+(,2 120
(* ,,.-
-80<PNOQ
O
CLIMATEMASTER PRODUCTS
2011
2
CLIMATEMASTER PRODUCTS
2013 January
"
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%+
%
%
%
%
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!(* &( $#"*
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& ! $#, 6& ' 013)024040#)% & * &( $#"
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CLIMATEMASTER PRODUCTS
2013 January
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%
!(* &( $#"*
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! 025
!(* ! 025
& ! $#, 6& ' 013)024040#)% & * &( $#"
#)% & * &( $#"
#, !- 4
TRANQUILITY DIGITAL
TOP 2 Selling points
Highest Efficiency = Lowest operating cost
Up to
60-80%
29.6 EER/4.8 COP + reduction in
pumping watts
Quickest installation
Easiest Troubleshooting
5
TRANQUILITY® 30 DIGITAL
BIG Changes – sales / competitive
•
Up to 30 EER / 4.8 COP (Most Efficient of ENERGY STAR)
•
Lowest operating cost in industry including pumping op cost
•
Capacities: 2, 3, 4, 5, 6 ton
•
Same size as TT27, Stainless panels, 2” MERV 11 filter
•
Comfort comes standard with Copeland 2-stage compressor / Emerson
ECM motor
•
vFlow™ Variable Water Flow Standard – save 2-3 hours in installation and
60-80% on pumping operating cost (w/VS pump models)
•
iGate™ Information gateway Standard – Monitor, Control and Diagnose
from the thermostat with 4-wire connection.
•
No ClimaDry® (will be available at a later date)
6
TRANQUILITY® 22 DIGITAL
BIG Changes – sales / competitive
•
Up to 22 EER / 4.1 COP (qualifies for Federal Tax Credit)
•
Capacities: 2, 2.5, 3, 3.5, 4, 5 ton
•
Compact size, Bond silver finish, 1” filter MERV 8
•
Copeland 2-stage compressor / Emerson ECM motor
standard @ / near Single Stage price
•
vFlow – internal variable speed water control
•
iGate - Industry’s first true 4-wire, two-way communicating
system
•
No Downflow configuration
•
No ClimaDry®
•
External Auxiliary heat (vertical)
7
TRANQUILITY DIGITAL SPLITS
BIG Changes – sales / competitive
•
Up to 26.3 EER / 4.6 COP
•
Lowest operating cost in industry including pumping op cost
•
Capacities: 2, 3, 4, 5 ton
•
vFlow™ Variable Water Flow Standard – save 2-3 hours in
installation and 60-80% on pumping operating cost (w/VS pump
models)
•
iGate™ Information gateway Standard – Monitor, Control and
Diagnose from the thermostat with 4-wire connection.
•
TES has same design as compressor section of TE
•
Still ship with LT2 sensor to connect to non-communicating air
handler/ furances
•
Improved water connections in TEP (vs TTP)
8
TRANQUILITY DIGITAL
AIR HANDLER
•
*New* AXM communicating board
–
4-wire connection to communicating compressor section and thermostat (and
fan motor)
–
Optional 9-wire connection to non-communicating compressor section and
thermostat
–
No dip switches to set airflow – connect communicating thermostat (ATC) or
Diagnostic tool (ACD) to AXM or DXM2 board to configure airflow
•
Capacities: 2, 3, 4, 5 ton
•
More airflow options – increments of 25 CFM in 9-modes
•
Configure, monitor and Diagnose from connection to DXM2 or AXM
•
Comes standard with LT2 sensor installed and connected to AXM board
9
TRANQUILITY® DIGITAL PACKAGED
BIG Changes – install / service
1. vFlow: Built-in VARIABLE Water Flow
2. iGate Information Gateway: Configure, Monitor and
Diagnose at Thermostat
3. Swing-out control box – access to components
C O N T R O L
S T A T U S
P U M P
O P E R A T I O N
P U M P
S P E E D
6
0 %
P U M P
W A T T S
1
4
F L O W
R A T E
G P M
7 .
