T7351 Commercial Programmable Thermostat
FOR SINGLE- OR MULTI-STAGE CONVENTIONAL/HEAT PUMP SYSTEMS
PRODUCT DATA
FEATURES
•
Typically used in buildings (including: restaurants,
shopping malls, office buildings and banks) under
55,000 square feet.
•
For single zone rooftop units, split systems, heat
pumps or hot/chilled water systems.
•
•
•
365-day programming.
Two Occupied and two Not Occupied periods per day.
Individual heat and cool setpoints available for
Occupied and Not Occupied periods.
•
•
P+I+D control minimizes temperature fluctuations.
Recovery ramp control automatically optimizes
equipment start times based on building load.
•
Convenient overrides allow temporary setpoint
changes.
APPLICATION
•
•
Keypad multi-level lockout available with all models.
Remote sensor capability for temperature (including
outdoor air and discharge air) and humidity sensors.
The T7351 Commercial Programmable Thermostat controls
24 Vac commercial single zone heating, ventilating and air
conditioning (HVAC) equipment. The T7351 consists of a
thermostat and subbase. The thermostat includes the keypad
and display for 365-day programming. The subbase includes
equipment control connections. The subbase mounts on the
wall and the thermostat mounts to the subbase.
•
•
Auxiliary subbase contact typically interface with a
Honeywell Economizer System (for total rooftop
control integration) or act as dehumidification output.
Universal Versaguard Thermostat guards available.
Contents
Application ........................................................................
Features ...........................................................................
Specifications ...................................................................
Ordering Information ........................................................
Setting ..............................................................................
Installer Setup ..................................................................
1
1
2
2
6
7
Operation .......................................................................... 12
Troubleshooting Guide (Table 11) ..................................... 17
Wiring Diagram (Figures 14 and 15) ................................ 19
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 2. Default Setpoints.
Occupied Not Occupied
INSTALLATION
Control
Heating
Cooling
Standby
70° F (21° C) 55° F (13° C) 67° F (19° C)
75° F (24° C) 85° F (29° C) 78° F (26° C)
When Installing this Product...
1. Read these instructions carefully. Failure to follow them
could damage the product or cause a hazardous
condition.
2. Check ratings given in instructions and on the product to
ensure the product is suitable for your application.
3. Installer must be a trained, experienced service
technician.
2-3/16 (56)
1-9/16
(40)
6-3/4 (171)
4. After installation is complete, check out product
operation as provided in these instructions.
4-1/2
(114)
CAUTION
Electrical Shock or Equipment Damage Hazard.
Can shock individuals or short equipment circuitry.
Disconnect power supply before installation.
SUBBASE
IMPORTANT
2-1/32
(52)
All wiring must agree with applicable codes,
ordinances and regulations.
4-1/16
(104)
2-1/32
(52)
MERCURY NOTICE
If this control is replacing a control that contains
mercury in a sealed tube, do not place your old control
in the trash. Dispose of properly.
1-5/8
(42)
2-3/8 (60)
3-1/4 (83)
6-9/16 (166)
1-5/8
(42)
M22432
Contact your local waste management authority for
instructions regarding recycling and the proper disposal
of an old control. If you have questions, call Honeywell
Customer Care Center at 1-800-468-1502.
Fig. 1. Thermostat and Subbase Dimensions
in inches (mm).
Accessories:
Location
Do not install the thermostat where it can be affected by:
— drafts, or dead spots behind doors and in corners.
— hot or cold air from ducts.
— radiant heat from sun or appliances.
— concealed pipes and chimneys.
— unheated (uncooled) areas such as an outside wall behind
the thermostat.
Duct Discharge Air Sensors:
C7041B (6 or 12 in. [152 or 305 mm]),
C7041C (18 in. [457 mm]),
C7041J (12 ft. [3.66 m] averaging),
C7770A (8 in. [203 mm] probe).
Outdoor Air Sensors: C7170A,
C7031G2014 (weatherproof).
Temperature Sensors (Remote): C7772A, TR21, TR22, TR23,
and TR24 series, TR21-WK, TR23-WK, T7771.
Economizer Logic Modules: W7210, W7212, W7215, W7459.
Humidity Sensors: H7625, H7635.
Others:
Subbase
WHEN USED TO SENSE ROOM TEMPERATURE
Install the thermostat about 5 ft. (1.5 m) above the floor in an
area with good air circulation at average temperature. (Refer to
Fig. 3.)
209541B FTT network termination module.
209651A Vertical Mounting Hardware Wallplate Adapter
(Trident white).
50000452-001 Troubleshooting Cable.
TG512 Universal Versaguard Thermostat guards.
WHEN NOT USED TO SENSE ROOM TEMPERATURE
When using the remote-mounted temperature (and humidity)
sensor(s) to sense ambient conditions, install the thermostat in
an area that is accessible for setting and adjusting the
temperature and settings.
3
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Wall mounting (using standard drywall screws) is standard.
Mounting to a 2 in.(50.8 mm) by 4 in. (101.6 mm) wiring box
can be accomplished:
— for a horizontal box, no extra hardware is required.
— for a vertical box, part 209651A is required.
— Mount to European standard wall box 2.4 in. (having 61 mm
between mounting screws in a horizontal line) with or
without adaptive hardware.
CAUTION
Equipment Damage Hazard.
Can damage the TIM connection beyond repair.
Disconnect the TIM cable prior to opening or closing
the thermostat cover.
NOTE: Allow sufficient clearance below the thermostat to
plug in the TIM cable.
1. Position and level the subbase.
NOTE: A level wallplate is only for appearance. The
thermostat functions properly when not level.
Install the remote-mounted sensor(s) about 5 ft. (1.5 m) above
the floor in an area with good air circulation at average
temperature. (See Fig. 2.)
2. Use a pencil to mark the mounting holes.
(Refer to Fig. 6.)
3. Remove the subbase from the wall and drill two 3/16 in.
(4.76 mm) holes in the wall (if drywall) as marked. For
firmer material such as plaster or wood, drill two 7/32 in.
(5.56 mm) holes.
NOTE: Only TR21 models with neither setpoint adjust-
ment nor bypass can be used for temperature
averaging.
4. Gently tap anchors (provided) into the drilled holes until
flush with the wall.
5. Position the subbase over the holes, pulling wires
through the wiring opening.
YES
NO
6. Loosely insert the mounting screws into the holes.
7. Tighten mounting screws.
NO
NO
5 FEET
(1.5 METERS)
SUBBASE
T4
T3
TR21
T
TR21
T
T
T
M4823A
Fig. 2. Typical Location of Thermostat or Remote-Mounted
Sensor.
TR21
T
TR21
T
IMPORTANT
T
T
To avoid electrical interference, which can cause
erratic performances, keep wiring runs as short as
possible and do not run thermostat wires adjacent to
the line voltage electrical distribution systems. Use
shielded cable (Belden type 8762 or equivalent for
2-wire). The cable shield must be grounded only at
the controlled equipment case.
