NOTE: To ensure accurate ohm measurements, place ohmmeter probes on flat surface of
Open
To determine if a winding has an actual break in the internal wires and current is unable to pass through:
1.Be sure all power is off.
2.Discharge all capacitors.
3.Remove wires from terminals T1, T2, T3, T7, and T8.
4.Use an ohmmeter on
Because winding resistances are usually less than 10 ohm, each reading will appear to be approximately zero ohm. If during any check the resistance remains at 1000 ohm, an open or break exists, and the motor or compressor should be replaced.
Ground
To determine if any wire has broken and come in direct contact with the housing or shell, causing a direct short to ground:
1.Be sure all power is off.
2.Discharge all capacitors.
3.Remove wires from T1, T2, T3, T7, and T8.
4.Allow crankcase heater to remain on for several hrs before checking motor to ensure that windings are not saturated with refrigerant.
5.Using an ohmmeter on R X 10,000 ohm scale, place 1 meter probe on ″ ground″ motor or compressor frame. Make a good
If any reading of zero or low resistance is obtained, the motor is grounding. Replace the compressor.
Short
NOTE: This is an extremely critical test and is not advised unless the following conditions are met.
The correct
The temperature of the windings must be specified, 70°F ± 2 °F.
The
The motor must be dry or free from direct contact with liquid refrigerant.
To determine if any wires have broken through their insulation and come in direct contact with each other, thereby ″ shorting″ all or part of the winding(s):
1.Be sure all power is off.
2.Discharge all capacitors.
3.Remove wires from terminals T1, T2, T3, T7, and T8.
4.Subtract instrument probe and lead resistance from each reading. If any reading is within ± 20 percent of the known resistance from Table 18, the motor probably does not have a short. Usually a considerable difference will be noted if a
CONTROL BOARD FAILURE
The control board continuously monitors its own operation and the operation of the system. The diagnostic feature allows easy troubleshooting of the control and system in the field. If a failure occurs, the LED light on the control will flash a failure code. If the failure is internal to the control board, the light will stay on continuously (no flash). Before replacing control board, reset the
24v power. If the fault clears, check to ensure the indoor and outdoor unit and electrical service are properly grounded. If the entire system is grounded, the control board should be replaced, as the control is not field reparable. If the
See Fig. 33 and 37 for inputs and outputs.
BLEED RESISTOR
The bleed resistor is a 150k,
START CAPACITOR AND RELAY
The
REFRIGERATION SYSTEM
I. REFRIGERATION CYCLE
In a refrigeration system, refrigerant moves heat from one place to another. It is useful to understand flow of refrigerant in a system.
In a straight cooling system, compressed hot gas leaves compres- sor and enters condensing coil. As gas passes through condenser coil, it rejects heat and condenses into liquid. The liquid leaves condensing unit through liquid line and enters metering device at indoor coil. As it passes through metering device, it becomes a
In a heat pump, the basic cycle is the same. (See Fig. 42.) Reversing valve in system decides which coil, indoor or outdoor, becomes evaporator or condenser. It rejects heat into the home after heat is absorbed by outdoor evaporator coil, thus the home is heated.
In cooling cycle, the indoor coil becomes the evaporator. It absorbs heat from the home and rejects it through the outdoor condenser coil, thus the home is cooled.
A unique feature of the heat pump is that metering devices are designed to meter refrigerant in one direction of flow and allow refrigerant to pass unhindered in the other direction. If indoor- metering device is metering refrigerant, the outdoor device by- passes refrigerant and vice versa. This allows both coils to serve a dual function.
II. LEAK DETECTION
CAUTION: Always wear safety glasses and gloves when handling refrigerants.
New installations should be checked for leaks prior to complete charging.
If a system has lost all or most of its charge, system must be pressurized again, up to approximately 150 lb minimum. This can be done by adding refrigerant using normal charging procedures, or it may be pressurized with nitrogen (less expensive than refrigerant). Nitrogen also leaks faster than