4. 4-wires between thermostat and unit
0
4
5. External auxiliary heater (TZ only)
◄
P R E V I
A I
H
H
A
E
C
C
C
C
C
E
E
U
M
O
O
O
O
O
A
A
X
E
O
O
O
O
N
R F L O W
S E L E C T
T
S T A G E
1
T
S T A G E
2
I L I A R Y
H E A T
R G E N C Y
H E A T
L
S T A G E
1
L
S T A G E
2
L
D E H U M
1
L
D E H U M
2
T I N U O U S
F A N
H E A T
C O O L
◄
O U S
O F F
O F F
P R E V I
D E L A Y
D E L A Y
O U S
I
O N
C
6
7
8
8
5
7
4
5
3
F
0
5
5
5
2
0
2
5
5
6
3
0
0
N E X T
M
0
0
0
0
5
0
5
0
0
►
6. External condensate trap
7. High/Low refrig. Pressure ports – easy access
10
TRANQUILITY DIGITAL SPLITS
BIG Changes – install / service
1. vFlow: Built-in VARIABLE Water Flow
2. iGate Information Gateway: Configure, Monitor and
Diagnose at Thermostat
3. Swing-out control box – access to components (TES)
C O N T R O L
S T A T U S
P U M P
O P E R A T I O N
P U M P
S P E E D
P U M P
W A T T S
F L O W
R A T E
◄
P R E V I
A I
H
H
A
E
C
C
C
C
C
E
E
U
M
O
O
O
O
O
A
A
X
E
O
O
O
O
N
1
4
7 .
0
4
O U S
R F L O W
O F F
O F F
P R E V I
0 %
4. 4-wires between thermostat, Compressor section and air
handler
S E L E C T
T
S T A G E
1
T
S T A G E
2
I L I A R Y
H E A T
R G E N C Y
H E A T
L
S T A G E
1
L
S T A G E
2
L
D E H U M
1
L
D E H U M
2
T I N U O U S
F A N
H E A T
C O O L
◄
G P M
6
D E L A Y
D E L A Y
O U S
I
O N
C
6
7
8
8
5
7
4
5
3
F
0
5
5
5
2
0
2
5
5
6
3
0
0
N E X T
M
0
0
0
0
5
0
5
0
0
5. High/Low refrig. Pressure ports – easy access
►
6. 4-wire connection to External HWG (TEP)
11
TRANQUILITY DIGITAL SPLITS
iGate™ System
;2&-03.-(- -2++(&-2.-20.+1
11PF:<.,,8-(3.-2./0.9((-2.
2'1<12,
.-(2.0@.-"&80G:(2'.822.8'(-&2'8-(2H-
(&-.1(1181@++ 0.,2'2'0,.122
P(-2++(&-2.-20.++0(12'.,,8-(3.-1
'8F-+<=112281. 1-1.01-1,02
.,/.--212../3,(=./03.- .0., .02@
#(-<-+.-&F20,0+((+(2<
- .0,3.-(1/112.2'(22'0,.122G.0
(&-.132..+H2.(1/+<(- -&+(1'
828011.0(1 .0.,,8-(3.-.902'
-20-2
12
TRANQUILITY DIGITAL SPLITS
iGate Information Gateway
A
CFM, Water ΔT
.-"&80
Unit info. + Accessory configuration
Water circuit option
A
Entering / Leaving Water Temperature
GPM (w/ IFC)
.-(2.0
Leaving Air Temperature
Compressor discharge temperature
Blower RPM
A
Fault code
(&-.1
Fault History
Conditions AT TIME OF FAULT!
13
TRANQUILITY DIGITAL SPLITS
vFlow Variable Water Flow
).09-(-&.2'0,+1<12,/0 .0,-
,/.11(+<(2J1<12,
8(+12',).0:20(08+3.-.,/.--210(&'2
(-2.2'8-(2-0(1:20$.:2.
