Honeywell T8600D, T8601D and T8602D Chronotherm® IV Deluxe

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Transcription

Honeywell T8600D, T8601D and T8602D Chronotherm® IV Deluxe
Honeywell
T8600D, T8601D and T8602D
Chronotherm® IV Deluxe Programmable
Thermostats
PRODUCT DATA
•
M o d e ls a v a ila b le w it h o u t d o o r t e m p e r a t u r e s e n s o r
c a p a b ilit y f o r h o m e o w n e r c o n v e n ie n c e . T h e s e n s o r is
a ls o m o r e a c c u r a t e t h a n a t h e r m o m e t e r .
•
C o n f ig u r a b le f e a tu r e s a llo w s o n e m o d e l t o b e u s e d t o
r e p la c e m a n y d if f e r e n t m o d e ls ( le s s in v e n to r y , n o
lo n g e r n e e d t o c a r r y s e p a r a te m o d e ls t o g e t t h e s e
fe a tu r e s ) .
—
°F o r °C t e m p e r a t u r e d is p la y ;
—
A u t o m a t ic o r m a n u a l c h a n g e o v e r ;
—
E le c t r ic o r c o n v e n t io n a l h e a t fa n o p e r a t io n
—
A d ju s t a b le h e a t in g c y c le ra te .
•
M in im u m o f f t im e f o r c o o lin g c o m p r e s s o r s a n d h e a t
p u m p s p r o t e c t s t h e e q u ip m e n t a n d e x t e n d s t h e
e q u ip m e n t life .
•
E a s y in s t a lla t io n , s e t u p a n d s y s t e m t e s t s a v e s
in s t a lle r t im e a n d in c r e a s e s p r o d u c t iv it y .
•
S e lf- t e s t s im p lif ie s t r o u b le s h o o t in g a n d s a v e s t im e b y
o v e r r id in g t h e t im e d e la y s .
•
A d a p t iv e I n t e llig e n t R e c o v e r y ™ c o n t r o l b r in g s t h e
r o o m t e m p e r a t u r e t o t e m p e r a t u r e s e t p o in t a t t h e
p r o g r a m m e d t im e , m a x im iz in g c o m f o r t a n d e n e r g y
s a v in g s .
•
T8600/T8601/T8602
FEATURES AND BENEFITS
S e t p o in t s a r e p e r m a n e n t ly h e ld in m e m o r y (n o
b a t t e r ie s u s e d ) a n d r e t a in e d d u r in g p o w e r o u t a g e s f o r
in c r e a s e d in s t a lle r a n d h o m e o w n e r c o n v e n ie n c e .
•
P o w e r s t e a lin g , h a r d w ir e d a n d b a t t e r y p o w e r e d
m o d e ls a v a ila b le f o r v ir t u a lly a ll e q u ip m e n t a n d
a p p lic a t io n n e e d s .
•
F u ll s e v e n - d a y p r o g r a m c a p a b ilit y ; d if f e r e n t s c h e d u le s
a n d t e m p e r a t u r e s e t p o in t s m a y b e s e le c t e d f o r
e v e r y d a y t o m a tc h t h e h o m e o w n e r ’s f le x ib le s c h e d u le .
•
U n iv e r s a l V e r s a g u a r d ™ T h e r m o s t a t g u a r d s a v a ila b le
f o r a d d e d s e c u r it y .
•
C o p y k e y m a k e s p r o g r a m m in g e a s ie r a n d f a s t e r f o r
t h e in s t a lle r a n d h o m e o w n e r .
•
D a y lig h t S a v in g s T im e (D S T ) k e y f o r q u ic k c h a n g e in
a n d o u t o f D a y lig h t S a v in g s T im e .
•
M o d e ls a v a ila b le w it h p r o g r a m m a b le f a n o p e r a t io n f o r
a d d e d h o m e o w n e r c o m fo rt.
•
E a s y t e m p o r a r y t e m p e r a t u r e s e t p o in t c h a n g e s f o r
c u r r e n t p e r io d , v a c a t io n h o ld (1 t o 2 5 5 d a y s ) o r
in d e f in it e h o ld a d d s t o t h e h o m e o w n e r c o m f o r t a n d
e n e r g y s a v in g s .
•
F r e q u e n tly u s e d k e y s a r e lo c a t e d b y t h e L iq u id C r y s t a l
D is p la y (L C D ) f o r q u ic k a n d e a s y a c c e s s t o
in f o r m a t io n .
•
A t t r a c t iv e s t y lin g c o m p le m e n t s a n y d e c o r t o t h e
h o m e o w n e r ’s d e lig h t .
•
B a c k lig h t in g t h e la r g e d is p la y m a k e s t h e L C D v e r y
e a s y t o re a d .
APPLICATION
T h e T 8 6 0 0 , T 8 6 0 1 a n d T 8 6 0 2 C h ro n o th e rm ® IV D e lu x e
P ro g ra m m a b le T h e rm o s ta ts p ro v id e e le c tro n ic c o n tro l of
2 4 V a c s in g le -s ta g e h e a tin g a n d c o o lin g s y s te m s .
® U.S. Registered Trademark
Copyright © 1997 Honeywell Inc. •
• All Rights Reserved
Contents
A p p lic a tio n .................................................................................................... 1
T 8 6 0 0 /T 8 6 0 1 /T 8 6 0 2 F e a tu re s a n d B e n e fits ................................ 1
S p e c if ic a tio n s ................................................................................................2
O rd e rin g I n f o r m a tio n ................................................................................. 2
I n s t a lla t io n .................................................................................................... 4
W ir in g ............................................................................................................. 4
S e t t in g s ......................................................................................................... 6
In s ta lle r S e t u p ............................................................................................ 7
In s ta lle r S e lf- T e s t.................................................................................... 10
T h e rm o s ta t In fo r m a tio n ....................................................................... 11
P r o g r a m m in g ............................................................................................ 11
O p e ra tio n ................................................................................................... 16
T ro u b le s h o o tin g G u id e ........................................................................ 17
C ro s s R e fe r e n c e .................................................................................... 19
W irin g D ia g ra m s (F ig . 1 5 - 2 0 ) ..............................................................2 4
68-0164-1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
SPECIFICATIONS
S y s t e m C u r r e n t L o a d R a tin g s :
6 V A m a x im u m a t 3 0 V ac, 5 0 /6 0 Hz.
IMPORTANT
The specifications given in this publication do not
include normal manufacturing tolerances. Therefore,
this unit might not exactly match the listed
specifications. This product is tested and calibrated
under closely controlled conditions, and some minor
differences in performance can be expected if those
conditions are changed.
O u t p u t R e la y L o a d R a tin g :
S e e T a ble 2.
T e m p e r a tu r e :
R a tin g s :
O p e ra tin g A m b ie n t: 4 0 °F to 1 1 0 °F (4 °C to 4 3 °C ).
S h ip p in g : -3 0 °F to + 1 5 0 ° F (-3 4 °C to + 6 5 °C ).
D is p la y A c c u ra c y : ± 1 °F (± 0 .5 °C ).
Thermostat Models
S e t p o in t:
R ange:
H e a tin g : 4 0 °F to 9 0 °F (4 .5 °C to 3 2 °C ).
C o o lin g : 4 5 ° F to 9 9 °F (7 °C to 3 5 °C )
D iffe re n tia l: 3 ° F (1 .5 °C ).
D e fa u lt S e ttin g s : s e e T a b le 3.
T 8 6 0 0 , T 8 6 0 1 a n d T 8 6 0 2 T h e rm o s ta ts p ro v id e fe a tu re s lis te d
in T a ble 1.
E le c tr ic a l R a tin g ( N o m in a l R a n g e ):
2 4 V ac, 5 0 /6 0 Hz.
2 0 to 3 0 V ac, 5 0 /6 0 Hz.
M in im u m S ta g e O p e r a t io n T im e :
M in im u m O ff (H e a t a n d C o o l ): fa c to ry s e ttin g 5 m in u te s ;
o p tio n 0 to 5 m in u te s .
B a t t e r ie s :
O n ly T 8 6 0 2 m o d e ls re q u ire b a tte rie s .
H u m id it y R a tin g s :
5 % to 9 0 % R H , n o n c o n d e n s in g .
L o s s o f P o w e r:
T h e th e rm o s ta t w ill m a in ta in p ro g ra m m e d tim e s a n d
te m p e ra tu re s fo r th e life of th e p ro d u c t. T h e c lo c k a n d d a y
in fo rm a tio n is re ta in e d fo r a m in im u m o f th ir ty m in u te s .
C lo c k A c c u r a c y :
m in u te p e r m o n th .
+1
T a b le 1. T h e r m o s t a t F e a tu r e s .
S y s te m
S y s te m
S e le c t io n
C hangeover
Fan
S e le c t io n
C o m m e n ts
T 8 6 0 0 ( p o w e r e d b y e it h e r t h e h e a t in g o r c o o lin g s y s t e m )
D
H e a t-C o o l
A u to m a tic
H e a t-O ff-C o o l-A u to
O n -A u to
S y s te m a n d fa n s e le c tio n s a re d o n e b y k e y b o a rd .
H e a t-O ff-C o o l-A u to
O n -A u to
S y s te m a n d fa n s e le c tio n s a re d o n e b y k e y b o a rd .
H e a t-O ff-C o o l-A u to
O n -A u to
S y s te m a n d fa n s e le c tio n s a re d o n e b y k e y b o a rd .
T 8 6 0 1 ( p o w e r e d b y c o m m o n w ir e t o s u p p ly p o w e r )
D
H e a t-C o o l
A u to m a tic
T 8 6 0 2 ( p o w e r e d b y b a t te r ie s )
D
H e a t-C o o l
A u to m a tic
ORDERING INFORMATION
W h e n p u rc h a s in g re p la c e m e n t a n d m o d e rn iz a tio n p ro d u c ts fro m y o u r T R A D E L IN E ® w h o le s a le r o r d is trib u to r, re fe r to th e
T R A D E L IN E ® C a ta lo g o r p ric e s h e e ts fo r c o m p le te o rd e rin g n u m b e r.
If y o u h a v e a d d itio n a l q u e s tio n s , n e e d fu r th e r in fo rm a tio n , o r w o u ld like to c o m m e n t on o u r p ro d u c ts o r s e rv ic e s , p le a s e w rite o r
phone:
1.
Y o u r lo c a l H o m e a n d B u ild in g C o n tro l S a le s O ffic e (c h e c k w h ite p a g e s of y o u r p h o n e d ire c to ry ).
2.
H o m e a n d B u ild in g C o n tro l C u s to m e r L o g is tic s
H o n e y w e ll Inc., 1 8 8 5 D o u g la s D riv e N o rth
M in n e a p o lis , M in n e s o ta 5 5 4 2 2 -4 3 8 6
In C a n a d a — H o n e y w e ll L im ite d /H o n e y w e ll L im ité e , 3 5 D y n a m ic D rive , S c a rb o ro u g h , O n ta rio M 1 V 4Z 9 .
In te rn a tio n a l S a le s a n d S e rv ic e O ffic e s in all p rin c ip a l c itie s of th e w o rld . M a n u fa c tu rin g in A u s tra lia , C a n a d a , F in la n d , F ra n ce ,
G e rm a n y , J a p a n , M e x ic o , N e th e rla n d s , S p a in , T a iw a n , U n ite d K in g d o m , U .S .A .
68-0164— 1
2
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 2 . M a x im u m A m p s a t 3 0 V a c .
R e la y
R u n n in g (A )
I n r u s h (A )
F an
0 .5
2 .5
H eat
1.5
3 .5
C ool
1.5
7 .5
F in is h :
T a u p e co lo r.
D im e n s io n s :
S e e F ig. 1.
M o u n t in g M e a n s :
T h e th e rm o s ta t m o u n ts on a w a llp la te . T h e w a llp la te m o u n ts
h o riz o n ta lly on a w a ll o r o u tle t b o x w ith tw o no. 6 x 3 2 s c re w s
(in c lu d e d ).
T a b le 3 . D e fa u lt S e t p o in ts .
C ool
S e t p o in t
Fan
S e t t in g
6 :0 0 A M
7 0 °F
(2 1 °C )
7 8 °F
(2 5 .5 °C )
A u to
Leave
8 :0 0 A M
6 2 °F
(1 6 .5 °C )
8 5 °F
(2 9 .5 °C )
A u to
R e tu rn
6 :0 0 PM
7 0 °F
(2 1 °C )
7 8 °F
(2 5 .5 °C )
A u to
S le e p
1 0 :0 0 PM
6 2 °F
(1 6 .5 °C )
T im e
W ake
c\i 00
00
ll
O
O O
Heat
S e t p o in t
P e r io d
A c c e s s o r ie s :
C 7 0 8 9 B O u td o o r T e m p e ra tu re S e n s o rs (6 9 -1 0 2 0 ).
U n iv e rs a l V e rs a g u a rd ™ T h e rm o s ta t g u a rd s .