M29184
Fig. 3. Four TR21 Sensors providing a Temperature
Averaging Network for T7351 Thermostat.
Mounting Subbase
The subbase mounts horizontally or vertically.
T7350 SUBBASE
T4
T3
IMPORTANT
•
When using the internal temperature sensor, the
device must be mounted horizontally (with the LCD
facing upwards). Precise leveling is not needed.
When using remote sensors, thermostat mounting
orientation does not matter.
T4
T3
T4
T3
•
1
1
TR21-A
TR21-A
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
SUBBASE
Wiring
T4
T3
TR21
T
TR21
T
TR21
T
CAUTION
T
T
T
T
T
Electrical Shock or Equipment Damage Hazard.
Can shock individuals or short equipment circuitry.
Disconnect power supply before installation.
IMPORTANT
TR21
T
TR21
T
TR21
T
All wiring must comply with local electrical codes and
ordinances.
T
T
NOTE: Maximum (and recommended) wire size is 18-
gauge (ø 1.02 mm). Do not use wire smaller than
22-gauge (ø 0.644 mm).
TR21
T
TR21
T
TR21
T
Follow equipment manufacturer wiring instructions when
available. Refer to the Wiring Diagram section for typical
hookups. A letter code is located near each terminal for
identification. Refer to Tables 3 for terminal designations.
T
T
1. Loosen subbase terminal screws and connect system
wires.
M29257
2. Securely tighten each terminal screw.
3. Push excess wire back into the hole in the wall.
4. Plug the hole with nonflammable insulation to prevent
drafts from affecting the thermostat.
Fig. 5. Nine TR21 Sensors Providing a Temperature
Averaging Network for T7351 Thermostat.
WIRES THROUGH WALL
MOUNTING
HOLES
WALL
ANCHORS
(2)
MOUNTING
SCREWS
M19608
Fig. 6. Mounting the Subbase.
5
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
3. Press the lower edge of the case to latch.
Table 3. T7351 Subbase for Three-stage Heat, Three-stage
Cool Systems.
NOTE: To remove the thermostat from the wall, first pull
out at the bottom of the thermostat; then
remove the top.
Terminal
A. ENGAGE TABS AT TOP OF THERMOSTAT AND SUBBASE OR WALLPLATE.
Description
a
a
a
24 VAC Cooling transformer.
24 VAC Heating transformer.
Common.
RC RC
a
RH RH
X
X
aux aux Auxiliary relay.
W1 O/B Conventional: Stage 1 heating relay.
Heat Pump: Changeover relay for heating (B) or
b
cooling (O) .
W2 W1 Conventional: Stage 2 heating relay.
Heat Pump: 1st Stage auxiliary heat relay.
Y1
Y1 Conventional: Stage 1 cooling relay.
Heat Pump: Stage 1 compressor relay.
Y2
Y2 Conventional: Stage 2 cooling relay.
Heat Pump: Stage 2 compressor relay.
B. PRESS LOWER EDGE OF CASE TO LATCH.
AS AS Discharge Air Sensor connection (1).
AS AS Discharge Air Sensor connection (2).
OS OS Outdoor Air Sensor connection (1).
OS OS Outdoor Air Sensor connection (2).
G
G
Fan relay.
T3
T4
T5
T6
T7
T3 TR20 Series Remote Sensor connection (1).
T4 TR20 Series Remote Sensor connection (2).
T5 TR20 Series Remote Sensor connection (5).
T6 TR20 Series Remote Sensor connection (9).
T7 TR20 Series Remote Sensor connection (7).
W3 W2 Conventional: Stage 3 heat or stage 4 cool relay.
Heat Pump: 2nd Stage auxiliary heat relay.
M19609
Y3
—
Conventional: Stage 3 cooling relay.
HS HS Humidity Sensor connection (signal: 0-10 Vdc).
TR23-H connection (11)
Fig. 7. Mounting Thermostat on Subbase.
c
HC HC
Humidity Sensor connection (common).
SETTING
HP HP Humidity Sensor connection (power). TR23-H
connection (12)
Using Thermostat Keys
M
M
M
M
Motion Sensor connection (1).
Motion Sensor connection (2).
The thermostat keys are used to:
•
•
•
•
•
•
set current time and day,
a
Factory jumper between RC and RH for systems with one
transformer.
program times and setpoints for heating and cooling,
override the program temperatures,
display present setting,
set system and fan operation,
perform simple configuration.
b
c
For changeover functional details, see Operation section.
HC connection is not needed when using a TR23-H sensor.
NOTE: Refer to Fig. 8 for keypad information.
Mounting Thermostat on Subbase
(Fig. 7)
With the subbase installed, mount the thermostat:
1. Engage the tabs at the top of the thermostat and sub-
base.
Setting Temperature
Refer to Table 2 for the default temperature setpoints. See
Programming section for complete instructions on changing
the setpoints.
2. Swing the thermostat down.
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Fan Settings.
— On: See Table 4.
— Auto: Fan always cycles with call for heating or cooling.
Setting System and Fan
System default setting is Auto. Fan default setting is On.
—
Conventional: The equipment (i.e. plenum switch)
controls fan operation in heat mode. The thermostat
controls fan operation in cool mode.
Electric Heat: The thermostat controls fan operation in
both heat and cool modes.
NOTE: Use System and Fan keys to change settings.
System Settings
—
— Auto: Thermostat automatically changes between heating
and cooling based on indoor temperature.
— Cool: Thermostat controls only cooling.
— Off: Heating, cooling, and fan are all off.
— Heat: Thermostat controls only heating.
— Em Heat: Auxiliary heat serves as first stage. Compressor
stages are locked off.
NOTE: Fan operation can extend (delay Off) after the
heating/cooling turns off:
—
—
Heating choices are 0 or 90 seconds.
Cooling choices are 0 or 40 seconds.
7
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 4. T7351 Intelligent™ Fan ON control logic
Call for
Heat/Cool
Occupancy
Scheduled
Period
Motion Sensor
Signal
Effective
Occupancy
Yes
No
Notes
Occupied
Occupied
No Sensor Wired
Motion Sensed
Occupied
Occupied
Fan On Fan On
Fan On Fan On
Effective Occupancy is Standby. Standby
setpoints are used and it assumes that the
space is unoccupied. Fan is on only when there
is a call for heating or cooling.
a
Occupied
No Motion Sensed
Standby
Fan On
Fan Off
a
Not Occupied No Sensor Wired Not Occupied Fan On
Not Occupied Motion Sensed Not Occupied Fan On
Not Occupied No Motion Sensed Not Occupied Fan On
Fan Off
Occupancy sensor will only be active during
scheduled Occupied periods. During scheduled
Not Occupied periods, the effective occupancy
a will always be Not Occupied.
a
Fan Off
Fan Off
a
In heat mode, when set for conventional heat, the equipment (i.e. plenum switch) could power the fan despite the T7350.