9+.:./03-&.1219(-&1ATNFUNY
(-(,(=/8,/-0&<.-18,/3.-
,/0.91<12,0+((+(2<
9.-(-12++3.-3,
* .090<+--.,/2
(-12++3.-B
20$.:(182.,3++<90(2.,(-2(-
./3,8,1<12,/0 .0,-1.-A
•
'-&1(-8-(2/(2<+9+G12&H
•
.80:202,/0280
0.2212'8-(2&(-12;20,./03-&
.-(3.-1@;2-(-&2'+( . 2'.,/011.0-
(0.(+
14
TRANQUILITY® 30 DIGITAL
Models
-+<2'1:20(08(2-'2
;'-&0.,(-3.-109(++
15
TRANQUILITY DIGITAL SPLITS
Nomenclature
,1
16
TRANQUILITY DIGITAL SPLITS
Nomenclature - TTP
-20-+0(+/$.:
.-20.++0G:(2'.//0.(+H
./3.-.-+<
17
TRANQUILITY® PACKAGED
System comparisons
18
TRANQUILITY SPLITS
19
TRANQUILITY DIGITAL SPLITS
iGate Information Gateway
RF:(012.2'0,.122
(2'0 E 2..+GNOH.0.,,8-(3-&122
GQPNOH2..-"&80E20.8+1'..2
ATC stat
-2&021 - .01
AXM
DXM2
.,,8-(3-&
/0.&0,,+
'0,.122
GQPNOH
:0(/:(2'12..-"&80G-.2-
.0,.12(-(3+.-"&803.-H
.-"&803.-E
(&-.132..+
GNOH
20
TRANQUILITY DIGITAL SPLITS
Non-communicating connections
VF:(01
/3.-OA-.-F.,,8-(3-&2'0,.122@
.,,8-(3-&1/+(2@(0F'-+0
AXM
Non-Comm
Stat
DXM2
9-wires
/3.-PA-.-F.,,8-(3-&2'0,.122@
-.-F.,,8-(3-&(0F'-+0
Non-Comm
Stat
Z
LT2 sensor
– freeze
protection
LT2 sensor is shipped on both TES and TEP
DXM2
21
FIELD REPLACEMENT
Scenario 1:
VF:(01
VF:(01
Z
Non-Comm
Stat
P
*Old* TTS
(with CXM)
*New* TAH
REV B
Scenario 2:
VF:(01
VF:(01
Z
P
*New*TES
(with DXM2)
*Old* TAH REV A
Non Comm
Stat
22
TRAINING - Videos
•
Significantly enhanced videos
at:
http://residential.climatemaster.com/
dealers_area/training.html
•
Sales, Installation,
Troubleshooting sections
•
Walk through fault codes
•
Can reach YouTube videos only
through link on website
•
More to come..
23
DXM2 controller
NP
0(&(-+901(.3++(-/0.83.-.-@
Q1(+90-P<++.:.21
01(.-OBP
NS
:901(.-
1.-/+(21GEH
P<++.:.21
01(.-OBP.0OBQ
24
PC -F/2'D
PS
Thermostat Wiring Options
.,,8-(3-&122
.--3.-R:(0
.-9-3.-+122.--3.-
Communications Dipswitch
2(1(,/.02-22'2(-,.1211(/
1:(2'KOGQH(1(-2'/.1(3.-
Q 8,/0 .0
OG.0,0OH
1285.-
0/+212
/(-1
HWG Dipswitchs
(/1:(2'KR280-1
/8,/.--
.!
(/1:(2'KQ1+2
OPS.0OSN
(/:(2'KP(1212
,. .0/8,/B
-0,.1201(-3+1(283.-1(/1:(2'
-*.--2:.:(++++++(-2'
/.1(3.-.-18+2 P /0(.02.'-&(-&
<.8:-2'8,(("0
.-20.++<'0,.122
.9(/1:(2'R-S2.2'.!/.1(3.--
.--2+.:9.+2:(02.'8,(("081(-&P
.0P
AO-2 Jumper
For modulating valve
be sure jumper is on
10V
AO-2 Jumper
For variable speed pump
be sure jumper is on
PWM
PACKAGED UNITS
Cabinet temperature
sensor connected to R and
H with variable speed
pump.
PACKAGED UNITS
Cabinet temperature sensor
opens at 125 degrees and closes
at 115 degrees.
SPLIT UNITS
Cabinet temperature sensor
connected to T4 and T4 with
variable speed pump. Thermistor is
used on splits.
Service Tool
ACDU01
Wire connector for service tool
Service tool plugs into
board easily on P5
connector just next to
communicating
thermostat connection
Service Tool
• Allows to change installer setup.
• Allows to view control diagnostics.
• Allows the unit to run under control diagnostics in the
manual mode.
QPNO
.,,8-(3-&
'0,.122
4 Wire communicating Stat
S
M
I
U
N
L
G
T
T H E
R M
O
S T
A T
O N
C
F I G U
R
A T
I O
N L
I
E
S
S
T
T
A
A
G
G
E
S
E
L
E
C
T
O
P
T
I O
E
P
N
N
▲ ▼
S
◙
◄
R
O
O
N
G
T H E
R M
O
S T
A T
O N
C
F I G U
R
A T
I O
N R
P
A
R
N I G H T
◄
P R E V I O U S
S A V E
E
L
E
C
M
O
E
L
L
P
C
T
A
E
R
C
T
I
U
C
E
O
I
F
I
I
C
U
L
O
O
E
I
P
U
L
A
T
S
R
I
Y
O
N
H
B
A
P
T
P R E V I O U S
T H E
R M
O S
T A
T O N
F I G U
R A
T I O N
R
X
T
V
A
R
E A
T
▲ ▼
S
A
V
E
L
M
E
M
A
B
L
E
S E T B A C K
T
-(3+.:0F/
E L
M U
N O
S E
◄ M
G
◙
I O
N
▲ ▼
S A V E
◙
Auxiliary Settings
Board Version and Thermostat version can
be verified.
