90
INTEGRATED FURNACE CONTROL
DIPSWITCHES
2. For communicating systems, dipswitches are not
used. Configuration changes are made with the
thermostat.
A. Seven-Segment Display Orientation; S1-1
As the control will be applied in a multi-position fur-
nace a means of changing the orientation of the
seven segment display is provided. This dipswitch
is to be labeled S1-1. Factory setting of the S1-1
dipswitch is OFF.
S1-1 = OFF = Upflow (as-shipped) position
S1-1 = ON = Downflow position
B. Cool Blower-Off Delay; S1-2 & S1-3
A means of selecting the cooling speed blower “off”
delay time is provided. In legacy mode, dip-
switches are required to select the delay time.
These dipswitches are to be labeled S1-2 and S1-
3. The following table defines the settings:
S1-2
SW3
Selection
OFF
OFF
30 seconds
Note: Factory setting = 30 seconds
ON
OFF
45 seconds
OFF
ON
60 seconds
ON
ON
0 seconds
C. Cooling Airflow Selection; S1-4 & S1-5
S1-4 and S1-5 are to be used to select cooling air-
flow in legacy mode. The value used for each se-
lection is specified below.
HIGH COOL SELECTIONS:
½ HP Blower
¾ HP Blower
S1-4
S1-5
(42, 56 &
(84, 98 &
70 KBTU)
112 KBTU
OFF
OFF
1050 CFM
1750 CFM
(Factory Setting)
ON
OFF
875 CFM
1400 CFM
OFF
ON
700 CFM
1225 CFM
ON
ON
525 CFM
1050 CFM
LOW COOL SELECTIONS:
The following model data fields are multipliers to be used
for low stage legacy cooling unless dipswitch S2-9 is in
the ON position - in which case the low cooling airflow be-
comes 50% of the high cooling airflow.
½ HP Blower
¾ HP Blower
S1-4
S1-5
(42, 56 &
(84, 98 &
70 KBTU)
112 KBTU)
OFF
OFF
788 CFM
1313 CFM
(Factory Setting)
ON
OFF
656 CFM
1050 CFM
OFF
ON
525 CFM
919 CFM
ON
ON
394 CFM
788 CFM
Airflow dipswitches are to be used to determine airflow
when a legacy (24 VAC) call is placed on the thermostat
inputs of the control. Communicated calls will have CFM
requirements as part of the call (when a legacy condenser
is attached to a communicating furnace the airflow de-
mand will be transmitted from the communicating thermo-
stat as the installer will configure the cooling airflow
requirements for the non-communicating condenser at the
thermostat and the airflow requirements for the condenser
will be stored at and transmitted from the thermostat).
D. Cooling/Heat Pump Airflow Trim; S1-6 & S2-7
Two dipswitches (S1-6, S2-7) are to be provided
for legacy cool airflow trim. The value used for
each selection is specified below. Two of these val-
ues are taken from the furnace Model Data file.
Selections are as follows:
S1-6
S2-7
Description
OFF
OFF
No Adjust. (Factory Setting)
ON
OFF
+10%
OFF
ON
-10%
ON
ON
No Adjust.
E. ODD (On Demand Dehumidification); S2-8
One dipswitch (S2-8) is to be provided to enable
the dehumidification feature in legacy mode. Se-
lections are as follows:
S2-8=OFF
ODD not enabled.
(Factory Setting)
S2-8=ON
ODD enabled. 0VAC on
“HUM STAT” will decrease
airflow in cooling.
F. Tandem Airflow Select; S2-9
One dipswitch (S2-9) shall be used to select the
percentage of airflow for the base first stage cool-
ing airflow in legacy mode. Note that further ad-
justments may also be applied (e.g. for active
dehumidification or cooling airflow trim).
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Summary of Contents for 96MDV Series
Page 34: ...Field Conversions 34...
Page 35: ...Field Conversions 35...
Page 36: ...36 Field Conversions...
Page 37: ...37 Field Conversions...
Page 38: ...Field Conversions 38...
Page 115: ...115 TABLE 20 continued R96V FAULT CODES WITH DESCRIPTIONS AND SOLUTIONS Diagnostics...
Page 120: ...120 Diagnostics TABLE 20 continued R96V FAULT CODES WITH DESCRIPTIONS AND SOLUTIONS...
Page 126: ...126 FIGURE 65 2 STAGE ECM FURNACE WIRING DIAGRAM Troubleshooting...
Page 127: ...127...
Page 128: ...128 CM 1015...