®
R E C Y C L I N G N O T IC E
If th is c o n tro l is re p la c in g a c o n tro l th a t c o n ta in s
m e rc u ry in a s e a le d tu b e , d o n o t p la c e y o u r old
c o n tro l in th e tra s h .
A u to
C o n ta c t y o u r lo c a l w a s te m a n a g e m e n t a u th o rity fo r
in s tru c tio n s re g a rd in g re c y c lin g a n d th e p ro p e r
d is p o s a l o f th e o ld th e rm o s ta t.
M 10359
F ig . 1. D im e n s io n s o f t h e r m o s t a t in in . (m m ).
3
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
INSTALLATION
1.
When Installing this Product...
2.
3.
1.
R e a d th e s e in s tru c tio n s c a re fu lly . F a ilu re to fo llo w th e
in s tru c tio n s c a n d a m a g e th e p ro d u c t o r c a u s e a
h a z a rd o u s c o n d itio n .
2. C h e c k th e ra tin g s g iv e n in th e in s tru c tio n s a n d on th e
p ro d u c t to m a k e s u re th e p ro d u c t is s u ita b le fo r y o u r
a p p lic a tio n .
3. In s ta lle r m u s t b e a tra in e d , e x p e rie n c e d s e rv ic e
te c h n ic ia n .
4. A fte r c o m p le tin g in s ta lla tio n , u s e th e s e in s tru c tio n s to
c h e c k o u t th e p ro d u c t o p e ra tio n .
4.
5.
6 .
WIRING
Location
In s ta ll th e th e rm o s ta t a b o u t 5 ft (1 .5 m ) a b o v e th e flo o r in an
a re a w ith g o o d a ir c irc u la tio n a t a v e ra g e te m p e ra tu re . S e e
Fig. 2.
A ll w irin g m u s t c o m p ly w ith lo c a l e le c tric a l c o d e s a n d
o rd in a n c e s . F o llo w e q u ip m e n t m a n u fa c tu re r w irin g
in s tru c tio n s w h e n a v a ila b le . R e fe r to Fig. 15 th ro u g h 2 0 fo r
ty p ic a l h o o k u p s . A le tte r c o d e is lo c a te d n e a r e a c h te rm in a l
fo r id e n tific a tio n . R e fe r to T a b le 4 fo r te rm in a l d e s ig n a tio n s .
D o n o t in s ta ll th e th e rm o s ta t w h e re it c a n b e a ffe c te d by:
—
d ra fts , o r d e a d s p o ts b e h in d d o o rs a n d in c o rn e rs .
—
h o t o r c o ld a ir fro m d u cts.
—
ra d ia n t h e a t fro m s u n o r a p p lia n c e s .
—
c o n c e a le d p ip e s a n d c h im n e y s .
—
u n h e a te d (u n c o o le d ) a re a s s u c h a s an o u ts id e w a ll
b e h in d th e th e rm o s ta t.
A \ C A U T IO N
D is c o n n e c t p o w e r b e fo re w irin g to p re v e n t e le c tric a l
s h o c k o r e q u ip m e n t d a m a g e .
1.
Wallplate Installation
T h e th e rm o s ta t c a n b e m o u n te d h o riz o n ta lly on th e w a ll o r on
a 2 in. x 4 in. w irin g b o x. P o s itio n w a llp la te h o riz o n ta lly on th e
w a ll o r on a 2 in. x 4 in. w irin g b o x.
68-0164— 1
P o s itio n a n d le vel th e w a llp la te (fo r a p p e a ra n c e o n ly ).
T h e th e rm o s ta t w ill fu n c tio n p ro p e rly e ve n w h e n n o t
level.
U s e a p e n c il to m a rk th e m o u n tin g h o le s. S e e Fig. 3.
R e m o v e th e w a llp la te fro m th e w a ll a n d d rill tw o 3 /1 6
in ch h o le s in th e w a ll (if d ry w a ll) a s m a rk e d . F o r firm e r
m a te ria l s u c h a s p la s te r, d rill tw o 7 /3 2 in ch h o le s.
G e n tly ta p a n c h o rs (p ro v id e d ) in to th e d rille d h o le s u n til
flu s h w ith th e w a ll.
P o s itio n th e w a llp la te o v e r th e h o le s, p u llin g w ire s
th ro u g h th e w irin g o p e n in g .
L o o s e ly in s e rt th e m o u n tin g s c re w s in to th e h o le s .
T ig h te n m o u n tin g s c re w s .
4
L o o s e n th e te rm in a l s c re w s on th e w a llp la te a n d
c o n n e c t th e s y s te m w ire s . S e e F ig. 4
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
F ig . 4. P r o p e r w ir in g t e c h n iq u e .
Mounting Thermostat Wallplate
T h e th e rm o s ta t m o u n ts on th e w a llp la te a fte r th e y a re
in s ta lle d .
1. E n g a g e ta b s a t th e to p o f th e rm o s ta t a n d w a llp la te . S e e
Fig. 5.
2 . P re s s lo w e r e d g e of c a s e to la tch .
NOTE:
IMPORTANT
Use 18 gauge, color-coded thermostat cable for
proper wiring.
2.
3.
4.
To re m o v e th e th e rm o s ta t fro m th e w a ll, firs t p u ll o u t
a t th e b o tto m o f th e th e rm o s ta t; th e n re m o v e th e to p .
S e c u re ly tig h te n e a c h te rm in a l scre w .
P u s h e x c e s s w ire b a c k in to th e hole.
P lu g th e h o le w ith n o n fla m m a b le in s u la tio n to p re v e n t
d ra fts fro m a ffe c tin g th e th e rm o s ta t.
T a b le 4. T e r m in a l D e s ig n a t io n s a n d D e s c r ip t io n s .
S ta n d a r d
T e r m in a l
D e s ig n a t io n s
A lt e r n a t e
T e r m in a l
D e s ig n a t io n s
T y p ic a l C o n n e c t io n
F u n c t io n
T e r m in a l T y p e
B
—
H e a tin g d a m p e r o r c h a n g e o v e r v a lv e
O u tp u t
C
Ba, C, X 1 , X 2
C om m on
In p u t
G
F
Fan re la y
O u tp u t
2 4 V p o w e re d c o n ta c t
O
R
C o o lin g d a m p e r o r c h a n g e o v e r v a lv e
O u tp u t
2 4 V p o w e re d c o n ta c t
O T, O T
—
O u td o o r te m p e ra tu re s e n s o r (C 7 0 8 9 B )
In p u t
—
R
V
2 4 V s y s te m o r h e a tin g tra n s fo rm e r
In p u t
—
RC
—
2 4 V c o o lin g tra n s fo rm e r
In p u t
—
W
H1, R3
H e a tin g re la y
O u tp u t
2 4 V p o w e re d c o n ta c t
C 1, M
C o m p re s s o r c o n ta c to r
O u tp u t
2 4 V p o w e re d c o n ta c t
Y
a
2 4 V p o w e re d c o n ta c t
S o m e O E M m o d e ls la b e l th e te rm in a l fo r tra n s fo rm e r c o m m o n B.
5
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
A.
EN G AG E TABS A T TO P O F TH ER M O STAT AN D W ALLPLATE.
SETTINGS
Using Thermostat Keys
B.
T h e th e rm o s ta t ke ys a re u s e d to:
• s e t c u rre n t d a y a n d tim e ,
• p ro g ra m tim e s a n d s e tp o in ts fo r h e a tin g a n d c o o lin g ,
• te m p o ra rily o v e rrid e p ro g ra m te m p e ra tu re s ,
• d is p la y p re s e n t s e ttin g ,
• c o n fig u re In s ta lle r S e tu p ,
• c h e c k S y s te m Test,
• d is p la y o u td o o r te m p e ra tu re (s e le c t m o d e ls ),
• s e t th e s y s te m o p e ra tio n ,
• s e t th e fa n o p e ra tio n .
P R E S S LO W E R ED G E O F C A S E TO LA TC H .
S e e Fig.
6
fo r th e lo c a tio n o f th e keys.
System and Fan Settings
T h e s y s te m d e fa u lt s e ttin g is H e a t a n d th e fa n d e fa u lt s e ttin g
is A u to . U s e th e S y s te m a n d Fan k e ys to c h a n g e th e s e ttin g s .
S e e Fig. 7. T h e fa n s e ttin g s c a n be s e t fo r e a c h p ro g ra m
p e rio d in d iv id u a lly . T h e s y s te m s e le c tio n is fo r all th e p ro g ra m
p e rio d s .
M 15043
F ig . 5 . M o u n t in g t h e r m o s t a t o n w a llp la te .
S E T W A K E T IM E S
IN C R E A S E T E M P E R A T U R E
A N D S E T P O IN T S
S E T T IN G O R S C R O L L
FORW ARD THROUGH
IN C R E A S E T IM E S E T T IN G
IN S T A L L E R S E T U P O P T IO N S
OR SCRO LL FORW ARD
T H R O U G H IN S T A L L E R S E T U P
AND SYSTEM TEST
DECREASE TEM PERATURE
S E T T IN G O R S C R O L L
BACKW ARD THROUGH
IN S T A L L E R S E T U P O P T IO N S
SET CURRENT
D A Y A N D T IM E
D IS P L A Y IN F O R M A T IO N
SUCH AS PRESENT
S E T T IN G S A N D O U T D O O R
RETURN TO
TEM PERATURE
NORMAL
O P E R A T IO N S
ENTER
SET SLEEP
IN D E F IN IT E
T IM E S A N D
O R T IM E D
S E T P O IN T S
H O LD M ODE
S E LE C T FAN
O P E R A T IO N
SET CURRENT OR
PROG RAM DAY
SELECT SYSTEM
CHANGE BETW EEN
O P E R A T IO N
D A Y L IG H T S A V IN G S
CHANG E BETW EEN
A N D S T A N D A R D T IM E
H E A T IN G A N D C O O L IN G
S E T P O IN T S
COPY ONE PROGRAMM ED
DAY TO AN O TH ER DAY
D E C R E A S E T IM E S E T T IN G
OR SCRO LL BACKW ARD
T H R O U G H IN S T A L L E R
SETUP AND SYSTEM TEST
F ig .
68-0164— 1
6
. K e y lo c a t io n s a n d d e s c r ip t io n s .
6
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
System settings control the thermostat operation as follows:
Heat: The thermostat controls the heating.
Off: Both the heating and cooling are off.
Cool: The thermostat controls the cooling.
Auto: The thermostat automatically changes between
heating and cooling operation, depending on the indoor
temperature.
The Installer Setup is used to customize the thermostat to
specific systems. Some of the options include temperature
display, changeover and outdoor temperature display. Installer
Setup numbers are listed in Table 6. The table includes all the
configuration options and the factory-settings for the
thermostat.
A combination of key presses are required to use the Installer
Setup feature.
— To enter the Installer Setup, press and hold the
Information [7] key with the increase ▲ and decrease ▼
keys until the first number is displayed. All display
segments appear for approximately three seconds before
the number is displayed. See Fig. 8 and 9.
— To advance to the next Installer Setup, press the Time ▲
key.
— To change a setting, use the increase ▲ or decrease ▼
key.
— To scroll the Installer Setup numbers backwards, press
the Time ▼ key.
— To exit the Installer Setup, press Run Program.
Fan settings control the system fan as follows:
On: Fan operates continuously.
Auto: Fan operates with equipment.
Set Program Start Time Set Day/Time Temporary Setting Enrg
J O Sav
Room
H
B
B
f lS
. .'
% %Humid
MonTueW edThuFriSatSun
Heat Cool
O utdoor
W akeLeaveReturnSleep In Recovery
Auto Repl Batt
- - System
Ds T
Fan
Em H eatf iO ff C ooliJiA uto W ait
O nAuto
M 15042
F ig . 7 . T h e r m o s ta t S y s t e m a n d F a n k e y lo c a t io n s .
M 10345
NOTE:
Always press the keys with your fingertip or similar
blunt tool. Sharp instruments like a pen or pencil
point can damage the keyboard.
F ig .
8
. D is p la y o f a ll t h e s e g m e n ts o f t h e L C D .
Temperature Settings
Refer to Table 5 for the default program. If the daytime energy
savings period is not used, press the period key (Leave or
Return) until the time is blank. The fan setting feature is
available on select thermostat models. See Programming
Section for complete instructions on changing the program.
t
T a b le 5 . D e fa u lt P r o g r a m S e t t in g s .
Heat
S e t p o in t
C ool
S e t p o in t
Fan
S e t t in g
6:00 AM
70°F
(21°C)
78°F
(25.5°C)
Auto
8:00 AM
62°F
(16.5°C)
85°F
(29.5°C)
Auto
P e r io d
T im e
Wake
Leave
70°F
(21°C)
Sleep
10:00 PM
62°F
(16.5°C)
78°F
(25.5°C)
c\i 00
00
6:00 PM
ll
O
O O
Return
t
IN S T A L L E R S E T U P
F A C T O R Y S E T T IN G
N U M B E R D IS P L A Y
O R O T H E R C H O IC E
(C O L U M N 2
D IS P L A Y (C O L U M N 3
O F T A B L E 6)
O R 5 O F T A B L E 6)
M 10404
F ig . 9 . D is p la y o f I n s t a lle r S e tu p n u m b e r a n d s e t t in g .