I
N
S
T
A
L
L
E
R
S
E
T
T
I
N
H
Y
C
N
U
E
E
E
E
E
S
C
P
M
M
M
R
S
R
T
E
U
I
P
A
V
T
M O
E M
S S
T
D I
E R
N D
I C
O R
S
T
C
R
E
Y
T
R
A
O
Y
A
T
N
C
I
O
R
N
O
G
N
N
F
I
G
I
N
G
N
O
G
F
O
F
C
T
F
I
I
O
I
U
L
T
S
D X
A T
S E
◄
M
C
L
P
2
3
E
R
2
C
E
T
S
A
I
H
T
D
S
R
U
T
V
O
D
T
A
E
E
0
I
1
O
O
U
E
M
D
P
U
L
C
R
D
O
E
T
S
F
C
E
O
E
U
D
F
I
C
E
A
O
N
T
N
C
C
▲ ▼
R
1
2
G
S
O
C
L
N
.
.
0
1
F
G
System Configuration Menu
S Y S T E M
A
I R
F
L
O
C O N F I G U R A T I O N
W
O P T I O N
S
E
L
E
C
T
I O
U
P
M
P
C O N F I G U R
A
T
S
T
▲ ▼
◄
E
L
E
C
S E L E C T I O N
N
U
I T
C
O
N
F
I G
N
O
P
T
P R E V I O U S
I O
N
T
T
0
2
6
I O
N
S E L E C T
◙
<12,.-"&803.-
& "
" "
• Configure each
stage of airflow
H E
H E
A U
E M
C O
C O
C O
C O
C O
H E
C O
◄ I R
A
F
L
O
W
S
E
L
E
C
T
I O
N
C
A T S T A G E 1 6
A T S T A G E 2 7
X I L I A R Y H E A T 8
E R G E N C Y H E A T 8
O L S T A G E 1 5
O L S T A G E 2 7
O L D E H U M 1 4
O L D E H U M 2 5
N T I N U O U S F A N 3
A T O F
F D E
L A
Y O L
O
F F
D
E L
A Y
P R
E
V
I O
U
S
F
0
5
5
5
2
0
2
5
5
6 0
3
0
N E X T
M
0
0
0
0
5
0
5
0
0
►
• Configure heat
pump options
M O
C O
L T
◄ P
O
T
I O
N
S
E
L
E
C
T
I O
N
T
M
2
P
O
P
R
R
R
S
E
I
E
E
V
Z
S
T
I
E
S
P
O
D
O
O
U
V
A
L V
E O F
A S
R
C D
I N T
W
A T
E
S S
E
L E C
T
F
5
R
◙
.2.0(=+9(-2'/3.-1,-8(1
-.22' .8+3-&9+98(+2(-2.2'
8-(2B280-.-( 81(-&,.8+3-&
9+9
O P T I O N
S E L E C T I O N
MO T O R I Z E D
C O MP R E S S O R
L T 2
◄
V A L V E
O F F
A S C D
5
S E T P O I N T
P R E V I O U S
WA T E R
S E L E C T
◙
<12,.-"&803.-
!$"
$*%$"
• Configure the heat
pump (replacement
part)
• Configure
temperature
settings for loop
control
U N I T
C
U
R
R
E
H E A T
H
B
E
L
A
O
T
W
N
C O N F I G U R A T I O N
T
C
O
P U MP
E
P
R
U
M
T
P
Y
N
F
◄
I G
T
T
F A M I L Y
P
S
E
I Z
O
L
O
P
C
O
N
F
I G
S E
L
E
C
T
O P T I O N
P R E V I O U S
0
2
6
T T
C O O L I N G
D E L T A
H
H
E
E
P R E V I O U S
A
A
T
T
W
W
T
T
1
8
1
4 0 T
L
L
G
8
1 5
◄
M
M
A L
◙
U
U
A
M
X
I M
U
M
C
O
O
L
L
W
T
I M
I M
▲ ▼
I N
X
A
I N
M
I M
U
M
C
O
O
L
L
W
T
S
V
P
U
M
P
S E L E C T
M
M
6
M
2
C
E
0
E
V A R I A B L E
S P D
I N T E R N
P U
M P
C
O N
F
I G
U R
A T
I O
N
D E
H E A T I N G D E L T A T 0
0
1 0 S E L E C T
◙
If using multiple units with internal pump on a common loop.
