T10+ PRO Smart Thermostat w/ RedLINK 3.0 Product Data - Dated 2/25
Related Products
Document Transcript
T10
&
T10+
P
RO
S
MART
T
HERMOSTAT
WITH
R
ED
LINK
®
3.0
P
RODUCT
D
ATA
33-
00462-
07 Table
of
Contents
A
PPLICATION
5
F
EATURES
6
Apple®
HomeKit™
Setup
Code
6
S
PECIFICATIONS
7
Model
Numbers
9
Dimensions
10
S
YSTEM
I
NSTALLATION
12
When
Installing
This
Product...
12
Finding
Your
Date
Code
12
Selecting
Thermostat
Location
12
UWP
Mounting
System
Installation
12
Optional
Decorative
Cover
Plate
Installation
13
Wiring
UWP
14
Setting
Slider
Tabs
19
W
IRING
D
IAGRAMS
20
Wiring
at
T10
or
T10+
without
EIM
20
Fan
Coil
Unit
Wiring
Diagrams
without
EIM
27
Whole
house
humidifier,
dehumidifier,
or
ventilator
wiring
using
the
U
slider
tab
30
I
NSTALLING
E
QUIPMENT
I
NTERFACE
M
ODULE
(
IF
USED
)
31
EIM
Wiring
Diagrams
31
Fan
Coil
Unit
Wiring
Diagrams
with
EIM
35
Wiring
Dry
Contact
Alerts
with
EIM
40
Linking
the
T10+
to
an
Optional
EIM
41
To
Replace
the
Equipment
Interface
Module
(EIM)
43
To
replace
a
T10+
connected
to
an
EIM
43
S
ENSOR
I
NSTALLATION
44
Wireless
Indoor
Sensor
Installation
44
Wireless
Outdoor
Sensor
Installation
46
Selecting
Return
Air
Temperature
Sensor
Mounting
Location
47
Selecting
Discharge
Air
Temperature
Sensor
Mounting
Location
47
Installing
Discharge
and/or
Return
Air
Temperature
Sensors
(T10+
only)
49
Installing
Wired
Indoor
Sensor
49
Installing
Wired
Outdoor
Sensor
50
Floor/Slab
Sensor
(T10+
only)
51
I
NSTALLER
S
ETUP
(ISU)
53
New
Installation
53
Revising
Settings
53
Installer
Setup
Options
(ISU)
53
W
I
F
I
S
ETUP
74
Connect
to
a
Hidden
WiFi
Network
75
Unsuccessful
WiFi
Connection
75
S
CHEDULING
76
Setting
a
Schedule
On
Thermostat
76
Scheduling
Through
the
App
77
Schedule
Override
on
Device
78
2 M
AIN
M
ENU
80
Main
Menu
Options
80
Management
81
I
NSTALLER
O
PTIONS
83
Installer
Options
Menu
83
G
ETTING
THE
M
OST
FROM
THE
T10
OR
T10+
S
MART
T
HERMOSTAT
86
Apple®
HomeKit™
Setup
86
Using
Your
Thermostat
87
Setting
the
Time/Date
88
Setting
the
Fan
88
Setting
the
System
Mode
88
Using
Priority
89
Selecting
Sensors
89
Priority
Screen
89
Alerts
and
Notifications
89
IAQ
Reminders
90
Setting
Preferences
91
Inactive
Night
Backlight
92
Fallback
Room
(T10+
only)
93
I
NDOOR
A
IR
Q
UALITY
C
ONTROL
94
Humidification
94
Dehumidification
(Residential)
95
Ventilation
98
A
DVANCED
F
EATURES
100
Cleaning
the
Thermostat
Screen
100
Adjusting
Security
Settings
100
Dealer
Information
100
Auto
Changeover
Operation
101
Em
Heat
and
Auxiliary
Heat
Operation
101
Adaptive
Intelligent
Recovery
102
Compressor
Protection
102
P
+
I
Control
102
Heat
Differential
102
Upstage
Timer
103
Holdoff
Timer
103
Programmed
Recovery
103
Finish
with
High
Heat
stage
and/or
Finish
with
High
Cool
stage
104
Heat
Pump
and
Backup
Heat
Lockout
Operation
104
Fan
Coil
Unit
Settings
and
Operation
104
Remote
Setback
(Occupancy
Setback
/
Occupancy
Sensor)
105
Dry
Contact
Alerts
(ISU
6000-
6220)
109
Battery
Replacement
111
Commercial
Features
112
Overriding
Schedules:
Commercial
Use
113
Initiating
Occupancy
Mode:
Commercial
Use
114
Ramp
Rates
114
Custom
Names
115
3 Economizer
and
Time
of
Day
(TOD)
Operation
115
Pre-
Occupancy
Purge
116
R
ESIDEO
P
RO
A
PP
119
FAQ'
S
120
WiFi
connection
questions
120
First
Alert
or
Resideo
account
and
app
questions
120
Software
and
security
questions
120
Other
questions
121
T
ROUBLESHOOTING
AND
S
UPPORT
122
Customer
Assistance
125
5-
year
limited
warranty
125
R
EGULATORY
126
4 APPLICATION
The
T10
and
T10+
Smart
Thermostats
feature
effortless,
7-
Day
programming
on
an
easy-
to-
use
touchscreen.
Compatible
with
24
VAC
systems
including:
l
Up
to
3
Heat/2
Cool
heat
pump
systems
(4
heat
with
T10+
&
EIM)
l
Up
to
2
Heat/2
Cool
conventional
(3
Heat/4
Cool
with
T10+
&
EIM)
l
Dual
Fuel
systems
l
Radiant
hot
water
systems
including
hot
water
fan
coil
l
Humidification,
dehumidification,
or
ventilation
(All
three
with
T10+
&
EIM)
l
2-
pipe
of
4-
pipe
fan
coil
units
with
up
to
3
speed
fan
(T10+
only)
5 FEATURES
l
RedLINK
3.0
C7189R3002
or
C7189R2002
Indoor
Sensors
(Up
to
20
sensors
per
thermostat).
l
Increase
your
content
and
profit
per
job
by
including
RedLINK
3.0
indoor
temperature,
humidity,
and
motion
sensors
that
meet
your
customers
comfort
and
convenience
needs.
They
can
be
used
in
combination
for
tem
-
perature
averaging
or
individually.
These
devices
also
sense
motion
and
you
can
select
priority
rooms
based
on
where
motion
is
detected
or
by
scheduling.
l
Flexible
scheduling:
You
can
choose
to
use
location
-
based
temperature
control
(
Geofence/Auto
Away
technology
),
program
a
set
schedule
or
use
a
combination
of
both
to
make
sure
your
home
is
always
comfortable.
l
Location-
based
temperature
control:
Using
Geofence/Auto
Away
technology,
the
T10
or
T10+
Smart
Thermostat
will
automatically
use
your
smartphone’s
location,
which
can
save
energy
when
you
leave
and
make
your
home
comfortable
by
the
time
you
return.
See
"Scheduling"
on
page
76
for
more
information.
l
Smart
scheduling:
Adds
a
Sleep
period
to
location-
based
temperature
control.
See
"Scheduling"
on
page
76
for
more
information.
l
Time-
based
scheduling:
You
can
program
a
schedule
in
which
every
day
is
different,
a
schedule
where
weekdays
and
weekends
are
different
or
a
schedule
where
every
day
is
the
same.
There
are
four
adjustable
periods
per
day:
Wake,
Away,
Home
and
Sleep.
See
"Scheduling"
on
page
76
for
more
information.
l
No
schedule:
You
can
also
choose
to
disable
schedule
and
adjust
the
thermostat
manually.
See
"Main
Menu"
on
page
80
.
l
Tip:
The
First
Alert
or
Resideo
app
can
be
used
to
manage
multiple
thermostats
and
multiple
users
in
a
household.
l
Smart
Alerts:
T10
or
T10+
Smart
Thermostat
can
send
alerts
for
occurrences
such
as
extreme
indoor
temperatures
and
reminders
for
filter
changes
and
other
required
maintenance.
l
Auto
change
from
Heat
to
Cool:
When
Auto
mode
is
selected,
the
T10
or
T10+
Smart
Thermostat
can
automatically
determine
whether
your
home
needs
heating
or
cooling
to
reach
the
desired
temperature.
l
Adaptive
Intelligent
Recovery:
T10
or
T10+
Smart
Thermostat
learns
your
heating
and
cooling
cycle
times
to
make
sure
the
system
delivers
the
temperature
you
want,
when
you
want
it.
Apple
®
HomeKit
™
Setup
Code
The
T10
or
T10+
Smart
Thermostat
supports
HomeKit.
At
thermostat,
select
the
MENU
icon
at
bottom
of
screen.
Then
choose
HomeKit
Setup
from
the
options
and
follow
the
instructions
(see
"Apple®
HomeKit™
Setup"
on
page
86
).
6 SPECIFICATIONS
T10
&
T10+
Thermostat
Description.
Feature
Description
Powering
Method
Common
wire
required
Stages:
Up
to
3H/2C
*
Heat
pump
Up
to
2H/2C
*
conventional
Radiant
floor
with
slab
sensor
(T10+
only)
Equipment
type:
l
Dual
fuel
l
Hot
water,
steam,
or
hot
water
coil
l
Gas
or
oil
furnace
l
High-
efficiency
or
mid-
efficiency
l
Cool
only
l
Humidifier,
Dehumidifier,
or
Ventilator
control
**
Changeover
Manual
or
Auto
Changeover
Selectable
System
Setting
Em
Heat-
Heat-
Off-
Cool-
Auto
Fan
Setting
Auto-
On-
Circ.
Multiple
speed
settings
for
2-
pipe
or
4-
pipe
fan
coil
units
*
4H/2C
heat
pump
or
3H/4C
conventional
with
T10+
&
EIM.
**
T10+
with
EIM
can
control
three
IAQ
devices.
Electrical
ratings
of
T10
or
T10+
Without
EIM.
Terminal
Voltage
(50/60Hz)
Running
Current
W
(Heat)
20-
30
VAC
0.02-
1.0
A
W2
(Aux)
Heat
20-
30
VAC
0.02-
1.0
A
E
(Emergency
Heat)
20-
30
VAC
0.02-
0.5
A
Y
(Compressor
Stage
1)
20-
30
VAC
0.02-
1.0
A
Y2
(Compressor
Stage
2
or
stage
2
fan)
20-
30
VAC
0.02-
1.0
A
G
(Fan)
20-
30
VAC
0.02-
0.5
A
O/B
(Changeover)
20-
30
VAC
0.02-
0.5
A
L/A
(Typically
Heat
Pump
Fault)
20-
30
VAC
0.02-
0.5
A
U
(Hum,
Dehum,
or
Vent)
20-
30
VAC
0.02-
0.5
A
Power
Consumption:
3VA
Electrical
ratings
of
EIM
(for
use
with
T10+
models).
Terminal
Voltage
(50/60Hz)
Max.
Current
Rating
O/B
18-
30
VAC
1.00
A
Y
(Compressor
Stage
1)
18-
30
VAC
1.00
A
Y2
(Compressor
Stage
2
or
stage
2
fan)
18-
30
VAC
1.00
A
G
(Fan)
18-
30
VAC
0.50
A
W1
18-
30
VAC
0.60
A
W2/Aux
1
(Heating)
18-
30
VAC
0.60
A
W3/Aux
2
(Heating)
18-
30
VAC
0.60
A
L
(Input
only)
18-
30
VAC
0.60
A
U1,
U1
U2,
U2
U3,
U3
18-
30
VAC
0.50
A
7 RedLINK
Communication:
Frequency:
900
MHz
frequency
range
Re-
Sync
Time:
RedLINK
devices
re-
establish
communication
within
6
minutes
after
AC
power
resumes.
Temperature
Setting
Range:
Heating:
40
to
90
°F
(4.5
to
32
°C).
Cooling:
50
to
99
°F
(10
to
37
°C).
NOTE:
Adjustable
high
and
low
range-
stop
settings.
Humidification
Setting
Range:
0%
to
90%
RH.
Dehumidification
Setting
Range:
10%
to
100%
RH.
Humidity
Display
Range:
0%
to
99%.
Humidity
Sensor
Accuracy:
±
5%
RH
from
30%
to
50%
RH
at
75
F.
Cool
Indication:
Display
floods
blue
and
says
"
Cooling
to
"
when
Cool
is
on.
Heat
or
Em
Heat
Indication:
Display
floods
orange
and
says
"
Heating
to
"
when
Heat
is
on.
AUX
Heat
Indication:
Display
shows
“Aux
Heat
On”
above
the
room
temperature.
Interstage
Differential:
Comfort
(default
setting):
The
thermostat
keeps
the
indoor
temperature
within
1
degree
of
the
setpoint
(Differential
less
control).
Unless
the
sys
-
tem
is
dual
fuel,
or
a
Differential
setting
is
used,
the
thermostat
turns
on
stage
2
when
the
capacity
on
stage
1
reaches
90%.
l
See
ISU
3030
for
cool
differential
options.
l
See
ISU
3050
and
ISU
3090
for
Backup
Heat
Differential
options.
Clock
Accuracy:
1
minute
per
month
at
77
°F
(25
°C).
±
2
minutes
per
month
over
the
operating
ambient
temperature
range.
Auto
-
matically
updates
when
connected
to
WiFi
router
and
registered
to
account.
Mounting
Means:
Thermostat
mounts
directly
on
the
wall
in
the
living
space
using
mounting
screws
and
anchors
provided.
Can
mount
to
a
horizontal
2
x
4
in.
junction
box
using
J-
Box
adapter
(included).
8 Model
Numbers
T10
Thermostats
and
Accessories
(No
longer
available)
Product
Part
Number
Operating
Ambi
-
ent
Temperature
Operating
Rel
-
ative
Humidity
Shipping
Tem
-
perature
Dimensions
in
inches
(mm)
Color
T10
thermostat
THX321WF2003W
T10
Thermostat
37
to
102
°F
(2.8°
to
38.9°
C)
5%
to
90%
Non
Condens
-
ing
-
20
to
120
°F
28.9
to
48.9
°C)
T10
Thermostat
4.9"
H
x
3.7"
W
x
0.93"
D
(125.4
H
x
94.1
W
x
23.68
D)
White
Kit
with
T10
thermostat
with
one
C7189R2002
sensor
THX321WFS2001W
Wireless
indoor
temperature,
humidity,
&
motion
sensor.
Up
to
20
per
T10
thermostat
(IAS)
(We
are
transitioning
to
C7189R3002
sensors
for
all
T10
models)
C7189R2002-
2
(2
pack)
*
0
to
120
°F
(-
17.8°
to
48.9°C)
5%
to
90%
Non-
Condens
-
ing
-
20
to
120
°F
(-
28.9
to
48.9
°C)
2.6"
W
x
2.6"
H
x
.78"
D
(66.25
W
x
66.25
H
x
19.7
D)
White
*
For
optimal
battery
life,
operating
temperature
range
of
35
to
114
°F
(1.7
to
45.6
°C)
is
recommended.
T10+
and
Accesories
Product
Part
Number
Operating
Ambi
-
ent
Temperature
Operating
Rel
-
ative
Humidity
Shipping
Tem
-
perature
Dimensions
in
in.
(mm)
Color
T10+
thermostat
THX321WF3003W
T10
+
37
to
102
°F.
(2.8
to
38.9
°C)
5%
to
90%
Non-
Condens
-
ing
-
20
to
120
°F
(-
28.9
to
48.9
°C)
T10+
4.9"
H
x
3.7"
W
x
0.93"
D
(125.4mm
H
x
94.1mm
W
x
23.68mm
D)
White
Kit
with
T10+
thermostat
with
one
C7189R3002
sensor
THX321WFS3001W
Kit
with
T10+
Thermostat,
EIM,
IAS,
RATS/DATS
YTHM1004R3000
Kit
with
T10+
Thermostat,
EIM,
IAS,
RATS/DATS,
OAS
YTHM1004R3001
Wireless
indoor
temperature,
humidity,
&
motion
sensor.
Up
to
20
per
T10+
thermostat.
(IAS)
C7189R3002-
2
(2-
pack)
*
0
to
120
°F
(17.8
to
48.9
°C)
5%
to
90%
Non-
Condens
-
ing
-
20
to
120
°F
(-
28.9
to
48.9
°C)
2.6"
W
x
2.6"
H
x
0.78"
D
(66.25
W
x
66.25
H
x
19.7
D)
White
Wireless
outdoor
temperature
&
humidity
sensor
(OAS)
C7089R3013
-
40
to
140
°F
(-
40
to
60
°C)
0%
to
90%
Non-
Condens
-
ing
-
40
to
140
°F
(-
40
to
60
°C)
5"
x
3-
1/2"
x
1-
11/16"
(127
x
89
x
43)
Grey
Equipment
Interface
Module
(EIM)
THM04R3000
-
40
to
165
°F
(-
40
to
73.9
°C)
5%
to
95%
Non-
Condens
-
ing
-
20
to
165
°F
(-
28.9
to
73.9
°C)
4-
53/64"
W
x
9-
11/32"
H
x
1-
19/32"
D
(123
W
x
237
H
x
41
D)
Grey
Floor/Slab
sensor
for
radiant
floor
heat
(T10+
only.
10K
ohm)
AC112-
01
Discharge
or
return
sensor.
(Two
are
included
with
the
T10+
&
EIM
kits)
C7735A1000
*
For
optimal
battery
life,
operating
temperature
range
of
35
to
114
°F
(1.7
to
45.6
°C)
is
recommended.
9 Accesories
for
either
T10
or
T10+
Product
Part
Number
Dimensions
in
in.
(mm)
Large
Cover
Plate
&
J
Box
Adapter
Included
with
T10
&
T10+
models
other
than
THX321WFS2001W
THP2400A1080
6.11"
W
x
6.11"
H
(155.3
X
155.3)
Large
molded
Cover
Plate
&
J
Box
Adapter
Included
with
THX321WFS2001W
model
of
T10
&
T10+
models
Cannot
be
ordered
as
a
separate
access
-
ory
5-
1/2"
W
x
5-
13/64"
H
(140
x
131)
Wired
indoor
temperature
sensor
(10K
ohm)
C7189U1005
1-
1/2"
W
x
2-
1/4"
H
x
3/4"
D
(38
W
x
57
H
x
19
D)
Wired
outdoor
temperature
sensor
(10K
ohm)
C7089U1006
2-
1/4"
W
x
3/8"
H
with
60"
lead
wires
(57
x
10
with
1524
mm
lead
wires)
Wire
saver
module
or
C
wire
adapter
(add
a
C
wire).
Various
versions
of
this
made.
Starts
with
THP9045A
Dimensions
Figure
1:
Dimensions
of
T10
&
10+
thermostat
in
inches
(mm)
Figure
2:
Dimensions
of
C7189R2002
&
C7189R3002
sensors
in
inches
(mm)
Figure
3:
Dimensions
of
THM04R3000
EIM
in
inches
(mm)
Figure
4:
Dimensions
of
C7089R3013
wireless
out
-
door
sensor
in
inches
(mm)
10
Figure
5:
Dimensions
of
J-
Box
adapter
included
with
all
T10
&
T10+
models
in
inches
(mm)
Figure
6:
Dimensions
of
molded
grey
cover
plate
included
with
THX321WFS2001W
in
inches
(mm)
Figure
7:
Dimensions
of
flat
white
cover
plate
included
with
all
T10
&
10+
models
other
than
THX321WFS2001W
in
inches
(mm)
11 SYSTEM
INSTALLATION
When
Installing
This
Product...
1.
Read
these
instructions
carefully.
Failure
to
follow
the
instructions
can
damage
the
product
or
cause
a
hazardous
condition.
2.
Check
the
ratings
given
in
the
instructions
to
make
sure
the
product
is
suitable
for
your
application.
3.
Installer
must
be
a
trained,
experienced
service
technician.
4.
After
completing
installation,
use
these
instructions
to
verify
the
product
operation.
Finding
Your
Date
Code
You
will
need
the
thermostat
Date
Code
to:
l
Add
or
remove
RedLINK
3.0
accessories
l
Make
changes
to
Installer
Setup
l
Perform
an
Installer
Test
l
Reset
Thermostat
to
Factory
Default
Settings
To
find
the
Date
Code:
Press
the
MENU
(three
horizontal
lines).
Scroll
down
and
select
Dealer
Information
.
CAUTION:
ELECTRICAL
HAZARD
Can
cause
electrical
shock
or
equipment
damage.
Disconnect
power
supply
before
connecting
wiring.
Selecting
Thermostat
Location
Install
the
thermostat
about
5
ft.
(1.5m)
above
the
floor
in
an
area
with
good
air
circulation
at
average
temperature.
5 FEET
[1.5 METERS]
YES
NO
NO
M37812
NO
Figure
8:
Selecting
thermostat
location
Do
not
install
the
thermostat
where
it
can
be
affected
by:
l
Drafts
or
dead
spots
behind
doors
and
in
corners
l
Hot
or
cold
air
from
ducts
l
Radiant
heat
from
sun
or
appliances
l
Concealed
pipes
and
chimneys
l
Unheated
(uncooled)
areas
such
as
an
outside
wall
behind
the
thermostat
UWP
Mounting
System
Installation
1.
Open
package
to
find
the
UWP.
See
Step
1
in
the
image
below.
2.
Position
the
UWP
on
the
wall.
Level
and
mark
hole
positions.
See
Step
2
in
the
image
below.
Drill
holes
at
marked
positions,
and
then
lightly
tap
supplied
wall
anchors
into
wall
using
a
hammer.
Drill
7/32”
holes
for
drywall.
3.
Pull
the
door
open
and
insert
wires
through
the
wiring
hole
of
the
UWP.
See
Step
3
in
the
image
below.
12
4.
Place
the
UWP
over
the
wall
anchors.
Insert
and
tighten
mounting
screws
supplied
with
the
UWP.
Do
not
over-
tighten.
Tighten
until
the
UWP
no
longer
moves.
Close
the
door.
See
Step
4
in
the
image
below.
Use
3x
supplied
screws
#8
1-
1/2”.
M37786A
1
3
2
4
Figure
9:
UWP
Installation
Optional
Decorative
Cover
Plate
Installation
Use
the
Optional
Cover
Plate
when:
l
Mounting
the
thermostat
to
an
electrical
junction
box
l
Or
when
you
need
to
cover
paint
gap
from
the
old
thermostat.
1.
Separate
the
Junction
Box
Adapter
from
the
Cover
Plate.
See
Step
5
in
the
image
below.
2.
Mount
the
Junction
Box
Adapter
to
the
wall
or
an
electrical
box
using
any
of
the
eight
screw
holes.
Insert
and
tighten
mounting
screws
supplied
with
Cover
Plate
Kit.
Do
not
over-
tighten.
Make
sure
the
Adapter
Plate
is
level.
See
Step
6
in
the
image
below.
Use
2x
supplied
screws
#6
5/8”.
3.
Attach
the
UWP
by
hanging
it
on
the
top
hook
of
the
Junction
Box
Adapter
and
then
snapping
the
bottom
of
the
UWP
in
place.
See
Step
7
in
the
image
below.
4.
Snap
the
Cover
Plate
onto
the
Junction
Box
Adapter.
See
Step
8
in
the
image
below.
NOTE:
Cover
plate
included
with
T10
or
T10+
can
vary
by
model.
Use
2x
s
upplied
scre
w
s
#6
5/8”
8
7
6
5
M37787
Figure
10:
Decorative
Cover
Plate
Installation
13 Wiring
UWP
NOTE:
If
T10+
&
EIM
are
used,
UWP
only
wires
to
R
and
C
of
a
24
VAC
power
supply.
Usually
R
and
C
from
UWP
goes
to
R
&
C
at
upper
right
of
EIM.
Push
down
on
the
tabs
to
put
the
wires
into
the
inner
holes
of
their
corresponding
terminals
on
the
UWP
(one
wire
per
ter
-
minal)
until
they
are
firmly
in
place.
Gently
tug
on
the
wires
to
verify
they
are
secure.
If
you
need
to
release
the
wires
again,
push
down
the
terminal
tabs
on
the
sides
of
the
UWP.
This
wiring
is
just
an
example,
yours
may
vary.
M37788
Figure
11:
Wiring
the
UWP
14 Terminal
Designations
Terminals
on
T10
or
T10+
Without
EIM
Conventional
Systems
Heat
Pump
Systems
Terminal
Description
Terminal
Description
S/S
Input
for
a
wired
sensor
S/S
Sensor
options
in
charts
Y
Compressor
Stage
1
Y
Compressor
Stage
1
Y2
Compressor
Stage
2
Y2
Compressor
Stage
2
G
Fan
Relay
G
Fan
Relay
C
24VAC
Common
wire
from
secondary
side
of
cool
-
ing
transformer
(if
2
transformers)
C
24VAC
Common
wire
from
secondary
side
of
cooling
trans
-
former
K*
Connect
to
K
on
C-
wire
adapter
K*
Connect
to
K
on
C-
wire
adapter
U/U**
Relay
for
humidifier,
dehumidifier,
ventilator,
or
Economizer
U/U**
Relay
for
humidifier,
dehumidifier,
ventilator,
or
Economizer
L/A
Economizer
fault
L/A
Typically
used
for
compressor
monitor
W
Heat
Stage
1
O/B
Changeover
valve
for
heat
pumps
W2
Heat
Stage
2
AUX
Backup
Heat
E
Emergency
Heat
R
24
VAC
Heating
transformer
R
24
VAC
Heating
transformer
Rc
24
VAC
Cooling
transformer
Rc
24
VAC
Cooling
transformer
*
The
THP9045A
C-
wire
adapter
is
used
on
heat/cool
systems
when
you
only
have
four
wires
at
the
thermostat
and
you
need
an
extra
wire
for
a
common
wire.
Use
the
K
terminal
in
place
of
the
Y
and
G
terminals
on
conventional
or
heat
pump
systems
to
provide
control
of
the
fan
and
the
compressor
through
a
single
wire
the
unused
wire
then
becomes
the
com
-
mon
wire.
See
THP9045
instructions
for
more
information.
**
See
note
on
Wiring
U
terminals
on
the
following
page.
15 Terminals
on
THM04R3000
Equipment
Interface
Module
(EIM)
Used
With
T10+
Models
Only.
Conventional
Systems
Heat
Pump
Systems
Terminal
Description
Terminal
Description
S1,
S2,
S3,
S4
(Two
of
each)
Input
for
indoor
sensor,
outdoor
sensor,
Floor
sensor,
RATS,
DATS,
or
Dry
Contact
Alert
S1,
S2,
S3,
S4
(Two
of
each)
Input
for
indoor
sensor,
outdoor
sensor,
Floor
sensor,
RATS,
DATS,
or
Dry
Contact
Alert
Y
Compressor
Stage
1
Y
Compressor
Stage
1
Y2
Compressor
Stage
2
Y2
Compressor
Stage
2
G
Fan
Relay
G
Fan
Relay
C
Common
from
HVAC
transformer
when
R
is
jumped
to
Rc.
Common
from
separate
transformer
if
R
is
not
jumpered
C
Common
from
HVAC
transformer
when
R
is
jumped
to
Rc.
Common
from
separate
transformer
if
R
is
not
jumpered
U1,
U2,
U3
(Two
of
each)
Relay
for
humidifier,
dehumidifier,
ventilator
or
Economizer
U1,
U2,
U3
(Two
of
each)
Relay
for
humidifier,
dehumidifier,
or
ventilator
or
Economizer
L
Economizer
fault
code
L
Typically
used
for
compressor
monitor
O/B
Not
used
for
conventional
applications
O/B
Changeover
valve
for
heat
pumps
W1
Heat
Stage
1
W1
Not
used
for
heat
pump
applications
W2
Heat
Stage
2
AUX1
Stage
1
of
AUX/EM
heat
W3
Heat
Stage
3
AUX2
Stage
2
of
AUX/EM
heat
R
24V
from
transformer
to
power
EIM
R
24V
from
transformer
to
power
EIM
Rc
24
VAC
Cooling
transformer
Rc
24
VAC
Cooling
transformer
Rh
24
VAC
Heat
transformer
Rh
24
VAC
Heat
transformer
16 2-
Pipe
Fan
Coil
Unit
Terminals
Supported
by
T10+
with
firmware
03.03.08.02
or
later
and
EIM
(if
used)
with
firmware
01.02.01.00
or
later
2-
pipe
fan
coil
unit
terminals
at
thermostat/UWP
when
EIM
is
not
used
with
T10+
Terminal
Description
Rc
R
R
and
Rc
are
usually
jumpered
together
(slider
switch
up)
on
a
2-
pipe
FCU
with
the
24
VAC
hot
to
R
.
If
the
Aux
Heat
is
powered
by
a
separate
trans
-
former
you
may
slide
the
R/Rc
switch
down,
then
aux
heat
is
wired
to
R
and
Aux
.
FCU
is
wired
to
Rc
,
C
,
Y
,
G
,
etc.
C
24
VAC
common
from
fan
coil
unit
transformer
Y
Heat/Cool
relay
W
Not
used
on
2-
pipe
fan
coil
unit
G
Low
speed
fan
Y2
Medium
speed
fan
U
(upper
U
terminal)
High
speed
fan.
U
slider
switch
must
be
up
Aux
/
W2
Auxiliary
Heat
(Some
2-
pipe
fan
coil
units
do
not
have
auxiliary
heat)
S,
S
*
Optional
wired
10K/20K
pipe
sensor
for
changeover
L/A
-
A
*
Dry
contact
switch
for
pipe
changeover
from
Heat
to
Cool
O/B
Not
used
on
2-
pipe
fan
coil
unit
*
The
T10+
uses
either
a
wired
10K
or
20K
pipe
sensor
to
the
S
terminals,
or
a
dry
contact
switch
to
L/A
to
tell
the
T10+
whether
the
pipe
is
hot
or
cold.
The
ISU
settings
allow
you
to
choose
the
method
being
used.
If
a
dry
contact
switch
is
wired
to
L/A,
the
T10+
allows
you
to
use
the
S
terminals
for
a
wired
indoor
or
outdoor
sensor.
2-
pipe
fan
coil
unit
terminals
when
EIM
is
used
with
T10+
Terminal
Description
R
Rc
Rh
Typically
R
,
Rh
and
Rc
would
be
jumpered
together
for
a
2-
pipe
fan
coil
unit
with
that
transformer
wired
to
R
and
C
.
If
jumpers
are
removed,
R
and
C
power
the
EIM,
Rc
is
the
24
volt
hot
from
fan
coil
unit.
Rh
and
Aux
may
be
used
for
an
auxiliary
heat
source
if
that
source
is
powered
by
a
sep
-
arate
transformer.
If
using
the
L/A
for
Heat/Cool
changeover,
R
and
Rc
must
be
jumped
C
24
VAC
common
from
the
transformer
powering
the
fan
coil
unit.
Y
Heat/Cool
relay
W
Not
used
on
2-
pipe
fan
coil
unit
G
Low
speed
fan
Y2
Medium
speed
fan
U1,
U2,
U3
High
speed
fan.
During
setup,
select
which
U
contacts
are
used
for
this.
Jumper
one
of
the
U
terminals
from
the
set
selected
to
R
as
shown
in
wir
-
ing
diagrams
Aux1
Auxiliary
Heat
(Some
2-
pipe
fan
coil
units
don’t
have
Auxiliary
Heat)
S1,
S2,
S3,
S4
*
Optional
wired
10K/20K
pipe
sensor
for
changeover
the
Set
of
S
terminals
used
for
this
is
selected
during
setup.
The
other
3
sets
of
S
terminals
could
be
used
for
an
optional
10K/20K
wired
indoor
sensor,
10K
wired
outdoor
sensor,
dry
contact
alert,
or
remote
setback
with
dry
contact
occu
-
pancy
sensor
L
*
Dry
contact
switch
for
pipe
changeover
from
Heat
to
Cool
OB
Not
used
on
2-
pipe
fan
coil
unit
*
The
T10+
uses
either
a
wired
10K
or
20K
pipe
sensor
to
the
S
terminals,
or
a
dry
contact
switch
to
L/A
to
tell
the
T10+
whether
the
pipe
is
hot
or
cold.
The
ISU
settings
allow
you
to
choose
the
method
being
used.
If
a
dry
contact
switch
is
wired
to
L/A,
the
T10+
allows
you
to
use
the
S
terminals
for
a
wired
indoor
or
outdoor
sensor.
17 4-
Pipe
Fan
Coil
Unit
Terminals
Supported
by
T10+
with
firmware
03.03.08.02
or
later
and
EIM
(if
used)
with
firmware
01.02.01.00
or
later
4-
pipe
fan
coil
unit
terminals
at
thermostat
/UWP
when
EIM
is
not
used
with
T10+
Terminal
Description
R
Rc
R
and
Rc
must
be
jumpered
together
(slider
switch
up)
on
a
4-
pipe
FCU
with
the
24
VAC
hot
from
FCU
transformer
to
R.
If
the
Aux
Heat
is
powered
by
a
separate
transformer
an
isolation
relay
will
be
needed
from
the
Aux
terminal
on
UWP
C
24
VAC
common
from
fan
coil
unit
transformer
Y
Cool
relay
W
Heat
relay
G
Low
speed
fan
Y2
Medium
speed
fan
U
(Upper
U
terminal)
High
speed
fan.
U
slider
switch
must
be
up
Aux/W2
Auxiliary
Heat
S,S
Optional
10K/20K
wired
indoor
sensor
or
10K
wired
outdoor
sensor
L/A
-
A
Optional
remote
setback
switch
O/B
Not
used
on
4-
pipe
fan
coil
unit
4-
pipe
fan
coil
unit
terminals
when
EIM
is
used
with
T10+
Terminal
Description
R
Rc
Rh
Typically
R/Rh/Rc
terminals
are
all
jumpered
together
for
this
application.
Rh,
and
Rc
must
be
jumpered
together
for
a
4-
pipe
fan
coil
unit.The
R
jumper
may
be
removed
to
power
the
EIM
with
a
separate
transformer
unless
the
L
is
used
for
changeover.
If
Aux
Heat
is
powered
off
a
separate
transformer,
an
isolation
relay
would
be
needed.
C
24
VAC
common
from
the
transformer
powering
the
fan
coil
unit.
Y
Cool
relay
W
Heat
relay
G
Low
speed
fan
Y2
Medium
speed
fan
U1,
U2,
U3
High
speed
fan.
During
setup,
select
which
U
contacts
are
used
for
this.
Jumper
one
of
the
U
terminals
from
the
set
selected
to
R
as
shown
in
wir
-
ing
diagrams.
Additional
U
contacts
can
be
used
for
humidifier,
dehumidifier,
or
ventilator
Aux1
Auxiliary
Heat
(Some
4-
pipe
fan
coil
units
don’t
have
auxiliary
heat)
S1,
S2,
S3,
S4
Any
set
of
S
terminals
can
be
used
for
an
optional
10K/20K
wired
indoor
sensor,
a
10K
wired
outdoor
sensor,
dry
contact
alerts,
or
remote
setback
with
dry
contact
occupancy
sensor.
O/B
Not
used
on
4-
pipe
fan
coil
unit
18 Setting
Slider
Tabs
Set
R
Slider
Tab
l
Use
built-
in
jumper
(R
Slider
Tab)
to
differentiate
between
one
or
two
transformer
systems.
l
If
there
is
only
one
R
wire,
and
it
is
connected
to
the
R
,
Rc
,
or
RH
terminal
on
the
old
thermostat,
set
the
slider
to
the
up
position
(1
wire)
.
l
If
there
is
one
wire
connected
to
the
R
terminal
and
one
wire
connected
to
the
Rc
terminal,
set
the
slider
to
the
down
position
(2
wires)
.