A
C A U T IO N
Heat pump and electric heat systems must be
configured to 1 in Installer Setup number 2 to prevent
equipment damage caused by the system running
without the fan.
Auto
Auto
IMPORTANT
Only configurable numbers are shown on the device.
Example: If thermostat does not have a system key,
Installer Setup Number 12 will not be displayed.
Review Table 6 factory-settings and mark any
desired changes in the Actual Settings column.
When Installer Setup is complete, review the settings
to confirm that they match the system.
INSTALLER SETUP
NOTE:
1
!
fL
For most applications, the thermostat factorysettings will not need to be changed. Review the
factory settings in Table 6 and if no changes are
necessary, go to the Installer System Test section.
7
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le
I n s t a lle r S e tu p
N u m b e r (P re s s
T im e A k e y t o
. T h e r m o s t a t I n s t a lle r S e tu p O p t io n s .
O th e r C h o ic e s
(P re s s ▲ o r ▼ k e y to c h a n g e )
F a c t o r y - S e tt in g
change)
S e le c t
6
D is p la y
D e s c r ip t io n
D is p la y
D e s c r ip t io n
N ot used
1
—
—
—
—
F an o p e r a tio n 3
2
0
C o n v e n tio n a l
a p p lic a tio n s w h e re
e q u ip m e n t c o n tro ls fa n
o p e ra tio n in h e a t m o d e
1
H e a t p u m p o r e le c tric h e a t
a p p lic a tio n s w h e re th e rm o s ta t
c o n tro ls fa n o p e ra tio n in h e a t
m ode
N ot used
3
—
—
—
—
H e a tin g c y c le
ra te
4
6
6 — 6 c p h u s e d fo r
c o n v e n tio n a l h e a t
1 ,3 or 9
1 c p h u s e d fo r ra d ia n t flo o r
h e a t, g ra v ity s y s te m
3 — 3 c p h u s e d fo r h o t w a te r
s y s te m s o r h ig h e ffic ie n c y
fu rn a c e s
9— 9 c p h u s e d fo r e le c tric h e a t
s y s te m s
—
—
—
1—
N ot used
5 th ru 11
—
—
—
S y s te m s e ttin g
a d ju s tm e n t
12
1
M anual changeover
0
A d a p tiv e
In te llig e n t
R e c o v e ry ™
c o n tro l
13
0
A d a p tiv e In te llig e n t
R e c o v e ry ™ c o n tro l is
a c tiv a te d (s y s te m
s ta rts e a rly s o s e tp o in t
is re a c h e d b y s ta rt of
p ro g ra m p e rio d )
1
C o n v e n tio n a l re c o v e ry (s y s te m
s ta rts re c o v e ry a t p ro g ra m m e d
tim e )
D e g re e
te m p e ra tu re
d is p la y
14
0
T e m p e ra tu re is
d is p la y e d in °F
1
T e m p e ra tu re is d is p la y e d in °C
N ot used
15
—
—
—
—
C lo c k fo rm a t
16
0
1 2
1
2 4 -h o u r c lo c k fo rm a t
N ot used
17 a n d 18
—
—
—
—
E x te n d e d fa n
o p e ra tio n in
19
0
N o e x te n d e d fa n
o p e ra tio n a fte r th e c a ll
fo r h e a t e n d s
1
F an o p e ra tio n is e x te n d e d 90
s e c o n d s a fte r th e c a ll fo r h e a t
e n d s.
E x te n d e d fa n
o p e ra tio n in
c o o lin g
2 0
0
N o e x te n d e d fa n
o p e ra tio n a fte r th e c a ll
fo r c o o l e n d s
1
F an o p e ra tio n is e x te n d e d 90
s e c o n d s a fte r th e c a ll fo r c o o l
e n d s.
N ot used
21 th ru 2 3
—
—
—
—
O u td o o r
te m p e ra tu re
d is p la y (s e le c t
m o d e ls )
24
0
N o o u td o o r
te m p e ra tu re is
d is p la y e d
1
O u td o o r te m p e ra tu re is
d is p la y e d . N e e d s a
C 7 0 8 9 B 1 0 0 0 O u td o o r S e n s o r
to o p e ra te
N ot used
2 5 th ru 2 9
—
—
—
—
Deadband
30
3
H e a tin g a n d c o o lin g
s e tp o in ts c a n be s e t
no c lo s e r th a n 3 °F
(1 .5 °C )
4 th ru 10
H e a tin g a n d c o o lin g s e tp o in ts
c a n b e s e t no c lo s e r th a n th e
c h o s e n v a lu e :
h e a tin g a
a
-h o u r c lo c k fo rm a t
or
2
A c tu a l
S e t t in g
—
0— A u to c h a n g e o v e r
2 — F ix e d a u to c h a n g e o v e r
—
—
—
—
4—
5—
6 —
7—
8 —
9—
10 —
4 °F (2 °C )
5 °F (2 .5 °C )
6 °F (3 °C )
7 ° F (3 .5 °C )
8 °F (4 °C )
9 °F (4 .5 °C )
1 0 °F (5 °C )
N u m b e r 2 m u s t b e s e t to 1 to e x te n d fa n o p e ra tio n .
(continued)
68-0164— 1
8
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le
6
. T h e r m o s ta t I n s t a lle r S e t u p O p t io n s ( c o n tin u e d ) .
I n s t a lle r S e tu p
N u m b e r (P re s s
T im e H k e y t o
change)
S e le c t
N ot used
D is p la y
31 a n d 3 2
O th e r C h o ic e s
(P re s s ▲ o r ▼ k e y to c h a n g e )
F a c t o r y - S e tt in g
D e s c r ip t io n
D is p la y
—
—
—
—
M in im u m o ff tim e 3 3
fo r th e
c o m p re s s o r
5
5 m in u te m in im u m off
tim e fo r th e
c o m p re s s o r
0 th ru 4
M in im u m n u m b e r o f m in u te s (0
th ru 5) th e c o m p re s s o r w ill be
o ff b e tw e e n c a lls fo r th e
c o m p re s s o r
T e m p e ra tu re
ra n g e s to p s in
h e a tin g
34
90
H ig h e s t s e tp o in t
h e a tin g c a n be s e t to
4 0 to 8 9
T e m p e ra tu re ra n g e (1 °F
in c re m e n ts ) h e a tin g s e tp o in t
c a n b e s e t to
T e m p e ra tu re
ra n g e s to p s in
c o o lin g
35
45
L o w e s t s e tp o in t
c o o lin g c a n b e s e t to
4 6 to 99
T e m p e ra tu re ra n g e (1 °F
in c re m e n ts ) c o o lin g s e tp o in t
c a n b e s e t to
N ot used
36
—
—
—
—
T e m p e ra tu re
d is p la y
a d ju s tm e n t
37
0
N o d iffe re n c e in
d is p la y e d te m p e ra tu re
a n d a c tu a l ro o m
te m p e ra tu re
3 th ru -3
1—
D is p la y a d ju s ts to 1 °F
h ig h e r th a n a c tu a l ro o m
te m p e ra tu re
2—
D is p la y a d ju s ts to 2 ° F
h ig h e r th a n a c tu a l ro o m
te m p e ra tu re
3—
D is p la y a d ju s ts to 3 ° F
h ig h e r th a n a c tu a l ro o m
te m p e ra tu re
-1 — D is p la y a d ju s ts to 1 °F lo w e r
th a n a c tu a l ro o m te m p e ra tu re
-2 — D is p la y a d ju s ts to 2 ° F lo w e r
th a n a c tu a l ro o m te m p e ra tu re
-3 — D is p la y a d ju s ts to 3 ° F lo w e r
th a n a c tu a l ro o m te m p e ra tu re
a
A c tu a l
S e t t in g
D e s c r ip t io n
—
—
N u m b e r 2 m u s t b e s e t to 1 to e x te n d fa n o p e ra tio n .
IMPORTANT
Review the settings to confirm that they match the
system. Press Run Program to exit the Installer
Setup. The thermostat has saved the Installer Setup
changes and initiated a reset in order to operate with
these new settings. Be sure to set the current day
and time immediately.
2.
P re s s D a y u n til th e c u rre n t d a y is d is p la y e d .
NOTE:
S u n = S u n d a y , M o n = M o n d a y , T u e = T u e sd a y,
W e d = W e d n e s d a y , T h u = T h u rs d a y , F ri= F rid a y,
S a t= S a tu rd a y .
SetDay/Time
1PM
Setting Current Day and Time
M 10313
1.
P re s s S e t C u rre n t D a y /T im e .
NOTE:
3.
O n in itia l p o w e r up o r a fte r an e x te n d e d p o w e r
lo ss, 1 : 0 0 p m fla s h e s on th e d is p la y u n til a key
is p re s s e d .
P re s s T im e
d is p la y e d .
NOTE:
▲
o r T im e ▼ u n til th e c u rre n t tim e is
T a p p in g th e S e t C u rre n t D a y /T im e w ill c h a n g e
th e tim e in o n e h o u r in c re m e n ts .
Time
'
SetDay/Time
AM
pm
I
M» ,
M 10314
9
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
NOTE:
If th e c u rre n t tim e is D a y lig h t S a v in g s T im e ,
p re s s D a y lig h t T im e u n til D S T is d is p la y e d .
Set Program Start Time Set Day/Time Temporary Setting Enrg
O Sav
Hold fo r
AM
E m~Htj
Room
PM
- a
a
s
: %Humid
AUXHt
▼ Heat Cool A O utdoor
MonTueW edThuFriSatSun
W akeLeaveReturnSleep In Recovery
Auto Repl Batt
- - System
Ds T
Fan
Em H e atÔ O ffCool^fïAuto W ait
O n Auto
M 10315
M 10 3 4 5
4.
P re s s R u n P ro g ra m .
F ig . 1 0 . D is p la y o f a ll t h e s e g m e n ts o f t h e L C D .
B ;
1 5 "
Wake
—System
Heat
5
0
DST
° Hoom
Fan - —- Auto
M 10316
INSTALLER SYSTEM TEST
U se th e Installer S yste m Test to ch e ck th e th e rm o sta t operation.
Refer to Table 7 for a list of th e available syste m tests.
T a b le 7 . T e s ts A v a ila b le in I n s t a lle r S y s t e m T e s t.
To s ta r t th e s y s te m te s t:
A
Test
N um ber
S y s t e m T e s t D e s c r ip t io n
C A U T IO N
1 0 -1 9
H e a tin g e q u ip m e n t c a n b e tu rn e d on a n d o ff
T h e m in im u m o ff tim e fo r c o m p re s s o rs is b y p a s s e d
d u rin g th e In s ta lle r S y s te m T est. E q u ip m e n t d a m a g e
c a n o c c u r if th e c o m p re s s o r is c y c le d to o qu ickly.
3 0 -3 9
C o o lin g e q u ip m e n t c a n b e tu rn e d on a n d o ff
4 0 -4 9
F an e q u ip m e n t c a n b e tu rn e d on a n d off
60
60
P re s s a n d h o ld th e in c re a s e ▲ a n d ▼ d e c re a s e keys, at th e
s a m e tim e , u n til 10 a p p e a rs . A ll s e g m e n ts of th e d is p la y a re
d is p la y e d fo r th re e s e c o n d s b e fo re 10 a p p e a rs . S e e Fig. 10
and 1 1 .
0
to
19
7 0 -7 9
K e y b o a rd k e y s te s t
T h e rm o s ta t in fo rm a tio n in c lu d in g d a te c o d e a n d
s o ftw a re v e rs io n s a re d is p la y e d
R e fe r to T a b le
te s ts .
NOTE:
T a b le
K e y to P re s s
8
8
fo r th e d ire c tio n s a n d re s u lts o f th e s p e c ific
P re s s T im e ▲ to a d v a n c e to th e n e xt te s t a n d T im e
▼ to g o to th e p re v io u s te s t. P re s s R u n P ro g ra m to
e x it th e s y s te m te s t.
. I n s t a lle r S y s t e m T e s t O p t io n s .
Test
N um ber
D e s c r ip t io n
H e a tin g E q u ip m e n t S y s t e m T e s t
T im e H
10
E n te r h e a tin g e q u ip m e n t s y s te m te s t.
A
11
H e a t c o m e s o n . W h e n In s ta lle r S e tu p n u m b e r 2 is 1, th e s y s te m fa n is a ls o e n e rg iz e d .
▼
10
H e a t a n d s y s te m fa n tu rn off.