Temperature
Not Occupied
Set Day/Time
Override
Temporary Temporary
Occupied Not Occupied
Occupied
Day
Time
HEAT
COOL
HEAT
COOL
System
Fan
Run
Schedule
Clear
Schedule
ON AUTO
HEAT COOL
Day
Occupied Not Occupied Start Time
Copy
M19610
Fig. 8. Thermostat Key Locations.
INSTALLER SETUP
For most applications, the thermostat factory settings do not
need to be charged. Review the factory settings in Table 2.
Setup Using Keypad
The installer uses the Installer Setup to customize the
thermostat to specific systems.
NOTE: When power is first applied to the thermostat, the
display will show all segments (See Fig. 9).
A combination of key presses are required to use the Installer
Setup features.
TemporaryStandby Set Set Schedule Room
Not Occupied12 StartTime
AM
PM
1. To enter the Installer Setup, press and hold both the Run
Schedule and the Copy keys until DEGREES 00 (or
DEGREES 01) displays.
%
MinsDays
Fan
MonTueWedThuFriSatSunHol
System
EmHeat
OffCoolAuto Dehumid
OnAuto
NOTE: Installer Setup will display WAIT and is
unavailable for 30 seconds after power up.
M19611
Fig. 9. LCD Display of all Segments.
2. To advance to the next Installer Setup number, press
.
NOTE: Pressing Run/Copy again while in this mode
displays the T7351 firmware version number.
CAUTION
Possible Equipment Damage.
3. To return to a Setup item, cycle through the options.
Fan must be running when system is operating.
Heat pump and electric heat systems must be
configured correctly to prevent equipment damage
caused by the system running without the fan.
4. To change a setting, use the up
5. To exit the Installer Setup, press Run Schedule.
6. Display prompts SAV CFG (save configuration).
or down
key.
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
a. If you want to save the new configuration, use the up
NOTE: Installer Setup is automatically exited after five
minutes with no key pressed. Upon this automatic
exit, all changes are lost.
or down key to change NO to YES before
pressing Run Schedule.
b. If you want the configuration to remain as it was
before starting this change, ensure the
display indicates SAV CFG NO and press Run
Schedule.
Configuration
Configuration can be done with the keypad using the Installer Setup (ISU).
Table 5. Installer Setup.
Text
Default
Choices
0 -1
Notes
DEGREES 0
Degree Temperature Format
0: Degrees F
1: Degrees C
CLOCK
0
0 - 1
0 - 3
Clock Display Format
0: 12 hour
1: 24 hour
KEYLOCK 0
Keypad Lockout Level
0: None
1: Lockout all keys except Set Day, Set Time, Set Date, Set Holidays, Temporary
Occupied, Temporary Not Occupied, System, Fan, Up, Down and Information
2: Lockout all keys except Set Day, Set Time. Set Date, Set Holidays, Temporary
Occupied, Temporary Not Occupied, Up, Down and Information
3: Lockout all keys except Information
HEATPMP 0
COOLSTG 1
0 - 2
0 - 4
Application Type Selection
0: Conventional
1: Heat Pump - Cooling (Energize O/B on call for cool)
2: Heat Pump - Heating (Energize O/B on call for heat)
Number of Cooling Stages
0: 0 Stages of Cooling
1: 1 Stages of Cooling
2: 2 Stages of Cooling
3: 3 Stages of Cooling (Not available if Heat Pump is selected)
4: 4 Stages of Cooling (W3 will be used as 4th stage relay) (Not available if Heat Pump is
selected)
HEATSTG
1
0 - 3
Number of Conventional Heating Stages (Not available if Heat Pump is selected)
0: 0 Stages of Heating
1: 1 Stages of Heating
2: 2 Stages of Heating (This is the max if 4 cooling stages is selected)
3: 3 Stages of Heating
AUX STG
AUX CON
0
0
0 - 2
0 - 3
Number of Heat Pump Heating Stages (Only shown when Heat Pump is selected)
0: 0 Aux Stages
1: 1 Aux Stages
2: 2 Aux Stages
Aux Contact Functionality
0: Time of Day
1: Economizer
2: Dehumid - Hot Gas Bypass
3: Simple Dehumid
WALLMOD 0
0 - 3
Remote Room Sensor Selection
0: Local sensor only
1: TR21/TR24 and T7770A/D (Remote Sensor, No Remote Setpoint, Bypass 0)
2: TR22/TR23 and T7770B/C (Remote Sensor, Remote Setpoint, Bypass 0)
3: T7771 (Remote sensor, Remote Setpoint, Bypass 1)
(Bypass 0 means that by pressing the override button the thermostat goes from
unoccupied to occupied and the LED will light up and the temporary occupied timer will
begin. If the button is pressed again, the timer will restart.)
(Bypass 1 means that by pressing the override button a second time the thermostat can
return to the unoccupied period.)
9
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 5. Installer Setup. (Continued)
Notes
Text
Default
Choices
0 - 1
OATSENS
0
Outdoor Air Sensor Selection
0: None
1: Remote Outdoor Air Sensor
DATSENS
0
0 - 1
0 - 2
Discharge Air Sensor Selection
0: None
1: Remote Discharge Air Sensor
HUMSENS 0
OCCSENS 0
Room Humidity Sensor selection
0: None
1: On Board Sensor
2: Remote Sensor
0 - 1
Occupancy Sensor Selection
0: None
1: Remote Occ Sensor
FAN HT
0
0 - 1
Fan Operation on Heat
0: Conventional (Equipment controls Fan)
1: Electric (Thermostat turns on Fan with call for Heat)
XFAN HT YES
XFAN CL NO
YES or NO
YES or NO
Extended Fan on Heat
NO: None
YES: 90 seconds
Extended Fan on Cool
NO: None
YES: 40 seconds
STRTDEL
0
0 - 15
Sequential Start Delay
0 to 150 seconds in 10 second increments
ADVANCE NO
YES or NO
Advanced Settings
NO: Hide
YES: Show
TMP LIM
3
0 - 5
Temporary Setpoint Adjustment
0: 0 Deg. F
1: 1 Deg. F
2: 2 Deg. F
3: 3 Deg. F
4: 4 Deg. F
5: 5 Deg. F
TMP OCC
TMP CAL
3
0
1 - 8
Temporary Occupied Duration
1 to 8 hours
-4 - 3
Temporary Display Adjustment
0 - 3 = 0 to 3 DDF
4 - 7 = -4 to -1 DDF
MINCOOL 45° F
(7° C)
45° - 99° F
(7° - 37° C)
Min Cool Setpoint
Max Heat Setpoint
MAXHEAT 90° F
40° - 90° F
(32° C) (4° - 32° C)
HEATLCK NO YES or NO
Heating Lockout (Only displayed if Outdoor Air Sensor is selected)
NO: None
YES: Enabled
HTLCKSP 70° F
-40° - 120 ° F Heating Lockout Temperature
(Display only if Remote Outdoor Air Sensor is configured)
(21° C) (-40° - 49° C)
COOLLCK NO
YES or NO
Cooling Lockout (Only displayed if Outdoor Air Sensor is Selected)
NO: None
YES: Enabled
CLLCKSP 35° F
(2° C)
-40° - 120° F