M37789
Figure
12:
Setting
the
R
Slider
tab
Set
U
Slider
Tab
l
Use
built-
in
jumper
(U
Slider
Tab)
for
IAQ
device.
l
When
the
U
Slider
Tab
is
in
the
down
position
(2
wires)
the
U
contacts
are
a
dry
set
of
contacts.
l
If
your
IAQ
device
is
powered
by
the
cooling
transformer,
move
the
U
Slider
Tab
to
the
up
position
(1
wire).
When
this
is
done,
the
lower
U
terminal
is
internally
jumped
to
the
Rc
terminal.
In
this
application,
you
would
hook
up
one
wire
from
your
IAQ
device
to
the
upper
U
terminal
and
the
other
to
the
common
side
of
the
cooling
trans
-
former.
The
1
wire
setting
is
most
commonly
used
when
using
a
fresh
air
damper
for
ventilation
or
using
low
speed
fan
for
dehumidification.
l
See
"Wiring
Diagrams"
on
the
next
page
.
M37790
Figure
13:
Setting
the
U
Slider
Tab
19 WIRING
DIAGRAMS
1.
Use
18-
to
22-
gauge
thermostat
wire.
Shielded
cable
is
not
required.
2.
Set
the
R
Slider
Tab
on
the
UWP
to
the
up
position
(1
wire)
for
1
transformer
systems
or
the
down
position
(2
wires)
for
2
transformer
systems.
See
"Setting
Slider
Tabs"
on
the
previous
page
.
3.
Set
the
U
Slider
Tab
as
shown
in
the
diagrams.
4.
When
T10+
is
used
with
THM04R3000
EIM,
wire
only
R
and
C
to
T10+
to
power
the
thermostat.
Then
follow
the
wir
-
ing
diagrams
included
in
EIM
literature.
Wiring
at
T10
or
T10+
without
EIM
Figure
14:
Heat
only:
Gas
or
oil
furnace
1
G
USED
FOR
INDEPENDENT
FAN
CONTROL
ONLY.
MOST
HEAT
ONLY,
GAS
OR
OIL
FORCED
AIR
SYSTEMS
DO
NOT
USE
A
FAN
(G)
WIRE.
Figure
15:
Cool
only
20
Figure
16:
1H/1C
gas
furnace
Figure
17:
2H/1C
gas
furnace
Figure
18:
2-
transformer
system;
1H/1C
oil
furnace
Figure
19:
2-
transformer
system;
hot
water
heat
with
air-
conditioning
(or
hot
water
coil)
21
Figure
20:
Hot
water
heat
with
power
open
zone
valve
Figure
21:
Hot
water
boiler,
heat
only
Figure
22:
Series
20
valve
(power
open
and
power
closed)
1
THERMOSTAT
MUST
BE
CONFIGURED
FOR
RADIANT
HEAT
WITH
0
(ZERO)
COOL
STAGES.
Figure
23:
2H/2C
Gas
Furnace
22
Figure
24:
Wiring
a
third
Cool
stage
without
EIM
MCR39615
S
S
Y
Y2
G
C
U
U
A
W2
W
K
Rc
R
L/A
E
AUX
R/Rc
SWITCH UP
O/B
R
Y1
Y3
C
Y2
1
U SLIDER
SWITCH UP
1
G,
W,
W2,
ETC.
ARE
WIRED
AS
NORMAL.
Figure
25:
1H/1C
Heat
Pump
without
Aux
Heat
1
L
ONLY
CONNECTED
IF
HEAT
PUMP
HAS
A
FAULT
TERMINAL.
2
SOME
HEAT
PUMPS
USE
B
RATHER
THAN
O
FOR
REVERSING
VALVE.
3
IMPORTANT:
DO
NOT
CONNECT
ANY
WIRE
TO
W
FOR
HEAT
PUMP
APPLICATIONS!
THIS
CAN
CAUSE
HEAT
TO
RUN
CONTINUOUSLY.
23
Figure
26:
2H/1C
Heat
Pump
with
Electric
Aux
Heat
MCR37820B
2H/1C HEAT PUMP WITH
ELECTRIC AUX HEAT.
S
S
Y
Y2
G
C
U
U
A
W2
W
K
Rc
R
L/A
E
AUX
HEAT PUMP/
AIR-HANDLER
R/Rc
SWITCH UP
O/B
R
AUX
L
G
C
O
Y
6
7
5
1
2
3
4
5
6
7
1
COMMON
REQUIRED.
2
L
ONLY
CONNECTED
IF
HEAT
PUMP
HAS
A
FAULT
TERMINAL.
3
SOME
HEAT
PUMPS
USE
B
RATHER
THAN
O
FOR
REVERSING
VALVE.
4
DIFFERENT
HEAT
PUMP
MODELS
LABEL
THE
AUXILIARY
HEAT
TERMINAL
DIFFERENTLY
THAN
SHOWN.
CONSULT
HEAT
PUMP
WIRING
GUIDE.
5
LOCKOUT
OF
AUX
HEAT
ON
HIGH
OUTDOOR
TEMPERATURE
CAN
BE
DONE
THROUGH
ROUTER/INTERNET
CONNECTION
AND
APP,
WIRED
OUTDOOR
SENSOR
OR
WIRELESS
OUTDOOR
SENSOR.
6
MOST
HEAT
PUMPS
SHARE
THE
SAME
SET
OF
HEAT
STRIPS
FOR
AUX
AND
EM
HEAT.
IN
THOSE
CASES
E
ISN’T
USED.
IF
SEPARATE
AUX
AND
E
WIRES
ARE
USED,
WIRE
ONE
SET
OF
STRIPS
TO
E
TO
BE
ENERGIZED
IN
EM
HEAT
AND
A
DIFFERENT
SET
OF
STRIPS
TO
AUX
TO
BE
ENERGIZED
IN
AUX
HEAT.
7
IMPORTANT:
DO
NOT
CONNECT
ANY
WIRE
TO
W
FOR
HEAT
PUMP
APPLICATIONS!
THIS
CAN
CAUSE
HEAT
TO
RUN
CONTINUOUSLY..
Figure
27:
2H/2C
Heat
pump
without
Aux
Heat
MCR37563
2H/2C HEAT PUMP
WITHOUT AUX HEAT.
S
S
Y
Y2
G
C
U
U
A
W2
W
K
Rc
R
L/A
E
AUX
HEAT PUMP/
AIR-HANDLER
R/Rc
SWITCH UP
O/B
R
O
Y
G
C
L
1
4
Y2
1
2
3
4
1
COMMON
REQUIRED
2
L
ONLY
CONNECTED
IF
HEAT
PUMP
HAS
A
FAULT
TERMINAL.
3
SOME
HEAT
PUMPS
USE
B
RATHER
THAN
O
FOR
REVERSING
VALVE.
4
IMPORTANT:
DO
NOT
CONNECT
ANY
WIRE
TO
W
FOR
HEAT
PUMP
APPLICATIONS!
THIS
CAN
CAUSE
HEAT
TO
RUN
CONTINUOUSLY.
24
Figure
28:
3H/2C
Heat
pump
with
electric
Aux
Heat
MCR37821B
3H/2C HEAT PUMP WITH
ELECTRIC AUX HEAT.
S
S
Y
Y2
G
C
U
U
A
W2
W
K
Rc
R
L/A
E
AUX
HEAT PUMP/
AIR-HANDLER
R/Rc
SWITCH UP
O/B
7
6
5
R
AUX
L
Y
G
O
C
Y2
1
2
3
4
5
6
7
1
COMMON
REQUIRED.
2
L
ONLY
CONNECTED
IF
HEAT
PUMP
HAS
A
FAULT
TERMINAL.
3
SOME
HEAT
PUMPS
USE
B
RATHER
THAN
O
FOR
REVERSING
VALVE.
4
DIFFERENT
HEAT
PUMP
MODELS
LABEL
THE
AUXILIARY
HEAT
TERMINAL
DIFFERENTLY
THAN
SHOWN.
CONSULT
HEAT
PUMP
WIRING
GUIDE.
5
LOCKOUT
OF
AUX
HEAT
ON
HIGH
OUTDOOR
TEMPERATURE
CAN
BE
DONE
THROUGH
ROUTER/INTERNET
CONNECTION
AND
APP,
WIRED
OUTDOOR
SENSOR
OR
WIRELESS
OUTDOOR
SENSOR.
6
IMPORTANT:
DO
NOT
CONNECT
ANY
WIRE
TO
W
FOR
HEAT
PUMP
APPLICATIONS!
THIS
CAN
CAUSE
HEAT
TO
RUN
CONTINUOUSLY..
7
MOST
HEAT
PUMPS
SHARE
THE
SAME
SET
OF
HEAT
STRIPS
FOR
AUX
AND
EM
HEAT.
IN
THOSE
CASES
E
ISN’T
USED.
IF
SEPARATE
AUX
AND
E
WIRES
ARE
USED,
WIRE
ONE
SET
OF
STRIPS
TO
E
TO
BE
ENERGIZED
IN
EM
HEAT
AND
A
DIFFERENT
SET
OF
STRIPS
TO
AUX
TO
BE
ENERGIZED
IN
AUX
HEAT.
Figure
29:
Dual
fuel
2H/1C
Heat
pump
MCR37565C
DUAL FUEL
2H/1C HEAT PUMP
S
S
Y
Y2
G
C
U
U
A
W2
W
K
Rc
R
L/A
E
AUX
FURNACE/
HEAT PUMP
R/Rc
SWITCH UP
O/B
R
W
L
G
C
O
Y
6
5
1
2
3
4
5
6
1
COMMON
REQUIRED
2
L
ONLY
CONNECTED
IF
HEAT
PUMP
HAS
A
FAULT
TERMINAL.
3
SOME
HEAT
PUMPS
USE
B
RATHER
THAN
O
FOR
REVERSING
VALVE.
4
THE
HEAT
PUMP
AND
FURNACE
HAVE
SEPARATE
BOARDS.
THEY
ARE
SHOWN
TOGETHER
HERE
TO
SIMPLIFY
THIS
DIAGRAM.
W
IS
FROM
THE
FURNACE
BOARD.
5
BALANCE
POINT
LOCKOUT
CAN
BE
DONE
THROUGH
ROUTER/
INTERNET
CONNECTION
AND
APP,
WIRED
OUTDOOR
SENSOR
OR
WIRELESS
OUTDOOR
SENSOR.
6
IMPORTANT:
DO
NOT
CONNECT
ANY
WIRE
TO
W
FOR
HEAT
PUMP
APPLICATIONS!
THIS
CAN
CAUSE
HEAT
TO
RUN
CONTINUOUSLY.
25
Figure
30:
Dual
Fuel,
3H/2C
Heat
Pump
MCR39504A
S
S
Y
Y2
G
C
U
U
A
W2
W
K
Rc
R
L/A
E
AUX
FURNACE/
HEAT PUMP
R/Rc
SWITCH UP
O/B
R
W
L
Y
G
O
C
Y2
1
2
3
5
4
6
1
COMMON
REQUIRED.
2
L
ONLY
CONNECTED
IF
HEAT
PUMP
HAS
A
FAULT
TERMINAL.
3
SOME
HEAT
PUMPS
USE
B
RATHER
THAN
O
FOR
REVERSING
VALVE.
4
THE
HEAT
PUMP
AND
FURNACE
HAVE
SEPARATE
BOARDS.
THEY
ARE
SHOWN
TOGETHER
HERE
TO
SIMPLIFY
THIS
DIAGRAM.
w
IS
FROM
THE
FURNACE
BOARD.
5
OPTIONAL:
C7089U1006
WIRES
TO
THE
TWO
S
TERMINALS.
6
IMPORTANT:
DO
NOT
CONNECT
ANY
WIRE
TO
W
FOR
HEAT
PUMP
APPLICATIONS!
THIS
CAN
CAUSE
HEAT
TO
RUN
CONTINUOUSLY..
26 Fan
Coil
Unit
Wiring
Diagrams
without
EIM
Figure
31:
Typical
wiring
of
4-
pipe
fan
coil
AUX
L/A
O/B
E
Y
G
C
U
U
S
S
Y2
W2
W
K
R
Rc
A
2
1
1
24 VAC
HEAT RELAY
COOLING RELAY
MEDIUM FAN RELAY
HIGH FAN RELAY
LOW FAN RELAY
T10-001-V1
R
C
L1
(HOT)
L2
1
2
1
1
THE
R/RC
AND
U
SLIDER
SWITCHES
SHOULD
BE
SET
TO
THE
UP
POSITION
AS
SHOWN.
2
S
TERMINALS
CAN
BE
USED
FOR
A
WIRED
INDOOR
SENSOR
OR
OUTDOOR
SENSOR.
SEE
THE
REMOTE
SETBACK
WIRING
OPTIONS
IF
A
SENSOR/SWITCH
WAS
WIRED
TO
S
TERMINALS
ON
PREVIOUS
THERMOSTAT.
Figure
32:
Typical
wiring
of
2-
pipe
fan
coil
with
reheat
using
wired
10K/20K
Heat/cool
changeover
pipe
sensor
AUX
L/A
O/B
E
Y
G
C
U
U
S
S
Y2
W2
W
K
R
Rc
A
2
1
1
24 VAC
AUX HEAT RELAY
TWO PIPE
HEAT/COOL RELAY
MEDIUM FAN RELAY
HIGH FAN RELAY
LOW FAN RELAY
T10-002-V1
R
C
L1
(HOT)
L2
10K/20K
PIPE
SENSOR
1
2
1
1
THE
R/RC
AND
U
SLIDER
SWITCHES
SHOULD
BE
SET
TO
THE
UP
POSITION
AS
SHOWN.
2
S
TERMINALS
CAN
BE
USED
FOR
A
WIRED
10K
OR
20K
PIPE
SENSOR
FOR
HEAT/COOL
CHANGEOVER.
27
Figure
33:
Typical
wiring
of
2-
pipe
fan
coil
without
reheat
using
wired
10K/20K
Heat/Cool
changeover
pipe
sensor
AUX
L/A
O/B
E
Y
G
C
U
U
S
S
Y2
W2
W
K
R
Rc
A
2
1
1
24 VAC
TWO PIPE
HEAT/COOL RELAY
MEDIUM FAN RELAY
HIGH FAN RELAY
LOW FAN RELAY
T10-003-V1
R
C
L1
(HOT)
L2
10K/20K
PIPE
SENSOR
1
2
1
1
THE
R/RC
AND
U
SLIDER
SWITCHES
SHOULD
BE
SET
TO
THE
UP
POSITION
AS
SHOWN.
2
S
TERMINALS
CAN
BE
USED
FOR
A
WIRED
10K
OR
20K
PIPE
SENSOR
FOR
HEAT/COOL
CHANGEOVER.
SEE
THE
REMOTE
SETBACK
WIRING
OPTIONS
IF
A
SENSOR/SWITCH
WAS
WIRED
TO
S
TERMINALS
ON
PREVIOUS
THERMOSTAT.
Figure
34:
Typical
wiring
of
2-
pipe
fan
coil
with
reheat
using
dry
contact
switch
for
Heat/Cool
changeover
AUX
L/A
O/B
E
Y
G
C
U
U
S
S
Y2
W2
W
K
R
Rc
A
2
1
1
24 VAC
TWO PIPE
HEAT/COOL RELAY
MEDIUM FAN RELAY
HIGH FAN RELAY
LOW FAN RELAY
T10-004-V1
R
C
L1
(HOT)
L2
AUX HEAT RELAY
CHANGEOVER
SENSOR DRY
CONTACT SWITCH
1
2
1
1
THE
R/RC
AND
U
SLIDER
SWITCHES
SHOULD
BE
SET
TO
THE
UP
POSITION
AS
SHOWN.
2
WIRE
THE
DRY
CONTACT
CHANGEOVER
SWITCH
TO
R
AT
THE
FAN
COIL
UNIT
AND
L
AT
T10+
AS
SHOWN.
T10+
CAN
BE
CONFIGURED
FOR
THE
CHANGEOVER
SWITCH
TO
BE
NORMALLY
OPEN
IN
COOL
OR
HEAT
MODE.
28
Figure
35:
Typical
wiring
of
2-
pipe
fan
coil
without
reheat
using
dry
contact
switch
for
Heat/Cool
changeover
AUX
L/A
O/B
E
Y
G
C
U
U
S
S
Y2
W2
W
K
R
Rc
A
2
1
1
24 VAC
TWO PIPE
HEAT/COOL RELAY
MEDIUM FAN RELAY
HIGH FAN RELAY
LOW FAN RELAY
T10-005-V1
R
C
L1
(HOT)
L2
CHANGEOVER
SENSOR DRY
CONTACT SWITCH
1
2
1
1
THE
R/RC
AND
U
SLIDER
SWITCHES
SHOULD
BE
SET
TO
THE
UP
POSITION
AS
SHOWN.
2
WIRE
THE
DRY
CONTACT
CHANGEOVER
SWITCH
TO
R
AT
THE
FAN
COIL
UNIT
AND
L
AT
T10+
AS
SHOWN.
T10+
CAN
BE
CONFIGURED
FOR
THE
CHANGEOVER
SWITCH
TO
BE
NORMALLY
OPEN
IN
COOL
OR
HEAT
MODE.
29 Whole
house
humidifier,
dehumidifier,
or
ventilator
wiring
using
the
U
slider
tab
Figure
36:
Wired
to
humidifier,
dehumidifier,
or
vent
-
ilator
with
built-
in
transformer
Humidifier,
dehumidifier,
or ventilator
M37823
Figure
37:
Wired
to
fresh
air
damper
powered
by
fur
-
nace
transformer
Damper
C from furnace
or air-handler
M37824
Figure
38:
Wired
to
humidifier,
ventilator,
or
damper
powered
by
external
transformer
Humidifie
r
,
dehumidifier,
or ventilator
R from 24 volt
transformer
C (common) from
24 volt transformer
M37825
Figure
39:
Wired
to
low
speed
fan
terminal
on
HVAC
for
dehumidification
Dehumidifier*
Furnace or
air-handler
* Label for this terminal
varies by equipment
M37826
30 INSTALLING
EQUIPMENT
INTERFACE
MODULE
(IF
USED)
1.
Mount
the
EIM
near
the
HVAC
equipment
or
on
the
equipment
itself.
Use
screws
and
anchors
as
appropriate
for
the
mounting
surface.
2.
To
wire
the
EIM,
strip
1/4”
insulation,
then
insert
wires
(For
wiring
diagrams,
see
"EIM
Wiring
Diagrams"
below
.)
M39649
CONNECT
CONNECTED
Figure
40:
Strip
1/4”
insulation,
then
insert
wires
as
shown.
EIM
Wiring
Diagrams
Figure
41:
Typical
wiring
of
a
conventional
system
with
up
to
3
stage
Heat
and
2
stage
Cool
with
one
transformer
R
C
U
3
U
3
U
2
U
2
U
1
S
2
S
2
S
1
S
1
S
4
S
4
S
3
S
3
T
H
M
04
R
30
0
0
U
1
Y
2
G
L
W
1
W
2
A
U
X
1
W
3
A
U
X
2
Y
1
R
H
R
C
R
C
SENSORS
SENSORS
DRY CONTACT OUTPUTS
24
VA
C
T
O
T
H
E
R
M
O
S
T
A
T
O
/
B
F
U
R
NA
CE
G
(
F
A
N
)
R
(
2
4
V
A
C
H
O
T
)
W
1
(
H
E
A
T
S
T
A
G
E
1
)
W
2
(
H
E
A
T
S
T
A
G
E
2
)
Y1
(
C
O
M
P
R
ES
S
O
R
S
T
A
G
E
1
)
Y
2
(
C
O
M
P
R
E
S
S
O
R
S
T
A
G
E
2
)
C
(
2
4
V
A
C
C
O
MM
O
N
)
J
U
M
P
E
RS
W
3
(
H
E
A
T
S
T
A
G
E
3
)
24
VA
C
P
O
W
E
R
MCR38714
1
1
Remove
jumper
(s)
if
using
separate
transformers.
NOTE:
See
following
pages
for
additional
thermostat
wiring
guidelines
for
other
system
types,
sensor
wiring,
IAQ
Control,
and
other
dry
contact
wir
-
ing
options.
31 Figure
42:
Wiring
a
third
cool
stage
with
EIM
R
C
S
4
S
4
S
3
S
3
AUX1
AUX2
24 VAC TO
THERMOSTAT
U
3
U
3
U
2
U
2
U
1
S
2
S
2
S
1
S
1
THM04R3000
Y2
G
U
1
L
W1
W2
W3
Y1
R
H
R
C
R
C
SENSORS
SENSORS
DRY CONTACT OUTPUTS
24 VAC
POWER
O/B
HVAC
G (FAN)
R (24 VAC HOT)
W3 (HEAT STAGE 3)
Y1 (COMPRESSOR STAGE 1)
Y2 (COMPRESSOR STAGE 2)
Y3 (COMPRESSOR STAGE 3)
C (24 VAC COMMON)
W1 (HEAT STAGE 1)
W2 (HEAT STAGE 2)
MCR39616
1
1
Any
set
of
U
terminals
(U1,
U2,
U3)
can
be
assigned
to
control
stage
3.
Jumper
the
other
U
from
that
set
to
Rc
as
shown.
Figure
43:
Typical
wiring
of
a
heat
pump
system
with
up
to
four-
stage
Heat
and
two-
stage
Cool
with
one
transformer
R
C
S
4
S
4
S
3
S
3
AUX1
AUX2
24 VAC TO
THERMOSTAT
U
3
U
3
U
2
U
2
U
1
S
2
S
2
S
1
S
1
THM04R3000
Y2
G
U
1
L
W1
W2
W3
Y1
R
H
R
C
R
C
SENSORS
SENSORS
DRY CONTACT OUTPUTS
24 VAC
POWER
O/B
HEAT PUMP / AIR-HANDLER
G (FAN)
R (24 VAC HOT)
AUX 1 (AUXILIARY HEAT)
AUX 2 (AUXILIARY HEAT STAGE 2)
Y1 (COMPRESSOR STAGE 1)
Y2 (COMPRESSOR STAGE 2)
C (24 VAC COMMON)
JUMPERS
L (SYSTEM FAULT MONITOR)
O (CHANGEOVER VALVE)
MCR38715
1
2
3
1
Remove
jumper
(s)
if
using
separate
transformers.
2
The
changeover
valve
will
be
labeled
O
if
energized
in
cool
or
B
if
energized
in
heat.
3
The
Auxiliary
heat
stage
(s)
are
labeled
differently
on
different
heat
pump
air
handlers.
Most
heat
pumps
applications
only
have
one
stage
of
aux
-
iliary
heat.
32 NOTE:
See
following
pages
for
additional
thermostat
wiring
guidelines
for
other
system
types,
sensor
wiring,
IAQ
Control,
and
other
dry
contact
wir
-
ing
options.
Figure
44:
Typical
wiring
of
a
Dual
Fuel
heat
pump
system
with
1
or
2-
stage
furnace
and
1
or
2-
stage
heat
pump
1
Remove
jumper
(s)
if
using
separate
transformers.
2
The
changeover
valve
will
be
labeled
O
if
energized
in
cool
or
B
if
energized
in
heat.
3
The
Heat
Pump
and
Furnace
have
separate
boards,
they
are
shown
together
here
to
simplify
this
diagram.
NOTE:
See
following
pages
for
additional
thermostat
wiring
guidelines
for
other
system
types,
sensor
wiring,
IAQ
Control,
and
other
dry
contact
wir
-
ing
options.
Figure
45:
Typical
wiring
of
a
heat
pump
system
with
boiler
backup
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
HEAT PUMP / AIR-HANDLER
G (FAN)
R (24 VAC HOT)
Y1 (COMPRESSOR STAGE 1)
Y2 (COMPRESSOR STAGE 2)
C (24 VAC COMMON)
L (SYSTEM FAULT MONITOR)
O (CHANGEOVER VALVE)
MCR39207
BOILER
1
2
3
1
Remove
jumper
since
the
boiler
has
a
separate
transformer
than
the
heat
pump.
2
The
changeover
valve
will
be
labeled
O
if
energized
in
cool
or
B
if
energized
in
heat.
3
If
using
a
hot
water
relay
panel,
the
wires
shown
going
to
the
boiler
would
instead
wire
to
R
and
W
on
one
of
the
zones
of
the
panel.
NOTE:
See
following
pages
for
additional
thermostat
wiring
guidelines
for
other
system
types,
sensor
wiring,
IAQ
Control,
and
other
dry
contact
wir
-
ing
options.
33 Figure
46:
Typical
wiring
of
a
heat
pump
system
with
a
zone
valve
for
Backup
Heat
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
HEAT PUMP / AIR-HANDLER
G (FAN)
R (24 VAC HOT)
Y1 (COMPRESSOR STAGE 1)
Y2 (COMPRESSOR STAGE 2)
C (24 VAC COMMON)
L (SYSTEM FAULT MONITOR)
O (CHANGEOVER VALVE)
MCR39208
120
VAC
BOILER
ZONE VALVE
TRANSFORMER
24
VAC
1
2
3
1
Remove
jumper
since
the
valve
is
powered
by
a
separate
transformer
than
the
heat
pump.
2
The
changeover
valve
will
be
labeled
O
if
energized
in
cool
or
B
if
energized
in
heat.
3
The
wires
that
power
the
valve
are
shown
on
the
left
side
of
the
valve.
The
end-
switch
wires
from
the
valves
go
to
the
boiler.
NOTE:
See
following
pages
for
additional
thermostat
wiring
guidelines
for
other
system
types,
sensor
wiring,
IAQ
Control,
and
other
dry
contact
wir
-
ing
options.
Figure
47:
Typical
wiring
of
a
spring-
closed,
power-
open
zone
valve
with
end-
switch
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
MCR39209
120
VAC
BOILER
ZONE VALVE
TRANSFORMER
24
VAC
1
2
1
If
also
controlling
cooling
with
a
separate
transformer,
remove
RH
at
EIM.
Valve
transformer
C
would
not
wire
to
EIM.
Cooling
transformer
wire
to
R
and
C
with
R
to
RC
jumper
installed.
2
The
wires
that
power
the
valve
are
shown
on
the
left
side
of
the
valve.
The
end-
switch
wires
from
the
valves
go
to
the
boiler.
3
If
using
an
AC112-
01
or
equivalent
slab
sensor,
wire
that
to
any
of
the
4
sets
of
S
terminals
on
EIM
and
make
sure
the
ISU
Settings
match
the
wir
-
ing.
34 Figure
48:
Typical
wiring
of
a
series
20,
power-
open/power-
closed
zone
valve
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
MCR39210
120
VAC
TRANSFORMER
24
VAC
POWER OPEN/
POWER CLOSED
ZONE VALVE
5
2
6
3
4
1
1
1
If
also
controlling
cooling
with
a
separate
transformer,
remove
RH
Jumper
wire
the
valve
transformer
to
RH
at
EIM.
Valve
transformer
C
would
not
wire
to
EIM.
Cooling
transformer
wire
to
R
and
C
with
R
to
RC
jumper
installed.
2
If
using
an
AC112-
01
or
equivalent
slab
sensor,
wire
that
to
any
of
the
4
sets
of
S
terminals
on
EIM
and
make
sure
the
ISU
Settings
match
the
wir
-
ing.
NOTE:
See
following
pages
for
additional
thermostat
wiring
guidelines
for
other
system
types,
sensor
wiring,
IAQ
Control,
and
other
dry
contact
wir
-
ing
options.
Fan
Coil
Unit
Wiring
Diagrams
with
EIM
Figure
49:
Typical
wiring
of
4-
pipe
fan
coil
REMOTE SETBACK
SWITCH (OPTIONAL)
24 VAC
R
C
L2
L1
(HOT)
S3
S3
S4
S4
S1
S1
S2
S2
U1
U1
U3
U3
U2
U2
L
O/B
W3
Y1
W1
W2
AUX2
AUX1
C
Y2
RH
RC
R
C
R
C
LOW FAN RELAY
MEDIUM FAN RELAY
COOLING RELAY
HIGH FAN RELAY
HEAT RELAY
VJO26T5222
SENSORS
T10-006-V4
SENSORS
DRY CONTACT OUTPUTS
24 VAC
POWER
24 VAC TO
THERMOSTAT
1
2
3
1
Any
set
of
U
contacts
can
be
set
to
control
high
speed
fan.
One
of
those
U
contacts
must
be
jumped
to
the
fan
coil
transformer
R
as
shown.
2
S
terminals
can
be
used
for
a
wired
indoor
sensor
or
outdoor
sensor.
3
If
a
remote
setback
switch
is
used,
that
switch
wires
to
any
set
of
S
terminals
at
the
EIM.
Configure
ISU
settings
2240,
6010,
6020,
6030,
&
6040
on
the
T10+
for
remote
setback.
35 Figure
50:
Typical
wiring
of
2-
pipe
fan
coil
with
reheat
using
wired
10K/20K
Heat/Cool
changeover
pipe
sensor
24 VAC
R
C
L2
L1
(HOT)
S3
S3
S4
S4
S1
S1
S2
S2
U1
U1
U3
U3
U2
U2
L
O/B
W3
Y1
W1
W2
AUX2
AUX1
G
Y2
RH
RC
R
R
C
LOW FAN RELAY
MEDIUM FAN RELAY
REMOTE SETBACK
SWITCH (OPTIONAL)
HIGH FAN RELAY
VJO26T5222
SENSORS
24 VAC
POWER
24 VAC TO
THERMOSTAT
MCR39619-V1
TWO PIPE
HEAT/COOL RELAY
10K/20K
PIPE SENSOR
AUX HEAT RELAY
C
SENSORS
DRY CONTACT OUTPUTS
1
2
3
1
Any
set
of
U
contacts
can
be
set
to
control
high
speed
fan.
One
of
those
U
contacts
must
be
jumped
to
the
fan
coil
transformer
R
as
shown.
2
S
terminals
can
be
used
for
a
10K
or
20K
pipe
sensor
for
Heat/Cool
changeover.
3
If
a
remote
setback
switch
is
used,
that
switch
wires
to
any
set
of
S
terminals
at
the
EIM.
Configure
ISU
settings
2240,
6010,
6020,
6030,
&
6040
on
the
T10+
for
remote
setback.
Figure
51:
Typical
wiring
of
2-
pipe
fan
coil
without
reheat
using
wired
10K/20K
Heat/Cool
changeover
pipe
sensor
24 VAC
R
C
L2
L1
(HOT)
S3
S3
S4
S4
S1
S1
S2
S2
U1
U1
U3
U3
U2
U2
L
O/B
W3
Y1
W1
W2
AUX2
AUX1
G
Y2
RH
RC
R
R
C
LOW FAN RELAY
MEDIUM FAN RELAY
REMOTE SETBACK
SWITCH (OPTIONAL)
HIGH FAN RELAY
VJO26T5222
SENSORS
24 VAC
POWER
24 VAC TO
THERMOSTAT
MCR39620-V1
TWO PIPE
HEAT/COOL RELAY
10K/20K
PIPE SENSOR
C
SENSORS
DRY CONTACT OUTPUTS
1
2
3
1
Any
set
of
U
contacts
can
be
set
to
control
high
speed
fan.
One
of
those
U
contacts
must
be
jumped
to
the
fan
coil
transformer
R
as
shown.
2
S
terminals
can
be
used
for
a
10K
or
20K
pipe
sensor
for
Heat/Cool
changeover.
3
If
a
remote
setback
switch
is
used,
that
switch
wires
to
any
set
of
S
terminals
at
the
EIM.
Configure
ISU
settings
2240,
6010,
6020,
6030,
&
6040
on
the
T10+
for
remote
setback.
36 Figure
52:
Typical
wiring
of
2
pipe
fan
coil
with
reheat
using
dry
contact
switch
for
heat/cool
changeover
24 VAC
R
C
L2
L1
(HOT)
S3
S3
S4
S4
S1
S1
S2
S2
U1
U1
U3
U3
U2
U2
L
O/B
W3
Y1
W1
W2
AUX2
AUX1
G
Y2
RH
RC
R
C
R
C
LOW FAN RELAY
MEDIUM FAN RELAY
REMOTE SETBACK
SWITCH (OPTIONAL)
HIGH FAN RELAY
THM04R3000
SENSORS
SENSORS
DRY CONTACT OUTPUTS
24 VAC
POWER
24 VAC TO
THERMOSTAT
MCR39621-V1
TWO PIPE
HEAT/COOL RELAY
CHANGEOVER DRY
CONTACT SWITCH
AUX HEAT RELAY
1
2
1
Any
set
of
U
contacts
can
be
set
to
control
high
speed
fan.
One
of
those
U
contacts
must
be
jumped
to
the
fan
coil
transformer
R
as
shown.
2
Wire
the
dry
contact
changeover
switch
to
R
at
the
fan
coil
unit
and
L
at
EIM
as
shown.
T10+
can
be
configured
for
the
changeover
switch
to
be
nor
-
mally
open
in
Cool
or
Heat
mode.
Figure
53:
Typical
wiring
of
2
pipe
fan
coil
without
reheat
using
dry
contact
switch
for
Heat/Cool
changeover
24 VAC
R
C
L2
L1
(HOT)
S3
S3
S4
S4
S1
S1
S2
S2
U1
U1
U3
U3
U2
U2
L
O/B
W3
Y1
W1
W2
AUX2
AUX1
Y2
RH
RC
R
R
C
LOW FAN RELAY
MEDIUM FAN RELAY
REMOTE SETBACK
SWITCH (OPTIONAL)
HIGH FAN RELAY
THM04R3000
SENSORS
SENSORS
DRY CONTACT OUTPUTS
24 VAC
POWER
24 VAC TO
THERMOSTAT
MCR39622-V1
TWO PIPE
HEAT/COOL RELAY
CHANGEOVER DRY
CONTACT SWITCH
G
C
1
2
1
Any
set
of
U
contacts
can
be
set
to
control
high
speed
fan.
One
of
those
U
contacts
must
be
jumped
to
the
fan
coil
transformer
R
as
shown.
2
Wire
the
dry
contact
changeover
switch
to
R
at
the
fan
coil
unit
and
L
at
EIM
as
shown.
T10+
can
be
configured
for
the
changeover
switch
to
be
nor
-
mally
open
in
Cool
or
Heat
mode
37 Figure
54:
Typical
wiring
EIM
to
a
hot
water
relay
panel
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
120
VAC
TRANSFORMER
24
VAC
R (T)
HOT WATER
RELAY PANEL
ZONE 1
W (T)
MCR39211
1
2
1
RH
jumper
removed.
EIM
powered
by
separate
transformer.
2
If
using
an
AC112-
01
or
equivalent
slab
sensor
for
the
zone
controlled
by
the
thermostat,
wire
that
to
any
of
hte
4
sets
of
S
terminals
on
EIM
and
make
sure
the
ISU
settings
math
the
wiring.
Figure
55:
Typical
wiring
EIM
to
a
Resideo
TrueZONE
forced
air
zone
panel
for
conventional
heat
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
HZ432
MCR39212
M1
M4
M6
R
C
W1/E
W2
W3
Y1
Y2
G
O/B
L
ZONE 4
DAMPER
THERMOSTAT
1
2
3
4
5
1
R
to
Rc
jumper
removed
if
EIM
is
powered
by
a
separate
transformer.
2
Zone
4
is
shown
in
this
drawing.
The
EIM
can
wire
to
any
zone
on
the
TrueZONE
panel.
3
Dotted
lines
for
Multistage
only.
4
Wire
the
dampers,
transformer
and
HVAC
to
zone
panel
as
shown
in
zone
panel
installation
guide.
5
It
is
not
recommended
to
use
a
discharge
sensor
with
the
EIM
on
a
zoned
system.
A
discharge
sensor
can
be
wired
to
the
zone
panel
for
High
and
Low
limit
temperature
protection.
