Servicing, S-105b thermostatic expansion valve – Goodman Mfg RT6100004R13 User Manual

SERVICING

53

NOTE: The compressor may run backwards (noisy opera-
tion) for 1 or 2 seconds at shutdown. This is normal and
does not harm the compressor.

1. Install gauges and verify that the suction pressure drops

while the discharge pressure increases.

2. Listen for normal compressor sound levels. Reverse rota-

tion results in elevated or unusual sound levels.

3. Reverse rotation will result in substantially reduced amp

draw from tabulated values.

To correct improper rotation, switch any two power supply
leads at the outdoor unit contactor.

The 3 phase Scroll Compressors are direction of rotation sen-
sitive. They will rotate in either direction depending on the
phasing of the power. There is no negative impact on durabil-
ity caused by operating 3 phase compressors in reversed
rotation. The compressors internal protector will trip, de-en-
ergizing the compressor. Continued operation of 3 phase scroll
compressors with the rotation reversed will contribute to com-
pressor failure. All 3 phase scroll compressors should be
checked for correct phase rotation.

S-105A PISTON KIT CHART FOR ASC13,

GSC13, VSC13, GSC14, ASH13, GSH13,
VSH14, GSH14 UNITS

Air Conditioners

Orifice

Size

Heat Pumps

Orifice

Size

G/VSC130181A*

.055

G/VSH130181A*

.052

GSC130181B*

.055

GSH130181B*

.055

G/VSC130241A*

.059

G/VSH130191A*

.052

GSC130241C*

G/VSH130241A*

.061

AC30, ACNF24

.059

GSH130241B*

.061

AWB24/AWUF24

.059

G/VSH130251A*

.061

# All other ARI Matches

.061

G/VSH130301A*

.068

G/VSC130301A* / D*

GSH130301B*

.070

GSC130303A*

G/VSH130311A*

.065

AC36, ACNF30

.065

G/VSH130361A*

.073

AWB36, AWUF36

.068

GSH1303613A*/1B*

.082

# All other ARI Matches .065

G/VSH130421A*

.082

G/VSC130361A*

G/VSH130481A*

.084

GSC130363A* / B*

.071

GSH1304813A*/ 4A*

.084

AWB36, AWUF36

.071

G/VSH130601A*

.093

# All other ARI Matches .074

GSH1306013A*/ 4A*

.093

GSC130361B* / F*

.071

ASH130181A*

.052

G/VSC130421A*

.078

ASH130241A*

.062

G/VSC130481A

.082

ASH130301A*

.065

GSC130483A*/ 4A*

.082

ASH130361A*

.073

G/VSC130601A*

.093

ASH130421A*

.082

GSC130603A*/ 4A*

.093

ASH130481A*

.084

ASC130181A*

.055

ASH130601A*

.093

ASC130241A*

.061

GSH140361A*

.076

ASC130301A*

.065

GSH140421A*

.078

ASC130361A*

.071

GSH140481A*

.088

ASC130421A*

.078

ASC130481A*

.082

ASC130601A*

.093

GSC140181A*

.053

GSC140241A*

.061

GSC140301A*

.067

GSC140361A*

.074

GSC140421A*

.078

GSC140481A*

.084

GSC140601A*

.096

GSC140181B*

.055

GSC140241B*

.062

GSC140301B*

.067

GSC140361B*

.073

GSC140421B*

.080

S-105B THERMOSTATIC EXPANSION VALVE

The expansion valve is designed to control the rate of liquid
refrigerant flow into an evaporator coil in exact proportion to
the rate of evaporation of the refrigerant in the coil. The
amount of refrigerant entering the coil is regulated since the
valve responds to temperature of the refrigerant gas leaving
the coil (feeler bulb contact) and the pressure of the refrigerant
in the coil. This regulation of the flow prevents the return of
liquid refrigerant to the compressor.

The illustration below shows typical heat pump TXV/check
valve operation in the heating and cooling modes.