(-40° - 49° C)
Cooling Lockout Temperature
(Display only if Remote Outdoor Air Sensor is configured)
DAT LL
NO
YES or NO
Discharge Low Limit (Only displayed if Discharge Air Sensor is Selected)
NO: None
YES: Enabled
DATLLSP 45° F
(7° C)
35° - 60° F
(2° - 16° C)
Discharge Low Temp Limit
(Display only if Discharge Sensor is configured)
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 5. Installer Setup. (Continued)
Text
Default
Choices
Notes
DAT HL
NO
YES or NO
Discharge High Limit (Only displayed if Discharge Air Sensor is Selected)
NO: None
YES: Enabled
DATHLSP 110° F 65° - 140° F
(43° C) (18° - 60° C)
Discharge High Temperature Limit
(Display only if Discharge Sensor is configured)
DEHUMID
0
0 - 5
Dehumidification
0: None
1: MinOn Time
2: Reset Temp Setpoint
3: Reset w/ MinOn
4: Reheat
5: Reheat w/ Min On
DEH MIN
DEH TMP
MINHTRT
5
2
5
5 - 15
1 - 5
Dehumidify Minutes On
Dehumidify Temp Reset
0 - 20 DDF/HR Minimum Heat Recovery Ramp Rate
MAXHTRT 8
0 - 20 DDF/HR Maximum Heat Recovery Ramp Rate (Only Displayed if Outdoor Sensor is Selected)
MINHTOA 0° F
-20° - 120° F
Minimum Heat Outdoor Air Temperature (Only Displayed if Outdoor Sensor is Selected)
(-18° C) (-29° - 49° C)
MAXHTOA 40° F
-20° - 120° F
(-29° - 49° C)
Maximum Heat Outdoor Air Temperature (Only Displayed if Outdoor Sensor is Selected)
(4° C)
MINCLRT
3
0 - 20 DDF/HR Minimum Cool Recovery Ramp Rate
MAXCLRT 6
0 - 20 DDF/HR Maximum Cool Recovery Ramp Rate (Only Displayed if Outdoor Sensor is Selected)
MINCLOA 90° F
-20° - 120° F
Minimum Cool Outdoor Air Temperature (Only Displayed if Outdoor Sensor is Selected)
(32° C) (-29° - 49° C)
MAXCLOA 70° F
-20° - 120° F
Maximum Cool Outdoor Air Temperature (Only Displayed if Outdoor Sensor is Selected)
(21° C) (-29° - 49° C)
(DayLight Savings options only display when Date is valid)
DLS Spring Month
DSTMON1 3
0 - 12
DSTDAY1 40
0 - 31, 32 - 74 DLS Spring Day
0 - 31 = Day of Month
32 = Last Day of Month
33 = First Sunday
etc…
DSTMON2 11
DSTDAY2 33
0 - 12
DLS Fall Month
0 - 31, 32 - 74 DLS Fall Day
0 - 31 = Day of Month
32 = Last Day of Month
33 = First Sunday
etc…
HT RESP
CL RESP
1
0
0 - 3
0 - 1
0: Standard - 3 cph
1: Medium - 6 cph
2: Fast - 9 cph
3: Super Fast - 20 cph
0: Standard - 3 cph
1: Fast - 4 cph
4. Use the Up/Down keys to set the day, then press the
key (Refer to Table 4 for valid day choices).
5. Use the Up/Down keys to set the year, then press the
key.
Holidays can be set in the following manner:
1. Press the “Temporary Occupied” and Temporary Not
Occupied” keys simultaneously.
2. The month (MON) of the first holiday is then displayed
(00 means the holiday is ignored).
3. Use the Up/Down keys to set the month, then press the
key.
Holidays and 365 - Day Clock
The T7351can be configured to schedule up to 10 separate
holidays, each with a duration of up to 99 days. To enable this
function, the user must set the date:
1. Press Set Day and Set Time keys simultaneously.
2. Use the Up/Down keys to set the date to YES, then press
the
key.
3. Use the Up/Down keys to set the month, then press the
key.
11
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4. Use the Up/Down keys to set the day, then press the
key (Refer to Table 6 for valid day choices).
5. Use the Up/Down keys to set the duration.
The first holiday is now set and pressing the
you to programming the second holiday (denoted by the
number 2 on the screen)
key will take
Table 6. Valid Day Values.
Value Description
Value
Description
1 to 31 Day of month
32 Last Day of Month
33 First Sunday
42
43
44
45
46
47
48
49
50
51
52
Second Tuesday
Second Wednesday
Second Thursday
Second Friday
Second Saturday
Third Sunday
53 Third Saturday
54 Fourth Sunday
55 Fourth Monday
56 Fourth Tuesday
57 Fourth Wednesday
58 Fourth Thursday
59 Fourth Friday
60 Fourth Saturday
61 Fifth Sunday
64
65
66
67
68
69
70
71
72
73
74
Fifth Wednesday
Fifth Thursday
Fifth Friday
34 First Monday
35 First Tuesday
36 First Wednesday
37 First Thursday
38 First Friday
Fifth Saturday
Last Sunday
Last Monday
Last Tuesday
Last Wednesday
Last Thursday
Last Friday
Third Monday
Third Tuesday
39 First Saturday
40 Second Sunday
41 Second Monday
Third Wednesday
Third Thursday
Third Friday
62 Fifth Monday
63 Fifth Tuesday
Last Saturday
.
Table 7. T7351 Key Function Summary.
Definition
Grouping
Button
Down Arrow
Information
Lowers setpoint, day, or time. When setting times or temperatures, hold key down to
continuously decrease value. Also can make temporary change in temperature setpoint.
Information
Up Arrow
Obtains information (where humidity “high-limit” can be set), cycles through setup
options.
Raises setpoint, day, or time. When setting times or temperatures, hold key down to
continuously increase value. Also can make temporary change in temperature setpoint.
Temperature Occupied
Heat
Sets Occupied Heat setpoint.
Sets Occupied Cool setpoint.
Sets Not Occupied Heat setpoint.
Sets Not Occupied Cool setpoint.
Occupied
Cool
Not Occupied
Heat
Not Occupied
Cool
Set
Day
Sets day of week. Tapping key with 'Set Value' segment on increases current day (same
effect as Up Arrow key).
Time
Sets time. Tapping key with “Set Value” segment on increases time in one hour
increments.
Override
Temporary
Occupied
Temporary occupied setting for length of time defined by installer. User can modify
setpoints.
Temporary Not
Occupied
Sets holiday length. User selects number of days (“0”-”99”), or “---” for continuous
override.
Schedule
Day
Selects day schedule to modify. (Used also with copy key.)
Occupied
Selects occupied event start times for specified day. Repeatedly press this key to toggle
between two occupied events.
Not Occupied
Selects not occupied event start times for specified day. Repeatedly press this key to
toggle between two not occupied events.
Clear Start Time
Clears start time for specified period and day.
Copy
Copies schedule from one day to another.
System
Selects System Mode. Toggles through Em Heat, Off, Cool, and Auto.