38 Figure
56:
Typical
wiring
EIM
to
a
Resideo
TrueZONE
forced
air
zone
panel
for
heat
pump
with
electric
Aux
Heat
applic
-
ation
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
HZ432
MCR39213
M1
M4
M6
R
C
W1/E
W2
W3
Y1
Y2
G
O/B
L
ZONE 4
DAMPER
THERMOSTAT
1
2
3
4
5
6
1
R
to
Rc
jumper
removed
if
EIM
is
powered
by
a
separate
transformer.
2
Zone
4
is
shown
in
this
drawing.
The
EIM
can
wire
to
any
zone
on
the
TrueZONE
panel.
3
Y2
is
for
2
stage
compressor
only.
4
Add
a
jumper
from
W1/E
to
W3
at
zone
panel
if
Y2
is
used.
Add
a
jumper
at
zone
panel
from
W1/E
to
W2
if
Y2
is
not
used.
5
Wire
the
dampers,
transformer
and
HVAC
to
zone
panel
as
shown
in
zone
panel
installation
guide.
6
It
is
not
recommended
to
use
a
discharge
sensor
with
the
EIM
on
a
zoned
system.
A
discharge
sensor
can
be
wired
to
the
zone
panel
for
High
and
Low
limit
temperature
protection.
Figure
57:
Typical
wiring
EIM
to
a
Resideo
TrueZONE
forced
air
zone
panel
for
dual
fuel
heat
pump
application
R
C
AUX1
AUX2
24 VAC TO
THERMOSTAT
THM04R3000
Y2
G
L
W1
W2
W3
Y1
R
H
R
C
R
C
24 VAC
POWER
O/B
HZ432
MCR39214
1
M1
M4
M6
R
C
W1/E
W2
W3
Y1
Y2
G
O/B
L
ZONE 4
DAMPER
THERMOSTAT
2
3
4
4
5
6
1
1
R
to
Rc
jumper
removed
if
EIM
is
powered
by
a
separate
transformer.
2
Zone
4
is
shown
in
this
drawing.
The
EIM
can
wire
to
any
zone
on
the
TrueZONE
panel.
3
W2
is
for
2
stage
furnace
only.
4
Y2
is
for
2
stage
compressor
only.
5
Wire
the
dampers,
transformer
and
HVAC
to
zone
panel
as
shown
in
zone
panel
installation
guide.
6
It
is
not
recommended
to
use
a
discharge
sensor
with
the
EIM
on
a
zoned
system.
A
discharge
sensor
can
be
wired
to
the
zone
panel
for
High
and
Low
limit
temperature
protection.
39 Wiring
Dry
Contact
Alerts
with
EIM
Figure
58:
Dry
contact
alerts
Figure
59:
U
terminals
can
be
used
for
humidification,
dehumidification
or
ventilation
1
Any
combination
of
relays
(U1,
U2,
U3)
can
be
used.
They
are
set
in
the
thermostat
Installer
Setup.
2
Wire
the
U
relay
to
the
low
speed
fan
for
dehumidification
control
at
the
equipment.
The
EIM
relay
can
be
set
to
normally
open
or
normally
closed
in
the
thermostat
Installer
Setup.
3
An
optional
50027910-
001
Air-
Flow
switch
(AFS)
is
recommended
to
ensure
aire
flow
when
the
humidifier
is
running.
If
the
AFS
is
used,
set
dip
switch
1
to
Off
(Left).
The
T10+
can
be
configured
to
only
run
the
humidifier
with
a
call
for
heat
or
fan,
so
the
AFS
would
only
be
needed
to
ensure
no
water
flow
through
the
humidifier
pad
if
there
is
a
fan
failure.
The
T10+
can
alternately
be
configured
for
a
fan
failure
alert
(ISU
6000,
6150
and
6160).
40 Linking
the
T10+
to
an
Optional
EIM
1.
When
the
T10+
is
powered,
follow
the
onscreen
prompts
until
you
see
Do
you
have
an
Equipment
Interface
Mod
-
ule
(EIM)?
.
Select
Yes,
I
have
an
EIM
.
2.
Press
and
release
the
CONNECT
button
at
the
EIM
when
the
thermostat
prompts
you.
Make
sure
the
“Connected”
lights
is
flashing
green.
The
EIM
will
continue
to
flash
the
connected
light
for
15
minutes
and
reset
this
timer
every
time
a
new
RedLINK
3.0
device
is
added.
M34176A
CONNECT
CONNECTED
Figure
60:
EIM
Connect
Button
NOTE:
If
the
CONNECTED
light
does
NOT
flash
green,
another
system
may
be
in
Listening
Mode
.
Please
exit
Listening
Mode
on
the
other
system
and
try
again.
l
Green
Flashing:
In
Listening
Mode.
System
is
ready
to
add
RedLINK
3.0
devices.
l
Green
Steady:
RedLINK
3.0
devices
are
communicating.
l
Red:
RedLINK
3.0
device
(s)
are
not
communicating.
Check
EIM
and
RedLINK
devices.
3.
Return
to
the
thermostat
and
press
Next
(shown
in
the
left
image
below).
41
4.
Adding
RedLINK
3.0
Accessories
to
the
T10
or
T10+
Thermostat.
NOTE:
The
EIM
and
wireless
outdoor
sensor
can
only
be
connected
to
a
T10+.
The
T10
installation
will
skip
the
EIM
section
and
go
directly
to
the
wireless
indoor
sensor
during
initial
setup.
5.
Select
Add
Another
Device
and
follow
the
prompts
on
screen.
6.
Install
batteries
in
RedLINK
3.0
accessories.
l
Wireless
Outdoor
Sensor
RedLINK
3.0
C7089R3013
(T10+
only).
l
Wireless
Indoor
Sensor
(C7189R3002
or
C7189R2002)
7.
Connect
each
RedLINK
3.0
accessory.
NOTE:
Make
sure
RedLINK
3.0
accessories
are
at
least
2
feet
away
from
the
thermostat
(or
EIM,
if
used)
during
the
linking
process.
8.
While
the
“Connect
Device”
screen
is
displayed
(Listening
Mode),
press
and
quickly
release
the
CONNECT
button
on
each
new
RedLINK
3.0
accessory.
9.
After
a
short
delay
(up
to
20
seconds),
check
the
thermostat
to
confirm
the
connection
of
each
RedLINK
3.0
accessory.
NOTE:
If
adding
a
wireless
indoor
sensor
or
wireless
outdoor
sensor
(outdoor
on
T10+
only)
after
the
initial
setup
has
been
completed,
go
to
Menu
>
Installer
Options
>
Devices
and
Sensors,
and
select
Add
.
10.
Follow
the
instructions
on
thermostat
screen.
After
each
RedLINK
3.0
accessory
is
added
and
any
follow
up
ques
-
tions
are
set,
the
thermostat
will
ask
if
you
want
to
add
another
device
or
are
done
adding
devices.
NOTE:
Examples
of
follow
up
questions
and
instructions
for
the
wireless
indoor
sensor
shown
below.
11.
Once
all
RedLINK
3.0
accessories
have
been
added
and
you
have
completed
the
on-
screen
follow-
up
questions
and
instructions,
the
display
will
say
“Setup
Complete".
Select
Done
Adding
Devices
.
42
12.
Follow
the
onscreen
display
instructions
to
complete
system
setup
for
heating
and
cooling
type,
humidifier,
dehu
-
midifier,
ventilator
settings,
etc.
To
Replace
the
Equipment
Interface
Module
(EIM)
When
you
replace
an
EIM,
you
must
reset
the
RedLINK
3.0
accessories
before
connecting
them
to
the
new
thermostat.
Follow
the
instructions
below:
At
the
Indoor
Sensor
or
other
RedLINK
3.0
accessory:
Press
and
hold
the
CONNECT
button
on
the
accessory
until
the
status
light
glows
amber
(hold
for
about
10
seconds).
To
reconnect
the
thermostat,
go
to
Step
4.
At
the
thermostat:
Go
to
Installer
Options,
choose
Reset,
then
Factory
reset
.
This
will
clear
the
EIM
and
any
other
RedLINK
3.0
devices
from
T10+
as
well
as
the
system
settings.
After
doing
Factory
Reset,
follow
thermostat
prompts
to
link
new
EIM
and
con
-
figure
system
settings.
To
replace
a
T10+
connected
to
an
EIM
Press
and
hold
the
connect
button
on
the
EIM
until
the
connect
light
turns
amber
approximately
10
seconds.
This
should
clear
the
EIM
from
the
thermostat
and
any
RedLINK
3.0
accessories.
Then
it
is
ready
to
be
connected
to
a
new
T10+
thermostat
using
the
original
setup
process.
NOTE:
The
new
T10+
will
also
guide
you
through
the
setup
steps
during
initial
setup
when
you
choose
that
you
have
an
EIM.
M34176A
CONNECT
CONNECTED
Figure
61:
EIM
Connect
Button
43 SENSOR
INSTALLATION
Wireless
Indoor
Sensor
Installation
C7189R2002
or
C7189R3002
Wireless
Indoor
Sensor
1.
Remove
white
cover
from
gray
base
and
Insert
(2)
AAA
Alkaline
batteries
in
the
sensor.
Figure
62:
Sensor
cover
removal
2.
Open
the
Menu
.
3.
Tap
Devices
&
Sensors
.
4.
Tap
Add
.
Follow
the
on-
screen
instructions.
M39060
D
e
v
ice
s
& S
e
nsor
s
Ad
d
5.
Snap
the
sensor
onto
the
wall-
plate.
6.
Adhere
the
included
command
strip
to
the
wall-
plate.
Then
adhere
the
sensor
to
the
wall.
Level
sensor
for
appear
-
ance.
(See
the
sensor
instructions
for
proper
placement.)
M39058
UP
44 Figure
63:
Sensor
mounting
Placement
Tips
l
DO
place
about
5
feet
above
the
floor.
l
DO
place
on
inside
walls.
l
DON’T
place
behind
furniture
or
doors.
l
DON’T
place
in
direct
sunlight.
l
DON’T
place
above
air
vents.
M39059
Figure
64:
Sensor
leveling
5ft
1.5m
M37792
Figure
65:
Sensor
Placement
These
sensors
can
be
linked
to
the
thermostat
when
doing
the
initial
Installer
setup
or
at
a
later
date.
l
During
initial
installer
setup,
the
thermostat
will
offer
setup
options
under
“RedLINK
Devices”
for
“Add
device”
or
“Set
up
later”.
l
To
add
a
sensor
after
initial
setup
has
been
done,
select
the
Menu
icon,
then
Devices
&
Sensors
,
then
Add
.
o
The
display
screen
will
walk
you
through
linking
and
naming
the
sensor.
45 Wireless
Outdoor
Sensor
Installation
C7089R3013
Wireless
Outdoor
Sensor
(T10+
Only)
The
C7089R3013
wireless
outdoor
temperature
&
humidity
sensor
can
be
used
with
up
to
eight
T10+
thermostats
for
heat
pump
compressor
lockouts,
Aux
Heat
lockouts,
humidity
frost
control,
and
ventilation
lockouts.
Alternately,
Internet
weather
could
be
used
for
these
lockouts.
A
wired
outdoor
sensor
can
be
used
for
all
outdoor
lockouts
other
than
High
Dewpoint
Lockout
for
ventilation.
Connecting
Wireless
Outdoor
Sensor
When
the
T10+
thermostat
is
in
the
wireless
setup
mode
and
prompts
you
to
do
so,
press
and
quickly
release
the
CONNECT
button
on
the
Wireless
Outdoor
Sensor.
After
a
short
delay
(up
to
15
seconds),
the
thermostat
will
display
“Wireless
Outdoor
Sensor
Added.”
M28847
Figure
66:
Wireless
outdoor
sensor
connect
button
Mount
Outdoor
Sensor
1.
Mount
the
sensor
on
a
vertical
exterior
wall,
at
least
6
inches
below
any
overhang.
Choose
a
location
protected
from
direct
sunlight.
M28491B
Figure
67:
Mounting
outdoor
sensor
2.
Place
sensor
securely
in
bracket,
facing
away.
M28492B
UP
Figure
68:
Mounting
outdoor
sensor
2
46 Selecting
Return
Air
Temperature
Sensor
Mounting
Location
NOTE:
When
the
return
sensor
is
used
with
T10+
&
EIM,
If
there's
a
communication
loss
with
the
thermostat,
the
backup
algorithm
will
turn
on
heating
stages
if
the
return
air
temperature
is
<
56.0°F
and
run
until
the
return
air
temperature
reaches
58°F.
NOTE:
The
backup
algorithm
will
turn
on
cooling
stages
if
the
return
air
temperature
is
>
88.0°F
and
run
until
the
return
air
temperature
reaches
86°.
Install
the
Return
Air
Temperature
Sensor
on
the
return
duct
in
a
location
where
the
air
is
mixed
well.
Mount
the
Return
Air
Temperature
Sensor
downstream
of
a
Bypass
Humidifier,
Dehumidifier
or
Ventilator.
Selecting
Discharge
Air
Temperature
Sensor
Mounting
Location
1.
Mount
the
Discharge
Air
Temperature
Sensor
on
the
supply
duct
in
a
location
where
the
air
is
mixed
well.
Mount
the
Discharge
Air
Temperature
Sensor
out
of
sight
of
the
A-
Coil/Heat
Exchanger
when
possible.
2.
When
possible,
mount
the
Discharge
Air
Temperature
Sensor
upstream
of
a
Steam
Humidifier,
a
Fan
Powered
Humidifier
or
a
Dehumidifier
that
is
ducted
to
the
supply.
3.
Resideo
does
not
recommend
wiring
a
discharge
sensor
to
the
EIM
in
a
zoned
system.
A
discharge
air
sensor
can
be
wired
to
a
Resideo
TrueZONE
panel
and
the
panel
will
do
the
high/low
limit
protection
for
the
system.
4.
If
space
does
not
allow
a
Discharge
Air
Temperature
Sensor
upstream
of
a
Steam
Humidifier
or
Fan
Powered
Humidifier,
mount
the
Discharge
Air
Temperature
Sensor
downstream
of
the
Humidifier.
MOUNT DISCHARGE
SENSOR HERE
M33074
HEAT
EXCHANGER
BLOWER
VENTILATOR
OR
DEHUMIDIFIER
MOUNT RETURN
SENSOR HERE
DOWNSTREAM OF
VENTILATOR OR
DEHUMIDIFIER
A-COIL
Figure
69:
Discharge
Sensor
Location
1
MOUNT RETURN
SENSOR HERE
MOUNT DOWNSTREAM
OF BYPASS HUMIDIFIER,
DEHUMIDIFIER OR
VENTILATOR
HEAT
EXCHANGER
BLOWER
VENTILATOR
OR
DEHUMIDIFIER
MOUNT
DISCHARGE
SENSOR HERE
BYPASS
HUMIDIFIER
M33079A
Figure
70:
Discharge
Sensor
Location
2
47 M39061
HEAT
EXCHANGER
BLOWER
STEAM OR
FAN
POWERED
HUMIDIFIER
ALTERNATE MOUNTING LOCATION
FOR DISCHARGE SENSOR
MOUNT RETURN
SENSOR HERE
DOWNSTREAM OF
VENTILATOR OR
DEHUMIDIFIER
MOUNT
DISCHARGE
SENSOR HERE
ABOVE CENTER
OF A-COIL
UPSTREAM OF
STEAM OR FAN
POWERED
HUMIDIFIER
VENTILATOR
OR
DEHUMIDIFIER
Figure
71:
Discharge
Sensor
Location
3
M39062
HEAT
EXCHANGER
BLOWER
MOUNT RETURN
SENSOR HERE
DOWNSTREAM OF
DEHUMIDIFIER
ALTERNATE MOUNTING LOCATION
FOR DISCHARGE SENSOR
MOUNT
DISCHARGE
SENSOR HERE
ABOVE CENTER
OF A-COIL
UPSTREAM OF
DEHUMIDIFIER
DEHUMIDIFIER
Figure
72:
Discharge
Sensor
Location
4
MOUNT RETURN
SENSOR HERE
MOUNT DOWNSTREAM
OF BYPASS HUMIDIFIER,
DEHUMIDIFIER OR
VENTILATOR
HEAT
EXCHANGER
BLOWER
VENTILATOR
OR
DEHUMIDIFIER
MOUNT
DISCHARGE
SENSOR HERE
BYPASS
HUMIDIFIER
M33078A
Figure
73:
Discharge
Sensor
Location
5
48 Installing
Discharge
and/or
Return
Air
Temperature
Sensors
(T10+
only)
Use
the
following
steps
to
mount
the
Discharge/Return
Air
Sensors:
1.
Attach
plastic
cover
to
the
sensor
probe.
2.
Drill
1/4-
inch
hole
for
the
sensor
probe
and
mount
it
to
the
ductwork
with
enclosed
screws.
3.
Connect
wires
to
S1,
S2,
S3,
or
S4
terminals
at
the
EIM
or
S
terminals
at
T10+
when
EIM
is
not
used.
4.
Configure
the
T10+
thermostat
for
discharge
and/or
return
sensor.
M32995A
Figure
74:
Mounting
Discharge/Return
Air
Sensor.
Installing
Wired
Indoor
Sensor
C7189U1005
(10K)
Wired
Indoor
Sensor
ISU
setting
5000.
Use
the
following
steps
to
mount
the
sensor:
1.
Remove
the
cover
from
the
remote
sensor.
M24056B
UP
Figure
75:
Remove
the
cover.
2.
Pull
wires
through
wire
hole.
3.
Position
wallplate
on
wall,
level
and
mark
screw
hole
positions
with
pencil.
4.
Drill
holes
at
marked
positions,
then
tap
in
supplied
wall
anchors.
5.
Place
wall
plate
over
anchors,
insert
and
tighten
mounting
screws
see
image
below.
M24057B
UP
Figure
76:
Mount
wall
plate
to
wall.
6.
Replace
the
cover
on
the
remote
sensor.
49 CAUTION:
ELECTRICAL
HAZARD
Can
cause
electrical
shock
or
equipment
damage.
Disconnect
power
supply
before
connecting
wiring.
Wiring
1
C7189U1005
sensor
(10k
ohm)
for
temperature
control.
Select
10K
in
the
Installer
Setup
(ISU
5030)
when
using
C7189U1005
sensor
(s).
UWP
M39063
S
S
C7189
NOTE: IF EIM IS USED, WIRE TO ANY OF THE
AVAILABLE SETS OF S (S1, S2, S3, S4)
Figure
77:
Wiring
1
C7189
sensor.
Wiring
4
C7189U1005
sensors
(10k
ohm)
for
temperature
averaging
network.
Select
10K
in
the
Installer
Setup
(ISU
5030)
when
using
C7189U1005
sensor
(s).
If
EIM
is
used,
wire
to
any
of
the
available
sets
of
S
(S1,
S2,
S3,
S4).
Figure
78:
Wiring
4
C7189U
sensors
NOTE:
If
EIM
is
used,
wire
to
any
of
the
available
sets
of
S
(S1,
S2,
S3,
S4).
Installing
Wired
Outdoor
Sensor
See
ISU
1060
“Outdoor
Temperature”
for
correct
thermostat
configuration.
Follow
instructions
included
with
C7089U1006
wired
outdoor
sensor.
Location
and
Mounting
Mount
the
sensor
where:
l
there
is
good
air
circulation.
l
it
can
measure
true
outdoor
ambient
temperature.
l
surface
is
flat.
l
wire
distance
between
C7089U
and
thermostat
is
less
than
200
feet.
Do
not
mount
the
sensor:
50
l
In
direct
sunlight.
l
Where
hot
or
cold
air
blows
on
the
sensor.
Discharge
line
from
an
outdoor
compressor
unit,
vent
or
fan
causes
inaccurate
temperature
readings.
l
Where
snow,
ice
or
debris
can
cover
it.
Use
the
following
steps
to
mount
the
sensor:
1.
Remove
the
sensor
from
the
mounting
clip.
2.
Mark
the
area
on
the
location
selected
for
mounting
the
sensor
mounting
clip.
3.
Mount
the
clip.
M7514C
Figure
79:
Outdoor
sensor
mounting
clip
installation
CAUTION:
Electrical
Interference
(Noise)
Hazard.
Can
cause
erratic
system
operation.
Keep
wiring
at
least
one
foot
away
from
large
inductive
loads
such
as
motors,
line
starters,
lighting
ballasts
and
large
power
distribution
panels.
Use
shielded
cable
to
reduce
interference
when
rerouting
is
not
possible.
Floor/Slab
Sensor
(T10+
only)
The
T10+
Smart
Thermostat
can
be
used
with
a
floor/slab
sensor
to
control
the
ambient
air
temperature
or
floor
tem
-
perature
or
both.
You
can
choose
among
the
following
temperature
control
modes.
A
mode:
Controls
and
displays
the
ambient
air
temperature
only.
l
F
mode:
Controls
and
displays
the
floor
temperature
only
using
an
external
floor
temperature
sensor.
This
control
mode
is
suitable
for
areas
such
as
bathrooms
where
floor
temperature
could
be
scheduled
to
be
warm
only
during
occupied,
morning
and
evening
periods.
l
Floor
temperature
is
indicated
by
“FLR”
above
the
actual
floor
temperature.
l
Actual
ambient
air
temperature
could
also
be
displayed
in
the
Thermostat
MENU/TEMP.
AF
mode:
Controls
and
displays
the
ambient
air
temperature
as
well
as
maintains
the
floor
temperature
within
desired
floor
temperature
limits
using
an
external
floor
temperature
sensor.
Setting
the
minimum
and
maximum
floor
temperature
limits
is
a
way
to
enhance
comfort
and
to
protect
the
floor
covering
at
the
same
time.
l
Actual
floor
temperature
could
also
be
displayed
in
the
Thermostat
MENU/
TEMPERATURES.
NOTE:
To
set
the
thermostat
temperature
control
mode,
go
to
"Installer
Setup
Options
(ISU)"
on
page
53
and
see
settings
(1055
&
5120-
5170).
Floor/slab
sensor
wiring
shown
on
following
page.
51 Floor
Temperature
Sensor
Installation
T10+
Thermostat
is
compatible
with
the
following
10K
ohm
floor
temperature
sensors:
AC112-
01.
M39065
F
LO
O
R
SENSOR
CONDUIT
SLAB
HEATING PIPES
Figure
80:
Floor
sensor
conduit
position
in
a
slab
The
floor
temperature
sensor
needs
to
be
installed
mid
way
between
the
piping
to
ensure
proper
temperature
reading
(not
over
or
right
next
to
piping).
Example:
For
a
12”
pipe
spacing
install
the
sensor
6”
away
from
the
piping
and
ensure
the
sensor
is
vertically
centered.
We
recommend
installing
the
floor
temperature
sensor
inside
of
min.
0.5’’
PEX
pipe.
This
simplifies
future
sensor
replace
-
ment,
if
required.
In
a
small
room,
position
the
sensor
in
the
center
of
the
floor.
In
larger
rooms,
ensure
the
sensor
is
at
least
7
feet
from
the
wall.
Recommended
Floor
Temperatures
Settings
Recommended
maximum
floor
temperature
is
90
°F
(32
°C)
for
most
floor
covering
types
except
wood.
Suggested
max
-
imum
floor
temperature
for
wood
floor
is
85
°F
(29.5
°C).
Freeze
protection
temperature
for
garages
and
basements
is
suggested
to
be
set
between
41
°F
-
45
°F
(5
°C
-
7.2
°C).
See
ISU
settings
(1055,
3250,
and
5120-
5170)
UWP
M39066
S
S
AC112-01 FLOOR/
SLAB SENSOR *
NOTE: IF EIM IS USED, WIRE TO ANY OF THE
AVAILABLE SETS OF S (S1, S2, S3, S4)
Figure
81:
Floor
sensor
and
UWP
installation
OR
S
2
S
2
S
1
S
1
S
4
S
4
S
3
S
3
SENSORS
SENSORS
M39067
AC112-01 FLOOR/
SLAB SENSOR *
Figure
82:
Floor
sensor
and
EIM
installation
Wire
the
floor/slab
sensor
to
the
S
terminals
on
the
UWP
if
EIM
is
not
used.
If
EIM
is
used,
wire
floor/slab
sensor
to
any
of
the
sets
of
S
terminals.
Make
sure
the
floor/slab
sensor
settings
match
the
wiring.
See
ISU
settings
(1055,
3250,
and
5120-
5170).
*
A
10K
ohm
TekMar
slab
sensor
could
be
used
in
place
of
the
AC112
01
Floor
sensor
Important
Erratic
temperature
readings
from
a
sensor
can
occur
as
a
result
of
any
of
the
wiring
practices
described
below.
Avoid
these
practices
to
assure
correct
operation.
Use
shielded
cable
to
reduce
interference
if
rerouting
of
sensor
wiring
is
not
possible.
l
Be
sure
wires
have
a
cable
separate
from
the
thermostat
cable.
l
Do
not
route
temperature
sensor
wiring
with
building
power
wiring,
next
to
control
contacts
or
near
light
dimming
circuits,
electric
motors
or
welding
equipment.
l
Avoid
poor
wiring
connections.
l
Avoid
intermittent
or
missing
building
earth
ground.
52 INSTALLER
SETUP
(ISU)
New
Installation
1.
After
the
thermostat
has
powered
up,
touch
GET
STARTED
on
the
thermostat.
2.
After
selecting
the
correct
option
for
each
setting,
Touch
NEXT
at
the
bottom
of
the
display
to
advance
to
the
next
option.
3.
To
see
a
list
of
all
setup
parameters,
go
to
"Installer
Setup
Options
(ISU)"
below
.
The
thermostat
displays
the
ISU
name.
4.
To
finish
setup
and
save
your
settings,
touch
Done
in
the
upper
left
of
display.
Revising
Settings
If
this
is
not
a
new
installation
and
you
want
to
access
the
Installer
setup
to
change
settings:
1.
Touch
the
Menu
icon
(3
horizontal
lines
at
bottom
of
display).
2.
Scroll
down
and
touch
Thermostat
Information
.
3.
Write
down
the
date
code
from
that
screen.
The
touch
the
left
arrow
at
top
of
display
to
go
to
previous
screen.
4.
Scroll
down
until
Installer
Options
is
shown.
Touch
Installer
Options
and
enter
date
code.
5.
Select
Installer
Setup
.
6.
After
selecting
the
correct
option
for
each
setting,
Touch
NEXT
at
the
bottom
of
the
display
to
advance
to
the
next
option.
7.
To
see
a
list
of
all
setup
parameters,
go
to
"Installer
Setup
Options
(ISU)"
below
.
8.
To
finish
setup
and
save
your
settings,
touch
Done
in
the
upper
left
of
display.
Installer
Setup
Options
(ISU)
NOTE:
Firmware
is
occasionally
updated
at
the
factory
or
over
the
air.
Some
ISU
settings
may
not
be
shown
on
models
that
lack
the
latest
firmware.
Light
commercial
and
fan
coil
unit
settings
available
on
T10+
with
firmware
03.03.08.02
or
later)
ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
1000
Language
What
language
would
you
like
to
use?
l
English
l
Francais
l
Espanol
No
Both
ISU
number
not
displayed
during
initial
setup
1010
Application
What
type
of
install
-
ation
will
this
ther
-
mostat
be
used
for?
l
Residential
l
Commercial
No
T10+
Available
on
T10+
&
EIM
with
latest
firmware
None
shown
Room
In
what
type
of
room
will
this
ther
-
mostat
be
installed?
l
Bedroom
l
Living
space
l
Area
l
Unit
name
or
Other
Options
shown
vary
for
Res
-
idential
or
light
commercial
No
Both
(light
com-
mercial
for
T10+
only)
Only
shown
during
initial
setup
1030
Home
Screen
Would
you
like
the
device
name
dis
-
played
on
the
home
screen?
l
No
l
Yes
1010
=
light
com
-
mercial
No
T10+
1050
Units
Which
temperature
scale
would
you
like
to
use?
l
Fahrenheit
l
Celsius
No
Both
53 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
No
ISU
number
Equipment
Inter
-
face
Module
Do
you
have
an
Equipment
Inter
-
face
Module
(EIM)?
l
Yes,
I
have
an
EIM
l
No
T10+
Only
shown
during
initial
setup
No
ISU
number
Wireless
setup
Press
and
release
CONNECT
button
on
the
Equipment
Interface
module
(EIM).
When
the
Connect
light
is
flashing
green
on
the
EIM,
then
press
Next.
NEXT
Yes
T10+
Only
shown
during
initial
setup
1055
Floor
sensor
Floor
sensor
l
No
or
l
Wired
No
T10+
1060
Outdoor
Tem
-
perature
Outdoor
Tem
-
perature
l
None
l
Wired
l
Wireless
*
l
Internet
(
*
Wireless
automatically
selected
if
sensor
added
during
setup)
Wireless
only
shown
if
C7089R3013
has
been
linked
to
T10+
during
setup.
No
See
notes
*
T10
&
T10+
have
this
setting
but
wireless
outdoor
sensor
only
for
T10+
2000
System
Type
System
Type
l
Conventional
Forced
Air
Heat
l
Heat
Pump
l
Radiant
Heat
l
Fan
Coil
*
l
Other
l
None
(Cool
only)
No
Both
*
Fan
coil
option
only
shown
here
for
T10+
with
latest
firmware.
For
older
firmware
and
T10
models:
If
you
select
Conventional
Forced
Air
here,
you
will
get
the
option
for
Hot
Water
Fan
Coil
in
2010.
2010
Equipment
type
Equipment
type
l
Standard
Efficiency
Gas
Forced
Air
l
High
Efficiency
Gas
Forced
Air
l
Oil
Forced
Air
l
Electric
Forced
Air
l
Hot
Water
Fan
Coil
*
2000
=
Con
-
ventional
Forced
Air
Heat
No
Both
*
If
a
T10+
with
firmware
03.03.08.02
or
later,
there
is
a
setting
for
Fan
Coil
under
2000
(row
above).
When
selected,
you
will
see
options
for
Hot
Water
Fan
Coil,
2-
pipe,
or
4-
pipe
in
ISU
2010
Equipment
type
l
Air
to
Air
Heat
Pump
l
Geothermal
Heat
Pump
2000
set
to
Heat
Pump
No
Both
Equipment
type
l
Gravity
or
l
Other
2000
=
other
No
Both
Equipment
type
l
Hot
water
radiant
heat
l
Hot
water
radiant
floor
heat
*
l
Steam
2000
set
to
Radi
-
ant
Heat
No
Both*
*
Hot
water
radiant
floor
heat
for
T10+
only
Equipment
type
l
Hot
water
fan
coil
l
2-
pipe
l
4-
pipe
2000
=
fan
coil
No
2-
pipe
and
4-
pipe
for
T10+
only.
Added
with
Firmware
03.03.08.02
or
later
54 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
2054
Fan
coil
Changeover
sensor
l
None
l
Dry
contact
l
10K
l
20K
2010
=
2-
pipe
No
T10+
Method
for
T10+
to
determine
if
pipe
is
hot
or
cold.
The
2-
pipe
FCU
wiring
diagrams
show
how
this
should
be
wired
to
the
T10+
or
EIM
2055
Fan
coil
Changeover
sensor
setup
l
Dry
contact
open
in
Cool
l
Dry
contact
open
in
Heat
2054
=
dry
con
-
tact
No
T10+
2056
Fan
coil
Changeover
wiring
assignment
l
None
l
Thermostat
S1
l
EIM
S1-
S4
(If
EIM
is
used,
only
EIM
S1-
S4
options
are
shown)
2054
=
10K
or
20K
No
T10+
2060
Reversing
Valve
Reversing
Valve
l
O
(O/B
on
Cool)
or
l
B
(O/B
on
Heat)
2000
set
to
Heat
Pump
No
Both
2070
Equipment
stages
Cool
stages
l
0-
2
stages
if
1010
=
Residential
l
0-
4
if
1010
=
Light
Commercial
2000
set
to
other
than
Heat
Pump
EIM
needed
for
4
cool
stages
Both
Heat
stages
l
1-
2
if
EIM
is
not
used
l
1-
3
if
EIM
is
used.
No
Both
Radiant
Heat
Stages
l
1
if
1055
=
Yes
l
1
or
2
if
1055
=
No
&
2000
=
Radiant
1055
set
to
Wired
or
2000
=
Radiant
Heat
No
Both
Compressor
Stages
l
1
l
2
2000
set
to
Heat
Pump
No
Both
Fan
Coil
Heat
Stages
l
1
l
2
l
3
2010
=
Hot
Water
Fan
Coil
See
notes
Both
EIM
needed
for
3
stages
Electric
Forced
Air
Heat
Stages
l
1
l
2
l
3
2010
=
Electric
Forced
Air
See
notes
Both
EIM
needed
for
3
stages.
Fan
coil
stages
l
1
2000
=
fan
coil
No
T10+
Backup
Heat
Stages
l
0
l
1
l
2
*
2000
set
to
Heat
Pump
or
2-
Pipe
Fan
Coil
See
notes
Both
*
2
only
shown
for
heat
pump
and
using
EIM
2080
Terminal
assign
-
ment
What
terminals
are
wired
to
cool
stage
3?
l
U
on
UWP
when
EIM
isn’t
used
l
U1-
U3
if
EIM
is
used
2070
=
3
or
4
Cool
stages
No
T10+
See
wiring
diagrams
for
cool
3-
4
wiring.
2090
Terminal
assign
-
ment
What
terminals
are
wired
to
cool
stage
4?
l
U1-
U3
if
EIM
is
used.
2070
=
4
Cool
stages
Yes
T10+
55 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
2105
Fan
Control
Fan
stages
l
1
-
3
2010
=
2-
pipe
or
4-
pipe
Fan
Coil
No
T10+
During
setup,
T10+
instructs
where
to
wire
this
to.
There
are
also
wiring
diagrams
in
this
file.
*
If
only
2
fan
speeds
are
used,
ISU
2106
will
say
High
Speed
rather
than
Medium
Speed
2106
Fan
Coil
Medium
*
Fan
Speed
Wiring
Assignment
l
None
l
Y2
l
EIM
Y2*
2105
=
2
-
3
No
T10+
2107
Fan
Coil
High
*
Fan
Speed
Wiring
Assignment
l
None
l
Thermostat
U1
l
EIM
U1
l
EIM
U2
l
EIM
U3
2105
=
3
No
T10+
2110
Fan
Control
Fan
Operation
in
Heat
l
Equipment
Controls
fan
l
Thermostat
controls
fan
2010
=
other,
Electric
Forced
Air
No
Both
2120
Backup
heat
type
Backup
heat
type
l
None
l
Standard
Efficiency
Gas
Forced
Air
l
High-
Efficiency
Gas
Forced
Air
l
Oil
Forced
Air
l
Electric
Forced
Air
l
Hot
Water
Fan
Coil
l
Hot
Water
Radiant
Heat
l
Other
1055
=
wired
floor
sensor,
or
2000
=
Radiant
Heat
No
Both
2130
Backup
heat
stages
Backup
heat
stages
l
1
l
2
*
(Only
1
if
2070
=
2
Radi
-
ant
Heat
stages)
ISU
1055
=
Wired
or
2000
=
Radiant
&
2120
=
other
than
None
No
Both
*
EIM
needed
for
2
backup
stages.
2150
Backup
Heat
oper
-
ation
Backup
Heat
oper
-
ation
l
NOT
Allowed
to
Run
with
Fan
Coil
Heat
l
Allowed
to
Run
with
Fan
Coil
Heat
2010
=
Hot
Water
Fan
Coil
and
2130
=
other
than
0
No
T10+
2160
Fan
Control
Backup
Heat
Fan
Control
l
Equipment
controls
fan
l
Thermostat
controls
fan
2120
=
electric
or
other
No
Both
2175
Backup
Heat
Aux/E
Terminal
Con
-
trol
l
Drive
Aux
and
E
together
l
Aux
and
E
inde
-
pendent
2070
Backup
Heat
stages
=
1
No
*
Both
*
2175
is
not
shown
and
defaults
to
drive
aux
and
E
together
when
EIM
is
used.