C o o lin g E q u ip m e n t S y s t e m T e s t
T im e H
30
C h a n g e fro m h e a tin g to c o o lin g e q u ip m e n t s y s te m te s t.
A
31
C o o l a n d s y s te m fa n c o m e on.
▼
30
C o o l a n d s y s te m fa n tu rn off.
F a n E q u ip m e n t S y s t e m T e s t
T im e H
40
C h a n g e fro m c o o lin g to fa n e q u ip m e n t s y s te m te s t.
A
41
F an c o m e s on.
▼
40
F an tu rn s off.
K e y O p e r a t io n S y s t e m T e s t
T im e H
68-0164— 1
60
2
C h a n g e fro m fa n to k e y o p e ra tio n s y s te m te s t.
10
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
NOTE:
P re s s a n y ke y a n d th e n u m b e rs w ill c h a n g e on th e
d isp la y. P re s s T im e ▼ to s c ro ll b a c k w a rd s a n d T im e
▲ to s c ro ll fo rw a rd . T h e R un P ro g ra m , K ey w ill n o t
e x it fro m th is te s t. To e xit, g o to a d iffe re n t te s t a n d
p re s s R u n P ro g ra m .
PROGRAMMING
T h e k e y b o a rd is lo c a te d b e h in d th e th e rm o s ta t c o v e r w ith
th re e fre q u e n tly u s e d ke ys b y th e disp la y. T h e th e rm o s ta t
d is p la y s h o w s day, tim e , p ro g ra m p e rio d , te m p e ra tu re , s y s te m
a n d fa n o p e ra tio n s e le c tio n .
THERMOSTAT INFORMATION
1.
T h e th e rm o s ta t c a n b e s e t fo r fo u r tim e s a n d up to e ig h t
te m p e ra tu re s fo r e a c h d a y o f th e w e e k (2 8 in d e p e n d e n t tim e
a n d 5 6 te m p e ra tu re s e ttin g s ). T h e ▲ a n d ▼ k e y s p ro v id e
q u ic k te m p o ra ry te m p e ra tu re c h a n g e s to in c re a s e c o m fo rt.
T h e H o ld T e m p ke y p ro v id e s e n e rg y e ffic ie n t o p e ra tio n fo r
e x te n d e d p e rio d s o f tim e .
P re s s th e T im e ^ B < e y to a c c e s s th e th e rm o s ta t
in fo rm a tio n .
10
B e fo re s ta rtin g th e p ro g ra m m in g p ro c e d u re , u s e T a b le 9 to
o rg a n iz e th e p ro g ra m s c h e d u le . T h e fa c to ry p re p ro g ra m m e d
tim e , te m p e ra tu re a n d fa n s e ttin g s a re s h o w n in b ra c k e ts . If a
d a y tim e e n e rg y s a v in g s p e rio d is n o t u se d , p re s s th e p e rio d
ke y (L e a v e o r R e tu rn ) u n til th e tim e is b la n k . T h e fa n s e ttin g
fe a tu re is a v a ila b le on s e le c t th e rm o s ta t m o d e ls .
M 4934
2.
P re s s th e in c re a s e ▲ k e y to d is p la y th e p ro d u c tio n d a te
c o d e . T h e firs t tw o la rg e d ig its a re th e m o n th a n d th e
th ird d ig it is th e la s t d ig it o f th e y e a r (E x a m p le :
0 2 7 = F e b ru a ry 1 9 9 7 ).
i l
Setting the Current Day and Time
IMPORTANT
Always press the keys with your fingertip or similar
blunt tool. Sharp instruments like pens and pencil
points can damage the keyboard.
B E I
1.
M 10351
P re s s S e t C u rre n t D a y /T im e .
NOTE:
3.
P re s s th e in c re a s e ▲ k e y a g a in to d is p la y th e s o ftw a re
id e n tific a tio n co d e . (E x a m p le : 0 2 = s o ftw a re ID c o d e 2)
O n in itia l p o w e r up o r a fte r an e x te n d e d p o w e r
lo ss, 1 : 0 0 p m fla s h e s on th e d is p la y u n til a key
is p re s s e d .
SetDay/Time
1?
B E
PM
M 10312
M 4932A
4.
2.
P re s s th e in c re a s e ▲ k e y a g a in to d is p la y th e s o ftw a re
re v is io n n u m b e r (E x a m p le : 0 0 1 = R e v is io n n u m b e r 1).
P re s s D a y u n til th e c u rre n t d a y is d is p la y e d .
NOTE:
13
BB I
S u n = S u n d a y, M o n = M o n d a y, Tue = T uesd ay,
W e d = W e d n e s d a y , T h u = T h u rs d a y , Fri =
Friday, S a t = S a tu rd a y.
Pm
M 10229
5.
6
P re s s th e in c re a s e ▲ k e y a g a in to d is p la y th e E E P R O M
id e n tific a tio n co d e . (E x a m p le : 3 1 4 = E E P R O M ID 3 1 4 )
. P re s s th e R un P ro g ra m ke y to e x it th e s y s te m te s t. T h e
3W
M 10313
3.
3 14
P re s s T im e
d is p la y e d .
NOTE:
▲
o r T im e ▼ u n til th e c u rre n t tim e is
T a p p in g th e S e t C u rre n t D a y /T im e w ill c h a n g e
th e tim e in o n e h o u r in c re m e n ts .
Time
M 4933A
SetDay/Tim®
am
s y s te m te s t tim e s o u t a fte r fiv e m in u te s w ith o u t a n y ke y
p re s s e s .
ii
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
NOTE:
If th e c u rre n t tim e is D a y lig h t S a v in g s T im e ,
p re s s D a y lig h t T im e u n til D S T is d is p la y e d .
Programming the First Day
S ta rt b y p ro g ra m m in g th e W a k e tim e a n d te m p e ra tu re (a n d
fa n o p e ra tio n on s e le c t m o d e ls ) fo r a n y o n e day:
1. P re s s W a ke .
0
■ „5;.., ‘D S tT A
M 10315
w-
L—
-
«••
Wake
■
4.
| Set Program StartTime
o
1
'J ñ
^
-
‘
Setting
Tue
Heat
Heat
]
I
Auto
M 10317
P re s s R u n P ro g ra m .
0 /S '. E B0Wake
- System
Heat
DST
Fan - - - Auto
M 10316
T a b le 9 . D e fa u lt T im e , S e t p o in t s a n d F a n S e t t in g s .
P e r io d
S ta r t T im e
H e a t S e t p o in t
C o o l S e t p o in t
F a n S e t t in g
M onday
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
Tuesday
W ednesday
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
T h u rs d a y
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
F r id a y
S a tu rd a y
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
(continued)
68-0164— 1
12
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 9 . D e fa u lt T im e , S e t p o in t s a n d F a n S e t t in g s ( c o n tin u e d ) .
P e r io d
S ta r t T im e
H e a t S e t p o in t
C o o l S e t p o in t
F a n S e t t in g
Sunday
W ake
[6 :0 0 A M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
Leave
[8 :0 0 A M ]
[6 2 °F (1 6 .5 °C )]
[8 5 °F (2 9 .5 °C )]
[A u to ]
R e tu rn
[6 :0 0 P M ]
[7 0 °F (2 1 °C )]
[7 8 °F (2 5 .5 °C )]
[A u to ]
S le e p
[1 0 :0 0 P M ]
[6 2 °F (1 6 .5 °C )]
[8 2 °F (2 8 °C )]
[A u to ]
2.
P re s s D a y u n til th e d e s ire d d a y is d is p la y e d .
6
Set Program Start Time
Setting
Mon
Wake
Heat
. P re s s in c re a s e ▲ o r d e c re a s e ▼ ke y u n til th e d e s ire d
te m p e ra tu re s e tp o in t is d is p la y e d .
J
Setting
SetProgram Start Time
Heat
I
Auto
16
*
Mon
Wake
M 10318
Heat
Cool
°
*
M 10322
3.
P re s s T im e M
d is p la y e d .
NOTE:
or T im e H
u n til th e d e s ire d W a k e tim e is
7.
T h e p ro g ra m tim e s a re in fifte e n m in u te
in te rv a ls . (E x a m p le : 8 :0 0 , 8 :1 5 , 8 :3 0 ).
IMPORTANT
Repeat steps 1 through 7 for each day of the week
that has a different program than the first day. Refer
to Copying a Day section to copy any program day to
another.
Time
Setting
Set Program StartTime
1D°
Mon
Wake
Heat
Heat
J
I
P re s s L e a ve , R e tu rn o r S le e p a n d re p e a t s te p s 3, 4, 5
a n d 5 fo r p ro g ra m m in g th e re s t o f th e day. T h e firs t d a y
is n o w p ro g ra m m e d .
Auto
M 10319
8
4.
.
NOTE:
0
a
T h e s e tp o in t te m p e ra tu re ra n g e is 4 0 to 9 0 °F
(7 to 31 °C ) fo r h e a tin g a n d 4 5 to 9 9 °F (9 to
3 7 °C ) fo r c o o lin g .
Set Program Start Time
Mon
Wake
Heat
NOTE:
S'' IS " "
"o "
Tue
-»■
1
v
as
[ - I -
System
Heat
¡
DST
Fan - - - 1
Auto
M 10323
Copying a Day
Setting
Heat
NOTE:
Auto
M 10320
5.
P re s s R u n P ro g ra m w h e n a ll d a y s a re p ro g ra m m e d .
P re s s in c re a s e ▲ o r d e c re a s e ▼ ke y u n til th e d e s ire d
W a k e te m p e ra tu re is d is p la y e d .
P re s s Fan to m o d ify fa n o p e ra tio n . A u to m e a n s
th e fa n w ill ru n o n ly w h e n th e h e a tin g o r
c o o lin g e q u ip m e n t is o p e ra tin g . O n m e a n s th e
fa n w ill ru n c o n tin u o u s ly fo r th e e n tire p e rio d . 5
1.
T h e th e rm o s ta t m u s t b e in th e p ro g ra m m o d e to use
th e c o p y fe a tu re . G o to s te p 2 if th e th e rm o s ta t is
a lre a d y in th e p ro g ra m m o d e .
P re s s W a ke .
Setting
Set Program Start Time
&3CT
P re s s H e a t/C o o l S e ttin g s to s w itc h to o th e r s y s te m
te m p e ra tu re s e tp o in t.
Heat
5S°
Heat
¡
I
Auto
M 10324
NOTE:
T h e p ro g ra m tim e s a re th e s a m e fo r b o th
h e a tin g a n d c o o lin g .
2.
P re s s D a y to s e le c t th e d a y to be c o p ie d if d iffe re n t
fro m th e d a y d is p la y e d .
Set Program Start Time
Mon
Wake
Heat
Setting
Heat
Auto
M 10325
M 10321
13
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
3. Press Copy.
4. Repeat steps 2 and 3 for all the periods to be cleared.
5. Press Run Program.
u copy
Setting Temporary Temperatures
M 10326
Changing Temperature Setting Until the Next
Program Period
4. Press Day until the day to be copied to is displayed.
Mon
Press increase ▲ or decrease ▼ key until the desired
temperature setpoint is displayed.
copy -to
Wed
NOTE:
M 10327
5. Press Copy.
NOTE: donE will be displayed for two seconds and
then the normal program display will be
shown.
If ▼ or ▲ appear under the temperature display, it
means that both the heating and cooling setpoints
are being adjusted. Tapping the key will change both
the heat and cool setpoints by one degree. Press i
after the desired setpoint is reached to check the
setpoints.
L 0
0
□
1 pO'U'.- «LST'—
'A
”*-
t-~-
R-*n
Temporary Setting
B 9°
Heat
«--
@
M 10332
6. Repeat steps 2 through 5 for all the days desired.
NOTE: The temporary temperature setting is displayed for
approximately 3 seconds. The setting is canceled
when the next period starts or when Run Program is
pressed.
7. Press Run Program.
Clearing Program Period
NOTE:
1.
Changing Temperature Setting Indefinitely
The thermostat must be in the program mode to use
the clear feature. Go to step 2 if the thermostat is
already in the program mode.
1.
r
0
o
1i
Press Wake, Leave, Return or Sleep.
p| Ù
^ | Ssa;*m-'
Set Program Start Time
Mon
Press Hold Temp.
Â
—
t—
~ - T «~
Setting
ECT
Ho Id
Heat
Setting
M 10333
Heat
Leave
Heat
2. Press increase ▲ or decrease ▼ key to change the
setting, if desired.
Auto
M 10329
2. Press Day until the desired day is displayed.
Setting
Ha Id
Set Program StartTime
M 10334
Heat
J
I
Auto
3. Press Heat/Cool Settings to change between heat and
cool settings.
M 10330
3. Press Leave, Return or Sleep until the start time and
temperature setting are cleared (approximately 3
seconds).
NOTE:
Heat
Setting
Sat
Heat
E 1°
Setting
Ha Id
1B°
Cool
Wake cannot be cleared.
M 10335
Sat
4. Press increase ▲ or decrease ▼ key to adjust
temperature settings.