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 7. T7351 Key Function Summary. (Continued)
Grouping
Button
Definition
a
Schedule
Fan
Selects fan operation mode. Toggles between On and Auto.
Run Schedule
Resumes running schedule (cancels Temporary Occupied action, Holiday, and/or
Temporary setpoint changes.)
a
On: Continuous fan operation during occupied periods. During not occupied periods and in standby mode when no motion is
sensed, fan cycles with call for heat or cool.
Auto: Fan cycles with call for heat or cool during all periods. (See Product Data Sheet, form 63-2605, for more details).
NOTES: The display returns to default screen after pressing Run Schedule (or after a period of time without keypress):
—
—
—
—
ten seconds: when returning from temporary setpoint changes, info screen, temp occ, and temp not occ.
one minute: when returning from setting clock/day.
ten minutes: when returning from System Checkout.
five minutes: when returning from all other modes.
a. To enter test mode, press up or downuntil the
Special Functions
display indicates IN TEST.
b. To cancel this option, ensure display indicates NO
TEST.
Restore Factory Configuration (Run/Clear)
3. Press Run Schedule.
IMPORTANT
This operation erases current configuration and
restores factory defaults for all configuration,
parameters, setpoints and schedules. To regain the
old requires device reconfiguration.
NOTES:
—
To verify whether or not the system test is still
active, repeat the above process.
The system test times out after ten minutes with no
key pressed.
—
1. Press both Run Schedule and Clear Start Time.
2. The display gives the option to revert to FAC CFG.
Save User Schedule (Info/Copy)
a. To restore the factory defaults, press up or
Performing this operation saves the current schedule (including
holidays) to memory, overwriting the old saved schedule:
1. Press both Info and Copy.
downuntil the display indicates YES.
b. To cancel this option, ensure the display
indicates NO.
2. The display gives the option to revert to SAV SHD.
3. Press Run Schedule.
a. To save the current schedule, press up or
downuntil the display indicates YES.
b. To cancel this option, ensure display indicates NO.
3. Press Run Schedule.
Get Factory Schedule (Info/Clear)
Performing this operation reverts the schedules to the factory
defaults:
Get User Schedule (Info/Run)
1. Press both Info and Clear Start Time.
2. The display gives the option to revert to FAC SCH.
Getting the user schedule restores the schedule (including
holidays) from saved memory, overwriting the schedule
currently in use:
a. To restore the factory schedule, press up or
downuntil the display indicates YES.
b. To cancel this option, ensure display indicates NO.
3. Press Run Schedule.
1. Press both Run Schedule and Info.
2. The display gives the option to GET SHD.
a. To retrieve the saved schedule, press up or
downuntil the display indicates YES.
b. To cancel this option, ensure display indicates NO.
3. Press Run Schedule
Test Mode (Occupied/Not Occupied/
Schedule Day)
OPERATION
CAUTION
Possible Equipment Damage.
Equipment damage can result if compressor is
cycled too quickly.
Startup Operation
Upon initial thermostat power-up, a startup and initialization
program begins. This startup occurs only on initial power-up.
After total loss of power for an extended period, the current
time and day can be lost (requiring reset). However, the
thermostat retains the user program.
The minimum off time for compressors is bypassed
during Test Mode. Equipment damage can occur if the
compressor is cycled too quickly.
Use the Test Mode to check the thermostat configurations and
operation. To start the system test:
1. Press Schedule Day, Occupied and Not Occupied
simultaneously.
NOTE: With no program set, the thermostat controls to
the Occupied default setpoints of 70° F (21° C) for
heat and 75° F (24° C) for cool.
2. The display gives the option to TEST.
13
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
NOTE: In the items that follow, the term “error” refers to
the difference between the measured space tem-
perature and the current actual space tempera-
ture setpoint:
T7351 Relay Logic
All T7351 model thermostats contain at least four switching
relays. In conventional applications, the relays control first
stage cooling, first stage heating, fan, and auxiliary. In heat
pump applications, the relays control the heat pump
compressor, changeover, fan, and emergency heat.
— The Throttling Range (TR), also called Proportional Gain,
determines the impact of the error on the output signal.
Decreasing TR amplifies the error effect; that is, for a given
error, smaller TR causes higher output signal.
— The Integral Time (IT), also called Integral Gain,
determines the impact of the error-over-time on the output
signal. Error-over-time has two components making up its
value: amount of time the error exists; and size of the error.
The higher the IT, the slower the control response. In other
words, a decrease in IT causes a more rapid change to the
output signal.
O/B Terminal for Heat or Cool
Changeover
The O/B terminal controls heat pump changeover. The default
operation is for the terminal to be powered when calling for
heat (or while the most recent call was for heat). This
corresponds to a typical B terminal.
— The Derivative Time (DT), also called Derivative Gain,
determines the impact of the error rate on the output signal.
The error rate is how fast the error value changes. It can
also be the direction the space temperature is going, either
toward or away from the setpoint, and its speed—rapid or
slow. A decrease in DT causes, for a given error rate, a
greater effect on output signal.
NOTE: The O/B terminal can be configured to operate as
a typical O terminal (powered on call for cool).
Emergency Heat
With the system set for Em Heat, auxiliary heat serves as
stage one; compressor stages are locked off. The fan cycles
with the auxiliary heat.
Recovery Ramping Logic
The T7351 incorporates a ramping feature that gradually
changes the space setpoints. During recovery operation, the
setpoint changes at a rate in degrees per hour depending on
the outdoor air temperature. If there is no outdoor air
Equipment Protection
As part of the operational sequence, the T7351
microprocessor incorporates cycle rate, and minimum on and
off times for all heating and cooling stages. This extends
equipment life as it prevents rapid cycling of equipment.
temperature sensor available, the minimum ramp rate is used.
When recovering in heating, the control point raises gradually,
maximizing the use of the more economical first stage heat to
bring the sensed temperature to the desired comfort setpoint.
This minimizes using the typically more expensive later
stage(s) of heat.
NOTE: Minimum on and off times are fixed.
Cycle Rates
The thermostat control algorithm maintains the temperature by
cycling stages of heating or cooling to meet setpoint. Cycle
rates, in cycles per hour (cph) are set in the installer setup.
NOTE: See Fig. 10 for a pictorial representation of the
heat ramp rate determination.
NOTE: Defaults are: heat: 6cph, cool: 3cph.
Recovery Ramping for Conventional
Systems
P+I+D Control
The T7351 microprocessor-based control requires that the
user understands temperature control and thermostat
performance. A conventional electromechanical or electronic
thermostat does not control temperature precisely at setpoint.
Typically, there is an offset (droop) in the control point as the
system load changes. This is a phenomenon that most people
in the industry know and accept.
HEAT RECOVERY
RAMP RATE
(DEGREES/HOUR)
MaxHtRamp
IMPORTANT
•
P+I+D (Loop Tuning) parameters are optimized for
proper operation of a vast majority of HVAC systems.
Only when completely certain of necessary and
proper changes should you alter these values.