2180
Backup
Heat
Backup
Heat
Type
l
Electric
Forced
Air
l
Standard
Efficiency
Gas
Forced
Air
l
High
Efficiency
Gas
Forced
Air
l
Oil
Forced
Air
l
Hot
Water
Fan
Coil
l
Hot
Water
Radiant
Heat
l
Other
2070
Backup
Heat
stages
=
1
or
2
No
Both
56 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
2185
Emergency
Heat
Emergency
Heat
Type
l
Electric
Forced
Air
l
Standard
Efficiency
Gas
Forced
Air
l
High
Efficiency
Gas
Forced
Air
l
Oil
Forced
Air
l
Hot
Water
Fan
Coil
l
Hot
Water
Radiant
Heat
l
Other
2175
=
inde
-
pendent
No
*
Both
*
2175
&
2185
are
not
an
option
when
EIM
is
used.
2190
External
Fossil
Fuel
Kit
External
Fossil
Fuel
Kit
l
Thermostat
Controls
Backup
Heat
l
External
Fossil
Fuel
Kit
Controls
Backup
Heat
2000
=
heat
pump,
2180
=
Gas
or
oil
forced
air
No
Both
When
set
for
external
fossil
fuel
kit,
the
thermostat
may
run
the
heat
pump
and
backup
heat
at
the
same
time,
assuming
the
external
fossil
fuel
kit
will
do
the
lockouts
2200
Backup
Heat
Oper
-
ation
Backup
Heat
Oper
-
ation
l
NOT
Allowed
to
Run
with
Heat
Pump
l
Allowed
to
Run
with
Heat
Pump
2180
set
for
Hot
Water
or
Other
No
Both
2205
Emergency
Heat
Operation
Emergency
Heat
Operation
l
NOT
Allowed
to
Run
with
Heat
Pump
l
Allowed
to
Run
with
Heat
Pump
2150
set
for
Hot
Water
or
Other
No
*
Both
*
2175
and
2205
are
not
options
when
EIM
is
used.
2210
Fan
Control
Backup
Heat
Fan
Operation
l
No
Fan
l
Equipment
controls
fan
l
Thermostat
controls
fan
2180
=
other
No
T10+
2216
Economizer/
Time
of
Day
Economizer
/
Time
of
Day
l
None
l
Economizer
l
Time
of
Day
1010
=
Com
-
mercial
No
T10+
See
wiring
diagrams
for
Econom
-
izer
2217
Economizer
What
terminals
are
wired
to
the
Economizer
output?
l
U
on
UWP
when
EIM
isn’t
used
l
U1-
U3
if
EIM
is
used
2216
=
Econom
-
izer
No
T10+
See
wiring
diagrams
for
Econom
-
izer
2218
Time
of
Day
What
terminals
are
wired
to
the
Time
of
Day
output?
l
U
on
UWP
when
EIM
isn’t
used
l
U1-
U3
if
EIM
is
used
2216
=
Time
of
Day
No
T10+
See
wiring
diagrams
for
Time
of
Day
2220
L
Terminal
alert
What
is
the
L
Ter
-
minal
used
for?
l
Economizer
Failure
indication
l
Heat
Pump
Fault
indication
Options
shown
if
ISU
2000
=
heat
pump
or
2216=
Economizer.
If
2054
=
Dry
Contact,
then
2220
is
not
shown
No
T10+
2230
Control
mode
Control
Mode
l
Air
and
Floor
l
Air
only
l
Floor
only
1055
set
to
Wired
No
T10+
No
Floor
only
option
if
there
is
a
Cool
stage
or
Backup
Heat
stage.
2240
Occupancy
sensing
Remote
Setback
l
No
Remote
Setback
l
L
Terminal
(No
EIM)
l
Dry
contacts
(EIM
Used)
l
Wireless
sensor
Wireless
sensor
(s)
option
requires
C7189R2002
or
C7189R3002
wireless
indoor
sensor
(s)
No
T10+
See
the
"Remote
Setback
(Occu
-
pancy
Setback
/
Occupancy
Sensor)"
on
page
105
sections
for
the
uses
of
this
setting,
its
oper
-
ation
and
its
wiring
options
57 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
3000
Changeover
Changeover
l
Manual
l
Automatic
Any
system
with
at
least
1
Heat
stage
&
1
Cool
stage
No
Both
3015
Auto
Changeover
Differential
0-
5F
(0.00
to
2.50C)
3000=
auto
No
Both
3020
Staging
control
Finish
with
high
cool
stage
l
No
l
Yes
2
cool/
com
-
pressor
stages
No
Both
3021
Staging
control
Finish
with
high
heat
stage
l
No
l
Yes
At
least
2
heat
stages
No
Both
3030
Staging
control
Cool
differential
stage
2
l
Comfort
l
1.0°F
/.50°C
l
1.5°F
/.75°C
l
2.0°F
/1.00°C
l
2.5°F
/1.25°C
l
3.0°F
/1.50°C
l
3.5°F
/1.75°C
2
cool
stages
selected
No
Both
3050
Staging
control
Radiant
heat
dif
-
ferential
l
Comfort
l
1.0°F
/.50°C
l
1.5°F
/.75°C
l
2.0°F
/1.00°C
l
2.5°F
/1.25°C
l
3.0°F
/1.50°C
l
3.5°F
/1.75°C
There
are
2
stages
of
radiant
heat
selected
for
2070.
No
Both
Heat
Differentials
l
Stage
2:
l
Comfort
l
1.0°F
-
3.5°F
2000
=
Con
-
ventional
Forced
air
+
2070
=
2
or
3
No
T10+
l
Stage
3:
l
Comfort
l
1.5°F
to
4.0°F
2000
=
Con
-
ventional
Forced
air
+
2070
=
3
Yes
T10+
3060
Staging
control
Compressor
Heat
Differential
Stage
2
l
Comfort
l
1.0°F
/.50°C
l
1.5°F
/.75°C
l
2.0°F
/1.00°C
l
2.5°F
/1.25°C
l
3.0°F
/1.50°C
l
3.5°F
/1.75°C
2000
=
Heat
Pump
and
2070
Compressor
stages
=
2
No
Both
3080
Staging
control
Backup
Heat
dif
-
ferentials
Stage
1:
l
Comfort
*
l
2.0°F
to
15°F
(1.00°C
to
7.5°C)
Radiant
heat
with
1
or
2
backup
heat
stages
No
Both
*
If
2
stages
of
backup
heat.
The
2nd
backup
stage
is
forced
to
be
at
least
.5
degrees
higher
than
first
stage
Backup
Heat.
Stage
2:
l
Comfort
*
l
2.5°F
to
15.5°F
(1.25°C
to
7.75°C)
Radiant
heat
with
2
backup
heat
stages
Yes
T10+
58 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
3090
Staging
control
Backup
Heat
dif
-
ferentials
Stage
1:
l
Comfort
*
l
2.0°F
to
15°F
(1.00°C
to
7.5°C)
Heat
pump
of
FCU
with
1
or
2
backup
heat
stages
No
Both
*
Comfort
setting
not
available
for
Dual
Fuel.
See
section
on
Backup
heat
dif
-
ferentials,
Upstage
Timer,
and
Hol
-
doff
Timer.
For
an
FCU,
the
thermostat
will
automatically
switch
to
Em
Heat
mode
and
run
the
backup
heat
if
the
thermostat
had
been
in
heat
mode
and
pipe
sensor
detects
pipe
is
no
longer
in
the
heat
tem
-
perature
threshold.
If
you
don’t
want
to
switch
to
the
backup
heat
when
that
pipe
is
warm,
set
a
high
Differential
set
-
ting
and
set
the
timers
to
the
max
-
imum
settings.
Stage
2:
l
Comfort
*
l
2.5°F
to
15.5°F
(1.25°C
to
7.75°C)
Heat
pump
selec
-
ted
with
2
Backup
Heat
stages
Yes
T10+
3110
Staging
control
Backup
heat
upstage
timer
l
Off
l
30
minutes
l
45
minutes
l
60
minutes
l
75
minutes
l
90
minutes
l
2
hours
l
3
hours
l
4
hours
l
5
hours
l
6
hours
l
8
hours
l
10
hours
l
12
hours
l
14
hours
l
16
hours
3090
set
for
other
than
“
Com
-
fort
”
No
Both
Backup
Heat
hol
-
doff
timer
l
Auto
l
15
minutes
l
30
minutes
l
45
minutes
l
60
minutes
l
75
minutes
l
90
minutes
l
105
minutes
l
120
minutes
Upstage
timer
set
to
other
than
“
Off”
.
No
T10+
3120
Equipment
Lock
-
outs
Compressor
Lock
-
out/Balance
point
l
Off
l
-
15°F
to
50°F
(-
26.0°C
to
15.5°C)
Configured
for
heat
pump
with
an
Aux
Heat
stage
No
Both
Backup
Heat
Lock
-
out
l
Off
l
55°F
to
65°F
(-
15°C
to
18.5°C)
No
Both
3125
Equipment
Lock
-
outs
Fan
Lockout
after
cool
call
ends
l
Off
l
5-
120
minutes
in
5
minute
increments
2070
=
at
least
1
cool/compressor
stage
No
T10+
This
locks
out
the
fan
after
a
cool
call
even
if
the
fan
is
set
to
On
or
Circ
mode
or
if
the
fan
is
set
to
run
for
air
temperature
balancing.
3140
Cycle
rates
Cool
Cycles
Per
hour
Stage
1:
Settings
1-
6
2000
=
other
than
heat
pump.
2070
=
1
or
2
No
Both
Stage
2:
l
Settings
1-
6
2000
=
other
than
heat
pump.
2070
=
2
No
Both
Compressor
Cycles
Per
Hour
Stage
1:
l
Settings
1-
6
2000
=
heat
pump
No
Both
Stage
2:
l
Settings
1-
6
2000
=
heat
pump,
2070
=
2
No
Both
59 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
3150
Cycle
rates
Radiant
Heat
cycles
per
hour
Stage
1
l
Settings
1-
12
At
least
1
Radiant
Heat
stage
No
Both
Stage
2
l
Settings
1-
12
2
Radiant
Heat
stages
No
T10+
Heat
Cycles
per
hour
Stage
1
l
Settings
1-
12
2000
=
Con
-
ventional
Forced
Air,
or
Other
No
Both
Stage
2
l
Settings
1-
12
2000
=
Con
-
ventional
Forced
Air
&
2070
=
2-
3
heat
stages
No
Both
Stage
3
l
Settings
1-
12
2000
=
Con
-
ventional
Forced
Air
&
2070
=
3
heat
stages
Yes
T10+
Primary
Heat
Cycles
per
hour
Settings
1-
12
2010
T10+
Added
to
firmware
versions
03.03.08.02
and
later
3160
Cycle
rates
Backup
heat
cycles
per
hour
Backup
heat
cycles
per
hour
l
Settings
1-
12
2130
=
at
least
1
Backup
Heat
stage
selected
No
Both
Backup
heat
cycles
per
hour
Backup
heat
cycles
per
hour
stage
2
l
Settings
1-
12
2130
=
2
Backup
Heat
stage
selec
-
ted
Yes
T10+
3240
Temperature
Control
Minimum
Fan
Coil
Off
Time
Settings:
l
Off
l
1-
5
minutes
in
1-
minute
increments
3250
Temperature
Control
Minimum
non-
com
-
pressor
on
time
l
Off
l
2
minutes
l
5
minutes
2000
=
Radiant
Heat
No
T10+
60 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
3260
Temperature
Control
Extended
fan
run
times
Extended
fan
run
time
in
Cool:
l
Off
l
30
seconds
l
60
seconds
l
90
seconds
l
2
minutes
l
3
minutes
l
4
minutes
l
5
minutes
l
6
minutes
l
7
minutes
l
8
minutes
l
9
minutes
l
10
minutes
l
11
minutes
l
12
minutes
l
13
minutes
l
14
minutes
l
15
minutes
At
least
1
cool
stage
No
Both
Extended
fan
run
time
in
Heat:
l
Off
l
30
seconds
l
60
seconds
l
90
seconds
l
2
minutes
l
3
minutes
l
4
minutes
l
5
minutes
l
6
minutes
l
7
minutes
l
8
minutes
l
9
minutes
l
10
minutes
l
11
minutes
l
12
minutes
l
13
minutes
l
14
minutes
l
15
minutes
At
least
1
Heat
stage
No
Both
3300
Temperature
Control
Temperature
Balan
-
cing
l
Off
l
On
No
T10+
See
"Temperature
balancing
(T10+
model
only)"
on
page
82
.
3310
Temperature
Control
Temperature
Balan
-
cing
Room
Delta
l
0
.
5°F
to
10°F
in
.5°F
increments
(.25°C
to
5°C
in
2.5°C
increments)
3320
Fan
Control
Fan
Modes
Allowed
l
Auto
l
Multiple
Speeds
l
Auto
&
Multiple
Speeds
2105
=
2
or
3
No
T10+
For
settings
and
options:
See
"Fan
Coil
Unit
Settings
and
Operation"
on
page
104
3325
Fan
Control
Start
Fan
on
the
Highest
Stage
l
Off
l
On
2105
=
2
or
3
T10+
3340
Fan
Control
Fan
reset
to
Auto
Mode
timer
l
Off
l
2
hours
l
4
hours
2010
=
2-
pipe
or
4-
pipe
T10+
61 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
4010
Fan
Control
Pre-
Occupancy
Purge
Duration
l
Off
l
1
hour
l
2
hours
l
3
hours
1010
=
Light
Commercial
No
T10+
Run
fan
prior
to
occupied
period
4020
Type
of
Override
Type
of
Override
l
Standard
l
Initiate
Occupancy
1010
=
Light
Commercial
No
T10+
See
description
in
"Commercial
Features"
on
page
112
.
4030
Override
Duration
Override
Duration
l
No
limit
l
1
–
12
hours
in
1
hour
increments
1010
=
Light
Commercial
No
T10+
4050
Temperature
Con
-
trol
Heat
Recovery
Ramp
Rate
(cold
day)
l
Off
l
1°F-
20°F
per
hour
in
1°F
increments
1010
=
light
com
-
mercial.
1060
(Outdoor
Temperature)
must
be
set
to
other
than
“None”,
to
see
the
outdoor
temp
set
-
tings
for
4050-
4080.
If
set
to
“Wired”,
5050
must
also
be
set
to
other
than
“None”
No
T10+
The
heating
system
will
begin
recovery
at
the
time
that
is
sched
-
uled.
When
a
Minimum
Recovery
Ramp
Rate
is
set,
the
thermostat
will
begin
recovery
early
to
ensure
that
the
temperature
is
reached
at
the
scheduled
time.
Set
a
Min
-
imum
Recovery
Ramp
Rate
based
on
the
rate
that
the
heating
sys
-
tem
can
recover
at
for
a
cold
day
in
your
region.
Default
setting
is
5F
/
hour.
Set
an
Outdoor
Tem
-
perature
that
is
representative
of
a
cold
day
in
your
region
to
be
associated
with
the
Minimum
Recovery
Ramp
Rate.The
ther
-
mostat
will
begin
recovery
at
the
optimal
time
based
on
a
cal
-
culated
ramp
rate.
During
recov
-
ery,
the
setpoint
changes
at
a
rate
in
degrees
per
hour
depending
on
the
outdoor
sensor,
the
Minimum
Recovery
Ramp
Rate
is
used.
Outdoor
Tem
-
perature
l
-
20°F
through
120°F
in
1
degree
F
increments
4060
Temperature
Con
-
trol
Heat
Recovery
Ramp
Rate
(mild
day)
l
Off
l
1°F-
20°F
per
hour
in
1°F
increments
Outdoor
Tem
-
perature
l
-
20°F
through
120°F
in
1°F
incre
-
ments
4070
Temperature
Con
-
trol
Cool
Recovery
Ramp
Rate
(hot
day)
l
Off
l
1F-
20°F
per
hour
in
1
degree
F
incre
-
ments
Outdoor
Tem
-
perature
l
-
20°F
through
120°F
in
1
degree
F
increments
4080
Temperature
Con
-
trol
Cool
Recovery
Ramp
Rate
(mild
day)
l
Off
l
1°F-
20°F
per
hour
in
1
degree
F
incre
-
ments
Outdoor
Tem
-
perature
l
-
20°F
through
120°F
in
1
degree
F
increments
4090
Temperature
Con
-
trol
Adaptive
Intelligent
Recovery
l
No
l
Yes
No
Both
4100
Range
Stops
Temperature
range
stops
Minimum
cool
setpoint;
50F-
99F
(10C-
37C)
At
least
1
stage
of
cool
No
Both
There
is
a
correlation
between
these
settings.
For
example,
if
min
-
imum
cool
is
set
to
50F,
minimum
heat
cannot
be
set
above
40F
Maximum
cool
setpoint;
90F-
99F
(32C-
37C)
At
least
1
stage
of
cool
No
Both
Minimum
heat
setpoint;
40F-
50F
(4.5C-
10C)
At
least
1
stage
of
Heat
No
Both
Maximum
heat
setpoint;
40F-
90F
(4.5
-
32.0C)
At
least
1
stage
of
Heat
No
Both
4110
Keypad
lockout
Keypad
lockout
Unlocked,
partially
locked,
fully
locked
No
Both
62 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
5000
Sensors
What
sensors
are
WIRED
to
your
sys
-
tem?
l
Indoor
Air
Tem
-
perature
l
Outdoor
Air
Tem
-
perature
l
Return
Air
Tem
-
perature
l
Discharge
Air
Tem
-
perature
l
Floor
Temperature
l
Fan
Coil
Changeover
Tem
-
perature
Floor
sensor
only
shown
here
if
1055
is
set
to
Wired
.
Fan
Coil
Changeover
Tem
-
perature
only
shown
if
2054
=
10k
or
20k
No
Return,
Dis
-
charge
,
Floor
and
Fan
Coil
Change-
over
are
for
T10+
only.
5020
Sensors
What
Terminals
are
Wired
to
the
Indoor
Temperature
Sensor?
l
None
l
Thermostat
S1
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
5000
has
Indoor
Sensor
selected
No
Both
Options
depend
on
whether
EIM
is
used.
5030
Sensors
Indoor
Temperature
Sensor
Type
l
10K
l
20K
5000
has
Indoor
Sensor
selected
No
Both
5040
Sensors
Which
Sensors
will
be
used
for
TEMPERATURE
Con
-
trol?
(Multiple
sensors
are
aver
-
aged)
l
Thermostat
l
Indoor
sensor
(remote)
5000
set
for
Wired
Indoor
Sensor
No
Both
5050
Sensors
What
Terminals
are
Wired
to
the
Out
-
door
Air
Temperature
Sensor?
l
None
l
Thermostat
S1
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
1060
set
to
Wired
No
Both
Options
depend
on
whether
EIM
is
used.
5070
Sensors
What
Terminals
are
Wired
to
the
Return
Air
Temperature
Sensor?
l
None
l
Thermostat
S1
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
5000
has
Return
Sensor
selected
T10+
Options
depend
on
whether
EIM
is
used.
5080
Sensors
Return
Temperature
Sensor
Type
l
10K
l
20K
5000
has
Return
sensor
selected
No
T10+
5090
Sensors
What
Terminals
are
Wired
to
the
Dis
-
charge
Air
Tem
-
perature
Sensor?
l
None
l
Thermostat
S1
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
5000
has
Dis
-
charge
Sensor
selected
No
T10+
Options
depend
on
whether
EIM
is
used.
5100
Sensors
Discharge
Tem
-
perature
Sensor
Type
l
10K
l
20K
5000
has
Dis
-
charge
Sensor
selected
No
T10+
5110
Sensors
A-
Coil
Low
Tem
-
perature
Cutoff
l
Off,
l
5°F
to
65°F
(-
15°C
to
18.5°C)
At
least
1
cool
stage
No
T10+
63 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
5120
Sensors
What
Terminals
are
Wired
to
the
Floor
Temperature
Sensor?
l
None
l
Thermostat
S1
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
1055
set
to
“Wired”
Yes
T10+
Options
depend
on
whether
EIM
is
used.
5150
Floor
Temperature
Limits
Minimum
Limit
Minimum
Limit
=
40°F-
89°F
(4.5°C
to
31.5°C)
ISU
2230
=
Air
&
Floor
No
T10+
Top
range
affected
by
Maximum
limit
setting
Maximum
Limit
Maximum
Limit
=
50°F-
99°F
(10.0°C
to
37.0°C)
No
T10+
Bottom
range
affected
by
Min
-
imum
limit
setting
5160
Floor
Economy
Mode
Floor
Economy
Mode
l
Yes
l
No
5000
has
Floor
Sensor
selected
No
T10+
If
enabled,
Low
Floor
Temperature
Limit
(ISU
5150)
will
be
disabled
during
Away
and
Sleep
period.
This
ISU
is
only
displayed
if
Tem
-
perature
Control
Mode
(ISU
2230)
is
set
to
AF
mode.
5170
Freeze
Protection
Freeze
Protection
l
Off
l
40°F-
50°F
(4.5°C
to
10°C)
(Off
only
available
for
non-
radiant
systems)
Cannot
be
below
minimum
setting
in
5150
(if
used).
No
T10+
The
thermostat
operates
the
heat
whenever
the
room
temperature
falls
below
that
limit,
even
when
the
system
is
set
to
off.
Default
setting
is
Off
(disabled)
for
non-
radiant
systems
and
40°F
(4.5°C)
for
radiant
systems.
Freeze
pro
-
tection
temperature
cannot
be
set
above
ISU
5150
minimum
set
-
ting.
5200
Changeover
Setup
Temperature
Thresholds
l
Cooling
Threshold
50°F-
72°F
(10°C
to
22°C)
l
Heating
Threshold
75°F-
90°F
(24°C
to
32°C)
5000
=
Fan
coil
changeover
No
T10+
See
"Fan
Coil
Unit
Settings
and
Operation"
on
page
104
6000
Dry
Contacts
Select
the
Dry
Contacts
in
the
Sys
-
tem
l
Remote
Setback
l
Full
Drain
Pan
Alert
l
Dirty
Filter
Alert
l
Water
Leak
Alert
l
System
Shutdown
Alert
l
Service
Needed
Alert
l
Fan
Failure
Alert
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6005
Custom
Dry
Contact
alerts
Select
Custom
Dry
Contact
alerts
l
Custom
Alert
1
l
Custom
Alert
2
l
Custom
Alert
3
l
Custom
Alert
4
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
64 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
6010
Dry
Contacts
What
terminals
are
wired
to
the
Remote
Setback
Dry
Contact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
=
Remote
Setback
Yes
T10+
See
"Remote
Setback
(Occupancy
Setback
/
Occupancy
Sensor)"
on
page
105
6020
Dry
Contacts
Remote
Setback
Dry
Contact
Setup
l
Normally
Open
when
Occupied
l
Normally
Closed
when
Occupied
2240
=
L
ter
-
minal
or
6010
=
S1-
S4
No
T10+
6030
Dry
Contacts
Remote
Setback
Time
Delayed
from
Occupied
to
Unoc
-
cupied
0
Minutes
to
30
Minutes
in
5
minute
increments
2240
=
Other
than
"None"
No
T10+
6040
Dry
Contacts
Remote
Setback
–
Standby
Cool
Set
-
point
72°F-
90°F
Remote
Setback
–
Standby
Heat
Set
-
point
50°F-
70°F
6050
Dry
Contacts
What
terminals
are
wired
to
the
Full
Drain
Pan
Alert
dry
contact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
has
full
drain
pan
selec
-
ted
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6060
Dry
Contacts
Full
Drain
Pan
Alert
dry
contact
setup
l
Normally
open
l
Normally
closed
6000
has
full
drain
pan
selec
-
ted
Yes
T10+
6065
Dry
Contacts
Full
Drain
Pan
Alert
dry
contact
actions
System
shutdown
l
Select
l
De-
select
6000
has
Full
Drain
Pan
selec
-
ted
Yes
T10+
6070
Dry
Contacts
What
terminals
are
wired
to
the
Dirty
Fil
-
ter
Alert
dry
con
-
tact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
has
Dirty
Filter
Alert
selec
-
ted
Yes
T10+
6080
Dry
Contacts
Dirty
Filter
Alert
dry
contact
setup
l
Normally
open
l
Normally
closed
Yes
T10+
6090
Dry
Contacts
What
terminals
are
wired
to
the
Water
Leak
Alert
dry
con
-
tacts?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
has
water
leak
selected
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6100
Dry
Contacts
Water
Leak
Alert
dry
contact
setup
l
Normally
open
l
Normally
closed
6000
has
water
leak
selected
Yes
T10+
6110
Dry
Contacts
What
terminals
are
wired
to
the
System
Shutdown
Alert
dry
contact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
has
system
shut
down
alert
selected
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6120
Dry
Contacts
System
shut
down
alert
dry
contact
setup
l
Normally
open
l
Normally
closed
Yes
T10+
65 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
6130
Dry
Contacts
What
terminals
are
wired
to
the
Service
Needed
Alert
dry
contact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
has
Service
Needed
Alert
selected
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6140
Dry
Contacts
Service
Needed
Alert
dry
contact
setup
l
Normally
open
l
Normally
closed
Yes
T10+
6150
Dry
Contacts
What
terminals
are
wired
to
the
Fan
Failure
Alert
dry
con
-
tact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6000
has
Fan
Failure
Alert
selected
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6160
Dry
Contacts
Fan
Failure
Alert
dry
contact
setup
l
Normally
open
l
Normally
closed
Yes
T10+
6190
Dry
Contacts
What
terminals
are
wired
to
the
custom
alert
1
dry
contact?
l
None
l
EIM
S1
l
EIM
S2
l
EIM
S3
l
EIM
S4
6005
has
cus
-
tom
alert
1
selec
-
ted
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6200
Dry
Contacts
Custom
alert
1
dry
contact
setup
l
Normally
open
l
Normally
closed
Yes
T10+
6210
Dry
Contacts
Custom
Alert
1
Name
Type
in
the
alert
name
Yes
T10+
6215
Dry
Contacts
Show
custom
alert
1
message
l
Yes
l
No
Yes
T10+
6220
Dry
Contacts
Custom
Alert
1
Mes
-
sage
Type
in
the
message
dis
-
played
when
this
alert
is
active
6215
set
to
Yes
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6230
Dry
Contacts
Custom
alert
1
actions
l
Lock
out
Heat
l
Lock
out
Cool
l
Activate
fan
l
Activate
custom
U
terminal
6005
has
cus
-
tom
alert
1
selec
-
ted
6240
Dry
Contacts
What
terminals
are
wired
to
custom
U
contact?
l
EIM
U1
l
EIM
U2
l
EIM
U3
6230
has
cus
-
tom
U
terminal
selected
Yes
T10+
When
the
switch
wired
to
theS
ter
-
minals
for
the
Custom
Dry
Contact
Alert
activates,
the
cus
-
tom
U
contacts
will
change
state
to
activate
or
shut
off
whatever
is
wired
to
those
terminals
6250
Dry
Contacts
Custom
U
dry
con
-
tact
name
Type
in
the
name
of
whatever
the
custom
U
Dry
Contact
is
controlling
6260
Dry
Contacts
Custom
U
dry
con
-
tact
setup
l
Normally
open
l
Normally
closed
6300
-
6370
These
are
duplicate
settings
to
6190-
6260
but
for
Dry
Contact
Alert
2
(if
selected)
6005
has
cus
-
tom
Dry
Contact
Alert
2
selected
Yes
T10+
6400
-
6470
These
are
duplicate
settings
to
6190-
6260
but
for
Dry
Contact
Alert
3
(if
selected)
6005
has
cus
-
tom
Dry
Contact
Alert
3
selected
Yes
T10+
66 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
6500-
6570
These
are
duplicate
settings
to
6190-
6260
but
for
Dry
Contact
Alert
4
(if
selected)
6005
has
cus
-
tom
Dry
Contact
Alert
4
selected
Yes
T10+
6600
Dry
contacts
Cool
Lockout
Delay
Time
l
Off
l
5-
60
minutes
in
5
minute
increments
6230,
6340,
6440,
or
6540
set
to
lock
out
cool
Yes
T10+
See
"Dry
Contact
Alerts
(ISU
6000-
6220)"
on
page
109
for
operation
details
6610
Dry
contacts
Cool
lockout
max
-
imum
indoor
tem
-
perature
l
None
l
80°F-
99°F
Yes
T10+
6620
Dry
contacts
Heat
Lockout
Delay
Time
l
Off
l
5-
60
minutes
in
5
minute
increments
6230,
6340,
6440,
or
6540
set
to
lock
out
Heat
Yes
T10+
6630
Dry
contacts
Heat
lockout
min
-
imum
indoor
tem
-
perature
l
None
l
40°F-
60°F
Yes
T10+
6640
Dry
contacts
Minimum
Off
Time
l
Off
l
1-
5
minutes
6230,
6340,
6440,
or
6540
set
to
lock
out
Heat
or
Cool
Yes
T10+
7000
Filtration
Filter
type
l
None
l
Electronic
air
cleaner
l
Media
No
Both
7020
Filtration
Number
of
air
filters
l
0
l
1
l
2
7000
=
media
No
Both
7110
Filtration
Replacement
reminders
Air
Filter
1
settings
and
Air
Filter
2
settings:
l
Off
l
10
Run
time
days
l
20
Run
time
days
l
30
Run
time
days
l
45
Run
time
days
l
60
Run
time
days
l
90
Run
time
days
l
120
Run
time
days
l
150
Run
time
days
l
30
Calendar
days
l
45
Calendar
days
l
60
Calendar
days
l
75
Calendar
days
l
3
Calendar
months
l
4
Calendar
months
l
5
Calendar
months
l
6
Calendar
months
l
9
Calendar
months
l
12
Calendar
months
l
15
Calendar
months
7020
=
1
or
2
No
Both
7020
=
2
No
Both
67 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
7120
Filtration
Electronic
Air
Cleaner
Reminders
Clean
cells,
options:
l
Off
l
6-
12
calendar
months
7000
=
electric
No
Both
Clean
Pre-
filters,
options:
l
Off
l
6-
12
calendar
months
No
Both
Replace
Post-
filters,
options:
l
Off
l
6-
12
calendar
months
No
Both
8000
Humidification
What
type
of
humid
-
ifier
do
you
have?
l
None
l
Steam
l
Bypass
l
Fan
powered
U
contacts
not
already
used
No
Both
8010
Humidification
What
sensors
will
be
used
for
Humid
-
ification
control
l
Thermostat
l
Wireless
sensors
8000
=
other
than
None
&
Wire
-
less
sensor
con
-
nected
to
thermostat
No
T10+
8030
Humidification
What
terminals
are
wired
to
the
humid
-
ifier?
l
None
l
Thermostat
U1
l
EIM
U1
l
EIM
U2
l
EIM
U3
Yes
T10+
Thermostat
U1
only
shown
when
EIM
not
used
8050
Humidification
Humidification
Win
-
dow
Protection
l
Off
l
On
1060
&
8000
=
other
than
"none".
Need
wired
or
wireless
outdoor
sensor
for
this
feature
No
Both
See
"Window
Protection"
on
page
94
for
more
details
8060
Humidification
System
modes
allow
-
ing
humidification
l
Heat
l
Cool
l
and/or
Off
8000
=
other
than
"None".
(Cool
option
only
when
discharge
sensor
selected
ISU
5000)
No
Both
(cool
only
for
T10+
with
DATS)
8070
Humidification
Humidification
con
-
trol
l
Humidify
Only
when
heat
is
on
l
Humidify
Only
when
fan
is
on
l
Humidify
on
demand:
Thermostat
controls
fan
l
Humidify
on
demand:
Humidifier
controls
fan
8000
set
to
other
than
None
No
Both
8080
Humidification
Humidifier
Lockout
l
Humidifier
allowed
when
Cool
is
run
-
ning
l
Humidifier
not
allowed
when
Cool
is
running
8060
set
to
Cool
No
T10+
68 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
8095
Humidification
Humidifier
Lockouts
Dry
Contacts
l
Full
Drain
Pan
l
Water
leak
l
Custom
Alerts
1
-
4
8000
=
steam,
by-
pass
or
fan
powered,
&
6000
=
full
drain
pan
or
water
leak,
OR
6005
is
set
for
custom
Dry
Contact
Alert
Yes
T10+
This
will
lock
out
the
humidifier
when
the
associated
Dry
Contact
Alert
is
active
8100
Humidification
Humidifier
Pad
replacement
reminder
l
Off
l
6
or
12
calendar
months
8000
=
none,
or
bypass
or
fan
powered
No
Both
8100
Humidification
Clean
tank/Water
Filter
replacement
Reminder
l
Off
l
60
or
90
run
time
days
l
6
or
12
calendar
months
8000
=
steam
No
Both
9000
Dehumidification
What
type
of
dehu
-
midification
equip
-
ment
do
you
have?
l
None
l
A/C
with
low
speed
fan
l
A/C
with
high
speed
fan
l
Whole
House
Dehu
-
midifier
l
Hot
Gas
Bypass
A/C
with
low
speed
fan
Dehumidifier
&
Hot
Gas
Bypass
only
shown
if
U
contacts
are
avail
-
able
No
Hot
Gas
Bypass
only
for
T10+
9005
Dehumidification
Dehumidification
Fan
speed
priority
l
Low
speed
fan
with
Cool
stage
1
only
l
Low
speed
fan
Always.
l
Selectable
by
user,
9000
=
A/C
with
Low
Speed
Fan
No
T10+
9010
Dehumidification
What
sensors
will
be
used
for
Humid
-
ification
control
l
Thermostat
l
Wireless
sensors
9000
=
A/C
with
Low
Speed
Fan,
Whole
House
Dehumidifier,
or
Hot
Gas
Bypass
No
T10+
9040
Dehumidification
What
terminals
are
wired
to
the
dehu
-
midification
equip
-
ment?
l
None
l
Thermostat
U
l
EIM
U1
l
EIM
U2
l
EIM
U3
9000
=
A/C
with
Low
Speed
Fan
or
Whole
House
Dehumidifier
Yes
T10+
Thermostat
U1
only
shown
when
EIM
not
used
9050
Dehumidification
Dehumidification
Equipment
Setup
l
Normally
Open
l
Normally
Closed
9000
=
Low
Speed
Fan
or
Hot
Gas
Bypass
No
Both
9070
Dehumidification
Dehumidification
-
Overcooling
Limit
l
0°F
(0°C)
l
1°F
(0.5°C)
l
2°F
(1.0°C)
l
3°F
(1.5°C)
9000
=
A/C
with
High
or
Low
Speed
Fan
No
Both
If
Celsius
is
selected
in
ISU
1050,
the
Celsius
temperatures
seen
in
the
Options
column
at
left
are
presented.
69 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
9080
Dehumidification
Control
Method
l
Basic
l
Minimum
on
Time
l
High
Humidity
Com
-
fort
Reset
l
High
Humidity
Com
-
fort
Reset
w/
Min
-
imum
On
Time
l
Reheat
l
Reheat
with
Min
-
imum
On
Time
Set
for
Light
Com
-
mercial
No
T10+
Some
of
these
settings
originated
with
the
Factory/
Over-
The-
Air
release
of
firmware
version
03.03.08.02,
which
sup
-
ports
Light
Commercial
settings.
ISU
9080-
9100
were
part
of
this
update.
The
T10+
will
receive
this
OTA
update
when
the
thermostat
is
connected
to
WiFi
and
registered
to
an
account.
Note
that
the
OTA
update
may
take
as
long
as
one
day
after
connection
and
regis
-
tration.