Setting
ISetProaramStartTime
Heat
Leave
Setting
M 10331
Ha Id
BD°
Cool
M 10336
68-0164— 1
14
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
NOTE:
5.
T h e d is p la y c h a n g e s fro m th e s e tp o in t to th e
ro o m te m p e ra tu re a fte r a p p ro x im a te ly 3
seconds.
NOTE:
P re s s R u n P ro g ra m to c a n c e l th e H o ld a n d to re tu rn to
th e p ro g ra m .
Changing Temperature Setting Until a
Designated Day and Period
1.
IMPORTANT
If the Hold needs to be canceled before the
designated time, press Run Program to return to the
program.
P re s s H o ld T e m p tw ic e .
0
B
O
11l^pR.'.ll'-D
C
'tm
e'A —
- l~
U fflJ
HJ °-y> V T
-^ '
S'"
Setting
Setting System and Fan
^
Heat
Wake
T h e s y s te m d e fa u lt s e ttin g is H e a t a n d th e fa n d e fa u lt s e ttin g
is A u to . U s e th e S y s te m a n d Fan k e ys to c h a n g e th e s e ttin g s .
S e e Fig. 12. T h e fa n s e ttin g s c a n b e s e t fo r e a c h p ro g ra m
p e rio d in d iv id u a lly . T h e s y s te m s e le c tio n is fo r all th e p ro g ra m
p e rio d s .
M 10337
2.
P re s s T im e M or T im e H u n til th e d e s ire d n u m b e r of
d a y s is d is p la y e d (1 to 2 5 5 d a ys). (E x a m p le : 18 = H o ld
w ill o v e rrid e th e d a ily p ro g ra m s fo r 18 d a ys)
S y s te m s e ttin g s c o n tro l th e th e rm o s ta t o p e ra tio n a s fo llo w s :
H e a t: T h e th e rm o s ta t c o n tro ls th e h e a tin g .
O ff: B o th th e h e a tin g a n d c o o lin g a re off.
C o o l: T h e th e rm o s ta t c o n tro ls th e c o o lin g .
A u to : T h e th e rm o s ta t a u to m a tic a lly c h a n g e s b e tw e e n
h e a tin g a n d c o o lin g o p e ra tio n , d e p e n d in g on th e in d o o r
te m p e ra tu re .
Time
Hold
IB
GET
Wake
M 10338
3.
In th is e x a m p le , th e th e rm o s ta t u s e s th e H o ld s e ttin g
fo r e ig h te e n d a y s a n d re tu rn s to th e d a ily p ro g ra m s
at th e R e tu rn p e rio d s ta rt tim e . T h e te m p e ra tu re
s e ttin g s a re h e a tin g 5 4 °F a n d c o o lin g 84°F. O n ly th e
h e a tin g te m p e ra tu re is u s e d b e c a u s e th e S y s te m is
s e t fo r H e a t. T h e th e rm o s ta t w ill u se b o th th e h e a tin g
a n d c o o lin g te m p e ra tu re s e ttin g s w h e n th e S y s te m
is s e t to A u to (s e le c t m o d e ls ).
P re s s W a k e , L e a ve , R e tu rn o r S le e p to s e le c t th e
p e rio d th e p ro g ra m w ill s ta rt. (E x a m p le : R e tu rn =
th e rm o s ta t w ill s to p th e H o ld a t th e R e tu rn p e rio d s ta rt
tim e )
Fan s e ttin g s c o n tro l th e s y s te m fa n a s fo llo w s :
O n : Fan o p e ra te s c o n tin u o u s ly .
A u to : Fan o p e ra te s w ith e q u ip m e n t.
Setting
Hold for
IB
B 0°
Heat
Return
M 10339
4.
P re s s in c re a s e ▲ o r d e c re a s e ▼ ke y to a d ju s t th e
te m p e ra tu re s e ttin g , if d e s ire d . (E x a m p le : H e a t 5 4 ° =
h e a tin g e q u ip m e n t w ill o p e ra te w h e n th e ro o m
te m p e ra tu re is b e lo w 5 4 °F )
Q
M 15042
F ig . 12. T h e r m o s ta t S y s t e m a n d F a n k e y lo c a t io n s .
NOTE:
5.
6
W h e n th e S y s te m is s e t fo r A u to (s e le c t
m o d e ls ), b o th h e a t a n d c o o l s e ttin g s a re
n e e d e d . If th e S y s te m is s e t fo r H e a t, o n ly th e
H e a t s e tp o in t is n e e d e d o r if C o o l is s e le c te d ,
o n ly th e C o o l s e tp o in t is n e e d e d .
Setting Temporary Fan Operation
If y o u r th e rm o s ta t h a s a Fan ke y a n d th is fe a tu re , p re s s Fan
u n til th e d e s ire d fa n o p e ra tio n is s e le c te d . T h is fa n s e ttin g w ill
b e in e ffe c t u n til th e n e xt re g u la rly s c h e d u le d p e rio d s ta rts .
P re s s H e a t/C o o l S e ttin g s to c h a n g e b e tw e e n h e a t a n d
c o o l s e ttin g s .
. P re s s in c re a s e ▲ o r d e c re a s e ▼ ke y to a d ju s t th e
te m p e ra tu re s e ttin g , if d e s ire d . (E x a m p le : C o o l 8 4 ° =
c o o lin g e q u ip m e n t w ill o p e ra te w h e n th e ro o m
te m p e ra tu re is a b o v e 8 4 °F )
15
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
THERMO STAT
Using Daylight Savings Time Feature
T h is fe a tu re a llo w s y o u to c h a n g e in a n d o u t o f D a y lig h t
S a v in g s T im e w ith a ke y p re s s . W h e n th e D a y lig h t T im e K e y is
p re s s e d in th e fa ll, th e tim e w ill go b a c k o n e h o u r. In th e
s p rin g , th e tim e w ill g o a h e a d o n e h o u r a n d th e d is p la y w ill
s h o w DST. S e e S e ttin g th e C u rre n t D a y a n d T im e s e c tio n fo r
in itia l s e ttin g in s tru c tio n s .
NOTE:
P re s s in g th e D a y lig h t T im e K e y m o re th a n o n c e
w ith in a fiv e m in u te p e rio d w ill s c ro ll y o u th ro u g h
v a rio u s tim e o p tio n s (E x a m p le : o n e h o u r e a rlie r o r
la te r w ith o r w ith o u t D S T ). P re s s in g th e D a y lig h t
T im e K e y s ix tim e s in a fiv e m in u te p e rio d w ill re tu rn
y o u to y o u r o rig in a l s e ttin g s .
H 5“
Heat
E S°
¡
I
F ig 1 3 . P r o p o r t io n a l t e m p e r a t u r e c o n t r o l v e r s u s P + I
t e m p e r a t u r e c o n t r o l.
"m
Auto
M 10341
Displaying the Outdoor Temperature
Operation Sequence
If y o u r th e rm o s ta t is e q u ip p e d w ith an o u td o o r sensor,, y p u
c a n c h e c k th e te m p e ra tu re a t th e s e n s o r b y p re s s in g | j
once.
T h e th e rm o s ta t e n e rg iz e s s p e c ific te rm in a ls d e p e n d in g w h a t
th e Fan a n d S y s te m a re s e t to. T h e L C D w ill d is p la y th e tim e ,
ro o m te m p e ra tu re , s y s te m a n d fa n s e le c tio n . S y m b o ls w ill be
d is p la y e d w h e n th e h e a tin g , c o o lin g o r fa n is e n e rg iz e d . S e e
T a b le 10 fo r s p e c ific in fo rm a tio n .
5 B °Outdoor
NOTE:
N o t all th e th e rm o s ta t m o d e ls h a ve all th e te rm in a ls
lis te d in th e E n e rg iz e c o lu m n .
M 10342
T a b le 1 0 . C o n v e n t io n a l S y s t e m S e q u e n c e o f O p e r a t io n .
OPERATION
S e le c t io n
Fan
P+I Control
S y s te m
C a ll
E n e r g iz e
T h e th e rm o s ta t m ic ro p ro c e s s o r b a s e d c o n tro l re q u ire s th a t
th e u s e r u n d e rs ta n d s te m p e ra tu re c o n tro l a n d th e rm o s ta t
p e rfo rm a n c e . A c o n v e n tio n a l e le c tro m e c h a n ic a l o r e le c tro n ic
th e rm o s ta t d o e s n o t c o n tro l te m p e ra tu re p re c is e ly a t s e tp o in t.
T yp ic a lly , th e re is an o ffs e t (d ro o p ) in th e c o n tro l p o in t a s th e
s y s te m lo a d c h a n g e s . T h is is a p h e n o m e n o n th a t m o s t p e o p le
in th e in d u s try k n o w a n d a c c e p t. M a n y fa c to rs c o n trib u te to
o ffs e t in c lu d in g s w itc h d iffe re n tia l, th e rm a l la g, o v e rs h o o t,
c y c le ra te s a n d s y s te m lo a d .
A u to
O ff
N one
N one
On
O ff
N one
G
T h e th e rm o s ta t m ic ro p ro c e s s o r s im u lta n e o u s ly g a th e rs ,
c o m p a re s a n d c o m p u te s d a ta . U s in g th is d a ta , it c o n tro ls a
w id e v a rie ty o f fu n c tio n s . T h e s p e c ia l p ro p rie ta ry a lg o rith m
(p ro g ra m ) in th e th e rm o s ta t e lim in a te s th e fa c to rs c a u s in g
o ffs e t. T h is m a k e s te m p e ra tu re c o n tro l m o re a c c u ra te th a n
th e c o n v e n tio n a l e le c tro m e c h a n ic a l o r e le c tro n ic th e rm o s ta ts .
T h e te m p e ra tu re c o n tro l a lg o rith m is c a lle d p ro p o rtio n a l p lu s
in te g ra l (P + I) c o n tro l.
X
A u to
C ool
N one
O
A u to
C o o l o r A u to
C o o lin g
O, G and Y
A u to
H eat
N one
B
A u to
H e a t o r A u to
H e a tin g
B and W a
N one
and
N one
6)
A u to
T h e th e rm o s ta t s e n s o r, lo c a te d on th e th e rm o s ta t o r re m o te ,
s e n s e s th e c u rre n t s p a c e te m p e ra tu re . T h e p ro p o rtio n a l e rro r
is c a lc u la te d b y c o m p a rin g th e s e n s e d te m p e ra tu re to th e
p ro g ra m m e d s e tp o in t. T h e d e v ia tio n fro m th e s e tp o in t is th e
p ro p o rtio n a l erro r.
A u to
N one
O or B b
N one
a
W h e n e le c tric h e a t fa n is s e le c te d , G is e n e rg iz e d a n d fa n
s y m b o l is d is p la y e d .
b
B a s e d on la s t p ie c e o f e q u ip m e n t c a lle d (c o o lin g = O or
h e a tin g = B) a n d In s ta lle r S e tu p s e le c tio n .
Equipment Protection
A s p a rt o f th e o p e ra tio n a l s e q u e n c e , th e th e rm o s ta t
m ic ro p ro c e s s o r a ls o in c o rp o ra te s m in im u m o ff tim e fo r all
c o o lin g s ta g e s . U s in g th e m in im u m o ff tim e a s s u re s th a t ra p id
c y c lin g o f e q u ip m e n t d o e s n o t o c c u r, w h ic h e x te n d s
e q u ip m e n t life. M in im u m o ff tim e s a re s e t in th e In s ta lle r
S e tu p .
T h e th e rm o s ta t a ls o d e te rm in e s in te g ra l e rro r, w h ic h is a
d e v ia tio n b a s e d on th e le n g th o f e rro r tim e . T h e s u m o f th e
tw o e rro rs is th e (P + I) erro r. T h e c y c le ra te u s e d to re a c h a n d
m a in ta in th e s e tp o in t te m p e ra tu re is c o m p u te d u s in g th e P+I.
T h e a d d itio n o f th e in te g ra l e rro r is w h a t d iffe re n tia te s th e
th e rm o s ta t fro m m a n y o th e r e le c tro n ic a n d e le c tro m e c h a n ic a l
th e rm o s ta ts . S e e Fig. 13.
68-0164— 1
D is p la y
N one
16
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
A d a p tiv e In te llig e n t R e c o v e ry ® c a lc u la te s th e re c o v e ry ra m p
b a s e d on th e n u m b e r o f d e g re e s a w a y fro m th e d e s ire d
s e tp o in t, p re v io u s e q u ip m e n t p e rfo rm a n c e , a n d w e a th e r
h is to ry to in itia te re c o v e ry at th e o p tim a l tim e to a c h ie v e th e
c o m fo rt s e ttin g a t th e d e s ire d tim e .