Improper changes result in poor system performance
and equipment problems such as compressor short
cycling. Other problems include wide swings in space
temperature and excessive overdriving of modulating
outputs.
•
MinHtRamp
OUTDOOR AIR
TEMPERATURE
OaTempMinHtRamp
OaTempMaxHtRamp
M10109A
All adjustments to Loop Tuning parameters should be gradual.
After each change, allow the system to stabilize to accurately
observe the effects of the change. Then, as needed, make
further refinements until the system operates as desired.
Fig. 10. Heat Setpoint Ramping for Conventional Systems.
NOTES:
If adjustment of PID parameters is required, use the following:
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
—
—
Recovery ramping applies between scheduled
heat or cool setpoint changes from not occupied to
standby and not occupied to occupied.
Other setpoint changes use a setpoint step
change.
NOTE: The setpoint used during the cool recovery period
is similar to the heat mode in Fig. 10, except the
slope of the line reverses for cooling.
COOL RECOVERY
RAMP RATE
(DEGREES/HOUR)
Recovery Ramping for Heat Pump
Systems
During recovery with heat pump equipment, the heating
setpoint is split into a heat pump setpoint for compressors, and
two auxiliary heat setpoints for the auxiliary heat stages. (Refer
to Fig. 11 for the various setpoints.)
MaxClRamp
MinClRamp
HEAT PUMP SETPOINT
(FOR COMPRESSORS)
OCCUPIED
SETPOINT
OUTDOOR AIR
TEMPERATURE
NORMAL
RECOVERY RAMP
OaTempMinClRamp
OaTempMaxClRamp
M10111A
AUX HEAT
STAGE 2 RAMP
Fig. 12. Setpoint Ramping Parameters with Ramp Rate
Calculation.
NOT OCCUPIED
SETPOINT
AUX HEAT
STAGE 1 RAMP
SPACE
TEMPERATURE
Advantages:
•
Comfort setting is achieved at the programmed time and
maintained regardless of weather conditions; occupants are
comfortable.
Drafts from low-temperature discharge air are minimized
during Occupied periods.
Use of the more economical first stage of heat is maximized
during recovery, minimizing use of the expensive later heat
stage(s).
Comfort and energy savings can be achieved in both
heating and cooling.
RECOVERY TIME
OCCUPIED
TIME
•
•
M19877
Fig. 11. Heat Setpoint Ramping for Heat Pump Systems.
Heat pump ramping for heating proceeds as
follows:
1. The heat pump setpoint begins to ramp until the room
temperature and the compressor ramp intersect.
2. At this point, the heat pump setpoint performs a step
change to the Occupied (or Standby) setpoint and all
auxiliary heat stages are disabled.
•
•
Heat cycling reduced, extending equipment life.
Auxiliary Relay
The auxiliary relay can be used with a variety of controls:
•
•
•
Time-of-day (TOD).
Economizer minimum position control.
Dehumidification (see Dehumidification section).
NOTE: The heat pump setpoint remains here for the
rest of the Not Occupied period.
3. The stage one auxiliary heat ramp is calculated based
on a steeper slope starting 1° F (0.5° C) below the not
occupied setpoint.
4. When the room temperature intersects this auxiliary heat
ramp, the first stage of auxiliary heat is enabled.
5. The stage two auxiliary heat ramp is calculated based on
an even steeper slope starting 2° F (1° C) below the not
occupied setpoint.
Relay for Time-Of-Day (Table 8)
Time-of-day (TOD) is the Auxiliary Relay default configuration.
TOD logic operates strictly according to programming:
— Occupied: Relay contacts closed.
— Not Occupied: Relay contacts open.
— Standby (Scheduled): Relay contacts closed.
Relay for Economizers
6. When the room temperature intersects this auxiliary heat
ramp, the second stage of auxiliary heat is enabled.
Mechanical cooling is often used with outside temperatures in
the 50° F (10° C) to 60° F (16° C) range and humidity below 50
percent. In central and northern climates, hundreds of hours
fall into this temperature category. By permitting 80 to 100
percent outside air into the system, mechanical cooling may
not be needed at all, particularly during Spring and Fall.
During the cool recovery period, the setpoint changes at a rate
in degrees per hour relative to the outdoor air temperature. If
there is no outdoor air temperature sensor available, the
minimum ramp rate is used.
See Fig. 12 for the various setpoints.
Economizers take advantage of outside air. The typical
economizer consists of an outside air damper, motor, outdoor
air changeover control and a minimum position potentiometer.
The motor controls the dampers. Suitability of the outside air
for cooling is determined by the outdoor air changeover control.
NOTE: For cooling, the same method is used in both
conventional and heat pump systems.
15
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
The potentiometer adjusts the minimum position of the
economizer dampers, which provide a minimum amount of
fresh air for ventilation.
The T7351 can take advantage of an economizer by closing
the auxiliary relay contacts to control the economizer minimum
position potentiometer. (See Table 8 for details.)
The economizer reduces compressor run time, thereby saving
energy and extending compressor life. The drawback to using
the economizer is that during the Not Occupied period, if there
is no call for cool or outdoor air is not suitable for free cooling,
the economizer is controlled to minimum position. This position
allows some percentage of outdoor air to enter the building,
regardless of air suitability. The situation can cause the heating
or cooling to run more often than when only suitable air is
permitted to enter the building.
— Powered: Allows normal economizer operation.
— Unpowered: Disables the economizer minimum position.
The lack of power causes the economizer to drive dampers
fully closed instead of staying at minimum open position.
This reduces the possibility of unsuitable outdoor air
entering the building, which lowers the internal load on the
HVAC system and saves additional energy.
Table 8. T7351 Auxiliary Relay Logic (Economizer and TOD)
Auxiliary Contacts
Occupancy
Scheduled Motion Sensor Effective
Period
Signal
Occupancy
Economizer
TOD
Notes
b
Occupied
No Sensor
Wired
Occupied
Closed
Closed
b
Occupied
Occupied
Motion Sensed Occupied
Closed
Closed
No Motion
Sensed
Standby
Open; Closed only
during calls for cool
Open Effective Occupancy is Standby. Standby
setpoints are used and it assumes that the space
is unoccupied. Economizer relay is energized
only on calls for cooling.
a
Not Occupied
No Sensor
Wired
Not
Occupied
Open; Closed only
during calls for cool
Open
a
Occupancy sensor will only be active during
Open scheduled Occupied periods. During scheduled
Not Occupied periods, the effective occupancy
will always be Not Occupied.
Not Occupied Motion Sensed
Not
Occupied
Open; Closed only
during calls for cool
a
Not Occupied
No Motion
Sensed
Not
Occupied
Open; Closed only
Open
a
during calls for cool
a
Unless otherwise, noted, Economizer logic ignores calls for heat. The Economizer relay will be energized during calls for cooling.
b With fan set to AUTO and call for neither heat nor cool, the relay is open in order to disable damper minimum position.
