Table of Contents
Advertisement
and operate
the inducer
motor
IDM
at full speed
until
flame is no longer proved.
5. Inducer
Speed
Change
--
If the cycle starts in medium
heat, the furnace
control
CPU
reduces
the inducer
speed
slightly
after flame sense. If cycle starts in high-heat,
the
furnace
control
CPU
increases
the inducer
speed
after
flame sense. The reduction
in speed in medium-heat
is to
optimize
combustion
for maximum
efficiency.
6. Blower-On
delay
--
If the burner
flame
is proven
the
blower-ON
delay
for medium-heat
and high-heat
are as
follows:
Medium-heat
-- 60 seconds
after the gas valve GV-M
is
opened
the blower
motor BLWM
is turned
ON at low- or
medium-heat
airflow.
High-heat
--
35 seconds
after the gas valve
GV-M
is
opened
the BLWM
is turned
ON at high-heat
airflow.
Simultaneously,
the humidifier
terminal
HUM
and elec-
tronic
air cleaner
terminal
EAC-I
are energized
and re-
main energized
throughout
the heating
cycle.
7. Switching
from
Medium-
to Low-Heat
--
If the fur-
nace control
switches
from
medium-heat
to low-heat,
the
furnace
control
will turn the blower
ON at low-heat
air-
flow, energize
the HPSR relay to open the NC contact,
and
slowly decrease
the inducer
motor speed. When the HPSR
relay is energized
and the NC contact
opens
the throttling
valve TV is deenergized
and the gas flow reduces
to low-
heat rate.
Switching
from
Low-
to Medium-Heat
--
If the fur-
nace control
CPU
switches
from
low-heat
to medium-
heat, the furnace
control
CPU will de-energize
the HPSR
relay to close the NC contact
and slowly
increase
the in-
ducer
motor speed until the medium-heat
pressure
switch
MPS closes. When the medium-heat
pressure
switch MPS
closes,
the throttling
valve
solenoid
TV is energized
and
the inducer
motor
RPM
is noted
by the furnace
control
CPU. The RPM is used to evaluate
vent system
resistance.
This
evaluation
is then
used
to determine
the required
RPM necessary
to operate
the inducer
motor in medium-
heat and high-heat
mode.
The blower
motor BLWM
will
transition
to medium-heat
airflow
five seconds
after the
furnace
control
CPU switches
from low-heat
to medium-
heat.
Switching
from
Low-
to High-Heat
-- If the furnace
control
CPU switches
from low-heat
to high-heat,
the fur-
nace
control
CPU
will
de-energize
the HPSR
relay
to
close the NC contact
and slowly increase
the inducer
mo-
tor speed
until the
medium-heat
pressure
switch
MPS
closes.
When
the
medium-heat
pressure
switch
MPS
closes,
the throttling
valve
solenoid
TV is energized
and
the inducer
motor
RPM
is noted
by the furnace
control
CPU. The RPM is used to evaluate
vent system
resistance.
This
evaluation
is then
used
to determine
the required
RPM necessary
to operate
the inducer
motor in medium-
and high-heat
mode. The blower
motor BLWM
will trans-
ition to high-heat
airflow
five seconds
after the furnace
control
CPU switches
from low-heat
to high-heat.
As the
inducer
RPM
gradually
increases
the high-heat
pressure
switch
HPS closes
and the gas valve
solenoid
GV-HI
is
energized.
Switching
from
Medium-
to High-Heat
-- If the fur-
nace control
CPU
switches
from
medium-heat
to high-
heat, the furnace
control
CPU will gradually
increase
the
inducer
motor
speed to the required
high-heat
RPM.
The
blower
motor BLWM
will transition
to high-heat
airflow
five seconds
after the furnace
control
CPU switches
from
medium-heat
to high heat. As the inducer
RPM gradually
increases
the high-heat
pressure
switch
HPS
closes
and
the gas valve solenoid
GV-HI
is energized.
