ICP 9MAC/E series, Руководство по устранению неисправностей

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APPENDIX B
ECM BLOWER MOTOR DESCRIPTION & OPERATION
The Regal-Beloit Electronically Commutated Motor (ECM) shown in figure 3 is the newest generation of variable speed blower motors. This motor
has all of the capabilities of the previous ECM blower motor but has internal memory storage which provides operational information to the
manufacturer when the motor is returned. In addition this new design has improved reliability due to the consolidation of two circuit boards into
one. This single circuit board is completely potted and is less susceptible to water contamination then the previous design.
As in the previous design this motor does not have to be pre-programmed at the factory. Instead the modulating furnace control programs the ECM
blower motor upon application of power to the ECM blower motor via the serial communication link between the modulating furnace control and the
ECM blower motor. This eliminates the need for a multitude of different ECM blower motors where each one is programmed for one specific
furnace model. The ECM blower motor is energized with 115-vac whenever power is available at the modulating furnace control, but operates only
when the modulating furnace control communicates the proper serial commands to the ECM blower motor at PL13.
The ECM blower motor is first fed 115-vac power through the 5-pin connector PL14. The 115-vac power is then rectified to DC by a diode module.
After rectification, the DC signal is electronically commutated and fed in sequential order to 3 stator windings. The frequency of commutation pulses
determines motor speed.
Setting up the desired airflow CFM for an ECM blower motor is done by setting the A/C or CF selections on the modulating furnace control shown
in figure 1. The ECM blower motor then delivers requested airflow CFM as defined by serial commands received from the modulating furnace
control.
The ECM blower motor is configured via the modulating furnace control to react to changes in system static pressures to maintain nearly constant
airflow CFM. The ECM blower motor delivers requested airflow CFM up to about 1.0 in.w.c. of static pressure for most airflow settings. The
modulating furnace control is pre-programmed and contains all the information relative to each furnace model for all modes of operation. Blower
characteristics for each model (airflow CFM, torque, and speed versus static pressure) are known from laboratory testing. If any 3 characteristics are
known, the fourth can be defined. The airflow CFM is known because of the A/C and CF selections, model plug, and the thermostat input signals on
the modulating furnace control. The modulating furnace control then communicates the airflow CFM to the ECM blower motor. Torque is known
by the ECM blower motor because it is directly related to armature current which is measured by the ECM blower motor control. Speed is measured
from the generated back EMF by the ECM motor control. This information (airflow CFM, torque and speed) are entered into an expression which
calculates torque from speed and airflow CFM numbers. If the calculation does not match stored blower characteristics, torque is adjusted every 0.8
seconds until agreement is reached. The ECM blower motor does not directly measure static pressure, but does react to changes in static pressure to
maintain constant airflow CFM.
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