9090
Dehumidification
Dehumidification
Minimum
On
Time
l
0
minutes
l
5
minutes
to
15
minutes
in
1
minute
increments
9080
=
other
than
Basic
No
T10+
9100
Dehumidification
High
Humidity
Com
-
fort
Reset
Setting
1°F
to
5°F
in
1°F
incre
-
ments
9080
=
one
of
the
Comfort
Reset
settings
No
T10+
9120
Dehumidification
System
modes
allow
-
ing
dehu
-
midification
l
Heat
l
Off
l
Cool
9000
-
Whole
House
Dehu
-
midifier
No
Both
9130
Dehumidification
Dehumidifier
Fan
Control
l
Thermostat
Controls
Fan
l
Dehumidifier
Con
-
trols
Fan
9000
-
Whole
House
Dehu
-
midifier
No
Both
9140
Dehumidification
Dehumidifier
Lock
-
out
l
Dehumidifier
Allowed
when
Cool
is
Running
l
Dehumidifier
Not
Allowed
when
Cool
is
Running
9000
-
Whole
House
Dehu
-
midifier
No
Both
9145
Dehumidification
Dehumidifier
lock
-
out
dry
contact
Custom
Alert
1
-
Custom
Alert
4
(options
depend
on
6005
settings)
ISU
6005
is
set
for
a
custom
dry
contact
alert
Yes
T10+
If
enabled,
the
dehumidifier
will
lock
out
whenever
the
selected
Dry
Contact
Alert
is
active
9180
Dehumidification
Dehumidification
-
Away
mode
l
Not
Allowed
l
Allowed
No
T10+
9190
Dehumidification
Dehumidification
Away
mode
Fan
Con
-
trol
l
On
l
Automatic
l
Circulate
9180
=
allowed
No
T10+
9200
Dehumidification
Dehumidification
Away
mode
low
limit
temperature
setting
70°F-
80°F
(21.0°C-
26.5°C)
9180
=
allowed
No
T10+
The
dehumidification
Away
mode
setting
can
restrict
this
Dehumidification
Away
Mode
Tem
-
perature
Setting
70°F
to
99°F
(21.0°C
to
37.0°C)
9180
=
allowed
No
T10+
The
dehumidification
Away
mode
Low
Limit
setting
can
restrict
this
Dehumidification
Away
Mode
Dehu
-
midification
Setting
40%
-
70%
9180
=
allowed
No
T10+
70 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
9210
Dehumidification
Dehumidifier
Filter
replacement
reminder
l
Off
l
30
Calendar
Days
l
60
Calendar
Days
l
3
Calendar
Months
l
4
Calendar
Months
l
5
Calendar
Months
l
6
Calendar
Months
l
7
Calendar
Months
l
8
Calendar
Months
l
9
Calendar
Months
l
10
Calendar
Months
l
11
Calendar
Months
l
12
Calendar
Months
No
Both
10000
Ventilation
Ventilation
Type
l
None
l
ERV/HRV
l
Passive
(Fan
Only)
l
Fresh
Air
Damper
ERV/HRV
or
Damper
needs
available
U
con
-
tacts.
Passive
Fan
is
not
an
option
for
Radi
-
ant
Heat
Only.
No
Both
10005
Ventilation
Ventilator
Model
number
Other
model
l
VNT5070E1000
l
VNT5200E1000
l
VNT5150E2000
l
VNT5150H2000
l
VNT5200E2000
l
VNT5200H2000
ISU
10000
set
to
ERV/
HRV
No
T10+
See
"Ventilation"
on
page
98
.
10020
Ventilation
What
terminals
are
wired
to
the
vent
-
ilation
equipment?
l
None
l
Thermostat
U1
l
EIM
U1
l
EIM
U2
l
EIM
U3
10000
=
ERV/HRV
or
Fresh
Air
Damper
Yes
T10+
Thermostat
U1
only
shown
when
EIM
not
used.
10050
Ventilation
Ventilation
control
method
l
ASHRAE
l
Percent
on
Time
10000
=
ERV/HRV
or
Fresh
Air
Damper
No
Both
10060
Ventilation
Ventilation
Fan
con
-
trol
l
Thermostat
controls
fan
l
Equipment
controls
fan
10000
=
ERV/HRV
or
Fresh
Air
Damper
and
8000
set
for
Humidifier
No
Both
10065
Ventilation
Turn
on
ventilation
dry
contacts
l
Custom
Alert
1
-
Custom
Alert
4
(options
depend
on
6005
settings)
ISU
6005
is
set
for
a
custom
dry
contact
alert
&
ISU
10140
isn’t
selected
for
the
same
custom
alert.
Yes
T10+
If
enabled,
the
ventilator
will
come
on
whenever
the
selected
Dry
Contact
Alert
is
active
10090
Ventilation
Ventilation
House
Size
Number
of
Bedrooms
1-
6
10050
=
ASHRAE
No
Both
Size
of
house:
l
1000
-
5000
square
feet
if
display
set
to
Fahrenheit
l
90-
460
square
meters
if
set
to
Celsius
10050
=
ASHRAE
No
Both
71 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
10100
Ventilation
Enter
Equipment
Ventilation
Rate
l
30
-
350
CFM
if
dis
-
play
set
to
Fahren
-
heit
l
850
-
9900
LPM
if
set
to
Celsius
10050
=
ASHRAE
No
Both
Fixed
setting
and
not
adjustable
if
VNT5070
or
VNT5200
is
selected
for
10005.
This
setting
also
indicates
whether
or
not
you
meet
ASHRAE
standards
if
ISU
10050
=
ASHRAE
based
on
ISU
10090
settings
10120
Ventilation
Ventilation
Percent
On
Time
10%
-
100%
(30%
default)
10050
+
%
on
time
No
Both
10125
Ventilation
Ventilation
Priority
l
Lockouts
are
priority
l
ASHRAE
is
priority
10050
=
ASHRAE
No
Both
10130
Ventilation
Outdoor
condition
lockouts
Low
Temperature
=
off,
-
20F
to
40F
(off,
-
29.0
-
4.5C)
10000
=
ERV/HRV
or
Fesh
air
damper
&
1060
(outdoor
temperature)
=
other
than
"None"
No
Both
High
Temperature
=
off,
80F
to
110F
(off,
26.5C-
43,5C)
No
Both
High
Dew
point
=
off,
65F
-
85F
(Off,
18.5C-
29.5C)
1060
=
Internet
or
Wireless
No
Both
10140
Ventilation
Lockout
Ventilation
on
Humidification
or
dehumidification
calls
Off
or
On
8000
set
for
humidifier
and/or
9000
set
for
dehumidifier
Yes
T10+
10145
Ventilation
Ventilation
lockout
dry
contacts
l
Custom
Alert
1
-
l
Custom
Alert
4
(options
depend
on
6005
settings)
ISU
6005
is
set
for
a
custom
dry
contact
alert
&
ISU
10065
isn’t
selected
for
the
same
custom
alert.
Yes
T10+
If
enabled,
the
ventilator
will
be
locked
out
whenever
the
selected
Dry
Contact
Alert
is
act
-
ive
10160
Ventilation
Ventilate
on
high
indoor
humidity
Off,
On
(Heat
only)
8000
set
for
humidifier
and
10000
set
for
ventilator
Yes
T10+
10170
Ventilation
Ventilation
Remind
-
ers
Clean
core
=
Off,
3,
6,
9,
12,
calendar
months
Core
only
shown
if
100
=
ERV/HRV.
Filter
reminder
always
shown.
No
Both
Clean
filter
=
Off,
3,
6,
9,
12,
calendar
months
No
Both
11000
UV
Devices
Number
of
UV
Devices
0,
1,
2
No
Both
11050
UV
Devices
UV
Bulb
Replace
-
ment
Reminders
Replace
UV
Bulb
1
=
Off,
6,
12,
24
calendar
months
11000
=
1
or
2
No
Both
Replace
UV
Bulb
2
=
Off,
6,
12,
24
calendar
months
11000
=
2
No
Both
14005
Idle
screen
Style
Idle
screen
Style
l
Temperature
l
Analog
Clock
No
Both
14010
Clock
Format
Clock
Format
l
12
hour
clock
l
24
hour
clock
No
Both
72 ISU
#
Heading
Question
Options
Contingent
pre
-
vious
setting?
EIM
needed?
T10,
T10+
or
both
Notes
14015
Daylight
Savings
Time
Daylight
Savings
Time
l
Off
l
On
No
Both
14020
Display
Offsets
Indoor
Display
Off
-
sets
l
Indoor
Temperature:
l
0°F
l
1°F
l
2°F
l
3°F
No
Both
The
display
offset
is
applied
to
the
Home
screen,
not
the
Priority
screen.
This
offset
is
not
asso
-
ciated
with
any
individual
sensor.
Indoor
Humidity:
-
12%
to
12%
RH
No
Both
14030
Display
Offsets
Outdoor
Display
Off
-
sets
l
Outdoor
Tem
-
perature:
l
0°F
l
1°F
l
2°F
l
3°F
No
T10+
T10+
Linked
to
C7089R3013
wireless
outdoor
sensor
Outdoor
Humidity:
-
12%
to
12%
RH
14050
Indoor
humidity
Show
indoor
humid
-
ity
on
home
screen
Yes,
No
No
T10+
If
set
to
control
a
humidifier
or
dehumidifier,
the
T10+
will
still
show
the
indoor
humidity
reading
under
the
Humidity
and
Dehu
-
midity
setting
screens
15000
Dealer
Information
Dealer
Information
Enter
Company
name,
phone
number,
website,
email,
message
No
Both
73 WIFI
SETUP
During
the
initial
installation,
after
the
Installer
setup
the
thermostat
will
prompt
you
to
set
up
WiFi
and
guide
you
through
the
steps.
If
you
are
setting
up
WiFi
after
the
initial
installation
has
already
been
done,
follow
the
steps
below:
1.
Select
the
Main
Menu
icon.
M37797
Main
menu
icon.
2.
Then
select
WiFi
.
3.
There
is
a
slider
labeled
“Enable
WiFi”.
Make
sure
this
is
set
to
the
right.
4.
Touch
Choose
Network
.
5.
After
a
brief
delay,
the
thermostat
should
show
the
available
networks.
Choose
your
home
network
from
the
list.
6.
If
this
is
a
secure
network,
it
should
prompt
you
to
“Enter
WiFi
password”.
After
a
brief
delay
the
display
should
show
“Success!
Your
thermostat
successfully
connected
to
the
network.”
Press
the
OK
button.
NOTE:
If
you
did
not
successfully
connect
to
the
network:
7.
Download
the
First
Alert
or
Resideo
app
from
the
App
store
or
Google
Play.
8.
Open
the
First
Alert
or
Resideo
app.
Tap
SET
UP
NOW
as
shown
here
to
continue.
Tap
INSTALL
A
DEVICE
and
fol
-
low
the
prompts
to
continue.
The
app
will
walk
you
through
the
rest
of
the
setup.
M37798
SET
UP
NOW
screen
74 Connect
to
a
Hidden
WiFi
Network
1.
Touch
MENU
,
then
WiFi
Setup.
2.
Touch
Other
,
then
Select
.
3.
When
prompted,
press
the
screen
to
edit
the
network
name.
4.
Enter
the
network
name.
Press
the
5
or
6
buttons
to
change
the
letter
or
number.
Press
the
4
button
to
move
to
the
next
character,
or
the
3
button
to
move
to
the
previous
character.
Use
the
5
or
6
buttons
at
the
bottom
to
change
letter
case.
Press
Done
when
complete.
5.
Select
the
appropriate
network
security
setting,
then
press
Select.
6.
Enter
the
WiFi
network
password
as
explained
above
in
“Connecting
to
WiFi
Network”,
step
6.
Unsuccessful
WiFi
Connection
If
you
are
unsuccessful
in
connecting
the
thermostat
to
the
WiFi
network,
you
will
see
a
Connection
Failed
screen.
Press
the
6
button
for
other
tips
about
this
failed
connection.
Here
are
three
specific
reasons
the
connection
might
be
unsuc
-
cessful.
For
all
Connection
Failed
screens,
pressing
Done
will
return
to
the
Menu
screen.
Invalid
Password
The
password
you
entered
is
invalid.
Check
that
you
have
the
right
password
and
try
again.
No
IP
Address
The
thermostat
was
unable
to
obtain
an
IP
address
from
the
router.
Verify
the
router
is
correctly
set
up
to
automatically
assign
IP
addresses.
This
connection
can
take
several
minutes.
If
there
is
still
no
connection,
remove
the
thermostat
from
the
wallplate
for
10
seconds,
then
snap
it
back
into
place.
No
Internet
Link
The
thermostat
connected
to
the
WiFi
network
but
was
unable
to
establish
a
connection
to
the
internet.
Check
the
router
settings
and
try
again.
Make
sure
the
Ethernet
cable
is
plugged
into
the
router
and
try
rebooting
the
router
if
necessary.
Wi-Fi
Enable Wi-Fi
Change Network...
WI-FI NETWORK
i
STATUS
IPv4 ADDRESS
IPv6 ADDRESS
MAC ID
Not Connected to Internet
00:00:00:00:00:00
--
M39486
75 SCHEDULING
Setting
a
Schedule
On
Thermostat
Select
the
MENU
icon
at
the
bottom
of
the
home
screen
display.
Then
select
Schedule
.
l
If
you
want
all
days
the
same,
select
Grouped
Days
.
l
Touch
the
period
you
wish
to
edit
(
Wake
,
Away
,
Home
or
Sleep
).
Residential
Commercial
l
If
you
want
all
days
separate,
select
Single
Days
.
l
Touch
the
period
of
the
day
you
wish
to
edit
(
Wake
,
Away
,
Home
,
or
Sleep
).
Scroll
down
to
see
additional
days).
l
If
you
want
weekdays
grouped
but
weekend
days
separate,
or
if
you
do
not
want
to
use
a
schedule,
select
Sched
-
ule
.
76
l
Touch
Create
New
Schedule
.
The
thermostat
will
then
walk
you
through
the
schedule
setup.
l
Touch
Time
to
edit
the
time
for
that
schedule
period.
l
Touch
Priority
to
select
which
sensors
will
be
used
for
that
period.
l
Touch
Temperature
to
set
the
Heat
and
Cool
setpoints
for
that
period.
l
Touch
Fan
to
select
Fan
On
,
Auto
,
or
Circ
for
that
period.
NOTE:
To
utilize
Geofencing,
set
the
schedule
through
the
app.
Scheduling
Through
the
App
Flexible
scheduling:
You
can
choose
to
use
location-
based
temperature
control
(geofence/Auto
Away
technology),
time-
based
scheduling,
or
use
a
combination
of
both
to
make
sure
your
home
is
always
comfortable.
l
Location-
based
temperature
control:
Using
geofencing/Auto
Away
technology,
the
T10/T10+
Smart
thermostat
will
automatically
use
your
smartphone’s
location,
which
can
save
energy
when
you
leave
and
make
your
home
comfortable
by
the
time
you
return.
l
Smart
scheduling:
Adds
a
Sleep
period
to
location-
based
temperature
control.
l
Time-
based
scheduling:
You
can
program
a
schedule
where
every
day
is
different,
a
schedule
where
weekdays
and
weekends
are
different,
or
a
schedule
where
every
day
is
the
same.
There
are
four
adjustable
periods
per
day:
Wake,
Away,
Home,
and
Sleep.
l
No
schedule:
You
can
also
choose
not
to
set
a
schedule
and
adjust
the
thermostat
manually.
l
Sensor
Priority:
Select
which
sensors
are
used
for
each
program
period
or
when
used
manually.
1.
In
the
app,
select
the
thermostat
you
wish
to
schedule.
Then
scroll
down
and
select
Schedule.
2.
Select
Grouped
Days
for
all
days
the
same
or
Single
day
if
you
want
some
days
to
be
scheduled
different
than
oth
-
ers.
77
3.
Select
Options
to
turn
schedule
off,
create
a
new
time-
based
schedule,
or
switch
to
Geofencing/Auto
Away.
4.
Set
priority
sensor
(s)
for
each
program:
Location-
Based
Scheduling
When
location-
based
temperature
control
is
used,
the
thermostat
active
home
screen
display
will
show
Using
Home
set
-
tings
,
Using
Away
settings
,
or
Using
Sleep
settings
below
the
room
temperature.
If
you
set
an
additional
Sleep
period
in
the
app,
you’ll
also
see
the
Following
Schedule
in
the
upper
left
corner
of
the
ther
-
mostat
screen.
If
you
manually
change
the
temperature
when
location-
based
temperature
control
is
active,
the
new
temperature
will
remain
in
effect
until
you
cross
the
geofence.
To
adjust
the
geofence
boundary,
follow
the
steps
below.
1.
Open
the
app,
tap
the
MENU
icon
in
the
upper
left
corner
and
then
tap
Geofence
or
"Auto
Away"
and
enable
this.
2.
Tap
Geofence
Radius
,
and
when
the
map
and
current
geofence
appear,
touch,
hold
and
drag
the
black
dot
to
adjust
the
geofence
boundary.
3.
Tap
SAVE
to
finish.
Schedule
Override
on
Device
With
thermostat
in
Heat,
Cool,
Auto,
or
Em
Heat
mode,
press
the
up
or
down
arrow
to
change
the
setpoint.
(if
thermostat
is
in
auto
mode,
you
need
to
press
Heat
to
or
Cool
to
first).
If
scheduling
is
enabled
it
will
say
Hold
until
and
show
a
time
at
the
bottom
of
the
screen.
Touch
this.
Display
says
Use
current
temperature,
fan,
and
comfort
priority
settings
until...
Options
are:
l
Next
Period
l
A
Specific
Time
78
l
Permanently
l
Remove
hold
Choose
the
appropriate
option.
If
you
chose
A
Specific
time
,
select
the
time
you
want
to
hold
to.
Press
Done
to
return
to
Home
screen.
79 MAIN
MENU
From
Home
Screen,
press
the
Menu
icon
at
bottom
of
the
display
(3
horizontal
lines).
(If
this
is
not
shown
at
home
screen,
touch
screen
to
wake
display
first).
Main
Menu
Options
Notifications
Only
displayed
when
there
are
active
alerts/notifications.
select
“Notifications”
to
see
details.
System
Mode
(Available
modes
vary
depending
on
how
the
thermostat
was
configured)
l
Heat
l
Off
l
Cool
l
Auto
(see
"Auto
Changeover
Operation"
on
page
101
)
l
Em
Heat
(see
"Em
Heat
and
Auxiliary
Heat
Operation"
on
page
101
)
Fan
(Fan
setting
not
available
for
all
system
types)
l
Auto
(Fan
only
runs
with
a
call
for
Heat
or
Cool,
or
if
set
to
run
with
Hum,
Dehum,
or
Vent
call)
l
On
(fan
runs
continuously)
l
Circulate
(fan
runs
randomly
approx.
33%
of
the
time)
For
2-
pipe
and
4-
pipe
fan
coil
applications,
there
may
be
settings
for
auto
or
high,
medium
and
low
fan
speeds.
Priority
If
wireless
indoor
temperature/humidity/motion
sensors
are
used,
select
which
sensors
are
used
for
temperature
control.
Choose
Active
Sensor
(those
detecting
motion)
or
manually
select
which
sensors
to
use.
Schedule
l
Create
new
schedule
–
(Set
a
time-
based
schedule)
l
Disable
schedule
l
Reset
to
default
Schedule
NOTE:
To
enable
Geofencing,
use
the
Resideo
app.
Weather
Shown
if
connected
to
WiFi
and
the
app,
&
ISU
1060
=
Internet,
displays
weather
forecast
for
up
to
10
hours
in
2
hour
increments.
Temperatures
Shown
if
configured
for
a
floor/slab
sensor
in
ISU
1055.
Shows
the
temperature
reading
and
settings
for
Floor
sensor
(T10+
only).
Humidification
l
View
current
indoor
humidity
level
&
setting
l
View
humidifier
status
(humidifying,
idle,
off)
l
Change
humidity
setting
l
Options
change
mode,
change
window
protection
setting
Dehumidification
l
View
current
indoor
Dehumidity
level
&
setting
l
View
dehumidifier
status
(dehumidifying,
idle,
off)
l
Change
Dehumidity
setting
l
Options
change
mode,
adjust
high
speed
fan
priority
setting
Ventilation
l
View
or
change
mode
(Auto,
On,
Off)
l
Timed
ventilation
180
minutes
max
l
Options
lockout
settings
for
Sleep,
High
Outdoor
Temperature,
Low
Outdoor
Temperature,
High
Outdoor
Dew
Point
If
ISU
10005
=
VNT5070E1000,
VNT5200E1000,
VNT5150E2000,
VNT5150H2000,
VNT5200E2000
or
VNT5200H2000,
the
ventilation
menu
will
show
the
CFM
and
wattage
of
the
ventilator
while
ventilator
is
running.
Temperature
balancing
(T10+
only).
Shown
if
ISU
3310
is
enabled.
l
Auto
or
Off.
80 When
set
to
auto,
you
can
adjust
the
Room
delta
setting
from
.
5°F
to
10°F
in
.
5°F
increments
(.25°C
to
5°C
in
.25°C
increments).
This
will
allow
the
T10+
to
run
the
fan
if
the
temperature
between
sensors
selected
under
“options”
in
the
Temperature
balancing
menu.
Management
Devices
&
Sensors
l
Add
a
wireless
indoor
or
outdoor
sensor
l
Identify
a
wireless
indoor
or
outdoor
sensor
l
Thermostat:
o
Temperature
&
humidity
readings
o
and
network
name
o
IPV54
address
o
Change
room
name
l
Equipment
Interface
Module:
o
Firmware
version
o
Wireless
signal
strength
l
Indoor
Air
Sensor:
o
Firmware
version
o
Battery
strength
o
Wireless
signal
strength
o
Temperature
and
Humidity
readings
o
Occupied
or
unoccupied
(detection
of
motion
in
room)
l
Options:
o
Rename
sensor
(select
Room
name)
o
Use
motion
(Allows
you
to
choose
not
to
allow
motion
to
be
used
from
a
one
or
more
sensors
when
“active
rooms”
is
selected
in
the
priority
menu.
o
Motion
Sensitivity
(HIGH
=
Triggered
when
very
little
motion
is
detected,
MEDIUM
=
triggered
when
a
moderate
amount
of
motion
is
detected,
LOW
=
triggered
only
when
a
lot
of
motion
is
detected).
o
Delete
(Removes
that
sensor
from
the
thermostat).
o
Blink
lights
(Will
make
the
light
on
the
indoor
sensor
you
selected
blink
to
help
identify
which
sensor
is
matched
with
each
name
in
the
sensor
menu.)
l
Outdoor
Air
Sensor:
o
Firmware
version
o
Battery
strength
o
Wireless
signal
strength
o
Temperature
and
Humidity
readings
o
Delete
(this
option
is
only
shown
in
the
"Devices
&
Sensors"
menu
when
accessed
via
"Installer
Options"
menu).
Thermostat
Information
l
Mac
Address
l
IP
Address
l
Date
Code
l
Model
Number
l
Build
Date
l
Collection
Version
l
WiFi
Bootloader
Version
l
WiFi
Application
Version
l
RedLINK
Application
Version
l
T10+
will
show
a
QR
code
if
you
scroll
down
Equipment
Status
81
l
System
mode
l
Heat
stages
(on
or
off)
l
Cool
stages
(on
or
off)
l
Fan
on
or
off
l
IAQ
(Hum,
Dehum,
or
Vent)
on
or
off
Dehumidification
Away
Mode
If
ISU
9180
is
set
for
dehumidification
away
mode,
then
this
menu
displays
the
dehumidification
Away
mode
status
and
settings.
Dealer
Information
l
Model
number
l
Date
code
l
Dealer
company
name
and
contact
information
if
provided
by
installer.
(See
"Installer
Options
Menu"
on
the
next
page
.)
Configuration
l
WiFi
l
Connect
App
l
Connect
HomeKit
l
Security
l
Preferences
l
Installer
Options
(See
"Installer
Options
Menu"
on
the
next
page
.)
Temperature
balancing
(T10+
model
only)
If
at
least
one
wireless
sensor
is
used,
and
ISU
3300
is
enabled,
the
temperature
balancing
feature
will
run
the
system
fan
if
the
selected
rooms
have
a
temperature
variation
that
exceeds
the
delta
setting
in
ISU
3310.
When
this
feature
is
enabled
you
can
select
“Temperature
balancing”
under
menu
and
select
auto
or
off.
When
auto
is
selected
you
can:
l
Adjust
the
Room
Delta
setting
(number
of
degrees
difference
between
the
selected
sensors
required
to
energize
the
system
fan)
l
Open
the
options
menu
and
select
the
sensors
used
or
disable
this
feature
during
the
sleep
period.
82 INSTALLER
OPTIONS
To
access
the
Installer
options
menu:
1.
Touch
the
Menu
icon
(3
horizontal
lines
at
bottom
of
display)
2.
Scroll
down
and
touch
Thermostat
Information
.
3.
Write
down
the
date
code
from
that
screen.
Then
touch
the
left
arrow
at
top
of
display
to
go
to
previous
screen.
4.
Scroll
down
until
“Installer
Options”
is
shown.
Touch
Installer
Options
and
enter
date
code.
How
to
find
more
options
1.
Touch
the
Menu
button.
2.
Scroll
up
and
down
for
more
options.
Install
e
r
O
pt
i
on
s
M37799
1
2
Installer
Options
Menu
Installer
Setup
Setup
thermostat.
Installer
Test
l
Turn
on
or
off
Heat
stages
l
Turn
on
or
off
Cool
stages
l
Turn
on
or
off
Em
Heat
stage
l
Turn
on
or
off
IAQ
equipment
l
See
equipment
Run
Time
l
See
the
sensor
temperature
reading
if
a
10K/20K
pipe
sensor
is
used
for
a
Fan
Coil
Unit
Heat Stages
Stage 1
Done
HEAT
RUN TIME RETURN
DISCHARGE DELTA T
-- ̊ -- ̊
00:39 -- ̊
--
MCR39518
Installer Test
Stage 2
--
Next Test
If
discharge
and
return
sensors
(RATS
&
DATS)
are
used
with
T10+
and
EIM,
the
display
shows
these
readings
and
the
delta
during
installer
test.
Dealer
Information
Setup
Enter
installer
company
name,
phone
number,
website,
and
email.
This
allows
the
contractor’s
contact
information
to
be
displayed
if
the
customer
receives
an
alert
or
reminder.
83 Devices
&
Sensors
l
Add
a
wireless
indoor
or
outdoor
sensor
l
Identify
a
wireless
indoor
or
outdoor
sensor
Thermostat:
l
Temperature
&
humidity
readings
l
Network
name
l
IPV54
address
l
Change
room
name
Equipment
Interface
Module:
l
Firmware
version
l
Wireless
signal
strength
Indoor
Air
Sensor:
l
Firmware
version
l
Battery
strength
l
Wireless
signal
strength
l
Temperature
and
Humidity
readings
l
Occupied
or
unoccupied
(detection
of
motion
in
room)
Options
:
l
Rename
sensor
(select
Room
name)
l
Use
Motion
(Offers
the
option
of
not
using
motion
sensing
from
one
or
more
sensors
when
Active
Rooms
is
selec
-
ted
in
the
priority
menu.)
l
Motion
Sensitivity
(HIGH
=
Triggered
when
very
little
motion
is
detected,
MEDIUM
=
triggered
when
a
moderate
amount
of
motion
is
detected,
LOW
=
triggered
only
when
a
lot
of
motion
is
detected).
l
Delete
(Removes
that
sensor
from
the
thermostat).
l
Blink
lights
(Will
make
the
light
on
the
indoor
sensor
you
selected
blink
to
help
identify
which
sensor
is
matched
with
each
name
in
the
sensor
menu.)
Outdoor
Air
Sensor:
l
Firmware
version
l
Battery
strength
l
Wireless
signal
strength
l
Temperature
and
Humidity
readings
l
Delete
(option
only
shown
in
the
"Devices
&
Sensors"
menu
when
accessed
via
"Installer
options"
menu).
84 Thermostat
Information
l
MAC
Address
l
Date
Code
l
Model
number
l
Build
date
l
Collection
Version
l
Bootloader
Version
l
Application
Version
l
WiFi
Bootloader
Version
l
WiFi
Application
Version
l
RedLINK
Application
Version
Reset
l
Reset
Schedule
l
Delete
all
sensors
l
Reset
HomeKit
l
Factory
Reset
l
Reset
WiFi?
85 GETTING
THE
MOST
FROM
THE
T10
OR
T10+
SMART
THERMOSTAT
Prioritize
Rooms
Prioritize
a
specific
room
or
multiple
rooms,
or
let
comfort
follow
your
move
using
built-
in
motion
detection.
Control
on
the
Go
Adjust
your
thermostat
from
anywhere
using
your
tablet
or
smartphone.
Save
Energy
With
Auto
Away/Geofencing,
you
can
save
money
on
the
most
expensive
part
of
your
energy
bill
while
you’re
away.
Simple
Installation
The
thermostat
automatically
programs
itself.
Just
answer
a
few
simple
questions
and
you’ll
be
up
and
running
in
no
time.
Whole-
Home
Range
With
a
200-
foot
range,
20
sensors
with
temperature,
humidity,
and
occupancy
detection
can
connect
to
your
thermostat
from
throughout
your
home.
Know
Your
Home
Is
Safe
Get
customizable
alerts
on
your
mobile
device
when
the
basement
is
so
cold
a
pipe
could
burst,
or
if
the
baby’s
room
is
getting
too
hot.
Apple
®
HomeKit™
Setup
1.
Touch
Menu
icon
at
the
bottom
of
the
T10
or
T10+
home
screen.
M39090
74
2
18%
86
2.
Scroll
down
and
select
Connect
HomeKit
.
3.
Use
the
Apple
Home
App
and
select
Add
Accessory
.
Scan
the
code
shown
on
your
thermostat
with
your
phone.
4.
Follow
the
instructions
on
your
phone.
M39091
Note:
We
would
recommend
registering
the
thermostat
to
the
First
Alert
or
Resideo
app
when
using
Apple
HomeKit
to
bet
-
ter
sync
the
time.
Using
Your
Thermostat
The
screen
will
wake
up
by
pressing
the
center
area
of
the
displayed
temperature.
M37800-V1
74
2
18%
Current Priority
Displays the type
of priority and
number of room
being prioritized
Setpoint
Temperature
Displays the
setpoint
temperature.
Indoor Humidity
Displays the
current indoor
humidity level.
Indoor
Temperature
Displays the
current indoor
temperature
Menu
Contains features
such as mode, fan,
schedule, priority,
and other
thermostat
settings
87 Setting
the
Time/Date
When
the
thermostat
is
linked
to
the
home
WiFi
router
and
registered
to
an
account
using
the
First
Alert
or
Resideo
app,
the
date
and
time
will
update
automatically.
If
not
using
WiFi
you
can
set
the
time/date
as
follows:
1.
Touch
Menu
.
2.
Scroll
down
and
select
Preferences
.
3.
Select
Date
and
Time
.
4.
Date
and
time
information
are
displayed.
Set
Date
l
If
the
date
shown
is
incorrect,
touch
Date
.
l
Scroll
up
or
down
on
the
left
of
the
display
until
the
correct
month
is
in
the
middle
of
screen.
l
Scroll
up
or
down
on
the
center
of
the
display
until
the
correct
day
is
in
the
middle
of
screen.
l
Scroll
up
or
down
on
the
right
of
the
display
until
the
correct
year
is
in
the
middle
of
screen.
l
Touch
Done
.
Set
Time
l
If
the
time
shown
is
incorrect,
touch
Time
.
l
Scroll
up
or
down
on
the
left
of
the
display
until
the
current
hour
is
in
the
middle
of
screen.
l
Scroll
up
or
down
on
the
center
of
the
display
until
the
current
minutes
are
in
the
middle
of
screen.
l
Scroll
up
or
down
on
the
right
of
the
display
until
the
correct
am
or
pm
is
in
the
middle
of
screen.
l
Touch
Done
.
Setting
the
Fan
NOTE:
Fan
setting
not
available
for
all
system
types.
l
Touch
Menu
.
l
Touch
Fan
.
l
Choose
on,
auto,
or
circulate.
l
Auto
setting
only
runs
the
fan
with
the
heating
or
cooling
system.
*
l
On
setting
runs
the
fan
continuously.
l
Circ
setting
runs
the
fan
approx
33%
of
the
time
to
ensure
air
circulation.
*
The
fan
may
also
run
with
the
humidifier,
dehumidifier,
or
ventilator
depending
on
how
the
thermostat
was
configured.
Programming
the
Fan
You
can
set
the
fan
to
on,
auto,
or
circ
for
each
program
when
using
time-
based
scheduling.
Setting
the
System
Mode
l
Touch
Menu
.
l
Touch
System
Mode
.
l
Touch
desired
option.
o
Heat:
Controls
only
the
heating
system.
o
Cool:
Controls
only
the
cooling
system.
o
Off:
Heating/cooling
systems
are
off.
o
Auto:
Selects
heating
or
cooling
depending
on
the
indoor
temperature.
o
Em
Heat
(heat
pumps
with
backup
Heat):
Runs
emergency
heat
on
a
heat
call.
Compressor
is
locked
out.
l
Touch
Done
to
save
and
exit.
NOTE:
The
Auto
and
Em
Heat
system
settings
may
not
appear,
depending
on
how
your
thermostat
was
set
up.
88 Using
Priority
Priority
creates
an
average
temperature
in
your
home
based
on
specific
rooms.
This
allows
you
to
prioritize
comfort
where
you
want
it.
Selecting
Sensors
The
temperature
reading
displayed
on
the
home
screen
is
from
the
sensor
or
sensors
that
are
being
used
for
temperature
control.
You
can
change
which
sensors
are
being
used
for
control
by
selecting
menu-
priority.
From
the
home
screen,
touch
the
menu
icon
at
the
bottom
of
the
display
and
select
“Priority”.
Priority
Screen
Selected
Rooms
When
set
to
“selected
rooms”
you
may
select
one
or
more
rooms
to
read
the
wireless
indoor
sensor
information
from.
When
multiple
sensors
are
selected,
the
temperature
is
averaged.
Active
Rooms
When
set
to
“Active
rooms”
the
thermostat
controls
temperature
based
on
the
reading
from
the
indoor
sensors
that
detect
motion.
Alerts
and
Notifications
1.
The
red
dot
above
the
Menu
icon
indicates
an
active
alert
or
notification.
Touch
the
Menu
icon
to
view
active
Alerts
&
Notifications.
2.
Touch
Notifications
to
open
this
menu.
3.
Touch
the
alert
message
to
see
more
information
about
the
alert
or
notification.
When
there
is
an
active
alert
or
notification,
you
must
select
the
notification
banner
and
acknowledge
the
message
before
you
are
allowed
to
access
the
menu
icon.
89 IAQ
Reminders
You
can
set
up
IAQ
reminders
in
the
thermostat
to
remind
users
when
filters,
pads,
bulbs,
etc.
need
cleaning
or
replace
-
ment.
The
available
reminders
vary
based
on
the
ISU
settings.
For
example,
if
the
thermostat
is
configured
to
control
a
flow
through
humidifier,
it
will
have
the
humidifier
pad
reminder
but
not
the
humidifier
tank
reminder:
l
Air
Filter
1
l
Air
Filter
2
l
Electronic
Air
Cleaner
Pre-
Filter
l
Electronic
Air
Cleaner
Post-
Filter
l
Humidifier
Tank/Water
Filter
l
Humidifier
Pad
l
Dehumidifier
Filter
l
Ventilator
Core
l
Ventilator
Filter
l
UV
Bulb
1
l
UV
Bulb
2
Reminders
that
are
displayed
under
preferences
will
change
based
on
the
IAQ
equipment
installed.
Reminders
for
equip
-
ment
that
is
already
set
up
can
be
set
using
the
steps
below.
Reminders
for
IAQ
equipment
that
is
not
yet
set
up
must
be
turned
on
from
the
installer
setup.
NOTE:
Air
Filter,
Humidifier
Pad,
Dehumidifier
Filter,
and
Ventilator
Filter
are
displayed
under
Preferences
even
if
they
have
not
been
set
up.
