White Rodgers F145-1328 Wired Indoor Remote Sensor Manuel De Montage
5
CONFIGURATION
Comfort-Set II
Single Stage Models: Verify jumper wire W-
22 on
the back of the thermostat (not the subbase) has
been clipped.
Multi-Stage and Heat Pump Models: Verify jumper
wire W-
been clipped.
Multi-Stage and Heat Pump Models: Verify jumper
wire W-
18 on the back of the thermostat (not the
subbase) has been clipped.
Comfort-Set III/Comfort-Set
90/90 Series
Single Stage Models(excluding touchscreen): Veri-
fy jumper wire W-
fy jumper wire W-
922 on the back of the thermostat
(not the subbase) has been clipped. You must also
enable the remote sensor option in the Installation
Instructions, Configuration Menu.
Multi-Stage/Heat Pump and Touchscreen Models:
When installing a remote sensor you must enable the
remote sensor option in the Installation Instructions,
Installer Menu.
enable the remote sensor option in the Installation
Instructions, Configuration Menu.
Multi-Stage/Heat Pump and Touchscreen Models:
When installing a remote sensor you must enable the
remote sensor option in the Installation Instructions,
Installer Menu.
REMOTE SENSOR CALCULATED PRIORITY AVERAGE
Consult Maximum Sensing Locations Per Thermostat chart on page 6 to determine how many sensors a
thermostat will accept.
Tables
thermostat will accept.
Tables
1-3 show how priority (LO, AVG, HI) effects the room temperature calculation. The example below
table three shows the calculation of each remote sensor and how it uses them to arrive at room tempera-
ture average.
ture average.
The example below lists three sensors each with a different priority and room temperature. All three sensors
are combined in the calculation to display the average temperature. The priority multiplier shown in the
tables above causes a sensor with low priority to carry less weight in the calculated average. A sensor with
a HI priority setting contributes more to the calculated average. Assume that the building in which the
thermostat is located has three indoor remote sensors (SA, SB, SC) that have different room temperatures
are combined in the calculation to display the average temperature. The priority multiplier shown in the
tables above causes a sensor with low priority to carry less weight in the calculated average. A sensor with
a HI priority setting contributes more to the calculated average. Assume that the building in which the
thermostat is located has three indoor remote sensors (SA, SB, SC) that have different room temperatures
(70, 75, 80). The calculated average will be displayed as the room temperature shown in the example below.
Table
1: Remote Sensor A configured as a LO priority sensor
Remote
Sensor
Sensor
Sensor
Priority
Priority
Priority
Multiplier
Multiplier
Room Temperature Averaging Calculation
SA
LO
1
70°F (Sensor Temp.) 1 x 70 = 70 (Priority Multiplier x Room Temp.)
Table
2: Remote Sensor A configured as a LO priority sensor
Remote
Sensor
Sensor
Sensor
Priority
Priority
Priority
Multiplier
Multiplier
Room Tempera-
ture
ture
Averaging Calculation
SB
AVERAGE
2
75°F (Sensor Temp.) 2 x 75 = 150 (Priority Multiplier x Room Temp.)
Table
3: Remote Sensor A configured as a LO priority sensor
Remote
Sensor
Sensor
Sensor
Priority
Priority
Priority
Multiplier
Multiplier
Room Temperature Averaging Calculation
Sc
HI
4
80°F (Sensor Temp.) 4 x 80 = 320 (Priority Multiplier x Room Temp.)
Example: Remote Sensors A, B, and C configured as a LO, AVG, and HI priority sensors
Remote
Sensor
Remote
Sensor
Sensor
Priority
Priority
Priority
Multiplier
Multiplier
Room Temperature Averaging Calculation
SA
LO
1
70°F (Sensor Temp.) 1 x 70 = 70 (Priority Multiplier x Room Temp.)
SB
AVERAGE
2
75°F (Sensor Temp.) 2 x 75 = 150 (Priority Multiplier x Room Temp.)
SC
HI
4
80°F (Sensor Temp.) 4 x 80 = 320 (Priority Multiplier x Room Temp.)
Avg. Calc. (
540)/Sum Priority Mult. (7)
540/7 = 77°F (Calculated Displayed Temp.)