to reducing energy costs, making these models an environmentally friendly choice for consumers. With a high Seasonal Energy Efficiency Ratio (SEER), these air conditioning units not only comply with but often exceed industry standards.

The PA13241-A and PA13301-A models introduce enhanced airflow technology, which allows for better air distribution throughout the space. This feature ensures that every corner of the room receives adequate cooling, eliminating hot spots and ensuring comfort for occupants.

Furthermore, the simplicity of installation and maintenance adds to the appeal of these models. Bard units are designed with serviceability in mind, allowing technicians to perform routine maintenance with ease. This accessibility can lead to reduced downtime and enhanced longevity of the equipment.

In summary, the Bard PA13361-B, PA13361-A, PA13241-A, and PA13301-A packaged air conditioning units are robust, efficient, and user-friendly systems. Their advanced features, energy-efficient operation, and durable construction make them a top choice for those seeking reliable cooling solutions in various settings. Whether for residential or commercial use, these models offer performance and comfort that users can depend on.