Humidifier
Pad
is
not
displayed
if
a
steam
humidifier
has
been
installed.
To
access
or
adjust
the
reminder
settings
l
Select
the
Menu
icon.
l
Scroll
down
and
select
Preferences
.
l
Select
the
reminder
you
want
to
set
from
the
list
(shown
above).
l
Press
5
or
6
to
set
timer
length.
Ranges,
increments
and
units
will
change
based
on
the
reminder.
l
Press
Done
to
save
the
reminder.
l
Press
Reset
Timer
when
you
have
completed
the
recommended
maintenance
or
you
can
extend
the
timer
setting
to
turn
off
the
alert
and
remind
you
later
to
do
the
recommended
maintenance.
l
Repeat
these
steps
for
all
reminders
you
want
to
set
NOTE:
When
set
for
run
time
days,
the
thermostat
tracks
the
amount
of
time
the
fan
has
run
and
compares
that
time
against
the
number
of
run
time
days
selected.
Fan
run
time
is
counted
when
there
is
a
call
for
forced
air
heating,
cooling,
or
fan.
90 Setting
Preferences
Preference
menu
options
let
you
select
how
the
thermostat
displays
information
or
responds
to
certain
situations.
To
access
the
Preferences
menu:
l
Touch
Menu
.
l
Scroll
down
and
select
Preferences
.
l
Select
an
option
and
follow
prompts:
Display
l
Temperature
units
(Fahrenheit
or
Celsius)
l
Language
(English,
French,
or
Spanish)
l
Screen
color
(optional
colors
shown)
l
Color
behavior
(Display
color
change
to
indicate
Heat
or
Cool
is
running)
l
Idle
Screen
Style
(Temperature
or
Analog
Clock)
l
Backlight:
o
Active
Backlight
setting
(50%
to
100%)
o
Inactive
Backlight
setting
(0%
to
100%)
o
Inactive
Night
Backlight
l
Brightness
0%
to
100%
l
Night
start
time
l
Night
end
time
l
Dark
Idle
theme
(T10+
only.
Display
turns
black
during
the
Nighttime
settings)
NOTE:
The
Night
setting
is
different
from
the
Scheduled
sleep
period
l
App
change
behavior
(When
a
temperature
change
is
made
by
the
app,
would
you
like
the
thermostats
to
light
up
the
display?
Yes
or
No)
l
Indoor
display
offsets
(temperature
and
humidity)
l
Bold
font
(Would
you
like
the
Home
and
idle
screens
to
use
a
bold
font?)
T10+
only
l
Clean
screen
(allows
30
seconds
to
clean
the
display
without
accidentally
changing
any
settings)
Date
and
Time
l
Set
date
l
Set
time
l
Set
to
12
or
24
hour
clock
l
Set
for
Daylight
Savings
Time
Reminders
(these
vary
based
on
ISU
settings)
l
Air
Filter
1
l
Air
Filter
2
l
Electronic
Air
Cleaner
Pre-
Filter
l
Electronic
Air
Cleaner
Post-
Filter
l
Humidifier
Tank/Water
Filter
l
Humidifier
Pad
l
Dehumidifier
Filter
l
Ventilator
Core
l
Ventilator
Filter
l
UV
Bulb
1
l
UV
Bulb
2
Adaptive
Recovery
l
On
or
Off
91 Fallback
room
(T10+
only)
l
Can
select
thermostat
or
sensor
(s)
After
any
changes,
touch
Done
to
save
your
settings.
Screen
Color
The
T10+
with
firmware
version
03.03.08.02
or
later
allows
you
to
select
the
screen
color
from
12
different
choices.
Select
Menu
>
Preferences
>
Display
>
Screen
Color
.
Screen
color
options
Inactive
Night
Backlight
There
are
two
settings
that
can
be
used
by
customers
who
do
not
want
the
T10+
display
to
illuminate
a
dark
room
at
night:
You
can
adjust
the
“Inactive
Night
Backlight
Backlight”
from
0%
to
100%.
At
0%
the
display
is
unlit
and
blank
but
wakes
to
20%
higher
than
that
setting
when
someone
touches
the
display.
If
“Dark
Idle
Theme”
is
selected
(T10+
models
only),
the
display
will
show
a
black
background.
This
is
for
customers
who
still
want
to
read
the
display
during
the
night
setting
time
but
don
don’t
want
it
to
light
up
the
room.
NOTE:
When
heat
or
cooling
comes
on,
the
display
will
still
flood
orange
or
blue.
These
colors
are
not
as
bright
as
the
white
idle
screen
but
if
the
orange
or
blue
is
not
desired,
the
customer
can
disable
Dark
Idle
Theme
and
set
the
inactive
backlight
to
0%.
92 Fallback
Room
(T10+
only)
Under
the
preferences
menu
you
can
select
which
Room
(s)
are
used
if
either:
l
The
T10+
is
set
for
active
rooms
and
none
of
the
sensors
detect
activity.
l
The
selected
sensors
(active
rooms
or
selected
rooms)
lose
communication
to
T10+
(sensor
failure,
dead
batteries,
etc.)
If
the
fallback
sensor
(s)
is
also
not
communicating,
the
thermostat
sensor
will
be
used
unless
the
installer
had
selected
“
NEVER
USE
THERMOSTAT
”.
This
operation
differs
between
T10
and
T10+.
T10
always
defaults
to
the
thermostat
in
the
situations
above.
If
you
select
“FALLBACK
ROOM”
then
“OPTIONS”,
you
can
select
“NEVER
USE
THERMOSTAT”.
This
would
be
done
if
the
thermostat
was
mounted
in
a
utility
room
or
other
location
that
is
not
sensing
the
space
temperature
in
an
area
it
is
con
-
trolling.
93 INDOOR
AIR
QUALITY
CONTROL
Humidification
The
thermostat
reads
the
indoor
humidity
level
and
allows
the
user
to
set
a
humidification
setting
with
or
without
window
protection.
The
thermostat
can
be
set
up
to
control
a
humidifier
in
any
system
mode
in
the
Installer
Setup
(ISU
8060).
Set
up
Humidification
1.
Select
the
Humidifier
Type
at
ISU
8000.
Based
on
the
humidifier
type
you
select,
the
thermostat
defaults
to
the
most
commonly
used
settings
for
that
humidifier
type.
For
example,
a
Bypass
or
Fan
Powered
humidifier
will
default
ISU
8070
to
“Hum
when
Heat
is
On.”
A
Steam
humidifier
will
default
ISU
8070
to
“Tstat
controls
Fan."
2.
Set
Window
Protection
setting
(ISU
8050).
Outdoor
sensor
temperature
(Sensor
or
Internet
weather)
is
required
for
Window
Protection
(ISU
1060).
3.
Select
the
system
mode
(s)
to
allow
humidification
(ISU
8060).
Options
are
Heat
and
off.
Heat
includes
Heat,
Emer
-
gency
Heat
and
Auto.
If
the
system
is
in
Auto
mode,
the
thermostat
will
allow
humidification
if
the
last
call
was
for
heat.
4.
Select
from
one
of
the
Humidification
Control
Options
(ISU
8070).
l
Hum
when
Heat
is
On
o
The
thermostat
turns
on
the
humidifier
only
if
the
heat
is
currently
running
and
humidification
is
needed.
l
Hum
when
Fan
is
On
o
The
thermostat
turns
on
the
humidifier
only
if
the
fan
is
currently
running
and
humidification
is
needed.
l
Tstat
Controls
Fan
o
The
thermostat
turns
on
the
humidifier
and
the
fan
when
humidification
is
needed.
l
Hum
Controls
Fan
o
The
thermostat
turns
on
the
humidifier
when
humidification
is
needed
and
the
humidifier
controls
the
fan.
Control
Humidification
Level
1.
Touch
MENU
and
select
Humidification
.
Touch
s
or
t
to
select
humidity
level.
2.
Touch
Done
to
save
your
settings.
Touch
Cancel
to
ignore
changes.
3.
If
frost
or
condensation
appears
on
the
windows,
press
MENU
,
scroll
down
and
select
options
.
Then
select
Win
-
dow
Protection
Level
.
Window
Protection
Window
Protection
limits
the
amount
of
humidity
to
prevent
frost
or
condensation
on
windows.
Window
Protection
(ISU
8050)
requires
either
an
outdoor
sensor
or
use
of
Internet
weather
(Outdoor
temperature
setting
In
ISU
chart).
The
thermostat
prevents
frost
or
condensation
on
windows
by
not
allowing
the
humidifier
to
run
above
a
certain
level.
To
prevent
frost
or
condensation,
the
thermostat
may
turn
off
the
humidifier
before
the
humidity
setting
is
reached.
If
Window
protection
is
enabled
(ISU
8050),
you
can
adjust
this
setting
by
pressing
MENU
,
then
scroll
down
and
select
Humidification
>
Options
>
Window
Protection
Level
.
Window
Protection
is
set
on
a
scale
from
1-
10.
A
setting
of
10
rep
-
resents
poorly
insulated
windows
and
a
setting
of
1
represents
well
insulated
windows.
A
higher
number
automatically
reduces
the
humidity
to
help
prevent
frost
or
condensation
on
your
windows.
Use
a
lower
number
if
indoor
air
seems
too
dry.
To
prevent
frost/condensation
on
your
windows
during
cold
outdoor
temperatures,
poorly
insulated
windows
require
a
higher
Window
Protection
setting,
which
will
limit
how
much
your
humidifier
can
run.
After
you
set
the
Window
Pro
-
tection
setting,
check
for
frost/condensation
on
your
windows
in
the
morning.
If
frost/condensation
is
present,
adjust
the
Window
Protection
setting
to
the
next
higher
number
and
check
for
frost/condensation
on
your
windows
the
next
morn
-
ing.
Continue
to
adjust
the
Window
Protection
setting
to
a
higher
number
until
frost/condensation
is
no
longer
present.
If
Window
Protection
is
turned
Off,
the
thermostat
controls
the
humidity
level
to
the
user's
desired
humidity
setting.
Frost
or
condensation
may
appear
on
windows.
94 Dehumidification
(Residential)
The
thermostat
reads
the
indoor
humidity
level
and
allows
the
user
to
set
a
dehumidification
setting.
The
thermostat
con
-
trols
the
humidity
level
using
the
cooling
system
or
a
whole
house
dehumidifier.
Dehumidification
Using
the
Cooling
System
When
set
for
A/C
with
Low
Speed
Fan
,
A/C
with
High
Speed
Fan
or
Reheat
,
an
overcoolin
g
limit
can
be
set
from
0
°F
to
3
°F
(ISU
9070).
The
thermostat
uses
the
cooling
system
to
reduce
humidity
by
lowering
the
temperature
as
much
as
3
°F
below
the
current
cool
setpoint
until
the
desired
humidity
level
is
reached.
If
set
for
A/C
with
Low
Speed
Fan
,
configure
the
U
contacts
as
Normally
Open
or
Normally
Closed
(ISU
9050)
and
wire
to
the
Low
Speed
Fan
terminal
on
the
equipment.
For
example,
if
the
U
contacts
are
normally
closed,
they
will
open
when
the
thermostat
calls
for
dehumidification.
If
humidification
and
dehumidification
are
both
set
up
to
operate
in
the
system
mode
(Off),
the
thermostat
will
auto
-
matically
enforce
a
15%
deadband
between
the
humidification
and
dehumidification
settings.
The
thermostat
will
auto
-
matically
switch
between
humidification
and
dehumidification
to
maintain
the
desired
humidity
level.
Dehumidification
Overcooling
Limit
(ISU
9070):
This
option
uses
the
cooling
system
to
lower
the
temperature
up
to
3°
F
below
the
current
cool
setpoint
until
the
desired
humidity
is
reached.
The
Dehum
Over
Cooling
Limit
range
is
from
0°
to
3°
F
is
set
for
low-
speed
fan
and
1°
to
3°
F
if
set
for
high-
speed
fan.
Set
up
Dehumidification
With
Cooling
System
Some
screens
shown
in
this
section
may
not
appear
on
the
thermostat,
depending
on
how
you
set
up
dehumidification.
1.
Select
the
Dehumidification
Equipment
in
ISU
9000.
2.
Select
whether
the
U
terminals
are
Normally
Open
or
Normally
Closed
(ISU
9050).
l
Normally
Open
–
contacts
are
normally
open
and
will
close
during
a
call
for
dehumidification
l
Normally
Closed
–
contacts
are
normally
closed
and
will
open
during
a
call
for
dehumidification.
3.
Set
the
Overcooling
Limit
(ISU
9070).
Options:
l
0
°F
to
3
°F
(A/C
with
Low
Speed
Fan)
l
1
°F
to
3
°F
(A/C
with
High
Speed
Fan)
Dehumidification
Fan
Speed
Priority
(T10+
Only.
See
ISU
9005)
If
the
house
has
circulation
issues
to
certain
parts
of
the
house
when
running
in
low
speed,
this
feature
will
allow
the
ther
-
mostat
to
use
the
high
speed
fan
more
often
so
that
the
conditioned
air
has
better
circulation
within
the
home.
l
Low
Speed
Fan
with
Cool
Stage
1
Only:
When
the
thermostat
is
set
to
humidify
with
low
speed
fan,
and
humidity
is
high,
and
cooling
is
running
at
stage
1,
always
run
with
the
low
speed
fan.
When
cooling
goes
to
stage
2,
it
ramps
up
to
high
speed
fan.
l
Low
Speed
Fan
Always:
Regardless
of
which
cooling
stage
is
active,
the
thermostat
will
exclusively
use
the
low
speed
fan
when
dehumidifying.
l
User
Selectable:
The
homeowner
can
set
the
high
speed
fan
priority
based
on
their
comfort
level
(reachable
via
Menu
>
Dehumidification
>
Options
>
High
speed
fan)
If
set
to
10,
the
thermostat
will
always
use
the
high
speed
fan
and
never
switch
into
low
speed
mode
operation.
If
set
to
0,
the
thermostat
will
only
use
the
low
speed
fan
and
never
switch
to
the
high
speed
fan
when
the
humidity
level
is
above
the
Dehumidity
setting.
95 Dehumidification
Using
a
Whole
House
Dehumidifier
The
Whole
House
Dehumidifier
option
requires
a
dedicated
unit
for
dehumidification.
The
thermostat
can
be
set
to
con
-
trol
dehumidification
in
all
modes
(Heat,
Off,
Cool
[ISU
9120]).
Set
up
Dehumidification
With
Whole
House
Dehumidifier
(Some
screens
shown
in
this
section
may
not
appear
on
the
thermostat,
depending
on
how
you
set
up
dehumidification.)
1.
Select
the
Dehumidification
Equipment
in
ISU
9000.
2.
Select
the
system
mode
(s)
to
allow
dehumidification
ISU
9120.
NOTE:
Heat
includes
Heat,
Emergency
Heat
and
Auto.
If
the
system
is
in
Auto
mode,
the
thermostat
will
allow
dehumidification
if
the
last
call
was
for
heat.
Cool
includes
Cool
and
Auto.
If
the
system
is
in
Auto
mode,
the
thermostat
will
allow
dehumidification
if
the
last
call
was
for
cool.
3.
Set
Dehumidifier
Fan
Control
settings
ISU
9130.
l
Tstat
Controls
Fan
Thermostat
turns
on
the
dehumidifier
and
the
fan
when
dehumidification
is
needed.
l
Equip
Controls
Fan
Thermostat
turns
on
the
dehumidifier
when
dehumidification
is
needed.
The
fan
is
con
-
trolled
by
the
equipment.
4.
Set
the
desired
lockout
option.
See
ISU
9140.
Dehumidification
Away
Mode
(T10+
Only)
See
ISU
settings
9180-
9200.
Your
system
can
be
set
to
control
indoor
climate
while
your
home
is
vacant
during
the
humid
season.
If
configured
for
Dehumidification
Away
Mode,
before
you
leave,
touch
MENU
,
then
select
Dehumidification
Away
Mode.
Temperature
and
humidity
will
be
kept
at
levels
that
protect
your
home
and
possessions.
When
you
return,
touch
Stop
to
resume
normal
operation.
Set
up
Dehumidification
Away
Mode
1.
Select
Allowed
at
ISU
9180.
2.
Set
Fan
Control
settings
at
ISU
9190.
l
On:
Fan
is
always
on.
l
Automatic:
Fan
runs
only
when
cooling
system
is
on.
l
Circulate:
Fan
runs
about
35%
of
the
Time.
3.
Set
temperature
and
dehumidification
settings
at
ISU
9200
l
Low
Limit
Temperature
Setting
If
the
cooling
system
is
used
to
control
humidity
while
Dehumidification
Away
Mode
is
active,
the
thermostat
allows
the
cooling
system
to
lower
the
indoor
air
to
the
Low
Limit
Tem
-
perature
Setting
to
reach
the
Dehumidification
Setting.
l
Temperature
Setting
The
temperature
maintained
while
Dehumidification
Away
Mode
is
active
and
the
desired
humidity
level
is
satisfied.
l
Dehumidification
Setting
The
desired
humidity
level
while
Dehumidification
Away
Mode
is
active.
Control
Dehumidification
Level
1.
Touch
MENU
and
select
Dehumidification.
2.
Touch
5
or
6
to
select
Dehumidity
level.
3.
Touch
options
if
you
want
to
enable/disable
the
dehumidifier.
When
disabled,
the
display
will
show
off
when
viewing
the
dehumidifier
setting
screen.
4.
Touch
Done
to
save
your
settings.
NOTE:
If
your
air
conditioner
is
used
to
control
humidity,
the
temperature
may
drop
up
to
3°
F
below
your
temperature
setting
until
humidity
reaches
the
desired
level.
NOTE:
If
humidification
and
dehumidification
are
setup
to
operate
in
the
same
system
mode
(Off)
the
thermostat
will
automatically
enforce
a
15%
deadband
between
the
humidification
and
dehumidification
settings.
The
thermostat
will
automatically
switch
between
humidification
and
dehumidification
to
maintain
the
desired
humidity
level.
96 Dehumidification:
Commercial
(T10+
only)
The
thermostat
reads
the
indoor
humidity
level
and
allows
the
user
to
set
a
dehumidification
setting.
The
thermostat
con
-
trols
the
humidity
level
using
the
cooling
system
or
a
dehumidifier.
If
humidification
and
dehumidification
are
set
up
to
operate
in
the
same
system
mode
(Heat,
Cool,
Off)
and
you
are
sens
-
ing
humidity
from
one
location,
the
thermostat
will
automatically
enforce
a
15%
deadband
between
the
humidification
and
dehumidification
settings.
The
thermostat
will
automatically
switch
between
humidification
and
dehumidification
to
maintain
the
desired
humidity
level.
If
humidification
and
dehumidification
are
set
up
to
operate
in
the
same
system
mode
(Heat,
Cool,
Off)
and
you
are
sens
-
ing
humidity
from
two
different
locations
using
a
remote
wireless
indoor
sensor
(for
example,
main
level
and
crawl
space),
the
thermostat
will
allow
humidification
and
dehumidification
to
operate
at
the
same
time,
and
there
is
no
dead
-
band
between
humidification
and
dehumidification
settings.
Commercial
Dehumidification
Equipment
Options
:
(ISU
9000)
l
A/C
with
Low
Speed
Fan
l
A/C
with
High
Speed
Fan
l
Hot
Gas
Bypass
l
Dehumidifier
NOTE
-
Hot
Gas
Bypass
:
During
a
call
for
dehumidification,
the
cooling
capacity
will
be
used
to
remove
more
latent
heat
than
sensible
heat.
The
operation
of
Hot
Gas
Bypass
varies
by
equipment.
For
more
details,
contact
the
equipment
man
-
ufacturer.
Basic
:
This
option
uses
the
cooling
system
to
reach
the
desired
humidity
level.
Minimum
On
Time,
High
Humidity
Com
-
fort
Reset
and
Reheat
are
not
used
with
this
method.This
setting
is
commonly
used
if
your
dehumidification
equipment
is
Hot
Gas
Bypass.
Minimum
On
Time
(ISU
9090)
:
This
option
ensures
that
the
compressor
runs
long
enough
to
effectively
reduce
humidity
when
the
cooling
equipment
is
cycled
on.
The
compressor
will
run
for
the
minimum
“on
time”
you
set
until
the
desired
humidity
level
is
reached.
High
Humidity
Comfort
Reset
(ISU
9100)
:
This
option
uses
the
cooling
system
to
lower
the
temperature
up
to
5°
F
below
the
current
cool
setpoint
until
the
desired
humidity
is
reached.
The
high
humidity
comfort
range
is
from
1°
to
5°
F.
High
Humidity
Comfort
Reset
with
Minimum
On
Time
(ISU
9090
and
9100)
:
This
method
uses
both
options
above
to
reduce
humidity
while
maintaining
a
comfortable
temperature.
Reheat
(ISU
9080)
:
This
option
allows
heating
to
run
during
dehumidification
to
help
maintain
a
comfortable
tem
-
perature.
If
only
cooling
stage
1
is
used,
during
the
“off”
cycle,
both
cooling
and
heating
run
at
the
same
time
as
needed
to
dehumidify
without
over-
cooling.
This
option
cannot
be
used
in
the
Heat
mode.
This
option
is
effective
only
if
using
a
system
with
the
A-
Coil
located
before
the
heating
coil
(heat
exchanger).
This
feature
requires
a
conventional
forced
air
heating
system
(gas,
oil,
or
electric)
in
the
application.
NOTES
:
l
Reheat
can
be
used
on
heat
pump
applications
that
have
a
forced
air
backup
heat
source
(gas,
oil,
or
electric).
The
thermostat
will
turn
on
the
first
stage
of
Forced
Air
Backup
Heat
during
Reheat.
l
Reheat
can
be
used
on
systems
where
the
A-
Coil
is
located
after
the
heating
coil
(heat
exchanger),
but
it
is
not
effective
at
removing
humidity.
Reheat
with
Minimum
On
Time
(ISU
9080
and
9090)
:
This
method
uses
both
Reheat
and
Minimum
On
Time
options
above
to
reach
the
desired
humidity
level.
97 If
set
for
A/C
with
Low
Speed
Fan,
configure
the
assigned
set
of
U
contacts
as
Normally
Open
or
Normally
Closed
(ISU
9050)
and
wire
to
the
Low
Speed
Fan
terminal
on
the
equipment.
For
example,
if
the
U
terminals
are
normally
closed,
it
will
open
when
the
thermostat
calls
for
dehumidification.
See
"Wiring
at
T10
or
T10+
without
EIM"
on
page
20
.
NOTE
:
The
thermostat
will
not
lower
the
fan
speed
when
the
second
stage
of
cooling
is
on.
Ventilation
The
thermostat
can
be
set
for
the
following
ventilation
types:
(ISU
10000)
l
ERV/HRV
l
Passive
(Fan
Only)
l
Fresh
Air
Damper
Ventilation
Control
Methods
(ISU
10050)
Ventilation
can
be
setup
to
meet
either
ASHRAE
or
Percent
On
Time
settings.
To
meet
these
settings,
the
thermostat
will
ventilate
during
calls
for
Heat,
Cool
and
Fan.
If
the
required
ventilation
has
not
been
achieved
for
ASHRAE
or
Percent
On
Time,
the
thermostat
will
force
the
ventilation
equipment
on.
ASHRAE
The
thermostat
operates
ventilation
equipment
to
meet
the
ASHRAE
62.2
ventilation
standard
based
on
CFM,
number
of
bedrooms,
and
square
footage
of
the
house.
ASHRAE
62.2
can
only
be
met
if
the
ventilation
equipment
is
running.
If
the
ventilation
equipment
is
off
for
any
reason
(outdoor
ventilation
lockouts,
set
up
to
turn
Off
during
Sleep
period,
turned
off
by
user,
etc.),
ASHRAE
62.2
is
not
met
dur
-
ing
those
times.
See
ISU
10125
to
select
a
Ventilation
Priority.
Percent
On
Time
The
thermostat
operates
ventilation
equipment
based
on
a
percentage
entered
in
the
installer
setup
(ISU
10120).
For
example
if
Percent
On
Time
is
set
to
50%,
the
ventilation
equipment
will
run
at
random
times
during
a
1
hour
period
until
it
reaches
a
50%
run
time
(approximately
30
minutes).
Default
setting
is
30%.
Range
is
10%
to
100%
in
10%
incre
-
ments.
Ventilation
Fan
Control
(ISU
10060)
l
Tstat
Controls
Fan
o
The
thermostat
turns
on
the
ventilator
and
the
fan
when
ventilation
is
needed.
l
Equip
Controls
Fan
o
The
thermostat
turns
on
the
ventilator
when
ventilation
is
needed.
The
fan
is
controlled
by
the
equipment.
Ventilation
Priority
(ISU
10125)
Lockouts
are
Priority
The
thermostat
places
a
priority
on
lockouts
versus
the
ASHRAE
62.2
ventilation
standard.
The
thermostat
will
not
run
ventilation
during
the
following
lockout
conditions
(if
configured)
unless
you
manually
call
for
ventilation:
l
Lockout
Ventilation
during
Outdoor
Conditions
(ISU
10130)
l
Lockout
Ventilation
during
“Sleep”
program
periods.
This
option
is
set
by
the
user
on
the
Ventilation
screen.
From
Home
press
Menu
>
Ventilation
>
Options
>
Disable
During
Sleep.
l
Turn
on
ventilation
due
to
a
custom
Dry
Contact
Alert
setting.
This
is
if
someone
set
ISU
6005
for
a
custom
Dry
Contact
Alert
and
set
ISU
10065
to
turn
on
the
ventilator.
l
Lockout
ventilation
due
to
a
custom
Dry
Contact
Alert
setting.
This
is
if
someone
set
ISU
6005
for
a
custom
Dry
Contact
Alert
and
set
ISU
10145
to
lock
out
the
ventilator.
Opposite
actions
cannot
be
selected
for
the
same
custom
dry
contact
(Ex.
user
cannot
select
both
to
Turn
Ventilation
On
and
Lockout
Ventilation
for
the
Custom
Dry
Contact
1).
If
opposite
actions
are
triggered
at
the
same
time
due
to
different
custom
dry
contacts
(example,
Dry
Contact
Alert
1
set
to
turn
on
ventilator
and
custom
dry
contact
2
set
to
lock
out
ventilator),
Lockout
Ventilation
has
priority
over
Turn
Vent
-
ilation
On.
ASHRAE
is
Priority
ASHRAE
requires
additional
ventilation
following
a
long
off
cycle.
The
thermostat
meets
the
ASHRAE
62.2
ventilation
standard
by
running
additional
ventilation
when
outdoor
conditions
are
favorable.
If
ASHRAE
cannot
be
met
when
out
-
door
conditions
are
favorable,
the
thermostat
will
override
the
outdoor
lockouts
and
run
ventilation.
When
using
this
option,
it
is
recommended
to
increase
the
rate
(CFM)
of
the
ventilation
equipment
to
meet
the
ASHRAE
62.2
ventilation
standard
in
a
shorter
run
time.
NOTE:
The
ability
to
lock
out
ventilation
during
the
“Sleep”
program
periods
is
not
an
option
when
you
select
ASHRAE
is
Priority.
98 Ventilation
—
Outdoor
Condition
Lockouts
(ISU
10130)
Ventilation
will
not
operate
when
outdoor
conditions
exceed
the
lockout
settings
unless
you
manually
call
for
ventilation
or
Ventilation
Priority
(ISU
10125)
is
set
to
ASHRAE
is
Priority
and
ventilation
is
needed
to
meet
ASHRAE.
Lockouts
can
prevent
ventilation
during
extreme
weather
conditions
to
keep
humid,
hot,
and
cold
air
out
of
the
home.
NOTE:
This
feature
requires
outdoor
sensor
for
outdoor
temperature
limits,
or
Internet
connection
for
temperature
and
humidity
lockouts.
Options
are:
l
Ventilation
Low
Temperature
Lockout
Setpoint
(Off,
-
20°
to
40°
F)
l
Ventilation
High
Temperature
Lockout
Setpoint
(Off,
80°
to
110°
F)
l
Ventilation
High
Dewpoint
Lockout
Setpoint
(Off,
65°
to
85°
F)
Refer
to
the
information
below
if
you
need
assistance
setting
the
High
Dewpoint
Lockout.
l
Higher
than
80:
Extremely
uncomfortable
l
75
to
80:
Very
uncomfortable
l
70
to
74:
Quite
uncomfortable
l
65
to
69:
Somewhat
uncomfortable
l
Ventilate
On
High
Indoor
Humidity
(ISU
10160)
If
set
to
ventilate
on
high
indoor
humidity,
the
ventilator
turns
on
to
remove
excess
humidity
if
the
indoor
humidity
is
10%
above
the
humidification
setting.
The
thermostat
must
be
in
the
Heat
mode
to
ventilate
on
high
indoor
humidity.
If
frost
control
is
used,
then
the
ventilation
setting
will
adjust
to
stay
approx.
10%
RH
above
the
humidity
setting.
Control
Ventilation
Level
1.
Touch
MENU
,
and
select
Ventilation.
You
can
check
or
change
the
ventilation
mode.
Mode:
l
Auto:
Ventilation
runs
as
programmed
by
the
installer.
l
Off:
Ventilation
remains
off
unless
turned
on
using
the
timer.
l
On:
Ventilation
is
always
on.
The
display
will
show
whether
the
ventilator
is
currently
running
under
“status”.
To
temporarily
turn
the
ventilator
on,
use
the
up
arrow
to
set
the
number
of
minutes
you
want
the
ventilator
to
run
(0-
180
minutes).
To
cancel
a
tem
-
porary
setting,
press
Cancel
Timed
Ventilation
.
NOTE:
This
setting
is
not
available
when
ventilator
is
set
to
“on”.
2.
Touch
Done
to
save
your
settings.
Touch
Cancel
to
ignore
changes.
Lockout
During
Sleep:
Under
the
ventilation
menu,
touch
Options
”.
Select
or
deselect
Disable
During
Sleep
.
Touch
the
back
arrow
in
upper
left
of
display
to
return
to
previous
screen.
99 ADVANCED
FEATURES
Cleaning
the
Thermostat
Screen
When
you
select
the
Clean
Screen
option,
the
screen
is
locked
to
prevent
accidental
changes
to
the
thermostat
while
you
clean
the
screen.
1.
Touch
MENU
.
2.
Scroll
down
and
select
Preferences
.
3.
Select
Display
.
4.
Select
Clean
Screen
.
A
prompt
asks
if
you
want
to
clean
the
screen
for
30
seconds.
5.
Touch
Yes
.
A
countdown
timer
displays
elapsed
time
until
the
screen
is
reactivated.
NOTE:
Do
NOT
spray
any
liquid
directly
on
the
thermostat.
Spray
liquids
onto
cloth,
then
use
the
damp
cloth
to
clean
the
screen.
Use
water
or
household
glass
cleaner.
Avoid
abrasive
cleansers.
Adjusting
Security
Settings
You
can
adjust
security
options
to
prevent
unauthorized
changes
to
system
settings.
1.
Touch
MENU
.
2.
Scroll
down
and
select
Security
.
3.
If
you
already
know
the
password,
select
Change
Lock
Mode
.
If
you
don't
know
the
password,
select
Create
Pass
-
word
.
Lock
mode
options
l
Unlocked:
Full
access
allowed.
l
Partially
locked:
Only
temperature
can
be
changed.
l
Fully
locked:
No
access
allowed.
If
you
choose
Create
Password
make
sure
to
write
it
down
for
reference.
Dealer
Information
This
can
be
viewed
by
the
homeowner
when
an
alert
or
reminder
message
appears
on
the
thermostat
display.
Entering
Dealer
Information
1.
Touch
MENU
.
2.
Scroll
down
and
select
Dealer
Information
.
If
this
information
has
not
previously
been
entered,
note
the
date
code
from
this
screen.
3.
Touch
the
back
arrow
in
upper
left
of
display.
4.
Select
Installer
Options
.
5.
Enter
date
code.
6.
Select
Dealer
Information
Setup
.
7.
Click
on
each
of
the
categories
to
enter
the
dealer
information.
l
Company
l
Phone
l
Website
l
Email
Viewing
Dealer
Information
Check
dealer
information
if
you
need
to
contact
your
installer
for
maintenance,
repairs,
or
upgrades.
1.
Touch
MENU
.
2.
Scroll
down
and
select
Dealer
Information
.
NOTE:
This
menu
option
will
only
appear
if
the
contractor
had
entered
this
information.
Caps
Lock
When
entering
contractor
information,
customer
Dry
Contact
Alert
message,
etc.,
double-
click
the
Shift
key
to
enter
text
all
in
upper-
case:
100 Auto
Changeover
Operation
Auto
changeover
is
available
if
the
thermostat
is
configured
for
at
least
1
Heat
stage
and
1
Cool
stage
and
ISU
3000
is
set
to
“Auto”.
When
configured
this
way,
you
can
select
“Auto”
as
one
of
the
options
under
“System
mode”.
ISU
3015
is
the
auto
changeover
differential
setting.
It
can
be
set
from
0-
3
°F
(0-
2.5
°C).
When
in
auto
mode,
the
cus
-
tomer
can
always
set
the
Heat
and
Cool
setpoint
to
the
same
temperature,
regardless
of
the
differential
setting
although
most
customer
prefer
to
have
a
cool
setpoint
that
is
at
least
3
degrees
above
the
Heat
setpoint.
When
0
is
selected,
we
enforce
a
1.5°F
differential
behind
the
scenes
to
ensure
the
heat
doesn’t
come
on
after
cooling
shuts
off
or
vice-
versa.
The
differential
is
the
minimum
number
of
degrees
the
temperature
needs
to
rise
or
fall
before
switching
from
Heat
to
Cool
while
in
auto
changeover
mode.
Example:
With
a
differential
of
3,
if
heat
and
cool
were
both
set
for
70,
and
heat
had
been
used
last,
the
temperature
would
need
to
rise
at
least
3
degrees
above
the
heat
setpoint
before
the
thermostat
would
turn
on
cooling.
Then
it
would
run
cooling
down
to
setpoint
and
cycle
cooling
on
and
off
to
maintain
setpoint.
The
temperature
would
then
need
to
drop
at
least
3
degrees
below
the
cool
setpoint
before
heat
could
come
on.
If
the
AC
is
used
for
dehumidification
then
we
enforce
an
additional
temp
drop
below
the
over-
cooling
amount,
(ISU
9070)
prior
to
switching
back
to
heat.
Em
Heat
and
Auxiliary
Heat
Operation
Auxiliary
Heat:
Auxiliary
Heat
runs
as
backup
to
the
heat
pump.
It
runs
with
the
heat
pump
when:
l
The
thermostat
is
set
to
Heat
mode.
l
The
Backup
Heat
is
set
to
electric
(ISU
2180).
l
Load
conditions
determine
Backup
Heat
is
needed.
The
heat
pump
could
be
locked
out
when
in
Heat
mode
by
the
balance
point
setting
(ISU
3120)
or
if
the
backup
heat
is
gas
or
oil
and
backup
heat
differential
(ISU
3090)
or
upstage
timer
(ISU
3110)
are
used.
Emergency
Heat:
Emergency
Heat
runs
when
you
manually
switch
the
thermostat
to
the
Em
Heat
mode.
When
the
thermostat
is
in
Emer
-
gency
Heat
mode,
the
heat
pump
is
locked
out.
Emergency
Heat
mode
is
only
available
when
the
thermostat
is
configured
for
a
heat
pump
(ISU
2000)
and
Backup
Heat
stages
is
set
to
1
(ISU
2071).
From
the
home
screen
touch
the
menu
icon
and
then
“System
Mode”.
You
can
set
the
thermostat
to
Heat,
Off,
Cool,
Emergency
Heat,
or
Auto.
(Auto
only
available
if
ISU
3000
is
set
to
Auto.)