Other Uses for the Auxiliary Relay
Default Auxiliary Relay Operations
Examples of other uses of the auxiliary relay are hot water
heaters, lighting, or baseboard heat. The additional loads are
connected to the auxiliary relay contacts on the subbase. The
contacts are rated for 1.5A at 30 Vac, but can be adapted to
higher current applications using an external relay
(See Fig. 13).
Unless configured as a stage of heating or cooling, terminals
W2, W3, and Y3 operate for specific auxiliary functions. Each
output takes on different auxiliary functions depending on
configuration for Conventional or Heat Pump operation. See
Table 9 for details.
NOTE: The default functions cannot be modified. They
are limited to firmware version 1.3.0 or higher.
T7350A,B,D,M SUBBASE
AUX
TO
LOAD
RH
AUXILIARY
RELAY
CONTACT
X
1
RELAY REQUIRED (R8222 OR SIMILAR).
1
M19613
Fig. 13. Using T7351 Models with an External Relay (with
loads greater than 1.5A).
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 9. Default Auxiliary Relay Operations.
Heat Pump or
Conventional
Contact Not Used as
Heat or Cool Stage
Contact Configuration of Contact Not Used as Stage
Heat Pump
Y3
Simple
Dehumidification
Simple
Dehumidification
Time of Day
Time of Day
a
a
a
a
a
a
W2 not aux heat
W3 not
Economizer
Time of Day
Economizer
Economizer
Time of Day
Conventional
Simple
Dehumidification
Simple
Dehumidification
Simple
Dehumidification
a
a
Y3 not (W3 not)
Economizer
Time of Day
Time of Day
Economizer
Time of Day
Y3 not (W3 used)
Simple
Dehumidification
Simple
Dehumidification
Simple
Dehumidification
Auxiliary Contact Configuration
Time of Day
Economizer
Hot Gas Bypass
Dehumidification
Simple
Dehumidification
a
a
Simple dehumidification uses a normally closed contact. The relay is closed when humidity is below the high limit. When the
humidity is above the high limit, the contact is open.
IMPORTANT
Dehumidification
At times during Reheat dehumidification, the T7351
operates heating and the cooling simultaneously. This
is normal.
There are five methods through which the T7351 can control
for dehumidification. Three of them modify the control
algorithm, thus providing limited dehumidification through
cooling. The other two use the auxiliary output to control
another device.
NOTES:
—
The heat stage never energizes during Reheat if
more than one cool stage is on.
Reheat mode cannot occur during heating.
NOTE: The dehumidification high limit can be set within
the range of 10 to 90 percent relative humidity.
—
RESET TEMP SETPT
The room temperature set point resets to a specified number of
degrees below the actual set point when room relative humidity
(RH) rises above humidity high limit. The default value is 2
degrees.
Control Through Cooling
Configure using some combination of the following:
— Minimum On.
— Reheat.
— Reset.
Though this may not technically reduce RH, it reduces the dew
point to provide the customer with a sense of comfort due to a
lower temperature setting in the room.
NOTES:
—
—
These methods operate only during cooling.
Selecting both Reheat and Reset can cause
frequent setpoint adjustments. This selection
is not recommended.
As long as RH stays above humidity high limit, this set point is
maintained.
NOTE: Hysteresis and a minimum timer prevent the set
point from short interval alternation (between
standard and reset set points).
MIN ON TIME
Dehumidifies by increasing the compressor minimum on time
(normally 3 minutes) by a programmable amount. This is useful
with oversized systems in that it forces the coils to cool to a
point where dehumidification can occur.
Options Utilizing Auxiliary Output
There are two dehumidification options that utilize the auxiliary
output. They are:
— Simple Dehumidification.
— Hot Gas Bypass Dehumidification.
NOTES:
—
—
—
Can force wider temperature swings by cooling
when setpoint control does not require it.
The minimum on time can be set within the range
of 5 to 15 minutes.
Hysteresis and a minimum timer are used to
ensure this behavior does not change with every
equipment cycle.
SIMPLE DEHUMID(IFICATION)
The auxiliary output:
— Energizes when RH rises above humidity high limit.
— De-energizes when RH drops below humidity high limit.
NOTES:
REHEAT
—
5% Hysteresis and a minimum timer prevent short
cycling of this output.
Unlike Dehumid Hot Gas BP the relay remains
energized during calls for multiple cooling stages.
Dehumidifies by operating cooling during typical off time. The
T7351 maintains the proper setpoint by running the heat at the
same time.
—
DEHUMID HOT GAS BP
The auxiliary output operates as shown in Table 10.
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 10. Hot Gas Bypass Dehumidification Logic.
Auxiliary output during call for multiple cooling stages for two
reasons:
1. This method assumes that the cooling provides
dehumidification.
2. Multiple cooling stages probably provide necessary
dehumidification.
Humidity
High
Cooling Stages Active
more than one
one or less
Auxiliary Output
De-energized
Energized
High
Low
more than one
one or less
De-energized
De-energized
NOTE: Hysteresis and a minimum timer prevent short
cycling of this output.
Low
TROUBLESHOOTING GUIDE (TABLE 11)
Table 11. Troubleshooting Information.
Symptom
Possible Cause
Action
Display will not
come on.
Thermostat is not being powered.
Check that X terminal is connected to the system
transformer.
Check for 24 Vac between X and RH or RC terminals.
If missing 24 Vac:
•
Check if circuit breaker is tripped; if so, reset circuit
breaker.
•
•
Check if system fuse is blown; if so, replace fuse.
Check if the HVAC equipment power switch is in the Off
position; if so, set to the On position.
•
Check wiring between thermostat and HVAC equipment.
Replace broken wires and tighten loose connections.
If 24 Vac is present, proceed with troubleshooting.
Temperature
display is incorrect.
Thermostat is configured for ° F or ° C display. Press both Run Schedule and Copy, then reconfigure the
display.
Bad thermostat location.
Relocate the thermostat.
Display shows three dashes and a degree sign T7351 is set for the remote sensing and sensor is missing or
(all systems shut down).
circuit is either open or shorted.
Check the temperature setpoints:
Temperature
settings will not
change.
Upper or lower temperature limits were
reached.
•
•
Heating limits are 40° to 90° F (4° to 32° C)
Cooling limits are 45° to 99° F (7° to 37° C)
(Example: Cannot
set heating higher
or cooling lower.)
Occupied setpoint temperature range stops
were configured.
Check setpoint stops. If necessary, reconfigure the stop(s).
Keypad is locked. When a locked key is
pressed, LOCKED appears momentarily on the
LCD.
Change keypad lock level.
Room temperature Remote temperature sensing is not working.
is out of control.
Check all remote sensors.
Heat will not come No power to the thermostat.
on.
Check that X terminal is connected to the system
transformer.
Check for 24 Vac between X and RH terminals.
If missing 24 Vac:
•
Check if circuit breaker is tripped; if so, reset circuit
breaker.
•
•
Check if system fuse is blown; if so, replace fuse.
Check if the HVAC equipment power switch is in the Off
position; if so, set to the On position.
•
Check wiring between thermostat and HVAC equipment.