T h e r m o s ta t O p e r a tio n
Startup
W h e n p o w e r to th e th e rm o s ta t is tu rn e d o n , a s ta rtu p a n d
in itia liz a tio n p ro g ra m b e g in s . T h e s ta rtu p o c c u rs o n ly on in itia l
p o w e ru p . A fte r to ta l lo ss of p o w e r fo r an e x te n d e d p e rio d , th e
c u rre n t tim e a n d d a y m a y n e e d to b e se t, b u t th e u s e r
p ro g ra m is h e ld . S e e T a b le 11 fo r th e d e fa u lt v a lu e s .
NOTE:
O n c e th e re c o v e ry ra m p is in te rs e c te d , th e s e tp o in t c h a n g e s
fro m th e s e tb a c k s e tp o in t to th e c o m fo rt s e tp o in t. T h is c h a n g e
snaps on th e e q u ip m e n t a n d ru n s th e e q u ip m e n t u n til th e
s e tp o in t is re a c h e d . If th e s e tp o in t is re a c h e d to o e a rly o r to o
la te , th e ra m p is a d ju s te d fo r th e n e xt d a y s ' re c o v e ry .
Im m e d ia te ly fo llo w in g in itia liz a tio n , th e u s e r c a n
e n te r n e w s e tp o in ts to b e u s e d in p la c e of th e d e fa u lt
v a lu e s .
T a b le 11. D e fa u lt T im e , S e t p o in t a n d F a n S e t t in g s .
P e r io d
T im e
Heat
S e t p o in t
C ool
S e t p o in t
Fan
S e t t in g
W ake
6 :0 0 A M
7 0 °F
(2 1 °C )
7 8 °F
(2 5 .5 °C )
A u to
Leave
8 :0 0 A M
6 2 °F
(1 6 .5 °C )
8 5 °F
(2 9 .5 °C )
A u to
R e tu rn
6 :0 0 PM
7 0 °F
(2 1 °C )
7 8 °F
(2 5 .5 °C )
A u to
I n te llig e n t R e c o v e ry ®
O
o o
CM OO
A d a p t iv e
6 2 °F
(1 6 .5 °C )
00
1 0 :0 0 PM
ll
S le e p
HEATING MODE
F ig . 1 4 . T e m p e r a t u r e c h a n g e in r e c o v e r y .
A u to
TROUBLESHOOTING GUIDE
F e a tu re
A d a p tiv e In te llig e n t R e c o v e ry ® e n s u re s th a t th e c o m fo rt
s e ttin g is a c h ie v e d a t th e p ro g ra m m e d tim e re g a rd le s s of
w e a th e r c o n d itio n s . C o n v e n tio n a l re c o v e ry , h o w e ve r, s ta rts
re c o v e ry a t th e b e g in n in g o f th e p ro g ra m m e d tim e p e rio d a n d
u s e s th e e q u ip m e n t to a c h ie v e th e c o m fo rt s e ttin g s a s s o o n
a s p o s s ib le .
R e fe r to T a b le 12 fo r tr o u b le s h o o tin g in fo rm a tio n .
17
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 1 2 . T r o u b le s h o o t in g I n f o r m a tio n .
S y m p to m
P o s s ib le C a u s e
A c t io n
D is p la y w ill n o t
c o m e on.
T h e rm o s ta t is n o t b e in g
p o w e re d .
•
T e m p e ra tu re
d is p la y is in c o rre c t.
R o o m te m p e ra tu re d is p la y h a s
b e e n re c o n fig u re d .
E n te r In s ta lle r S e tu p n u m b e r 3 7 a n d re c o n fig u re th e d is p la y .
T h e rm o s ta t is c o n fig u re d fo r °F
o r °C d is p la y .
E n te r In s ta lle r S e tu p n u m b e r 14 a n d re c o n fig u re th e d is p la y .
B a d th e rm o s ta t lo c a tio n .
R e lo c a te th e th e rm o s ta t.
T e m p e ra tu re
s e ttin g s w ill n o t
c h a n g e . (E x a m p le :
C a n n o t s e t th e
T h e u p p e r o r lo w e r te m p e ra tu re
lim its w e re re a c h e d .
C h e c k th e te m p e ra tu re s e tp o in ts :
• H e a tin g lim its a re 4 0 to 9 0 °F (4 .5 to 3 2 °C )
• C o o lin g lim its a re 4 5 to 9 9 ° F (7 to 3 5 °C ) e x c e p t D m o d e l c o o lin g
lim its a re 48 to 9 9 °F .
h e a tin g h ig h e r o r
th e c o o lin g lo w e r.)
T h e s e tp o in t te m p e ra tu re ra n g e
s to p s w e re c o n fig u re d .
C h e c k In s ta lle r S e tu p n u m b e rs 3 4 a n d 3 5 a n d re c o n fig u re th e s e tp o in t
s to p s .
H e a tin g w ill n o t
c o m e on.
N o p o w e r to th e th e rm o s ta t.
•
•
H e a tin g w ill n o t
c o m e on.
T h e rm o s ta t m in im u m o ff tim e is
a c tiv a te d .
W a it up to fiv e m in u te s fo r th e s y s te m to re s p o n d .
S y s te m s e le c tio n is n o t s e t to
H e a t.
S e t s y s te m s e le c tio n to H e a t.
H e a tin g s e tp o in t is b e lo w ro o m
te m p e ra tu re .
C h e c k h e a tin g s e tp o in t. S e t h e a tin g s e tp o in t to d e s ire d te m p e ra tu re .
N o p o w e r to th e th e rm o s ta t.
•
•
S e tp o in t is b e lo w ro o m te m p e ra tu re .
C h e c k fo r 2 4 V a c b e tw e e n R o r R C a n d C o r Y te rm in a ls (D m o d e ls
re q u ire s p o w e r to R a t all tim e s ).
—
If m is s in g 2 4 V a c :
—
c h e c k if th e c irc u it b re a k e r is trip p e d — re s e t th e c irc u it
b re a k e r.
—
c h e c k if th e s y s te m fu s e is b lo w n — re p la c e th e fu s e .
—
c h e c k if th e p o w e r s w itc h on th e H V A C e q u ip m e n t is in th e
O ff p o s itio n — s e t to th e O n p o s itio n .
—
c h e c k w irin g b e tw e e n th e rm o s ta t a n d H V A C e q u ip m e n t—
re p la c e a n y b ro k e n w ire s a n d tig h te n a n y lo o s e c o n n e c tio n s .
—
If 2 4 V a c is p re s e n t, p ro c e e d w ith tro u b le s h o o tin g .
T h e rm o s ta t m in im u m o ff tim e is
a c tiv a te d .
•
•
W a it up to fiv e m in u te s fo r th e s y s te m to re s p o n d .
E n te r In s ta lle r S e tu p n u m b e r 3 3 . R e c o n fig u re m in im u m o ff tim e (if
re q u ire d ).
S y s te m s e le c tio n is n o t s e t to
C o o l.
S e t s y s te m s e le c tio n to C o o l.
C o o l s e tp o in t is a b o v e ro o m
te m p e ra tu re .
C h e c k c o o lin g s e tp o in t. S e t c o o lin g s e tp o in t to d e s ire d te m p e ra tu re .
C o o lin g w ill n o t
c o m e on.
C h e c k fo r 2 4 V a c b e tw e e n R a n d C o r W te rm in a ls .
—
If m is s in g 2 4 V a c :
—
c h e c k if th e c irc u it b re a k e r is trip p e d — re s e t th e c irc u it
b re a k e r.
—
c h e c k if th e s y s te m fu s e is b lo w n — re p la c e th e fu s e .
—
c h e c k if th e p o w e r s w itc h on th e H V A C e q u ip m e n t is in th e
O ff p o s itio n — s e t to th e O n p o s itio n .
—
c h e c k w irin g b e tw e e n th e rm o s ta t a n d H V A C e q u ip m e n t—
re p la c e a n y b ro k e n w ire s a n d tig h te n a n y lo o s e c o n n e c tio n s .
—
If 2 4 V a c is p re s e n t, p ro c e e d w ith tro u b le s h o o tin g .
S e tp o in t is a b o v e ro o m te m p e ra tu re .
C h e c k fo r 2 4 V a c b e tw e e n R a n d C o r W te rm in a ls .
—
If m is s in g 2 4 V a c :
—
c h e c k if th e c irc u it b re a k e r is trip p e d — re s e t th e c irc u it
b re a k e r.
—
c h e c k if th e s y s te m fu s e is b lo w n — re p la c e th e fu s e .
—
c h e c k if th e p o w e r s w itc h on th e H V A C e q u ip m e n t is in th e
O ff p o s itio n — s e t to th e O n p o s itio n .
—
c h e c k w irin g b e tw e e n th e rm o s ta t a n d H V A C e q u ip m e n t—
re p la c e a n y b ro k e n w ire s a n d tig h te n a n y lo o s e c o n n e c tio n s .
—
If 2 4 V a c is p re s e n t, p ro c e e d w ith tro u b le s h o o tin g .
(continued)
68-0164— 1
18
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 12. T r o u b le s h o o t in g I n f o r m a tio n ( c o n tin u e d ) .
S y m p to m
P o s s ib le C a u s e
A c t io n
H e a tin g o r c o o lin g
c o m e on
m o m e n ta rily a n d
s h u t off
H e a t o r c o o l c irc u it is o p e n in g
up o r b e c o m in g hig h
im p e d a n c e .
A d d re s is to r in p a ra lle l w ith lo a d o r in s ta ll in te rfa c e re la y.
S y s te m on in d ic a to r
(fla m e = h e a t,
s n o w fla k e = c o o l) is
d is p la y e d , b u t no
F an o p e ra tio n s e t fo r 0
(c o n v e n tio n a l h e a t) w h e n it
s h o u ld b e s e t fo r 1 (e le c tric
h e a t).
E n te r In s ta lle r S e tu p n u m b e r 2 a n d re c o n fig u re th e fa n o p e ra tio n .
w a rm o r c o o l a ir is
c o m in g fro m th e
re g is te rs .
C o n v e n tio n a l h e a tin g
e q u ip m e n t tu rn s on th e fa n
w h e n th e fu rn a c e h a s
w a rm e d up to a s e tp o in t.
W a it a m in u te a fte r s e e in g th e on in d ic a to r a n d th e n c h e c k th e re g is te rs .
H e a tin g o r c o o lin g e q u ip m e n t is V e rify o p e ra tio n o f h e a tin g o r c o o lin g e q u ip m e n t in s e lf-te s t.
n o t o p e ra tin g .
O u td o o r
te m p e ra tu re n o t
d is p la y e d a
O p tio n n o t a c tiv a te d .
E n te r In s ta lle r S e tu p n u m b e r 2 4 a n d s e t to 1. T h e rm o s ta t m u s t h a v e O T
te rm in a ls a n d a C 7 0 8 9 B 1 0 0 0 in s ta lle d .
O u td o o r
te m p e ra tu re
d is p la y is in c o rre c t 3
O u td o o r s e n s o r is c o n n e c te d
in c o rre c tly .
R e fe r to C 7 0 8 9 B 1 0 0 0 in s ta lla tio n in s tru c tio n s a n d c h e c k w irin g b e tw e e n
th e th e rm o s ta t a n d s e n s o r.
W ro n g s e n s o r.
R e p la c e s e n s o r w ith C 7 0 8 9 B 1 0 0 0 s e n s o r.
a
A v a ila b le on s e le c t m o d e ls .
CROSS REFERENCE
A ll S U P E R T R A D E L IN E ® C h ro n o th e rm ® IV th e rm o s ta ts a re
d iffe re n t fro m th e e x is tin g C h ro n o th e rm ® III d e v ic e s as
s u m m a riz e d in T a b le 13.
R e fe r to T a b le 14 fo r th e rm o s ta t c ro s s re fe re n c in g in fo rm a tio n .
T a b le 1 3 . D iff e r e n c e s B e tw e e n C h r o n o t h e r m ® III T h e r m o s t a t s a n d C h r o n o t h e r m ® IV T h e r m o s ta t s .
F e a t u r e / F u n c t io n
C h r o n o t h e r m ® III F a m ily
C h r o n o t h e r m ® IV F a m ily
P ro g ra m m in g
5-1-1 d a y p ro g ra m m in g
7 -d a y p ro g ra m m in g
C hangeover
A u to m a tic o r m a n u a l c h a n g e o v e r m o d e ls
a v a ila b le
A u to m a tic /m a n u a l c h a n g e o v e r s e le c ta b le
In s ta lle r c o n fig u ra tio n
F ie ld s e ttin g s m a d e v ia s c re w s on th e b a c k of
th e th e rm o s ta t
F ie ld s e ttin g s m a d e th ro u g h th e k e y b o a rd
S y s te m s w itc h in g
M e c h a n ic a l s w itc h
K e y b o a rd e n try
Fan s w itc h in g
M e c h a n ic a l s w itc h
K e y b o a rd e n try
D e v ic e c o lo r
B e ig e o r P re m ie r W h ite ® c o lo r
T a u p e o r P re m ie r W h ite ® c o lo r
19
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 14. T h e r m o s t a t C r o s s R e fe r e n c e I n f o r m a tio n .