When
the
thermostat
is
set
to
Em
Heat
mode,
the
heat
pump
is
locked
out
and
the
Backup
Heat
is
used
to
maintain
the
heat
setpoint.
If
ISU
2175
is
set
to
“Drive
aux
and
E
together”,
then
with
a
call
for
emergency
heat
or
auxiliary
heat,
both
E
and
AUX
ter
-
minals
are
energized.
Typically
the
backup
heat
is
wired
to
Aux
and
E
is
unused
when
set
this
way.
If
ISU
2175
is
set
to
“Aux
and
E
independent”,
then
with
a
call
for
emergency
heat,
the
E
terminal
is
energized
and
the
Aux
terminal
is
not.
The
wire
to
Aux
controls
a
heat
source
that
runs
as
backup
heat
to
the
heat
pump
when
the
mode
is
set
to
“Heat”.
The
wire
to
E
controls
a
heat
source
that
runs
independent
of
the
heat
pump
when
mode
is
set
to
Em
Heat.
In
most
cases,
the
heat
pump
uses
the
same
heat
source
for
auxiliary
heat
and
em
heat.
Dual
fuel
systems
(Heat
pump
with
gas
or
oil
furnace
backup)
cannot
run
the
heat
pump
and
furnace
at
the
same
time.
101 Adaptive
Intelligent
Recovery
Over
time,
the
T10
or
T10+
thermostat
learns
how
long
it
takes
your
system
to
reach
your
programmed
temperature
set
-
ting.
The
thermostat
turns
on
the
heating/cooling
system
early
and
assures
that
the
programmed
temperature
setting
is
reached
at
the
programmed
time
regardless
of
weather
conditions.
For
example,
if
the
Wake
program
period
is
set
to
6:00
am
with
a
heat
setting
of
70
degrees,
the
heat
will
turn
on
before
6:00
am,
so
the
temperature
is
70
degrees
at
6:00
am.
The
thermostat
displays
“In
Recovery”
when
it
turns
the
system
on
early.
Adaptive
Intelligent
Recovery
®
calculates
the
recovery
ramp
based
on
how
far
the
room
temperature
is
away
from
the
tem
-
perature
setting,
previous
equipment
performance
and
weather
history,
allowing
the
thermostat
to
start
recovery
at
the
optimal
time
so
it
can
reach
the
programmed
temperature
setting
at
the
programmed
time.
The
T10
or
T10+
thermostat
uses
two
recovery
ramps
when
set
up
to
control
a
heat
pump
system;
one
ramp
for
the
compressor
and
one
ramp
for
the
auxiliary
heat.
Once
the
room
temperature
intersects
the
compressor
ramp,
the
compressor
turns
on
until
the
setpoint
is
reached.
If
the
room
temperature
does
not
rise
quickly
enough
and
intersects
the
second
ramp,
the
auxiliary
heat
turns
on.
It
takes
about
one
week
for
the
thermostat
to
adjust
to
weather
conditions,
equipment
performance
and
construction
of
the
home.
If
the
temperature
setting
is
reached
too
early
or
too
late,
the
ramp
is
adjusted
for
the
next
day's
recovery.
See
figure
below:
WAKE
COMPRESSOR SETPOINT
AUXILIARY HEAT SETPOINT
ROOM TEMPERATURE
M6406C
Compressor
Protection
The
thermostat
keeps
the
compressor
off
for
a
few
minutes
before
restarting,
to
prevent
equipment
damage.
During
this
“off”
time,
the
message
"Waiting
for
equipment"
is
displayed
on
screen.
P
+
I
Control
A
conventional
mechanical
or
electronic
thermostat
does
not
control
temperature
precisely
at
setpoint.
Typically
there
is
an
offset
(Differential)
in
the
control
point
as
the
system
load
changes.
Many
factors
contribute
to
offset
including
the
switch
differential,
thermal
lag,
overshoot,
cycle
rates
and
system
load.
The
T10
or
T10+
thermostat
however,
works
much
differently
than
a
conventional
mechanical
or
electronic
thermostat
when
Differential
is
set
to
comfort.
Differential
is
always
set
to
comfort
and
not
adjustable
when
controlling
a
2
stage
fur
-
nace
or
2
stage
heat
pump
without
Aux
Heat.
The
proprietary
algorithm
in
the
thermostat
eliminates
the
factors
causing
offset
(Differential).
This
makes
temperature
control
more
accurate
than
the
conventional
mechanical
or
electronic
ther
-
mostat.
The
temperature
control
algorithm
is
called
proportional
plus
integral
(P
+
I)
control.
The
thermostat
sensor
or
indoor
sensor
senses
the
current
space
temperature.
The
proportional
error
is
calculated
by
comparing
the
sensed
temperature
to
the
setpoint
temperature.
The
deviation
from
the
setpoint
is
the
proportional
error.
The
thermostat
also
determines
integral
error,
which
is
a
deviation
based
on
the
length
of
error
time
(how
long
the
sensed
room
temperature
has
been
away
from
the
setpoint
temperature).
The
sum
of
the
two
errors
is
the
(P
+
I)
error.
The
cycle
rate
used
to
reach
and
maintain
the
setpoint
temperature
is
computed
using
the
P
+
I
control
algorithm.
The
addition
of
the
integral
error
is
what
differentiates
the
thermostat
from
many
other
mechanical
and
electronic
ther
-
mostats.
Heat
Differential
For
stage
2
of
conventional
systems
or
2
stage
heat
pump
without
Aux
Heat
The
thermostat
will
use
the
stage
of
heating
as
needed
to
keep
the
indoor
temperature
within
1
°F
(0.5
°C)
degree
of
the
setpoint.
The
thermostat
turns
on
stage
2
when
the
capacity
on
stage
1
reaches
90%.
Heat
pumps
with
electric
Aux
Heat
when
Differential
is
set
to
“Comfort”
The
thermostat
will
use
the
stage
of
heating
as
needed
to
keep
the
indoor
temperature
within
1
°F
(0.5
°C)
degree
of
the
setpoint.
The
thermostat
turns
on
Aux
Heat
when
the
capacity
on
highest
compressor
stage
has
reaches
90%.
Heat
pumps
with
electric
Aux
Heat
when
Differential
is
set
to
2°F
or
higher
(2
°F
to
15
°F
adjustable)
If
the
indoor
temperature
drops
to
the
Differential
amount
while
the
highest
compressor
stage
is
running
the
thermostat
will
continue
to
run
the
heat
pump
stages
and
also
energize
the
Aux
Heat.
For
example,
if
the
Backup
Heat
Differential
is
set
to
2
°F
(1.0
°C),
the
indoor
temperature
must
be
2
°F
(1.0
°C)
below
the
setpoint
before
the
backup
heat
turns
on.
When
a
manual
temperature
change
is
made,
there
will
typically
be
a
delay
before
the
thermostat
brings
on
the
backup
heat,
regardless
of
the
upstage
timer
settings.
When
Differential
is
set
to
other
than
Comfort,
the
upstage
timer
and
Holdoff
timer
settings
are
also
available.
102 Dual
Fuel
heat
pumps
with
gas
or
oil
Backup
Heat
If
the
thermostat
is
configured
to
control
dual
fuel,
the
Differential
cannot
be
set
to
Comfort.
It
will
default
to
2
°F
and
can
be
adjusted
from
2
°F
to
15
°F.
If
the
indoor
temperature
drops
to
the
Differential
amount
while
the
highest
compressor
stage
is
running
the
thermostat
will
end
the
call
for
the
heat
pump
stages
and
run
the
fossil
fuel
heat
stage.
For
example,
if
the
Backup
Heat
Differential
is
set
to
2
°F
(1.0
°C),
the
indoor
temperature
must
be
2
°F
(1.0
°C)
below
the
setpoint
before
the
thermostat
will
shut
down
the
heat
pump
and
run
the
fossil
fuel
heat.
When
a
manual
temperature
change
is
made,
there
will
typically
be
a
delay
before
the
thermostat
brings
on
the
Backup
Heat,
regardless
of
the
upstage
timer
settings.
Upstage
Timer
The
Upstage
timer
setting
is
only
available
when:
l
The
thermostat
is
configured
for
a
heat
pump
with
an
aux
heat
stage
(electric
of
fossil
fuel).
l
The
Differential
setting
is
set
to
a
setting
other
than
“Comfort”
(2
°F
to
15
°F).
Backup
Heat
Upstage
Timer
options
are
Off,
30
minutes
to
16
hours.
Default
is
Off.
The
upstage
timer
allows
*
the
Aux
Heat
to
run
when
the
highest
heat
pump
stage
has
run
for
longer
than
the
timer
set
-
ting
during
a
steady
state
condition.
Steady
state
means
the
thermostat
is
cycling
to
maintain
setpoint.
Manually
raising
the
setpoint
or
a
scheduled
setpoint
change
will
not
trigger
the
upstage
timer.
In
those
conditions
the
thermostat
will
not
use
Backup
Heat
unless
a
different
condition
triggers
the
thermostat
to
run
the
Backup
Heat
(Dif
-
ferential,
balance
point,
or
manually
switching
the
thermostat
to
Em
Heat
mode).
*
Differential
and
upstage
timer
are
designed
to
restrict
the
auxiliary
heat
for
customers
who
are
energy
conscious.
The
aux
heat
does
not
necessarily
run
after
the
timer
has
expired
even
in
a
steady
state
condition.
Once
the
timer
expires
in
steady
state
the
thermostat
calculates
whether
or
not
to
run
the
aux
heat
based
on
the
load
capacity
of
the
highest
heat
pump
stage.
If
the
heat
pump
struggles
to
maintain
setpoint,
we
would
suggest
one
of
the
following
steps:
1.
Verify
the
heat
pump
is
operating
as
expected.
2.
Set
a
balance
point.
If
a
balance
point
is
already
used
but
the
heat
pump
cannot
handle
the
load
even
when
oper
-
ating
correctly,
the
installer
may
need
to
raise
this
setting.
3.
For
heat
pump
with
electric
backup
heat,
set
the
Differential
to
“Comfort”,
this
uses
the
backup
heat
more
aggress
-
ively.
Holdoff
Timer
The
Backup
Heat
Holdoff
Timer
is
available
for
any
system
with
2
heating
types,
the
Backup
Heat
Differential
is
set
to
2
°F
(1.0
°C)
or
higher,
and
backup
heat
upstage
timer
is
set
to
30
minutes
or
more.
Unlike
the
upstage
timer,
the
holdoff
timer
can
be
activated
by
a
temperature
set
point
change
(not
limited
to
steady
state).
The
holdoff
timer
starts
when
the
highest
stage
of
the
previous
equipment
type
turns
on.
The
out-
of-
box
setting
is
“Auto”
and
the
thermostat
will
hold
off
the
use
of
backup
heat
as
long
as
possible
when
the
set
point
is
changed.
If
this
is
changed
to
a
setting
other
than
Auto,
then
the
auxiliary
heat
will
be
FORCED
to
turn
on
after
this
time
is
met.
Programmed
Recovery
If
the
primary
heat
is
making
progress
as
expected,
backup
heat
will
not
be
used
to
reach
the
setpoint
of
the
next
pro
-
gram
period.
Backup
heat
is
always
restricted
during
a
programmed
recovery
when
the
Adaptive
Intelligent
Recovery
fea
-
ture
is
used.
See
note
below.
NOTE:
During
a
programmed
recovery
(or
when
the
temperature
setpoint
is
changed
by
the
user),
the
thermostat
waits
to
turn
on
the
backup
heat
depending
on
system
performance,
load
conditions
and
how
many
degrees
the
temperature
set
-
point
is
changed.
Backup
heat
will
be
used
ONLY
when
the
temperature
is
not
rising
quickly
enough
to
reach
the
set
-
point
in
a
reasonable
time.
Upstage
timer
for
heat
pump
with
aux
heat
applications
is
only
used
in
steady
state
(cycling
to
maintain
setpoint).
The
thermostat
will
not
run
the
aux
heat
during
a
programmed
recovery
unless
one
of
the
following
conditions
occurs:
1.
Differential
is
set
for
comfort
and
thermostat
calculates
that
the
heat
pump
cannot
effectively
handle
the
load
conditions.
2.
Differential
is
set
to
2
°F
to
15
°F
and
indoor
temperature
drops
while
the
highest
stage
of
heat
pump
is
running.
3.
Outdoor
temperature
drops
below
the
balance
point
setting
(if
used).
4.
Thermostat
is
manually
switched
to
em
heat
mode.
103 Finish
with
High
Heat
stage
and/or
Finish
with
High
Cool
stage
These
settings
allow
the
installer
to
keep
the
high
stage
of
the
equipment
running
until
the
desired
setpoint
is
reached.
This
setting
is
recommended
for
Geothermal
Heat
Pumps
to
allow
the
loop
to
rest.
When
set
to
no
(default),
the
thermostat
cycles
the
stages
based
on
load
conditions
and
the
cycle
rate
setting
for
these
stages.
“Finish
with
High
Cool
Stage”
is
ISU
3020.
“Finish
with
High
Heat
Stage”
is
ISU
3021.
Set
to
Yes
to
turn
on
these
features.
The
default
is
No.
Heat
Pump
and
Backup
Heat
Lockout
Operation
Heat pump with outdoor temperature lockouts
Outdoor temperature lockouts are optional. See Inst
aller Setup options (ISU 3120).
HEAT PUMP ONLY
BACKUP HEAT ONLY
ELECTRIC - BACKUP HEAT ALLOWED TO RUN WITH HEAT PUMP
BACKUP HEAT LOCKOUT
COMPRESSOR LOCKOUT
HEAT PUMP WITH BACKUP HEAT AS NEEDED*
* NO BACKUP HEAT UNLESS INDOOR TEMPERATURE DROPS TO SELECTED BACKUP HEAT DROOP SETTING,
OR BACKUP HEAT UPSTAGE TIMER EXPIRES.
HEAT PUMP STAYS ON WHEN BACKUP HEAT TURNS ON.
OUTDOOR TEMPERATURE
HEAT PUMP ONLY
BACKUP HEAT ONLY
FOSSIL FUEL - BACKUP HEAT NOT ALLOWED TO RUN WITH HEAT PUMP
BACKUP HEAT LOCKOUT
COMPRESSOR LOCKOUT
HEAT PUMP WITH BACKUP HEAT AS NEEDED*
* NO BACKUP HEAT UNLESS INDOOR TEMPERATURE DROPS TO SELECTED BACKUP HEAT DROOP SETTING,
OR BACKUP HEAT UPSTAGE TIMER EXPIRES.
HEAT PUMP TURNS OFF WHEN BACKUP HEAT TURNS ON.
OUTDOOR TEMPERATURE
M39068
Fan
Coil
Unit
Settings
and
Operation
Fan
Coil
Unit
Settings
T10+
thermostats
with
the
latest
firmware
can
be
configured
to
control
a
2-
pipe
fan
coil
or
a
4-
pipe
fan
coil.
Prior
to
that,
T10
&
T10+
models
could
support
a
hot
water
fan
coil
(used
for
heat
only).
Hot
water
fan
coil
-
(Supported
by
all
models
of
T10
&
T10+)
A
hot
water
fan
coil
requires
that
the
thermostat
energize
W
to
move
hot
water
through
a
coil
that
is
inside
the
HVAC
supply
ducting
and
then
turn
on
the
blower
fan
to
blow
air
over
the
hot
coil
and
deliver
it
to
the
space.
All
T10
&
T10+
thermostats
have
a
setting
for
this.
The
T10
or
T10+
energizes
a
single
blower
speed,
wired
to
G
for
these
systems.
4-
pipe
fan
coil
-
(Supported
by
T10+
with
firmware
03.03.08.02
or
later
and
EIM
[if
used]
with
firmware
01.02.01.00
or
later)
A
4-
pipe
fan
coil
requires
that
the
thermostat
energize
W
to
move
hot
water
through
a
hot
water
coil
or
energize
Y
to
move
cold
water
through
a
cold
water
coil.
Then
the
thermostat
turns
on
the
blower
fan
to
blow
air
over
the
hot
coil
and
deliver
it
to
the
space.
Most
4-
pipe
fan
coil
units
have
multiple
fan
speeds.
The
low
speed
fan
is
wired
to
G.
The
medium
speed
fan
is
wired
to
Y2.
The
high
speed
fan
(if
used)
is
wired
to
U.
There
are
other
special
fan
coil
unit
settings
which
can
vary
for
different
systems.
These
settings
are
covered
in
the
Fan
Coil
Unit
section.
2-
pipe
fan
coil
-
(Supported
by
T10+
with
firmware
03.03.08.02
or
later
and
EIM
[if
used]
with
firmware
01.02.01.00
or
later)
A
2-
pipe
fan
coil
energizes
the
same
terminal
(Y)
to
move
hot
water
through
a
coil
as
it
does
to
move
cold
water
through
a
coil.
Therefore,
a
thermostat
that
controls
a
2-
pipe
fan
coil
needs
to
know
whether
the
pipe
is
hot
or
cold.
When
it
senses
that
the
pipe
is
hot,
the
T10+
automatically
switches
to
heat
mode.
When
it
senses
that
the
pipe
is
cold,
the
T10+
automatically
switches
to
cool
mode.
If
there
is
an
emergency
heat
stage,
the
user
can
manually
switch
the
ther
-
mostat
to
emergency
heat
mode
when
the
pipe
temperature
is
below
the
heat
threshold
setting.
In
that
case,
the
T10+
energizes
the
Aux
to
run
the
backup
heat.
The
T10+
has
different
options
for
how
to
perform
the
changeover
from
heat
to
cool
based
on
pipe
temperature.
l
The
T10+
can
be
used
with
a
10K
or
20K
sensor
l
The
T10+
can
be
used
with
a
dry
contact
switch
(such
as
an
aquastat)
to
switch
from
heat
mode
to
cool
mode
based
on
pipe
temperature.
The
wiring
diagrams
for
the
fan
coil
unit
section
show
how
to
wire
the
dry
contact
switch
or
wired
sensor
for
this
purpose.
The
ISU
section
shows
the
configuration
settings.
104 When
running
heat
or
cooling,
the
T10+
turns
on
the
blower
fan
to
blow
air
over
the
coil
and
deliver
the
conditioned
air
to
the
space.
Most
2-
pipe
fan
coil
units
have
multiple
fan
speeds.
The
low
speed
fan
is
wired
to
G
.
The
medium
speed
fan
is
wired
to
Y2
.
The
high
speed
fan
(if
used)
is
wired
to
U
.There
are
other
special
fan
coil
unit
settings
which
can
vary
for
dif
-
ferent
systems.
These
settings
are
covered
in
the
Fan
Coil
Unit
section.
Fan
Sequence
Operations
(ISU
2105,
2106,
2107)
ISUs
2105
–
2107
are
used
to
select
the
number
of
fan
speeds
controlled
on
a
fan
coil
unit
system
and
assign
(or
be
instructed)
where
these
speeds
are
wired
to.
(ISU
3320)
ISU
3320
allows
the
installer
to
select
how
the
fan
speed
is
controlled
when
the
T10+
is
controlling
a
fan
coil
unit
with
multiple
fan
speeds.
The
options
are
Auto
,
Multiple
Speeds
,
or
All
Allowed
.
When
ISU
3320
is
set
for
Auto,
the
T10+
uses
the
fan
ramping
algorithm
to
control
the
fan
speed
with
a
call
for
heat
or
cooling.
The
fan
will
be
off
with
no
call
for
heat
or
cooling.
If
ISU
3320
is
set
to
Multiple
Speeds,
the
user
may
select
Lo,
Med,
or
Hi
from
the
fan
menu.
The
thermostat
will
continuously
run
at
the
speed
selected.
If
ISU
3320
is
set
to
All
Allowed,
the
user
may
select
Auto,
Lo,
Med,
or
Hi
from
the
fan
menu.
When
Auto
is
selected,
the
fan
runs
only
during
heat
or
cool
calls
and
the
fan
speed
at
which
it
runs
is
based
on
the
control
algorithm.
If
set
to
Lo,
Med,
or
Hi,
it
will
continuously
run
at
the
speed
selected
both
in
Idle
and
with
a
call
for
Heat
or
Cool.
(ISU
3325)
ISU
3325
allows
the
installer
to
select
whether
the
fan
always
starts
at
the
highest
speed
when
there
is
a
call
for
Heat
or
Cool.
Some
systems
require
this
to
ensure
that
the
fan
starts
correctly.
If
enabled,
the
fan
will
start
at
the
highest
speed.
If
set
to
a
speed
other
than
High,
the
thermostat
will
then
reduce
the
fan
speed
to
the
one
selected
in
the
fan
settings
or
control
to
the
correct
speed
based
on
the
control
algorithm
if
it
is
set
to
AUTO.
(ISU
3340)
ISU
3340
allows
the
installer
to
select
whether
the
fan
will
reset
to
the
Auto
mode
after
a
time
delay
when
the
user
makes
the
setting
Lo,
Med,
or
Hi.
The
options
are
Off
,
2
hours
or
4
hours
.
If
set
to
Off,
the
T10+
will
run
at
the
fan
speed
selec
-
ted
by
the
user
indefinitely
until
the
fan
speed
is
changed
manually.
(ISU
4010)
ISU
4010
allows
the
installer
to
determine
if
a
pre-
occupancy
purge
is
used.
This
option
applies
to
any
light
commercial
application
that
has
a
fan
and
is
using
a
schedule.
This
setting
determines
if
the
fan
should
run
prior
to
the
Occupied
schedule,
and
if
so
how
far
in
advance.
If
a
system
with
multiple
fan
speeds
is
used,
this
option
will
run
the
fan
at
the
highest
speed
during
this
time.
Remote
Setback
(Occupancy
Setback
/
Occupancy
Sensor)
The
T10+
thermostat
allows
you
to
use
Remote
Setback
(sometimes
referred
to
as
Occupancy
sensing
or
Occupancy
setback
).
This
energy-
saving
feature
can
be
enabled
using
one
or
more
C7189R3002
wireless
indoor
sensors,
or
with
an
occupancy
sensor
that
opens
or
closes
a
dry-
contact
switch.
During
occupied
periods,
the
sensor
tells
the
thermostat
to
switch
to
STANDBY
(Setback
settings)
when
no
one
is
in
the
room.
If
someone
is
in
the
room,
the
sensor
follows
the
settings
of
the
Occupied
period.
The
occupancy
sensor
is
ignored
during
unoccupied
periods.
If
someone
is
in
the
room,
the
sensor
follows
the
schedule
settings
set
by
the
installer
or
a
manual
override
setting
(if
not
locked
out
by
installer/property
manager).
To
use
the
feature
for
energy
savings
when
a
room
is
unoccupied,
but
no
regular
Occupied
schedule
has
been
set:
The
installer
can
access
the
Schedule
menu
and
disable
any
scheduled
period
except
Occupied
1
(Commercial)
or
Wake
(Residential)
.
In
this
way,
the
thermostat
will
have
an
Occupied
schedule
setting
to
which
it
can
default
when
occupancy
is
detected.
ISU
settings
2240,
6020,
6030
&
6040
are
related
to
occupancy
sensing.
If
an
occupancy
sensor
opens
or
closes
a
switch
when
occupancy
is
detected,
that
switch
is
wired
to
R
at
HVAC
and
L
at
T10+
when
an
EIM
is
not
used.
If
an
EIM
is
used,
the
switch
is
wired
to
S1,
S2,
S3,
or
S4
terminals.
A
Remote
Setback
Time
Delay
(ISU
6030)
can
be
set
to
force
the
thermostat
to
wait
before
it
switches
from
occupied
set
-
tings
to
the
standby
settings.
This
allows
the
room
to
stay
comfortable
if
the
room
is
unoccupied
for
a
short
period
of
time.
When
set
to
0
minutes,
the
thermostat
will
switch
from
occupied
settings
to
the
standby
settings
immediately
when
the
room
is
unoccupied.
Hotel
Card
Reader:
Some
Fan
Coil
Unit
thermostats
used
in
hotels
use
a
remote
setback
triggered
by
a
room
key
card
holder.
If
the
guest
inserts
the
key
card
into
the
holder
while
in
the
room,
the
thermostat
will
switch
to
Occupied
temperature
settings.
When
using
an
EIM,
the
wires
from
the
card
reader
go
to
the
S
contacts
on
the
EIM,
(the
same
as
on
a
TB7100
thermostat).
If
the
EIM
is
not
used,
one
of
these
wires
goes
to
R
at
HVAC
and
the
other
wire
goes
to
L
at
thermostat/UWP.
See
the
wiring
diagrams.
105 Set
Up
Remote
Setback
1.
Select
a
remote
setback
option
in
ISU
2240
(see
Figure
below).
C7189R3002
wireless
indoor
sensors
have
a
built-
in
motion
sensor.
The
“Dry
Contact”
or
“L
Terminal”
settings
require
an
external
occupancy
sensor
which
opens
or
closes
a
switch
when
occupancy
is
detected.
Options
when
EIM
is
used.
Options
when
EIM
is
not
used.
2.
If
a
dry
contact
is
used
to
initiate
Remote
Setback
and
an
EIM
is
used,
6010
is
used
to
assign
the
Occupancy
Sensor
to
a
set
of
S
contacts
on
the
EIM.
3.
The
setting
below
is
shown
if
either
Dry
Contacts
or
L
Terminal
is
selected
for
2240.
Select
Normally
Open
when
Occupied
or
Normally
Closed
when
Occupied
,
based
on
the
type
of
dry
contact
device
installed.
NOTES
:
106
l
Normally
Open
when
Occupied
:
The
Dry
Contact
device
is
open
when
the
room
is
occupied
and
will
close
when
the
room
is
unoccupied.
l
Normally
Closed
when
Occupied
:
The
Dry
Contact
device
is
closed
when
the
room
is
occupied
and
will
open
when
the
room
is
unoccupied.
4.
ISU
6030
is
shown
unless
No
Remote
Setback
is
selected
for
ISU
2240.
Select
a
Remote
Setback
Time
Delay
(See
Figure
below).
The
Remote
Setback
Time
Delay
forces
the
thermostat
to
wait
before
switching
from
Occupied
set
-
tings
to
the
Standby
settings.
When
set
to
0
minutes,
the
thermostat
will
switch
from
settings
to
the
Standby
set
-
tings
immediately
when
the
room
is
unoccupied.
5.
Select
the
Standby
settings
that
you
wish
to
maintain
when
the
occupancy
sensor
detects
that
the
room
is
unoc
-
cupied.
EIM
M39613
S1
S1
S2
S2
Figure
83:
Remote
Setback
using
a
Dry
contact
switch
on
a
T10
with
EIM
107 M39614
T10+/UWP
HVAC
Figure
84:
Remote
Setback
using
a
Dry
contact
switch
on
a
T10+
Without
EIM
Hotel
Card
Reader
retrofit
If
wires
going
to
S
and
S
on
a
previous
thermostat
went
to
a
card
reader
or
other
dry-
contact
occupancy
sensor,
they
can
be
wired
to
the
T10+
thermostat
or
EIM
as
shown
in
the
diagrams
below.
A
10K/20K
cannot
be
wired
to
L
or
R
as
shown
below.
A
10K/20K
sensor
wires
to
a
set
of
S
terminals
at
either
EIM
or
T10+/UWP.
In
retrofit
installations
:
If
T10+
is
used
without
EIM,
you
can
pig-
tail
one
of
the
existing
wires
to
R
at
the
thermostat.
Polarity
does
not
matter
when
re-
wiring
to
R
and
L
at
UWP.
Then
follow
the
following
ISU
settings.
Figure
85:
Hotel
card
retrofit
1
Figure
86:
Hotel
card
retrofit
2
NOTE
:
These
wiring
diagrams
do
not
show
the
rest
of
the
system
wiring,
which
will
vary.
See
"Wiring
at
T10
or
T10+
without
EIM"
on
page
20
for
system
wiring
not
shown
here.
108 Dry
Contact
Alerts
(ISU
6000-
6220)
A
Dry
Contact
device
such
as
a
wet
switch
can
be
connected
to
the
S1,
S2,
S3,
or
S4
terminals
at
the
Equipment
Interface
Module.
When
the
dry
contact
device
detects
a
problem,
the
thermostat
displays
an
alert
on
the
home
screen
along
with
the
dealer
information.
When
the
user
presses
the
alert
for
more
info,
the
Notification
screen
is
displayed,
prompting
them
to
contact
their
dealer.
The
following
Dry
Contact
Alerts
are
available
for
the
T10+
with
EIM:
Full
Drain
Pan
Alert
When
the
dry
contact
device
detects
that
the
condensate
drain
pan
is
full,
the
thermostat
provides
an
alert
to
the
user.
NOTE:
When
a
Full
Drain
Pan
Alert
is
selected,
there
is
a
follow
up
setting
asking
if
you
want
to
shut
off
the
system
when
this
alert
is
active
or
just
send
the
alert
message.
Dirty
Filter
Alert
When
the
dry
contact
device
detects
a
dirty
air
filter
(pressure
drop
across
the
filter),
the
thermostat
provides
an
alert
to
the
user
to
replace
the
filter.
Water
Leak
Alert
When
the
dry
contact
device
detects
a
water
leak,
the
thermostat
provides
an
alert
to
the
user.
NOTE:
When
a
full
Water
Leak
Alert
is
selected,
and
the
T10+
is
configured
to
control
a
humidifier
there
is
a
follow
up
set
-
ting
asking
if
you
want
to
shut
off
the
humidifier
when
this
alert
is
active
or
just
send
the
alert
message.
System
Shutdown
Alert
When
the
dry
contact
device
detects
a
critical
problem
with
the
system,
the
thermostat
alerts
the
user
that
the
system
was
shut
down.
When
the
dry
contact
device
detects
a
problem
with
the
system
(for
example,
smoke
detection),
the
ther
-
mostat
will
not
call
for
heating,
cooling,
fan
or
IAQ
equipment
until
the
dry
contact
is
deactivated
or
the
feature
is
no
longer
configured
at
the
thermostat.
Service
Needed
Alert
When
the
dry
contact
device
detects
an
issue
that
requires
service,
the
thermostat
provides
an
alert
to
the
user.
Fan
Failure
Alert
The
Fan
Failure
Alert
protects
the
equipment
when
there
is
no
airflow.
When
the
dry
contact
device
(for
example,
sail
switch)
detects
no
airflow
for
5
minutes
after
a
call
for
forced
air
heat,
cool
or
fan,
the
thermostat
alerts
the
user
that
the
system
was
shut
down
due
to
a
lack
of
airflow.
The
thermostat
will
call
for
the
fan
and
lock
out
all
other
equipment
until
the
dry
contact
device
senses
air
flow
again
or
the
feature
is
no
longer
configured
at
the
thermostat.
109 Custom
Alert
Allows
the
dealer
to
enter
a
custom
alert
to
be
displayed
when
a
dry
contact
device
is
activated.
For
example,
a
float
switch
can
detect
when
your
sump
pump
is
not
working.
Dry
Contact
Setup
Example
Dry
Contact
setup
example
Custom
Alerts
1
through
4
Allows
the
dealer
to
enter
a
custom
alert
to
be
displayed
when
a
dry
contact
device
is
activated.
For
example,
a
float
switch
can
detect
when
your
sump
pump
is
not
working.
When
Custom
Alert
1
through
Custom
Alert
4
is
selected
in
ISU
6005,
the
T10+
asks
you
to
name
the
alert
and
then
gives
options
for
additional
settings
related
to
the
alert.
These
settings
are:
l
Which
set
of
S
terminals
on
the
EIM
the
Dry
Contact
Alert
is
wired
to
(ISU
6190).
o
There
are
four
(4)
sets
of
configurable
S
terminals
on
the
EIM.
If
a
set
of
S
terminals
is
already
configured
for
use
by
a
different
Dry
Contact
Alert
(or
sensor),
it
will
not
be
configurable.
l
Whether
the
switch
wired
to
these
terminals
is
normally
open
or
closed
(ISU
6200).
o
The
switch
wired
to
the
S
terminals
could
either
be
open
in
normal
(not
alert)
conditions
or
closed.
l
Enter
the
Dry
Contact
Alert
name
(ISU
6210).
l
Whether
there
is
an
alert
message
displayed
when
the
alert
is
active
(ISU
6215).
o
In
most
cases,
the
installer
would
want
an
alert
message
to
appear
on
the
T10+
if
there
was
a
Dry
Contact
Alert
active.
However,
the
installer
may
be
using
the
“alert”
to
do
some
other
action
(like
running
a
ventilator
when
a
sensor
is
reading
high
CO2).
This
may
be
normal
operation
and
they
may
not
wish
to
show
an
alert.
110
l
Lock
Out
Heat
or
Lock
Out
Cool
(ISU
6230)
o
If
the
installer
chose
to
lock
out
heat
or
cool
on
a
custom
Dry
Contact
Alert
condition,
the
T10+
will
then
ask
if:
"You
want
a
delay
before
the
lockout
(ISU
6600
or
6620).
For
example,
if
someone
was
using
a
door
sensor
to
lock
out
cooling,
you
wouldn’t
want
to
short
cycle
the
cooling
every
time
someone
enters
or
exits.
But
if
the
door
is
left
open
for
a
certain
length
of
time,
you
may
wish
to
shut
down
the
heat
or
cooling."
Or,
"If
you
still
want
a
maximum
temperature
for
cool
(ISU
6610)
or
minimum
indoor
temperature
for
heat
(ISU
6630).
Example:
If
someone
had
a
heat
lockout
configured
when
the
window
was
open,
they
left
the
window
open,
and
the
indoor
temperature
dropped
to
40°F,
you
probably
still
want
the
heat
to
run
because
the
danger
of
pipes
freezing
overrides
the
inefficient
use
of
heating
with
a
window
open"
l
Activate
Fan
(ISU
6230)
o
If
selected,
this
setting
turns
on
the
fan
when
the
selected
custom
Dry
Contact
Alert
(custom
dry
contact
1
through
4)
is
active.
l
Activate
Custom
U
terminal
(ISUs
6230,
6240,
6250,
6260)
o
If
you
choose
to
activate
a
custom
U
terminal
during
a
custom
alert,
the
T10+
will
ask
you
to
name
the
U
ter
-
minals
used.
That
way
the
T10+
equipment
status
menu
can
show
what
is
being
turned
on
or
locked
out.
For
example,
you
could
wire
a
shut
off
valve
to
the
U
contacts
and
the
status
would
then
show
“Shut
off
valve
ener
-
gized”
under
equipment
status.
l
Humidifier
Lockout
(ISU
8095)
o
If
the
T10+
and
EIM
are
set
for
a
custom
Dry
Contact
Alert
and
to
control
a
humidifier,
you
can
choose
to
lock
out
the
humidifier
during
a
custom
Dry
Contact
Alert
(the
Water
Leak
Alert
option
also
offers
this
setting).
l
Dehumidifier
Lockout
(ISU
9145)
o
If
the
T10+
and
EIM
are
set
for
a
custom
Dry
Contact
Alert
and
to
control
a
dehumidifier,
you
can
choose
to
lock
out
the
dehumidifier
during
a
custom
Dry
Contact
Alert.
l
Turn
On
Ventilator
(ISU
10065)
o
If
the
T10+
and
EIM
are
set
for
a
custom
Dry
Contact
Alert
and
to
control
a
ventilator,
you
can
choose
to
turn
on
the
ventilator
during
a
custom
Dry
Contact
Alert.
l
Lockout
Ventilator
(ISU
10140)
o
If
the
T10+
and
EIM
are
set
for
a
custom
Dry
Contact
Alert
and
to
control
a
ventilator,
you
can
choose
to
lock
out
the
ventilator
during
a
custom
Dry
Contact
Alert.
Battery
Replacement
Indoor
Sensor
Replace
batteries
in
your
indoor
sensor
when
a
warning
appears
on
the
thermostat
screen,
about
60
days
before
bat
-
teries
are
depleted.
