86
heat airflow for 90, 120, 150, or 180 seconds (depending
on selection at blower--OFF delay switches). The furnace
control CPU is factory--set for a 120--second blower--OFF
delay.
2. Two--Stage Thermostat and Two--Stage Heating
See Fig. 35 and 36 for thermostat connections.
NOTE: In this mode the low--heat only switch SW1--2 must be
ON to select the low--heat only operation mode in response to
closing the thermostat R--to--W1 circuit. Closing the thermostat
R--to-- W1--and--W2 circuits always causes high--heat operation,
regardless of the setting of the low--heat only switch.
The wall thermostat “calls for heat”, closing the R--to--W1 circuit
for low--heat or closing the R--to--W1--and--W2 circuits for
high--heat. The furnace control performs a self--check, verifies the
low--heat and high--heat pressure switch contacts LPS and HPS are
open, and starts the inducer motor IDM in high--speed.
The start up and shut down functions and delays described in item
1. above apply to the 2--stage heating mode as well, except for
switching from low-- to high--Heat and vice versa.
a. Switching from Low-- to High--Heat -- If the thermostat
R--to--W1 circuit is closed and the R--to--W2 circuit closes,
the furnace control CPU will switch the inducer motor
IDM speed from low to high. The high--heat pressure
switch relay HPSR is de--energizedto close the NCcontact.
When sufficient pressure is available the high--heat pres-
sure switch HPS closes, and the high--heat gas valve
solenoid GV--HI is energized. The blower motor BLWM
will transition to high--heat airflow five seconds after the
R--to--W2 circuit closes.
b. Switching from High-- to Low--Heat --If the thermostat
R--to-- W2 circuit opens, and theR--to--W1 circuit remains
closed, the furnace control CPU will switch the inducer
motor IDM speed from high to low. The high--heat pres-
sure switch relay HPSR is energized to open the NC contact
and de--energize the high--heat gas valve solenoid GV--HI.
When the inducer motor IDM reduces pressure suffi-
ciently, the high--heat pressure switch HPS will open. The
gas valve solenoid GV--M will remain energized as long
as the low--heat pressure switch LPS remains closed. The
blower motor BLWM will transition to low--heat airflow
five seconds after the R--to--W2 circuit opens.
3. Cooling mode
The thermostat “calls for cooling”.
a. Single--Speed Cooling--
See Fig. 35 and 36 for thermostat connections
The thermostat closes the R--to--G--and--Y circuits. The
R--to-- Y circuit starts the outdoor unit, and the R--to--
G--and--Y/Y2 circuits start the furnace blower motor
BLWM on cooling airflow. Cooling airflowisbasedon the
A/C selection shown in Fig. 58. The electronic air cleaner
terminal EAC--1 is energized with 115 vac when the
blower motor BLWM is operating.
When the thermostat is satisfied, the R--to--G--and--Y
circuits are opened. The outdoor unit will stop, and the
furnace blower motor BLWM will continue operating at
cooling airflowfor anadditional 90 seconds.JumperY/Y2
to DHUM to reduce the cooling off--delay to 5 seconds.
See Fig. 35.
b. Single--Stage Thermostat and Two--Speed Cooling
(Adaptive Mode) --
See Fig. 35 and 36 for thermostat connections.
This furnace can operate a two--speed cooling unit with a
single--stage thermostat because the furnace control CPU
includes a programmed adaptive sequence of controlled
operation, which selects low--cooling or high--cooling
operation. This selection is based upon the stored history
ofthelength of previouscooling period of thesingle--stage
thermostat.
NOTE: The air conditioning relay disable jumper ACRDJ must
be connected to enable the adaptive cooling mode in response to a
call for cooling. See Fig. 35. When ACRDJ is in place the furnace
control CPU can turn on the air conditioning relay ACR to
energize the Y/Y2 terminal and switch the outdoor unit to
high--cooling.
The furnace control CPU can start up the cooling unit in either
low-- or high--cooling. If starting up in low--cooling, the furnace
control CPU determines the low--cooling on--time (from 0 to 20
minutes) which is permitted before switching to high--cooling. If
the power is interrupted, the stored history is erased and the furnace
control CPU will select low--cooling for up to 20 minutes and then
energize the air conditioning relay ACR to energize the Y/Y2
terminal and switch the outdoor unit to high--cooling, as long as
the thermostat continues to call for cooling. Subsequent selection is
based on stored history of the thermostat cycle times.
The wall thermostat “calls for cooling”, closing the
R--to--G--and--Y circuits. The R--to--Y1 circuit starts the outdoor
unit on low--cooling speed, and the R--to--G--and--Y1 circuits starts
the furnace blower motor BLWM at low--cooling airflow which is
the true on--board CF selection as shown in Fig. 58.
If the furnace control CPU switches from low--cooling to
high--cooling, the furnace control CPU will energize the air
conditioning relay ACR. When the air conditioning relay ACR is
energized the R--to--Y1--and--Y2 circuits switch the outdoor unit to
high--cooling speed, and the R--to--G--and--Y1--and--Y/Y2 circuits
transition the furnace blower motor BLWM to high--cooling
airflow. High--cooling airflow is based on the A/C selection shown
in Fig. 35.
NOTE: When transitioning from low--cooling to high--cooling the
outdoor unit compressor will shut down for 1 minute while the
furnace blower motor BLWM transitions to run at high--cooling
airflow.
The electronic air cleaner terminal EAC--1 is energized with 115
vac whenever the blower motor BLWM is operating.
When the thermostat is satisfied, the R--to--G--and--Y circuit are
opened. The outdoor unit stops, and the furnace blower BLWM
and electronic air cleaner terminal EAC--1 will remain energized
for an additional 90 seconds. Jumper Y1 to DHUM to reduce the
cooling off--delay to 5 seconds. See Fig. 35.
c. Two--Stage Thermostat and Two--Speed Cooling
See Fig. 35 and 36 for thermostat connections
NOTE: The air conditioning relay disable jumper ACRDJ must
be disconnected to allow thermostat control of the outdoor unit
staging. See Fig. 35.
The thermostat closes the R--to--G--and--Y1 circuits for
low--cooling or closes the R--to--G--and--Y1--and--Y2 circuits for
high--cooling. The R--to--Y1 circuit starts the outdoor unit on
low--cooling speed, and the R--to--G--and--Y1 circuit starts the
furnace blower motor BLWM at low--cooling airflow which is the
true on--board CF (continuous fan) selection as shown in Fig. 59.
The R--to--Y1--and--Y2 circuits start the outdoor unit on
high--cooling speed, and the R--to-- G--and--Y/Y2 circuits start the
furnace blower motor BLWM at high--cooling airflow.
High--cooling airflow is based on the A/C (air conditioning)
selectionshowninFig.58.
The electronic air cleaner terminal EAC--1 is energized with 115
vac whenever the blower motor BLWM is operating.
When the thermostat is satisfied, the R--to--G--and--Y1 or R--to--
G--and--Y1--and--Y2 circuits are opened. The outdoor unit stops,
and the furnace blower BLWM and electronic air cleaner terminal
EAC--1 will remain energized for an additional 90 seconds. Jumper
Y1 to DHUM to reduce the cooling off--delay to 5 seconds. See
Fig. 35.
59TP6A
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