M odel N um ber
T R A D E L IN E ®
R e p la c e m e n t
D e s c r ip t io n
R e m a rk s
T8600A
O n e - s ta g e h e a t c o n v e n t io n a l t h e r m o s t a t ; s y s t e m p o w e r e d ; s y s t e m s w it c h — n o n e ;
fa n s w i t c h — n o n e .
T8600A1000
H o n e y w e ll lo g o .
T8600D 2028
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; d u e l fu e l.
T8600A1018
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d e g re e C.
T8600D 2028
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; c o n fig u re fo r °C in In s ta lle r S e tu p
14; d u e l fu e l.
T8600A1034
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; P re m ie r W h ite ® co lo r;
d e g re e C.
T8600D 2028
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; c o n fig u re fo r °C in In s ta lle r S e tu p
14; d u e l fu e l.
T8600B
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l c o n v e n t io n a l t h e r m o s t a t ; s y s t e m p o w e r e d
T8600B1008
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o ;
s y s te m s w itc h — H E A T -O F F ; fa n
s w itc h — n o n e .
T8600D 2028
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; fa n s e le c tio n O n -A u to ; d u e l fu e l;
no p o s itiv e off.
T8600B1016
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o ;
s y s te m s w itc h — n o n e ; fa n
s w itc h — O N -A U T O .
T8600D 2028
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; d u e l fu e l.
T8600C
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l t h e r m o s t a t ; s y s t e m p o w e r e d ; s y s t e m s w it c h — H E A T -O F F C O O L ; f a n s w i t c h — O N -A U T O
T8600C 1014
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o ;
c o n v e n tio n a l.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600C 1030
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; c o n v e n tio n a l; d e g re e C;
O a n d B te rm in a ls .
T8600D 2028
C o n fig u re fo r °C in In s ta lle r S e tu p 14;
d u e l fu e l; ju m p e r R to Rc.
T8600C 1048
Y o rk lo g o ; c o n v e n tio n a l; p a rt no.
2ET07700124A .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600C 1055
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; c o n v e n tio n a l; d e g re e C .
T8600D 2028
C o n fig u re fo r °C in In s ta lle r S e tu p 14;
d u e l fu e l; ju m p e r R to Rc.
T8600C 1063
T ra n e lo g o ; c o n v e n tio n a l; p a rt no.
THT0594.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600C 1071
T ra n e lo g o ; e le c tric h e a t; O a n d B
te rm in a ls ; p a rt no. T H T 0 5 9 5 .
T8600D 2028
C o n fig u re fo r e le c tric h e a t in In s ta lle r
S e tu p 2; ju m p e r R to Rc.
T8600C 1089
T e x fa n lo g o ; c o n v e n tio n a l.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600C 1097
G lo w c o re lo g o ; c o n v e n tio n a l; p a rt no.
T H C -3 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600C 1105
Y o rk lo g o ; c o n v e n tio n a l; p a rt no. 0 2 5 -2 7 6 5 3
and 2E T 0 770 22 4A .
T8600D 2028
S e p a ra te O & B te rm in a ls .
T8600C 1113
C a n a d ia n Y o rk th e rm o s ta t; c o n v e n tio n a l;
d e g re e C.
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l.
T8600C 1121
A rc o a ire lo g o ; c o n v e n tio n a l: p a rt no.
1 5 0 6 -7 4 5 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600C 1147
T ra n e lo g o ; c o n v e n tio n a l; p a rt no.
TAYSTAT300.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ju m p e r R to Rc.
T8600C 1154
A m e ric a n S ta n d a rd lo g o ; c o n v e n tio n a l;
p a rt no. A S Y S T A T 6 0 0 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ju m p e r R to Rc.
T8600C 1162
S U P E R T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d u e l fu e l fa n c o n tro l; O a n d
B te rm in a ls .
T8600D 2028
J u m p e r R to Rc.
(continued)
68-0164— 1
20
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 1 4 . T h e r m o s ta t
M odel N um ber
C r o s s R e fe r e n c e I n f o r m a t io n . ( c o n tin u e d )
T R A D E L IN E ®
R e p la c e m e n t
D e s c r ip t io n
R e m a rk s
T8600C 1170
C a rrie r th e rm o s ta t; c o n v e n tio n a l; p a rt no.
H H 07AX006.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ju m p e r R to Rc.
T8600C 1188
C a rrie r th e rm o s ta t; c o n v e n tio n a l; p a rt no.
H H 6 4 1 -1 0 1 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ju m p e r R to Rc.
T8600C 1196
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; P re m ie r W h ite ® c o lo r;
c o n v e n tio n a l; d e g re e C .
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l;
ju m p e r R to Rc.
T8600C 1204
C a n a d ia n L e n n o x th e rm o s ta t; c o n v e n tio n a l;
d e g re e C.
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l;
ju m p e r R to Rc.
T8600C 1212
S U P E R T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d u e l fu e l fa n c o n tro l; O a n d
B te rm in a ls .
T8600D 2028
J u m p e r R to Rc; ta u p e c o lo r.
T8600C 1220
S e rv e l lo g o ; P re m ie r W h ite ® co lo r;
c o n v e n tio n a l; R o b u r p a rt no. 1 5 4 7 1 -8 2 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ta u p e co lo r.
T8600C 1238
IC P lo g o ; P re m ie r W h ite ® c o lo r; d u e l fu e l
fa n c o n tro l; O a n d B te rm in a ls ; p a rt no.
H Q 1149371HW .
T8600D 2028
J u m p e r R to Rc; ta u p e c o lo r.
T8600C 1246
IC P lo g o ; P re m ie r W h ite ® c o lo r; d u e l fu e l
fa n c o n tro l; O a n d B te rm in a ls ; p a rt no.
H Q 1149372HW .
T8600D 2028
J u m p e r R to Rc; ta u p e c o lo r.
T8600C 1253
C o n s o lid a te d In d u s trie s lo g o ; P re m ie r
W h ite ® c o lo r; c o n v e n tio n a l; p a rt no.
412360.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ta u p e co lo r.
T8600C 1279
C a n a d ia n T R A D E L IN E ® (F re n c h )
th e rm o s ta t; c o n v e n tio n a l.
T8600D 2028
E n g lis h o n ly k e y b o a rd ; s e p a ra te O & B
te rm in a ls ; d u e l fu e l.
T8600D
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l c o n v e n t io n a l t h e r m o s t a t ; s y s t e m p o w e r e d ; a u t o m a t ic
c h a n g e o v e r ; s y s t e m s w it c h — H E A T -O F F -C O O L -A U T O ; fa n s w i t c h — O n -A U T O
T8600D 1004
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1012
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d e g re e C.
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l.
T8600D 1020
E n e rg y S e n s o r.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1038
C a n a d ia n C a rrie r th e rm o s ta t; d e g re e C ;
p a rt no. H H 0 7 A T 1 0 1 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l;
T8600D 1046
T ra n e .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1053
H e il Q u a k e r th e rm o s ta t; H o n e y w e ll lo g o ;
p a rt no. H Q 1 0 0 0 7 7 6 H W .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1061
C a rrie r.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1079
L e n n o x lo g o ; p a rt no. 2 7 H 3 1 0 1 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1103
C a rrie r.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l.
T8600D 1111
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o ;
P re m ie r W h ite ® c o lo r.
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ta u p e co lo r.
T8600D 1129
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; P re m ie r W h ite ® c o lo r;
d e g re e C.
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l.
T8600D 1137
S o lita ire lo g o ; P re m ie r W h ite ® co lo r;
N o rd y n e p a rt no. 9 1 3 2 4 0 0 .
T8600D 2028
S e p a ra te O & B te rm in a ls ; d u e l fu e l;
ta u p e co lo r.
T8600D 1145
C a n a d ia n C a rrie r th e rm o s ta t; P re m ie r
W h ite ® c o lo r; d e g re e C ; p a rt no.
H H 0 7 A T 1 0 1 -W .
T8600D 2028
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14; d u e l fu e l.
(continued)
21
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 1 4 . T h e r m o s ta t
M odel N um ber
C r o s s R e fe r e n c e I n f o r m a t io n . ( c o n tin u e d )
T R A D E L IN E ®
R e p la c e m e n t
D e s c r ip t io n
R e m a rk s
T8601A
O n e - s ta g e c o n v e n t io n a l h e a t t h e r m o s t a t ; p o w e r e d d ir e c t f r o m 2 4 V a c t r a n s f o r m e r
T8601A1017
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; s y s te m s w itc h — n o n e ;
fa n s w itc h — n o n e ; d e g re e C.
T8601B
O n e - s ta g e c o n v e n t io n a l h e a t w it h f a n t h e r m o s t a t ; p o w e r e d d ir e c t f r o m 2 4 V a c t r a n s f o r m e r
T8601B1007
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o ;
s y s te m s w itc h — n o n e ; fa n
s w itc h — O N -A U T O .
T8601C
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l c o n v e n t io n a l t h e r m o s t a t ; p o w e r e d d ir e c t f r o m 2 4 V a c
t r a n s f o r m e r ; s y s t e m s w it c h — H E A T -O F F -C O O L ; f a n s w i t c h — O N -A U T O ; O a n d B t e r m in a ls
T8601C 1003
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o .
T8601D 2019
J u m p e r R to Rc; P re m ie r W h ite ® c o lo r.
T8601C 1013
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d e g re e C.
T8601D 2019
C o n fig u re fo r °C in In s ta lle r S e tu p 14;
ju m p e r R to Rc; P re m ie r W h ite ® c o lo r.
T8601C 1021
N e w C o n s tru c tio n th e rm o s ta t.
T8601D 2019
J u m p e r R to Rc; P re m ie r W h ite ® c o lo r.
T8601C 1039
C a rrie r lo g o ; p a rt no. H H 6 4 1 -1 0 4 .
T8601D 2019
J u m p e r R to Rc; P re m ie r W h ite ® c o lo r.
T8601C 1047
N e w C o n s tru c tio n th e rm o s ta t; P re m ie r
W h ite ® co lo r.
T8601D 2019
J u m p e r R to Rc.
T8601C 1054
T ro l-A -T e m p ® th e rm o s ta t; P re m ie r W h ite ®
c o lo r.
T8601D 2027a
C o n fig u re m a n u a l c h a n g e o v e r in
In s ta lle r S e tu p 1 2 ; re p la c e m e n t h a s O c
te rm in a ls .
T8601C 1062
T ro l-A -T e m p ® b y H o n e y w e ll lo g o .
T8601D 2027a
C o n fig u re m a n u a l c h a n g e o v e r in
In s ta lle r S e tu p 1 2 ; re p la c e m e n t h a s O c
te rm in a ls ; P re m ie r W h ite ® c o lo r.
T8601D
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l c o n v e n t io n a l t h e r m o s t a t ; p o w e r e d d ir e c t f r o m 2 4 V a c
t r a n s f o r m e r ; a u t o m a t ic c h a n g e o v e r ; s y s t e m s w it c h — H E A T -O F F -C O O L -A U T O ; f a n s w it c h — O N AUTO
T8601D 1011
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d e g re e C.
T8601D 2019
S e p a ra te O & B te rm in a ls ; c o n fig u re fo r
°C in In s ta lle r S e tu p 14 a n d
c h a n g e o v e r in 12; ju m p e r R to Rc;
P re m ie r W h ite ® co lo r.
T8601D 1029
N e w C o n s tru c tio n th e rm o s ta t.
T8601D 2019
S e p a ra te O & B te rm in a ls ; c o n fig u re
c h a n g e o v e r in In s ta lle r S e tu p 12;
ju m p e r R to Rc; P re m ie r W h ite ® c o lo r.
T8601D 1045
T ro l-A -T e m p ® b y H o n e y w e ll th e rm o s ta t;
P re m ie r W h ite ® co lo r.
T8601D 2027a
S e p a ra te O & B te rm in a ls ; re p la c e m e n t
h a s O c te rm in a ls .
T8601D 1052
N e w C o n s tru c tio n th e rm o s ta t; P re m ie r
W h ite ® co lo r.
T8601D 2019
S e p a ra te O & B te rm in a ls ; c o n fig u re
c h a n g e o v e r in In s ta lle r S e tu p 12;
ju m p e r R to Rc.
T8601D 1060
C a lifo rn ia E c o n o m iz e r lo g o ; P re m ie r
W h ite ® co lo r.
T8601D 2019
S e p a ra te O & B te rm in a ls ; c o n fig u re
c h a n g e o v e r in In s ta lle r S e tu p 12;
ju m p e r R to Rc.
T8601D 1078
A m a n a lo g o ; P re m ie r W h ite ® c o lo r;
p a rt no. P 1 2 1 3 7 0 1 F .
T8601D 2019
S e p a ra te O & B te rm in a ls ; c o n fig u re
c h a n g e o v e r in In s ta lle r S e tu p 12;
ju m p e r R to Rc.