Switching
from
High-
to Medium-
or Low-Heat
--
The furnace
control
CPU will not switch
from high-heat
to medium-
or low-heat
while
the thermostat
R to W cir-
cuit is closed when
using a single-stage
thermostat.
8. Blower-Off
Delay
--
When
the thermostat
is satisfied,
the R to W circuit is opened,
de-energizing
the gas valve
GV-M,
stopping
gas flow to the burners,
and de-energiz-
ing the throttling
valve TV, and humidifier
terminal
HUM.
The
inducer
motor
IDM
will
remain
energized
for
a
15-second
post-purge
period.
The blower
motor
BLWM
and air cleaner
terminal
EAC-I
will remain
energized
at
low-heat
airflow
or transition
to low-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.
Two-Stage
Thermostat
and Two-Stage
Low / High Heating
See Fig. 58 for thermostat
connections.
NOTE:
In this mode
the low-heat
only switch
SWI-2
must be
ON to select the low-heat
only operation
mode
in response
to
closing
the thermostat
R to WI circuit.
Closing
the thermostat
R
to Wl-and-W2
circuits
always
causes
high-heat
operation,
regardless
of the setting of the low-heat
only switch.
The furnace
will start up in either
medium-,
or high-heat.
The
furnace will operate
in low-heat
after starting
and operating
for 1
minute
at medium-heat
before transitioning
to low-heat.
The wall thermostat
"calls for heat",
closing
the R to WI circuit
for
low-heat
or closing
the
R to Wl-and-W2
circuits
for
high-heat.
The
furnace
control
performs
a self-check,
and
verifies
the low-heat
and medium-heat
pressure
switch
contacts
LPS and MPS
are open,
then de-energizes
the HPSR
relay to
close the NC contact.
The start up and shut down functions
and delays described
above
apply
to the 2-stage
low/high
heating
mode
as well, except
for
switching
from high-
to low-heat.
1. Switching
from
High-
to Low-Heat
-- If the thermostat
R to W2 circuit
opens,
and the R to Wl
circuit
remains
closed,
the furnace
control
CPU
will gradually
decrease
the
inducer
motor
speed
to the
required
medium-heat
RPM.
When the inducer
motor IDM reduces
pressure
suf-
ficiently,
the high heat pressure
switch
HPS will open and
the high-heat
gas valve
solenoid
GV-HI
will be de-ener-
gized.
The gas valve
solenoid
GV-M
will remain
ener-
gized as long as the low-heat
pressure
switch LPS remains
closed.
When the inducer
motor speed gets within
15% of
the required
medium-heat
RPM the furnace
control
CPU
will start a 5 second blower
airflow change delay. After the
5 second
blower
airflow
change
delay
is completed
the
blower
airflow
will transition
to low-heat
airflow.
At this
point the furnace
control
CPU will energize
the HPSR
re-
lay to open
the NC contact
and slowly
decrease
the in-
ducer
motor speed
to the required
low-heat
RPM.
When
the HPSR
relay is energized
and the NC contact
opens the
throttling
valve
TV is de-energized
and the gas flow re-
duces to low-heat
rate. When the inducer
motor IDM re-
duces
pressure
sufficiently,
the
medium-heat
pressure
switch MPS will open.
Two-Stage
Thermostat
and Two-Stage
Medium/High
Heating
See Fig. 58 for thermostat
connections.
NOTE:
In this mode
the medium-heat
only switch SW4-2
must
be
ON
to
select
the
medium-heat
only
operation
mode
in
response
to closing
the thermostat
R to WI circuit.
Closing
the
thermostat
R to Wl-and-W2
circuits
always
causes
high-heat
operation,
regardless
of the setting
of the
medium-heat
only
switch.
The wall thermostat
"calls for heat",
closing
the R to WI circuit
for medium-heat
or closing
the R to Wl-and-W2
circuits
for
49
Advertisement
Table of Contents