Replace broken wires and tighten loose connections.
If 24 Vac is present, proceed with troubleshooting.
Thermostat minimum off time is activated.
System selection is set to Off or Cool.
•
•
Wait up to five minutes for the system to respond.
Configure heating response.
Set system selection to Heat or Auto.
DAT high limit has been reached, or
OAT lockout is engaged.
•
•
•
If the setpoints are correct, do nothing.
Adjust or disable DAT high limit and/or OAT lockout.
Check HVAC equipment to ensure proper operation.
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
Table 11. Troubleshooting Information. (Continued)
Symptom
Possible Cause
Action
Cooling will not
come on.
No power to the thermostat.
Check that X terminal is connected to the system
transformer.
Check for 24 Vac between X and RC terminals.
If missing 24 Vac:
•
Check if circuit breaker is tripped; if so, reset circuit
breaker.
•
•
Check if system fuse is blown; if so, replace fuse.
Check if the HVAC equipment power switch is in the Off
position; if so, set to the On position.
•
Check wiring between thermostat and HVAC equipment.
Replace broken wires and tighten loose connections.
If 24 Vac is present, proceed with troubleshooting.
Thermostat minimum off time is activated.
System selection is set to Off or Heat.
•
•
Wait up to five minutes for the system to respond.
Configure cooling response.
Set system selection to Cool or Auto.
DAT low limit has been reached, or
OAT lockout is engaged.
•
•
•
If the setpoints are correct, do nothing.
Adjust or disable DAT low limit and/or OAT lockout.
Check HVAC equipment to ensure proper operation.
System indicator
(flame: heat,
snowflake: cool) is
displayed, but no
warm or cool air is
coming from the
registers.
The call for heat or cool is not yet given.
Check if any stage indicators (dots next to the system
indicator) are displayed. With no display of stage indicators,
no call for cool/heat via relay is yet given.
Conventional heating equipment turns the fan Wait one minute after seeing the on indicator and then
on only after the furnace has warmed to a
setpoint.
check the registers.
Heating or cooling equipment is not operating. Verify operation of heating or cooling equipment in Test
Mode.
WIRING DIAGRAM (FIGURES 14 AND 15)
TR23-H REMOTE SENSOR
OUTDOOR
AIR
SENSOR
COMPRESSOR
CONTACTOR 2
1
2
4
5
8
12
10 11
3
6
7
9
DISCHARGE
AIR
SENSOR
HEAT
RELAY 3
HEAT
RELAY 2
SUBBASE
T5
T6
T7
T4
T3
OS
M
OS
M
AS
X
AS
W3/Y4 Y3
W2
Y1
Y2
G
5
HS
HC
HP
RH RC AUX W1
COMPRESSOR
CONTACTOR 3
3
HEAT
RELAY 1
FAN
RELAY
HUMIDITY
SENSOR
MOTION
SENSOR
COMPRESSOR
CONTACTOR 1
4
L2
L1
1
2
ECONOMIZER
(HOT)
1
2
3
4
5
POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.
ENSURE TRANSFORMER IS SIZED TO HANDLE THE LOAD.
HEAT/COOL SYSTEMS WITH ONE TRANSFORMER REQUIRE THE FACTORY-INSTALLED JUMPER.
USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.
WHEN USING THE TR23-H FOR HUMIDITY SENSING THERE IS NO NEED TO WIRE HC TERMINAL
BECAUSE THE T3 TERMINAL IS INTERNALLY TIED TO HC, WHICH IS ALSO TIED TO TERMINAL 1
COMMON AT THE SENSOR.
M29255
Fig. 14. Typical Hookup of T7351F2010 in Three-Stage Heat and Three-Stage Cool Conventional System with One
Transformer.
19
63-2666—03
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T7351 COMMERCIAL PROGRAMMABLE THERMOSTAT
TR23-H REMOTE SENSOR
OUTDOOR
AIR
SENSOR
HEAT
RELAY 2
1
2
4
5
8
12
10 11
3
6
7
9
DISCHARGE
AIR
SENSOR
COMPRESSOR
COMPRESSOR
CONTACTOR 2
CONTACTOR 4
W3/Y4 Y3
SUBBASE
T5
T6
T7
T4
T3
OS
M
OS
M
AS
X
AS
W2
Y1
Y2
G
HS
HC
HP
RH RC AUX W1
COMPRESSOR
CONTACTOR 3
5
FAN
RELAY
3
HEAT
RELAY 1
HUMIDITY
SENSOR
MOTION
SENSOR
COMPRESSOR
CONTACTOR 1
4
L2
L1
1
2
ECONOMIZER
(HOT)
1
2
3
4
POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.
ENSURE TRANSFORMER IS SIZED TO HANDLE THE LOAD.
HEAT/COOL SYSTEMS WITH ONE TRANSFORMER REQUIRE THE FACTORY-INSTALLED JUMPER.
USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.
5
WHEN USING THE TR23-H FOR HUMIDITY SENSING THERE IS NO NEED TO WIRE HC TERMINAL
BECAUSE THE T3 TERMINAL IS INTERNALLY TIED TO HC, WHICH IS ALSO TIED TO TERMINAL 1
COMMON AT THE SENSOR.
M29254
Fig. 15. Typical Hookup of T7351F2010 in Two-Stage Heat and Four-Stage Cool Conventional System.
TR23-H REMOTE SENSOR
OUTDOOR
AIR
SENSOR
COMPRESSOR
CONTACTOR 2
1
2
4
5
8
12
10 11
3
6
7
9
AUX HEAT
STAGE 1
DISCHARGE
AIR SENSOR
SUBBASE
T5
T6
T7
T4
T3
OS
M
OS
M
AS
X
AS
W2
W1
Y2
G
4
RH RC AUX O/B Y1
2
HS
HC
HP
CHANGE-
OVER
FAN
RELAY
HUMIDITY
SENSOR
MOTION
SENSOR
COMPRESSOR
CONTACTOR 1
3
L2
L2
L1
ECONOMIZER
1
1
L1
(HOT)
(HOT)
HEATING
TRANSFORMER
COOLING
TRANSFORMER
1
2
3
POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.
WHEN INSTALLED ON A SYSTEM WITH TWO TRANSFORMERS, REMOVE THE FACTORY-INSTALLED JUMPER.
USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.
4
WHEN USING THE TR23-H FOR HUMIDITY SENSING, THERE IS NO NEED TO WIRE THE HC TERMINAL
BECAUSE THE T3 TERMINAL IS INTERNALLY TIED TO HC, WHICH IS ALSO TIED TO TERMINAL 1
COMMON AT THE SENSOR.
M29323
Fig. 16. Typical hookup of T7351F2010 in two-stage heat and two-stage cool heat pump system with two transformers.
Automation and Control Solutions
Honeywell International Inc.
1985 Douglas Drive North
® U.S. Registered Trademark
© 2013 Honeywell International Inc.
63-2666—03 M.S. Rev. 12-13
Golden Valley, MN 55422
Printed in United States
customer.honeywell.com
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