T8601D 2019
T8601D 2019
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; c o n fig u re fo r °C in In s ta lle r S e tu p
14; P re m ie r W h ite ® c o lo r.
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s y s te m s e le c tio n H e a t-O ff-C o o lA u to ; ju m p e r R to R c fo r fa n c o n tro l;
P re m ie r W h ite ® co lo r.
(continued)
68-0164— 1
22
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 1 4 . T h e r m o s ta t
M odel Num ber
C r o s s R e fe r e n c e I n f o r m a t io n . ( c o n tin u e d )
T R A D E L IN E ®
R e p la c e m e n t
D e s c r ip t io n
R e m a rk s
T8602A
O n e - s ta g e h e a t c o n v e n t io n a l t h e r m o s t a t ; b a t t e r y p o w e r e d ; s y s t e m s w i t c h — n o n e ; f a n s w it c h —
none
T8602A1008
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o .
T8602B
O n e - s ta g e h e a t c o n v e n t io n a l w it h f a n t h e r m o s t a t ; b a t t e r y p o w e r e d ; s y s t e m s w it c h — n o n e ; f a n
s w it c h — O N -A U T O
T8602B1006
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o .
T8602D 2000
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s e p a ra te O & B te rm in a ls ; s y s te m
s e le c tio n H e a t-O ff-C o o l-A u to ; fa n
s e le c tio n A u to -O n ; ju m p e r R to R c fo r
fa n o p e ra tio n .
T8602B1014
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o ;
P re m ie r W h ite ® c o lo r.
T8602D 2000
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s e p a ra te O & B te rm in a ls ; s y s te m
s e le c tio n H e a t-O ff-C o o l-A u to ; fa n
s e le c tio n A u to -O n ; ju m p e r R to R c fo r
fa n o p e ra tio n ; ta u p e co lo r.
T8602C
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l t h e r m o s t a t ; b a t t e r y p o w e r e d ; s y s t e m s w it c h — H E A T -O F F C O O L ; f a n s w i t c h — O N -A U T O
T8602C 1004
T R A D E L IN E ® th e rm o s ta t; H o n e y w e ll lo g o .
T8602D 2000
S e p a ra te O & B te rm in a ls ; ju m p e r R to
Rc.
T8602C 1012
A m a n a lo g o ; c o n v e n tio n a l; p a rt no .: n o n e .
T8602D 2000
S e p a ra te O & B te rm in a ls ; ju m p e r R to
Rc.
T8602C 1020
R h e e m lo g o ; c o n v e n tio n a l; p a rt no.: n o n e .
T8602D 2000
S e p a ra te O & B te rm in a ls ; ju m p e r R to
Rc.
T8602C 1046
S U P E R T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d u e l fu e l fa n c o n tro l; O a n d
B te rm in a ls .
T8602D 2000
T8602C 1061
T ro l-A -T e m p ® b y H o n e y w e ll th e rm o s ta t;
P re m ie r W h ite ® c o lo r; c o n v e n tio n a l; O a n d
B te rm in a ls .
T8602C 2051a
T8602C 1079
T ro l-A -T e m p ® b y H o n e y w e ll th e rm o s ta t;
c o n v e n tio n a l; O a n d B te rm in a ls .
T8602C 2051a
P re m ie r W h ite ® c o lo r.
T8602C 1095
S U P E R T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; P re m ie r W h ite ® c o lo r; d u e l
fu e l fa n c o n tro l; O a n d B te rm in a ls .
T8602D 2000
T a u p e c o lo r.
T8602C 1103
C a n a d ia n T R A D E L IN E ® th e rm o s ta t;
H o n e y w e ll lo g o ; d u e l fu e l fa n c o n tro l;
d e g re e C ; O a n d B te rm in a ls .
T8602D 2000
C o n fig u re fo r °C in In s ta lle r S e tu p 14 .
T8602C 1129
U n iv e rs a l P a rts lo g o ; R h e e m p a rt no.
4 1 -2 1 6 1 5 -0 5 ; c o n v e n tio n a l.
T8602D 2000
T8602C 1137
IC P lo g o ; d u e l fu e l fa n c o n tro l; O a n d B
te rm in a ls ; p a rt no. H Q 1 1 4 9 3 7 3 H W .
T8602D 2000
T8602C 1145
IC P lo g o ; P re m ie r W h ite ® c o lo r; d u e l fu e l
fa n c o n tro l; O a n d B te rm in a ls ;
p a rt no. H Q 1 1 4 9 3 7 4 H W .
T8602D 2000
T8602D 2000
H e a t/c o o l m o d e l c a n b e u s e d fo r h e a t
o n ly; s e p a ra te O & B te rm in a ls ; s y s te m
s e le c tio n H e a t-O ff-C o o l-A u to ; fa n
s e le c tio n A u to -O n .
T a u p e c o lo r.
(continued)
23
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
T a b le 1 4 . T h e r m o s ta t
M odel N um ber
C r o s s R e fe r e n c e I n f o r m a t io n . ( c o n tin u e d )
T R A D E L IN E ®
R e p la c e m e n t
D e s c r ip t io n
R e m a rk s
T8602D
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l c o n v e n t io n a l t h e r m o s t a t ; b a t t e r y p o w e r e d ; a u t o m a t ic
changeover
T8602D 1010
T ro l-A -T e m p ® b y H o n e y w e ll th e rm o s ta t;
P re m ie r W h ite ® c o lo r; s y s te m
s w itc h — n o n e ; fa n s w itc h — n o n e ; fie ld
te rm in a ls : W /4 , R /5, Y / 6 .
T8602D 2026a
T8602D 1028
T ro l-A -T e m p ® b y H o n e y w e ll th e rm o s ta t;
s y s te m s w itc h — n o n e ; fa n s w itc h — n o n e ;
fie ld te rm in a ls : W /4 , R /5, Y / 6 .
T8602D 2026a
CT8602C
O n e - s ta g e h e a t a n d o n e - s t a g e c o o l r e t a il t h e r m o s t a t b a t te r y p o w e r e d
CT8602C1001
R e ta il H o n e y w e ll lo g o ; o ff-w h ite c o lo r; d u e l
fu e l fa n c o n tro l; s y s te m s w itc h H E A T -O F F C O O L ; fa n s w itc h O N -A U T O ; s e p a ra te O
a n d B te rm in a ls ; c la m s h e ll p a c k a g in g .
a
T8602D 2000
P re m ie r W h ite ® c o lo r.
T R A D E L IN E ® p a c k a g in g .
T ro l-A -T e m p ® b y H o n e y w e ll th e rm o s ta t m o d e l.
WIRING DIAGRAMS (Fig. 15-20)
THERMO STAT
THERM O STAT
L1
(H O T )
L2
TRANSFORM ER
/ \
TRANSFORM ER
P O W E R S U P P L Y . P R O V ID E D IS C O N N E C T M E A N S A N D
O V E R L O A D P R O T E C T IO N A S R E Q U IR E D .
/ \
^ ^ N O T
A V A IL A B L E O N T 8 6 0 0 A M O D E L S .
P O W E R S U P P L Y . P R O V ID E D IS C O N N E C T M E A N S A N D O V E R L O A D
P R O T E C T IO N A S R E Q U IR E D .
M 10 34 6
C A N B E U S E D F O R C H A N G E O V E R V A L V E O N S IN G L E -S T A G E H E A T
F ig . 1 5 . T y p ic a l h o o k u p o f T 8 6 0 0 o r T 8 6 0 2
in h e a t o n ly a p p lic a t io n .
PUM P SYSTEM S.
A V A IL A B L E O N S E L E C T M O D E L S . O T W IR E S M U S T H A V E A
SEPAR ATE CABLE FRO M TH E TH ER M O STAT CABLE.
M 10347
F ig . 1 6 . T y p ic a l h o o k u p o f T 8 6 0 0 o r T 8 6 0 2 in h e a t a n d c o o l
s y s t e m w it h o n e t r a n s f o r m e r .
68-0164— 1
24
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
THERMO STAT
C
Y
O
G
o
B
W
O
?
_
2
A
9
?
R
OT
0
9
OT
^
9
_
COM PRESSOR
COOL
CONTACTOR
DAM PER
HEAT
A
RELAY
OUTDOOR
TEM PERATURE
SENSOR
FAN
HEAT
RELAY
DAM PER
A
«-.A
IK
L1
(H O T )
L2
TRANSFORM ER
TRANSFORM ER
A
TRANSFORM ER
P O W E R S U P P L Y . P R O V ID E D IS C O N N E C T M E A N S A N D O V E R L O A D
A
P R O T E C T IO N A S R E Q U IR E D .
A
J U M P E R R C T E R M IN A L T O R T E R M IN A L W H E N IN S T A L L E D O N A
A
O NE TR AN SFO R M ER SYSTEM .
A
P O W E R S U P P L Y . P R O V ID E D IS C O N N E C T M E A N S A N D O V E R L O A D
P R O T E C T IO N A S R E Q U IR E D .
C A N B E U S E D F O R C H A N G E O V E R V A L V E O N S IN G L E -S T A G E H E A T
PUM P SYSTEM S.
C A N B E U S E D F O R C H A N G E O V E R V A L V E O N S IN G L E -S T A G E H E A T
A
A V A IL A B L E O N S E L E C T M O D E L S . O T W IR E S M U S T H A V E A
PUM P SYSTEM S.
SEPAR ATE CABLE FRO M TH E TH ER M O STAT CABLE.
A V A IL A B L E O N S E L E C T M O D E L S . O T W IR E S M U S T H A V E A
F ig . 19. T y p ic a l h o o k u p o f T 8 6 0 1 in h e a t
a n d c o o l s y s t e m w it h o n e t r a n s f o r m e r .
M 10353
A
SEPAR ATE CABLE FRO M THE TH ER M O STAT CABLE.
A
T 8 6 0 0 D M O D E L S R E Q U IR E P O W E R T O R T E R M IN A L A T A L L T IM E S .
M 10348
F ig . 1 7 . T y p ic a l h o o k u p o f T 8 6 0 0 o r T 8 6 0 2 in h e a t a n d
c o o l s y s t e m w it h t w o t r a n s f o r m e r s .
THERMO STAT
L1
(H O T )
L2
TRANSFORM ER
TRANSFORM ER
^ ^ P O W E R
O V E R L O A D P R O T E C T IO N A S R E Q U IR E D .
A
TRANSFORM ER
S U P P L Y . P R O V ID E D IS C O N N E C T M E A N S A N D
A
P O W E R S U P P L Y . P R O V ID E D IS C O N N E C T M E A N S A N D O V E R L O A D
A
J U M P E R R C T E R M IN A L T O R T E R M IN A L W H E N IN S T A L L E D O N A
A
C A N B E U S E D F O R C H A N G E O V E R V A L V E O N S IN G L E -S T A G E H E A T
P R O T E C T IO N A S R E Q U IR E D .
N O T A V A IL A B L E O N " A ” M O D E L S .
M 10357
F ig . 1 8 . T y p ic a l h o o k u p o f T 8 6 0 1 in h e a t o n ly a p p lic a t io n .
ONE TRANSFORM ER SYSTEM .
PUM P SYSTEM S.
A
A V A IL A B L E O N S E L E C T M O D E L S . O T W IR E S M U S T H A V E A
SEPAR ATE C ABLE FROM THE TH ER M O STAT C ABLE.
A
T 8 6 0 1 D M O D E L S R E Q U IR E P O W E R T O R T E R M IN A L A T A L L T IM E S .
M 10354
F ig . 2 0 . T y p ic a l h o o k u p o f T 8 6 0 1 in h e a t
a n d c o o l s y s t e m w it h t w o t r a n s f o r m e r s .
25
68-0164— 1
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
68-0164— 1
26
T 8600D , T 8 6 0 1 D A N D T 8 6 0 2 D C H R O N O T H E R M ® IV D E L U X E P R O G R A M M A B L E T H E R M O S T A T S
27
68-0164— 1
Home and Building Control
Home and Building Control
Honeywell Asia Pacific Inc.
Honeywell Inc.
Honeywell Plaza
P.O. Box 524
Minneapolis MN 55408-0524
Honeywell Limited-Honeywell Limitée
155 Gordon Baker Road
North York, Ontario
M2H 3N7
Room 3213-3225
Sun Hung Kai Centre
No. 30 Harbour Road
Wanchai
Hong Kong
Honeywell Latin American Region
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Suite 200
Sunrise FL 33325
3 Avenue du Bourget
B-1140 Brussels Belgium
Honeywell
Helping You Control Your World®
P r i n t e d o n r e c y c l e d p a p e r c o n t a in i n g a t
6 8 -0 1 6 4 — 1
J .H .
R ev. 7 -9 7
P r i n t e d in U .S .A .
le a s t 1 0 % p o s t - c o n s u m e r p a p e r fib e r s .
w w w .h o n e y w e ll.c o m /y o u r h o m e

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