When
the
sensor
status
light
begins
flashing
red,
battery
power
is
critically
low
and
will
be
depleted
within
2–
3
weeks.
During
normal
operation,
the
status
light
remains
off.
To
replace
the
batteries:
l
Remove
the
sensor
from
wallplate.
l
Install
2
fresh
AAA
alkaline
batteries.
If
the
status
light
flashes
green,
batteries
are
good;
if
it
flashes
red,
you
must
use
fresh
batteries.
l
Attach
sensor
to
wallplate.
The
sensor
will
restore
communication
with
the
thermostat
a
few
seconds
after
new
batteries
are
installed.
111 Outdoor
Sensor
Replace
batteries
in
your
outdoor
sensor
when
a
warning
appears
on
the
thermostat
screen,
about
two
months
before
batteries
are
depleted.
After
new
batteries
are
installed,
the
outdoor
sensor
will
restore
communication
with
the
wireless
network
within
a
few
seconds.
M32937A
Figure
87:
Outdoor
sensor
battery
installation
Commercial
Features
The
thermostat
can
be
set
up
for
residential
or
light
commercial
applications
(ISU
1010).
When
the
thermostat
is
set
up
for
Commercial,
the
thermostat
meets
Commercial
Code,
Title
24
and
provides
the
following
features:
l
Commercial
language
(Occupied
and
Unoccupied)
l
Temporary
override
(permanent
hold
is
not
allowed)
l
Temporary
override
duration
is
limited
to
the
amount
set
by
the
installer
l
Adjustable
ramp
rates
l
Initiate
occupancy
l
Displays
name
on
home
screen
l
Remote
setback
using
an
occupancy
sensor
l
Economizer
or
Time
of
Day
output
l
Pre-
occupancy
purge
l
Additional
dehumidification
control
options
Select
Residential
or
Commercial
112 Overriding
Schedules:
Commercial
Use
Touch
5
or
6
to
adjust
the
temperature.
It
will
be
maintained
until
the
hold
time
you
set.
l
To
change
the
hold
time,
touch
Hold
Until
.
Then
use
the
arrow
buttons
to
change
hold
time.
This
time
can
be
adjusted
up
to
the
maximum
time
set
by
the
installer.
l
Touch
Override
to
use
a
pre-
set
occupied
temperature
if
a
person
uses
the
room
during
an
unoccupied
period.
The
new
temperature
will
be
maintained
for
1
hour
and
can
be
adjusted
up
to
the
maximum
time
set
by
the
installer.
The
programmed
schedule
will
resume
when
the
override
timer
expires.
Touch
Cancel
Hold
at
any
time
to
resume
the
pro
-
gram
schedule.
113 Initiating
Occupancy
Mode:
Commercial
Use
This
feature
keeps
temperature
at
an
energy-
saving
level
after
the
thermostat
transitions
from
an
Unoccupied
schedule
period
to
an
Occupied
schedule
period
until
someone
touches
Press
to
start
occupancy
.
When
you
arrive,
touch
the
but
-
ton
to
maintain
a
comfortable
temperature
while
the
room
is
occupied.
This
feature
might
be
used
in
a
school
room
that
isn’t
occupied
every
day.
Touch
the
5
or
6
buttons
to
set
the
temperature
or
the
Hold
Until
time.
The
temperature
is
maintained
until
the
time
you
set.
Temperature
returns
to
an
energy
saving
level
after
the
timer
expires,
or
the
Occupied
period
ends.
This
feature
is
available
only
when
programmed
by
the
installer
in
ISU
4020
&
4030.
Ramp
Rates
When
the
ramp
rate
is
set
to
Off,
the
thermostat
begins
recovery
at
the
scheduled
time.
When
a
ramp
rate
is
set,
recovery
begins
early
to
reach
the
setpoint
by
the
program
time.
Based
on
your
recovery
ramp
setting
and
how
far
the
thermostat
is
set
back,
the
thermostat
determines
how
early
to
turn
on
the
system.
If
the
T10+
is
set
to
use
a
wired
sensor,
wireless
sensor,
or
Internet
for
outdoor
temperature
(ISU
1060),
you
can
set
out
-
door
temperatures
for
mild,
cold
and
hot
days
in
your
region.
By
setting
these
outdoor
temperatures,
the
thermostat
will
automatically
adjust
the
ramp
rate
based
on
outdoor
conditions.
This
allows
the
thermostat
to
save
energy
by
starting
recovery
at
the
optimum
time
as
outdoor
conditions
change.
NOTE:
The
thermostat
uses
an
adjustable
ramp
rate
when
the
thermostat
is
set
up
for
Commercial.
This
allows
the
ther
-
mostat
to
recover
on
time
during
changing
conditions
(occupancy
changes,
temperature
overrides,
load
conditions,
open
-
ing/closing
of
doors,
etc.)
which
are
common
in
commercial
applications.
114 Custom
Names
The
thermostat
location
(name)
can
be
displayed
on
the
home
screen.
See
the
name
“OFFICE".
This
is
useful
when
mul
-
tiple
thermostats
are
mounted
in
a
manager’s
office
or
equipment
room,
to
quickly
identify
which
thermostat
controls
a
specific
zone
or
area.
When
configured
for
Commercial
application,
the
T10+
will
ask
you
to
select
the
room
where
it
is
installed
during
initial
setup.
If
you
select
Yes
for
ISU
1030,
this
is
the
name
that
will
be
displayed
on
the
home
screen.
To
change
the
name
after
setup
is
complete,
go
to
Installer
Options
>
Devices
and
Sensors-
Thermostat
.
Then
select
Change
Room
.
You
may
choose
a
pre-
selected
room
name
or
choose
Other-
Add-
Room
to
enter
a
custom
name.
Economizer
and
Time
of
Day
(TOD)
Operation
Economizer
The
T10+
thermostat
controls
an
Economizer
module
to
provide
ventilation
during
occupied
periods
and
free
cooling
when
outdoor
conditions
are
favorable.
In
some
climates
the
cooling
system
may
run
several
hours
when
it
may
not
be
required
to
maintain
indoor
comfort.
When
outdoor
conditions
are
favorable,
ventilation
with
outdoor
air
can
achieve
the
same
level
of
comfort
at
lower
cost.
"Advanced
Features"
on
page
100
explains
how
the
Economizer
Module
is
controlled
by
the
thermostat.
The
T10+
thermostat
works
with
the
Jade
W7212
Economizer
Module
for
conventional
systems
and
the
Jade
W7213
and
W7214
Economizer
Modules
for
heat
pump
systems.
Thermostat
Mode
Equipment
Operation
U
Contacts
Occupied
Heat/Cool
running
*
Closed
Occupied
temporarily
Heat/Cool
running
*
Occupied
Heat/Cool
NOT
running
*
Occupied
temporarily
Heat/Cool
NOT
running
*
Pre-
occupancy
purge
Fan
running
Unoccupied
Cooling
system
running
Unoccupied
temporarily
Cooling
system
running
Standby
Cooling
system
running
Unoccupied
Cooling
system
NOT
running
Open
Unoccupied
temporarily
Cooling
system
NOT
running
Standby
Cooling
system
NOT
running
Closed
Non-
programmable
Fan
running
Non-
programmable
Fan
NOT
running
Open
Economizer
Operation
*
Fan
(G)
always
energized
during
Occupied
&
Occupied
Temporary
modes.
115 Time
of
Day
(TOD)
The
T10+
thermostat
can
be
set
up
for
a
Time
of
Day
output
in
the
installer
setup.
This
output
is
commonly
used
to
con
-
trol
lighting
panels,
turning
them
on
for
occupied
periods
and
off
for
unoccupied
periods.
The
TOD
Table
explains
how
the
TOD
feature
works
with
various
thermostat
modes.
Thermostat
Mode
U
Contacts
Occupied
Closed
Occupied
temporarily
Temperature
overrides
Unoccupied
Open
Unoccupied
temporarily
Standby
Non-
programmable
TOD
Operation
The
Economizer
Module
and
Time
of
Day
output
connect
to
the
U
terminal
at
the
thermostat
or
EIM
and
are
set
up
at
ISU
2216-
2220
.
Pre-
Occupancy
Purge
The
T10+
thermostat
can
be
set
up
for
Pre-
Occupancy
Purge
in
the
installer
setup
(ISU
4010).
When
setup
for
Pre-
Occu
-
pancy
Purge,
the
thermostat
runs
the
fan
1
to
3
hours
before
each
occupied
period
to
provide
a
comfortable
workplace
upon
arrival.
Options
are
Off
and
1
to
3
hours.
116 C
R
AUX2-1
AUX1-0
EXH1
E-GND
OCC
Y2-1
C
R
Y1-0
Y1-1
Y2-0
W7220 JADE
ECONOMIZER
UWP
FURNACE,
AIR-HANDLER
OR RTU
U
R
Rc
C
L/A
T10-013-V0
Figure
88:
Economizer
control
using
T10+
thermostat
without
EIM
NOTES
:
l
U
Slider
tab
must
be
in
up
position
on
UWP.
l
L/A
only
used
if
economizer
fault
indication
is
needed
on
T10+
117 Figure
89:
Economizer
control
using
T10+
thermostat
with
EIM
NOTES:
l
Any
set
of
U
contacts
can
be
used
(selected
in
ISU
2217
).
Jump
the
unused
U
from
the
selected
set
to
R
on
the
EIM
as
shown.
l
L
only
used
if
Economizer
fault
indication
is
needed
on
T10+
118 RESIDEO
PRO
APP
The
Resideo
Pro
app
allows
the
installer
to:
l
Add
multiple
customer’s
information
and
link
the
thermostats
to
each
customer.
l
Get
alerts
through
the
pro
app
if
a
thermostat
has
an
alert
message.
l
Get
maintenance
reminders
messages
through
the
app
when
the
thermostat
is
displaying
a
reminder.
Steps
1.
After
doing
the
thermostat
setup
(linking
to
EIM
if
used,
setting
the
system
type
and
other
ISU
settings),
select
MENU
>
THERMOSTAT
INFORMATION
and
scroll
down
to
the
QR
code.
Scan
this
code
with
your
phone.
2.
Open
the
Resideo
Pro
App.
If
you
do
not
already
have
the
Resideo
Pro
app,
download
the
app
and
create
your
account.
3.
Select
Customers
.
If
the
thermostat
installed
is
for
an
existing
customer
choose
them
from
the
list.
If
it
is
a
new
customer,
select
“add
customer”.
Once
you
have
finished
adding
the
customer
information
below,
the
app
will
send
an
email
to
the
customer
invit
-
ing
them
to
download
the
app
if
they
don’t
already
have
the
app
or
to
connect
the
thermostat
to
WiFi
if
they
already
have
the
app
and
the
thermostat
wasn’t
added
to
WiFi
by
the
installer.
119 FAQ'S
WiFi
connection
questions
Q:
Will
the
thermostat
still
work
if
the
WiFi
connection
is
lost?
A:
Yes,
you
can
still
manually
adjust
the
temperature
at
the
thermostat.
However,
some
features
such
as
location-
based
temperature
control
(geofencing
technology)
can
only
be
managed
through
the
First
Alert
or
Resideo
app
and
will
not
function
without
a
WiFi
connection.
The
thermostat
will
automatically
reconnect
to
WiFi
once
the
network
is
restored.
Q:
Is
there
a
way
to
extend
the
strength
of
my
WiFi
signal?
A:
The
range
(distance)
of
your
WiFi
signal
is
determined
by
your
router.
Try
moving
your
router
closer
to
the
location
of
the
thermostat,
or
use
a
router
with
a
stronger
signal
range.
Q:
There’s
an
alert
that
says
“WiFi
signal
lost”
-
what
should
I
do?
A:
Wait
5
minutes
for
the
thermostat
to
reconnect
or
select
an
alternate
network
(if
you
have
one)
in
the
First
Alert
or
Resideo
app
configuration
menu.
If
the
thermostat
isn’t
able
to
reconnect,
you’ll
need
to
troubleshoot
the
router
to
determine
the
cause.
First
Alert
or
Resideo
account
and
app
questions
Q:
Why
haven’t
I
received
an
account
activation
email?
A:
If
you
haven’t
received
an
activation
email
after
5
minutes,
check
your
Spam
folder
and
look
for
an
email
from
cus
-
tomer-
service@resideo.com.
If
you
don’t
see
it,
tap
Resend
to
have
the
activation
email
resent.
If
you
still
don’t
receive
it,
please
contact
the
Technical
Support
team
at
1-
800-
633-
3991.
Q:
Can
I
set
up
my
thermostat
with
multiple
users?
A:
Yes.
To
add
users,
log
into
the
First
Alert
or
Resideo
app
and
tap
the
menu
icon
in
the
upper
left
corner.
Select
Manage
Users,
tap
Add
User
and
type
in
the
email
addresses
of
the
people
you’d
like
to
invite.
If
they
already
have
a
First
Alert
or
Resideo
account
set
up,
the
thermostat
and
its
location
will
automatically
be
added
to
their
account.
If
they
don’t
have
an
account,
they’ll
receive
an
email
prompting
them
to
download
the
app
and
create
a
new
account.
Q:
Can
I
set
up
location-
based
temperature
control
with
multiple
users?
A:
Yes.
Location-
based
temperature
control
(Auto
Away/geofence
technology)
will
activate
based
on
the
last
person
who
leaves
and
the
first
person
to
return.
Each
user
will
need
to
create
their
own
First
Alert
or
Resideo
app
account
with
a
login
ID
and
password.
Two
users
should
not
share
the
same
account.
Each
user
will
then
need
to
enable
location-
based
temperature
control.
Q:
Why
doesn’t
a
change
I
made
in
the
app
show
up
on
the
thermostat?
A:
There
may
be
a
short
delay
when
you
make
temperature
and
settings
changes
in
the
First
Alert
or
Resideo
app.
Wait
a
few
minutes,
and
if
you
still
don’t
see
your
changes
on
the
thermostat,
make
sure
the
thermostat
is
still
connected
to
WiFi
and
restart
your
app.
Software
and
security
questions
Q:
How
can
I
be
sure
my
thermostat
is
running
the
most
up-
to-
date
firmware?
A:
When
your
thermostat
is
connected
to
WiFi,
it
will
automatically
receive
over-
the-
air
firmware
updates
from
the
app.
These
firmware
updates
contain
things
such
as
new
features
as
well
as
security
upgrades.
Keep
your
thermostat
con
-
nected
to
WiFi
to
ensure
it
receives
these
updates.
Q:
How
can
I
prevent
a
cybercriminal
from
making
unauthorized
changes
to
my
thermostat?
A:
If
a
cybercriminal
gains
access
to
your
WiFi
router,
they
can
tamper
with
a
wide
range
of
online
activities,
including
the
settings
on
your
connected
devices.
Make
sure
you
change
the
default
password
on
your
WiFi
router,
and
when
you
select
a
new
password,
make
sure
it
uses
multiple
upper-
and
lower-
case
letters
and
special
characters.
120 Other
questions
Q:
How
can
I
uninstall
my
T10/T10+
Smart
thermostat?
A:
If
you
want
to
replace
your
T10/T10+
Smart
thermostat,
or
if
you’re
moving
out
of
your
home
and
leaving
the
ther
-
mostat
behind,
you’ll
first
want
to
clear
out
the
personal
settings
that
are
stored
on
the
thermostat.
(Even
when
dis
-
connected
from
power,
the
thermostat
will
keep
your
settings
and
home
router
information
in
memory.)
We
recommend
resetting
the
thermostat’s
WiFi
and
HomeKit
®
settings
(if
previously
connected).
Q:
Is
there
a
motion
sensor
in
the
thermostat?
A:
There
is
not
a
motion
sensor
in
the
thermostat.
In
most
homes,
the
thermostat
is
mounted
in
a
hallway,
so
when
using
active
rooms
for
priority
sensing,
we
would
want
to
exclude
the
thermostat.
Q:
What
happens
if
“Active
rooms”
is
used
and
no
motion
is
detected
in
any
of
the
rooms
with
sensors?
A:
If
the
thermostat
is
set
to
control
by
active
rooms,
and
no
motion
is
detected,
the
sensor
in
the
thermostat
is
used
and
the
remote
sensors
are
excluded.
Most
people
schedule
the
sleep
period
to
use
“Selected
sensors”
rather
than
“active
sensors”
and
choose
the
bedrooms
for
the
sleep
schedule.
The
T10+
has
a
setting
for
"Fallback
sensor"
which
would
be
used
rather
than
the
thermostat
if
selected.
Q:
When
using
active
rooms,
how
long
are
those
rooms
considered
"Active"
after
motion
has
last
been
detected?
A:
The
sensor
has
an
occupancy
algorithm
based
on
how
many
motion
events
it
sees
within
a
certain
timeframe.
This
was
set
up
so
that
if
someone
briefly
walks
through
a
room,
the
sensor
will
tell
the
thermostat
that
the
room
is
“occupied”
for
10
minutes.
If
someone
is
in
a
room
longer,
then
the
timeout
will
be
increased
automatically.
Sensors
communicate
directly
with
the
thermostat
via
Honeywell
Home
RedLINK
technology.
After
sensing
motion,
the
communication
should
take
less
than
3
seconds
to
assign
the
room
priority,
depending
on
battery
and
signal
strength.
Q:
How
do
the
wireless
indoor
sensors
detects
motion.
A:
The
sensors
use
a
Passive
Infrared
Sensor
(PIR)
detector.
Q:
How
does
motion-
based
priority
work
with
multiple
people
in
the
house?
A:
If
the
thermostat’s
priority
is
set
to
‘Active
Rooms’,
then
any
room
that
detects
motion
will
become
prioritized.
The
aver
-
age
of
those
rooms’
temperatures
will
be
monitored
so
that
the
thermostat
can
adjust
to
your
preferred
temperature
set
-
point.
If
one
of
the
sensors
no
longer
detects
people
in
that
room,
that
sensor
will
adjust
after
a
period
of
time,
using
the
algorithm
based
on
motion
events
that
it
sees
within
a
certain
time
frame.
Q:
What’s
the
range
of
detection
on
the
motion
sensor?
A:
There
are
many
factors
that
can
affect
this
(height,
body
size,
layers
of
clothing,
temperature
of
clothing,
angle,
etc.).
The
typical
range
of
our
sensor
is
up
to
20
feet.
121 TROUBLESHOOTING
AND
SUPPORT
If
you
have
difficulty
with
your
thermostat,
please
try
the
following
suggestions.
Most
problems
can
be
corrected
quickly
and
easily.
Display
is
blank:
l
Check
circuit
breaker
and
reset
if
necessary.
l
Make
sure
power
switch
for
heating
&
cooling
system
is
on.
l
Make
sure
furnace
door
is
closed
securely.
l
Make
sure
the
C
wire
is
connected.
Heating
or
cooling
system
does
not
respond:
l
Press
Menu
>
System
Mode
>
Heat
>
Done
to
set
the
system
to
Heat
mode.
Make
sure
the
desired
temperature
is
higher
than
the
indoor
temperature.
l
Press
Menu
>
System
Mode
>
Cool
>
Done
to
set
the
system
to
Cool
mode.
Make
sure
the
desired
temperature
is
lower
than
the
indoor
temperature.
l
Check
circuit
breaker
and
reset
if
necessary.
l
Make
sure
power
switch
for
heating
&
cooling
system
is
on.
l
Make
sure
furnace
door
is
closed
securely.
l
Wait
5
minutes
for
the
system
to
respond.
Temperature
settings
do
not
change:
Verify
the
thermostat
is
set
to
the
correct
mode.
Press
Menu-
Mode
to
change
mode
setting.
If
the
display
indicates
“screen
locked”
when
you
press
the
up
or
down
arrow,
you
can
unlock
the
screen
by
selecting
menu-
security
settings.
The
thermostat
may
be
preventing
you
from
changing
the
set-
point
above
or
below
a
certain
setting
because
of
installer
configured
minimum
and
maximum
settings.
See
the
ISU
settings
for
4100.
Default
minimum
and
maximum
settings:
l
Heat:
40
°F
to
90
°F
(4.5
°C
to
32.0
°C)
l
Cool:
50
°F
to
99
°F
(10.0
°C
to
37.0
°C)
Heat
runs
with
thermostat
in
cool
or
off
mode:
Does
the
display
show
“Freeze
Protection
active”?
If
so,
the
installer
set
the
thermostat
for
a
freeze
protection
tem
-
perature
that
maintains
a
minimum
temperature
even
when
the
thermostat
is
set
to
off
or
cool.
This
feature
will
generate
an
alert
message
if
the
temperature
drops
below
the
freeze
protection
setting.
Aux
heat
runs
in
cooling:
l
For
heat
pump
systems,
verify
there
is
not
a
wire
attached
to
W
on
the
UWP.
Cool
runs
with
a
call
for
heat:
l
Verify
that
the
O/B
wire
is
making
a
good
connection
and
verify
the
changeover
valve
setting
is
correct
for
the
heat
pump
used
(ISU
2060).
Heat
doesn’t
come
on:
Verify
the
thermostat
is
set
to
Heat,
Em
Heat,
or
Auto
mode
and
verify
that
the
heat
setpoint
is
above
room
temperature.
Does
the
display
indicate
“
Heating
to
”
with
an
orange
display
screen?
If
so,
the
thermostat
is
attempting
to
run
the
heat.
l
If
“Heating
to”
is
displayed
in
orange,
and
heat
does
not
come
on
after
a
short
delay
,
verify
the
wire
con
-
nections,
R/Rc
slider
jumper
on
UWP
(or
R,
Rh,
and
Rc
jumpers
if
an
EIM
is
used).
If
those
variables
check
out,
your
HVAC
contractor
can
call
Tech
Support
to
verify
configuration
and
for
further
troubleshooting.
l
If
display
isn’t
showing
“HEATING
TO”
(rather
than
“HEAT
TO”)
or
“WAITING
FOR
EQUIPMENT”
but
heat
setpoint
is
above
room
temperature,
go
to
EQUIPMENT
STATUS.
l
See
if
there
are
any
active
alerts.
The
T10+
with
EIM
can
be
set
to
lock
out
the
heat
during
an
active
alert.
A
cus
-
tom
Dry
Contact
Alert
set
to
lock
out
heat
could
have
been
snoozed
(or
set
to
not
display
alert
message
by
installer)
but
equipment
status
would
show
the
heat
as
“Idle
(Dry
contact
lockout)”.
If
display
shows
“waiting
for
122 equipment”
then
the
thermostat
is
holding
off
running
the
heating
to
prevent
short
cycling.
This
delay
should
last
5
minutes
at
most.
If
you
time
this
and
it
is
longer
than
5
minutes,
it
is
possible
you
are
intermittently
losing
power
to
the
thermostat.
As
a
test
you
could
remove
all
wires
besides
R
and
C
from
UWP
(or
EIM
if
T10+
is
linked
to
an
EIM
and
then
test
the
heat.
If
the
thermostat
then
indicates
a
call
for
heat
within
5
minutes,
a
shorted
wire
or
high
equipment
draw
could
be
interrupting
power
to
the
thermostat
momentarily
at
the
start
of
a
heat
call.
Cool
doesn’t
come
on:
Verify
the
thermostat
is
set
to
Cool
or
Auto
mode
and
verify
that
the
cool
setpoint
is
below
room
temperature.
Does
the
display
indicate
“Cooling
to”
with
a
blue
display
screen?
If
so
the
thermostat
is
attempting
to
run
the
cooling.
l
If
“COOLING
TO”
(rather
than
“COOL
TO”)
is
in
a
blue
display,
and
cooling
does
not
come
on
after
a
short
delay
,
verify
the
wire
connections,
R/Rc
slider
jumper
on
UWP
(or
R,
Rh,
and
Rc
jumpers
if
an
EIM
is
used
with
T10+).
If
that
all
checks
out
contact
HVAC
contractor.
Contractor
can
call
tech
support
to
verify
configuration
and
further
troubleshooting.
l
If
display
isn’t
showing
“COOLING
TO”
or
“WAITING
FOR
EQUIPMENT”
but
COOL
setpoint
is
below
the
room
temperature
,
go
to
EQUIPMENT
STATUS.
Check
for
any
active
alerts.
The
T10+
with
EIM
can
be
set
to
lock
out
cooling
during
active
alerts.
A
custom
Dry
Contact
Alert
set
to
lock
out
cooling
could
have
been
snoozed
(or
set
to
not
display
alert
message
by
installer)
but
equipment
status
would
show
the
cooling
as
“Idle
(Dry
contact
lockout)”.
If
display
shows
“waiting
for
equipment”
then
the
ther
-
mostat
is
holding
off
running
the
cooling
or
to
prevent
short
cycling
.
This
delay
should
last
5
minutes
at
most.
If
you
time
this
and
it
is
longer
than
5
minutes,
you
may
be
intermittently
losing
power
to
the
thermostat.
To
test,
remove
all
wires
besides
R
and
C
from
UWP
(or
EIM
if
T10+
is
linked
to
an
EIM)
and
then
test
the
cooling.
If
the
thermostat
then
indicates
a
call
for
cool
within
5
minutes,
a
shorted
wire
or
high
equipment
draw
could
be
interrupting
power
to
the
ther
-
mostat
momentarily
at
the
start
of
a
cool
call.
Weather
menu
isn’t
displayed:
This
menu
is
only
shown
when
the
thermostat
is
connected
to
WiFi
and
the
app.
If
WiFi
connection
is
lost,
the
thermostat
will
not
show
that
option
until
connection
is
restored.
Cooling
runs
below
setpoint:
Verify
the
cooling
is
running
while
cool
setpoint
is
above
the
room
temperature
reading
on
the
display.
If
so,
verify
the
thermostat
is
deliberately
running
cooling.
When
doing
so,
the
display
is
blue
and
it
shows
“
Cooling
to
”
(rather
than
“
COOL
TO”).
Also,
menu
equipment
status
will
show
if
the
thermostat
is
trying
to
run
cooling
or
not.
l
If
the
display
shows
“Cooling
to”
and
a
setting
that
is
above
the
room
temperature
reading
it
is
likely
the
T10
or
T10+
has
been
set
to
over-
cool
when
humidity
is
high.
Go
to
the
Dehumidity
setting
in
MENU
.
If
that
display
shows
a
status
of
“DEHUMIDIFYING”
select
OPTIONS
and
deselect
USE
DEHUMIDIFICATION
.
Then
go
back
to
the
home
screen
and
see
if
the
cool
call
ends.
The
T10
or
T10+
can
run
the
cooling
up
to
3
degrees
below
the
cool
setpoint
if
configured
to
use
the
air
conditioner
for
dehumidification.
Fan
is
running
unexpectedly:
l
The
T10
&
T10+
has
different
settings
that
might
have
turned
on
the
fan.
Check
EQUIPMENT
STATUS
to
see
what
the
T10
or
T10+
indicates
it
is
running.
l
The
T10
&
T10+
could
be
set
to
run
the
fan
with
a
call
for
ventilation,
humidification,
or
dehumidification.
l
The
T10
or
T10+
will
also
run
the
fan
with
a
call
for
cooling
and
in
forced
air
systems
the
fan
will
also
run
with
a
call
for
heat
(but
this
may
or
may
not
be
controlled
by
the
thermostat
depending
on
the
system
type
settings).
l
There
are
ISU
settings
for
extended
fan
run
in
heat
or
cool
mode
(ISU
3260)
which
can
be
set
for
up
to
15
minutes.
l
Additionally,
the
T10+
has
a
“TEMPERATURE
AVERAGING”
option
to
run
the
fan
to
average
hot
spots
and
cool
spots
if
a
remote
sensor
is
used.
This
would
have
been
configured
by
the
installer
in
the
ISU.
To
see
if
this
is
being
used,
go
to
menu
and
look
for
TEMPERATURE
AVERAGING.
If
that
option
appears,
select
it
and
see
if
it
is
currently
active.
l
The
T10
&
T10+
can
have
the
fan
set
to
on,
auto,
or
circ
for
each
schedule
period.
l
If
the
thermostat
doesn’t
indicate
the
fan
is
on
under
the
EQUIPMENT
STATUS
menu,
it
is
possible
something
else
in
the
system
is
controlling
the
fan
such
as
a
separate
control
for
a
humidifier,
dehumidifier
or
ventilator.
123 Fan
will
not
run
when
expected:
If
the
thermostat
is
set
to
control
a
heat-
only
system
such
as
a
boiler,
there
will
not
be
a
fan
setting.
Check
equipment
status.
This
will
show
the
fan
state.
If
it
says
“
Idle
(Fan
Lockout)
”,
then
the
installer
configured
the
T10+
to
lock
out
fan
at
the
end
of
a
call
for
cooling
for
anywhere
from
5
to
90
minutes
(ISU
3125).
This
is
set
up
for
some
homes
in
very
humid
regions
where
running
the
fan
at
the
end
of
a
cool
call
can
blow
air
over
a
wet
coil
and
re-
introduce
humid
air
back
into
the
space.
Display
doesn’t
show
indoor
humidity:
The
T10+
has
an
ISU
setting
to
not
display
indoor
humidity
(ISU
14050).
Display
changes
color
or
goes
blank
at
night:
There
are
multiple
settings
under
Temperature
>
Display
>
Inactive
Night
Backlight
(on
T10+)
or
Inactive
Sleep
Back
-
light
(on
T10).
These
settings
allow
you
to
set
a
time
for
the
display
to
go
dim
or
go
dark.
(Dark
option
on
T10+
only).
I
cannot
link
my
T10+
to
the
EIM:
Verify
that
you
have
a
T10+
rather
than
a
T10
and
that
you
have
the
correct
EIM
for
this
model.
T10+
models
are
THX321WF3003W
and
THX321WFS3001W
l
EIM
is
THM04R3000
l
The
T10+
and
EIM
are
included
in
YTHM1004R3000
and
YTHM1004R3001
kits.
l
If
the
T10+
had
already
been
configured
without
an
EIM,
you
need
to
do
a
factory
reset
of
the
thermostat
to
get
to
the
initial
screen
that
allows
you
to
choose
to
use
it
with
an
EIM.
Then
follow
the
instructions
on
T10+
display.
I
cannot
link
my
T10+
to
the
wireless
outdoor
sensor:
Verify
that
you
have
a
T10+
rather
than
a
T10
and
that
you
have
the
correct
wireless
outdoor
sensor
for
this
model.
T10+
models
are
THX321WF3003W
and
THX321WFS3001W
l
Outdoor
sensor
is
C7089R3013
(not
C7089R1013)
l
The
T10+
and
outdoor
sensor
are
included
with
an
EIM
in
the
YTHM1004R3001
kit.
l
See
the
instructions
for
adding
an
outdoor
sensor
in
this
document.
Wi-
Fi
and
app-
related
issues:
See
"WiFi
Setup"
on
page
74
.
Active
Rooms
is
selected
but
one
or
more
of
my
sensors
doesn't
register
activity:
Go
to
MENU/PRIORITY
ON
THERMOSTAT.
Verify
active
rooms
is
selected.
View
the
status
of
the
sensor
(s)
in
question
in
that
screen.
If
there
is
not
an
indication
of
occupancy
by
that
sensor
(green
person
next
to
sensor
name)
move
in
front
of
the
sensor.
If
that
doesn't
change
the
status
of
the
sensor:
l
Verify
the
sensor
you
are
testing
is
the
one
you
see
in
the
display.
To
do
so,
go
to
Devices
and
Sensors
and
select
the
sensor
name.
l
Verify
the
Use
Motion
slider
is
set
to
Enabled.
If
so,
select
OPTIONS/BLINK
LIGHTS
.
Go
back
to
the
sensor
and
verify
it
has
a
blinking
light.
If
not,
check
the
other
sensors
in
the
home
to
see
if
the
sensors
were
placed
in
the
wrong
rooms.
C7189R2002
or
C7189R3002
wireless
indoor
sensor
will
not
connect
to
my
T10
or
T10+:
Following
the
discontinuation
of
C7189R2002
sensors
and
the
introduction
of
C7189R3002
sensors,
there
was
a
period
during
which
the
new
sensors
worked
with
existing
T10+
thermostats
and
the
new
T10+
thermostats
worked
with
the
existing
sensors.
Beginning
with
units
manufactured
in
Autumn
2024
(date
codes
2440
and
later)
T10+
thermostats
will
only
work
with
C7189R3002
sensors
and
C7189R3002
sensors
will
only
work
with
T10+
thermostats
.
Older
thermostats
and
sensors
that
cannot
connect
should
be
replaced.
Thermostat
is
losing
time:
If
the
T10/T10+
is
used
with
HomeKit
without
registering
the
thermostat
to
the
First
Alert
or
Resideo
app,
it
may
lose
time.
We
recommend
registering
the
thermostat
to
the
First
Alert
or
Resideo
app,
even
when
controlling
it
through
HomeKit.
124 Customer
Assistance
For
assistance
with
this
product,
please
visit
customer.resideo.com
.
Or,
call
Resideo
Customer
Care
toll-
free
at
1-
800-
633-
3991
.
5-
year
limited
warranty
For
Warranty
information
go
to
honeywellhome.com/support
125 REGULATORY
Regulatory
information
FCC
REGULATIONS
47
CFR
§
15.19
(a)
(3)
This
device
complies
with
part
15
of
the
FCC
Rules.
Operation
is
subject
to
the
following
two
conditions:
1:
This
device
may
not
cause
harmful
interference,
and
2:
This
device
must
accept
any
interference
received,
including
interference
that
may
cause
undesired
operation.
47
CFR
§
15.21
(USA
only)
Changes
or
modifications
not
expressly
approved
by
the
party
responsible
for
compliance
could
void
the
user’s
authority
to
operate
the
equipment.
47
CFR
§
15.105
(b)
See
https://customer.resideo.com/en-
US/support/
residential/codes-
and-
standards/FCC15105/
Pages/default.aspx
for
additional
FCC
information
for
this
product.
IC
REGULATIONSRSS-
GEN
This
device
complies
with
Industry
Canada’s
license-
exempt
RSSs.
Operation
is
subject
to
the
following
two
conditions:
1:
This
device
may
not
cause
interference;
and
2:
This
device
must
accept
any
interference,
including
interference
that
may
cause
undesired
operation
of
the
device.
UL
and
ULC
Listed
per
Standards
UL
60730-
1
and
CAN/CSA
E60730-
1
CAUTION:
ELECTRICAL
HAZARD
Can
cause
electrical
shock
or
equipment
damage.
Disconnect
power
before
beginning
installation.
CAUTION:
EQUIPMENT
DAMAGE
HAZARD
Compressor
protection
is
bypassed
during
testing.
To
prevent
equipment
damage,
avoid
cycling
the
compressor
quickly.
CAUTION:
MERCURY
NOTICE
If
this
product
is
replacing
a
control
that
contains
mercury
in
a
sealed
tube,
do
not
place
the
old
control
in
the
trash.
Contact
your
local
waste
man
-
agement
authority
for
instructions
regarding
recycling
and
proper
disposal.
CAUTION:
ELECTRONIC
WASTE
NOTICE
The
product
should
not
be
disposed
of
with
other
household
waste.
Check
for
the
nearest
authorized
collection
centers
or
authorized
recyclers.
The
cor
-
rect
disposal
of
end-
of-
life
equipment
will
help
prevent
negative
consequences
for
the
environment
and
human
health.
126
www.resideo.com
Resideo
Technologies
Inc.
Scottsdale,
AZ
85254.
33-
00462-
07
L.Y.
02-
25
©
2025
Resideo
Technologies,
Inc.
The
Honeywell
Home
trademark
is
used
under
license
from
Honeywell
International,
Inc.
This
product
is
manufactured
by
Resideo
Technologies,
Inc.
and
its
affiliates.
Apple,
iPhone,
iPad,
iPod
touch
and
iTunes
are
trademarks
of
Apple
Inc.
All
other
trademarks
are
the
property
of
their
respective
owners.
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