508216-01
Issue 2130
Page 30 of 42
Refrigerant Charging
Excessive amounts of liquid refrigerant entering the
suction line can damage the compressor. When adding
refrigerant, precautions must be taken to control the
flow of liquid into the system. This can be done by using
a liquid vaporizing adapter or manual control using a
sight glass as indicator.
CAUTION
Units are factory charged with the amount of R-410A
refrigerant indicated on the unit rating plate. This charge is
based on a matching indoor coil and outdoor coil with 15’
line set. For varying lengths of line set, refer to Table 5 for
refrigerant charge adjustment. A blank space is provided
on the unit rating plate to list the actual field charge.
Table 5.
Refrigerant Charge Adjustment
Liquid Line Set Diameter
Oz. Per 5 ft. adjust from 15
ft. line set*
3/8 in.
3 oz. per 5 ft.
or 0.6 oz. per 1 ft.
* If line length is greater than 15 ft., add this amount. If line
length is less than 15 ft., remove this amount.
Mineral oils are not compatible with R-410A. If oil must
be added, it must be a polyolester oil.
IMPORTANT
NOTE:
Both airflow and refrigerant charge must be
monitored for proper system set-up. It may be necessary to
alternately check and adjust the airflow and the refrigerant
charge.
If the system is void of refrigerant, or if the outdoor ambient
temperature is cool, use the weigh-in method to charge the
unit. Do this after any leaks have been repaired.
1.
Recover the refrigerant from the unit.
2.
Conduct a leak check, then evacuate as previously
outlined.
3. Weigh in the charge according to the total amount
shown on the unit nameplate.
If weighing facilities are not available or if unit is being
charged during warm weather, use one of the following
procedures.
•
For systems using a fixed orifice on the indoor
evaporator and outdoor temperatures above
65°F
– charge using the superheat method and table
provided on the unit access panel.
• For systems using a TXV on the indoor evaporator
and outdoor temperature above 60°F
– charge in
Sequence of Operation
NOTE:
The thermostat used may be electromechanical or
electronic.
NOTE:
Transformer in indoor unit supplies power (24 VAC)
to the thermostat and outdoor unit controls.
Cooling:
1.
Cooling demand initiates at Y1 in the thermostat.
2.
24VAC from indoor unit (Y1) energizes the TOC timed
off control (if used) which energizes contactor K1
(provided S4 high pressure switch is closed).
3. K1-1 N.O. closes, energizing compressor (B1) and
outdoor fan motor (B4).
4.
Compressor (B1) and outdoor fan motor (B4) begin
immediate operation..
End of Cooling Demand:
5.
Cooling demand is satisfied. Terminal Y1 is de-
energized.
6.
Compressor contactor K1 is de-energized.
7.
K1-1 opens and compressor (B1) and outdoor fan
motor (B4) are de-energized and stop immediately.
Start-Up
If unit is equipped with a crankcase heater, it should
be energized 24 hours before unit start-up to prevent
compressor damage as a result of slugging.
CAUTION
1.
Rotate fan to check for frozen bearings or binding.
2.
Inspect all factory and field-installed wiring for loose
connections.
3. After evacuation is complete, open liquid line and
suction line service valves to release refrigerant
charge (contained in outdoor unit) into system.
4.
Replace the stem caps and secure finger tight, then
tighten an additional 1/6 of a turn.
5.
Check voltage supply at the disconnect switch. The
voltage must be within the range listed on the unit
nameplate. If not, do not start equipment until the
power company has been consulted and the voltage
condition corrected.
6.
Set thermostat for cooling demand, turn on power to
indoor blower, and close the outdoor unit disconnect
switch to start the unit.
7.
Recheck unit voltage with unit running. Power must be
within range shown on unit nameplate.
Summary of Contents for 4SCU13LE/B
Page 32: ...508216 01 Issue 2130 Page 32 of 42 Figure 12 A C Single Phase Wiring Diagram Wiring Diagram ...
Page 33: ...508216 01 Issue 2130 Page 33 of 42 Figure 13 A C Single Phase Wiring Diagram 59 model only ...
Page 34: ...508216 01 Issue 2130 Page 34 of 42 Figure 14 3 Phase 208 230 Volt ...
Page 35: ...508216 01 Issue 2130 Page 35 of 42 Figure 15 3 Phase 460 Volt ...
Page 39: ...508216 01 Issue 2130 Page 39 of 42 Charge Labels Figure 16 4SCU13L 3 through 5 ...
Page 40: ...508216 01 Issue 2130 Page 40 of 42 Figure 17 4SCU13L 2 ...
Page 41: ...508216 01 Issue 2130 Page 41 of 42 Figure 18 4SCU13L 1 ...