U N
I
T
C O N F
C U R R E N T
I
C O N F
G U R A T
I
G
H E A T
P U M P
F A M I
H E A T
P U M P
S
B L O W E R
L O O P
Z E
T Y P E
C O N F
S E L E C T
◄
P R E V
I
I
O N
T Z 0 3 0
L Y
T Z
0 3 0
E C M
I G
O P T
I O U S
I
V S
P U M P
P A R A L L E L
O N
▲ ▼
S E L E C T
◙
-.-20.+/8,/<+2.0";/8,/
1/B
V A R I A B L E
S P D
I N T E R N A L
P U M P
C O N F I G U R A T I O N
V A R I A B L E
S P D
I N T E R N A L
P U M P
C O N F I G U R A T I O N
P U M P
P U M P
H E A T
C O O L
M A X
M I N
◄
I
I
C O N T R O L
D E L T A
N G
N G
T
T
I M U M
I M U M
P R E V
D E L T A
D E L T A
H E A T
C O O L
I O U S
L W T
L W T
T
7
1 0
8 0
4 0
S E L E C T
◙
C O N T R O L
F
I
X E D
H E A T
H E A T
I
I
N G
N G
S T A G E
S T A G E
1
2
6 0 %
7 5 %
C O O L
C O O L
I
I
N G
N G
S T A G E
S T A G E
1
2
5 0 %
7 0 %
◄
P R E V
I
O U S
S E L E C T
◙
Setting Up Delta T
• For the Pump or the valve
• Heating delta T will be 4-12 degrees default will be 7
degrees.
• Cooling delta T will be 9-20degrees default will be 10
degrees.
Things To Think About
• With some loops to maintain turbulent flow it will be
necessary to lower the heating delta T to increase GPM
flow through the loop. Some things that will drive this
more then one circuit per ton or the use of propylene
glycol.
More on the operation of the pump
• Automatic Delta T Offsets –For high and low loop
temperatures, the target Delta T is automatically
adjusted from the nominal value.
For Heating
• For heating operation, if the EWT < 40°F, the target Delta
T is reduced by 2°F. If the EWT > 60°F, the target Delta
T is increased by 2°F.
For Cooling
• For cooling operation, if the EWT <70°F, the target Delta
T is increased by 1°F. If the EWT >90°F, the target Delta
T is reduced by 1°F.
Service Mode Menu
I N S T
S A
E L
R L
V E
I C
R E S E
MO
T D
T E
I N G S
T
M
S
A
C
I
H
D
T
D
F
S
R
C
H
A
Y
C
O
N
U
I
E
E
A
E
E
L
E
N
S
C
N
P
M
P
M
M
U
R
S
E
R
U
T
E
T
U
I
S
P
A
L
V
T
A
MO
M
A
L
E
S
S
O
R
T
I
D
W
E R
I
N D
T
I C
O R
R
S T
C
O
O R
L
D E
T Y
T
A C
T
R
H I
E
E
F A
T
A
S E
◄
C
L
P
3
E
R
2
C
E
0
I
U
T
V
1
O
O
A
P
O
Y
D
A
T
F
E
R
N
C
I A
L
E
C O
C
R
E
D U
T D
O
O
E F
L
T
C
A
I
O
G
R
N
O
C
R
E
A
O
T
G
N
N
F
N
A
T
Y
U
H
N
I
F
O
I
I
F
L
I
F
O
I
S
N
G
I
G
O
I
N
G
T
F
G
I
O
U
H
O R
G
E
N
S
M
D
L T
S
U
I S
T
O
T
P
I O N
▲
▼
S S
U
E
L
E
C
I C
R
C
S
T
N
Y
T
H
F
M
G
◙
09( .
$ "
• Direct manual
control of all
system outputs
MA N U A L
Y
Y
1
2
W
O
G
H
H
D
E C
P U
T E
C
C
O
O
C
C
C
C
C
O
O
O
O
O
A
M
M
S
O P E R A T I N G
M
M
M
M
M
M
M
M
M
I
S
P
T M
M
M
M
M
M
R
P
O
S E
L
E
C
T
◄
F
E
D
O
O
U
U
T
T
P
P
U
U
T
T
O
O
O
O
O
L
E
E
U
U
U
U
U
O
D
T P
P
T
P
T
P
T
P
T
W
U
U
U
U
U
T
T
T
T
T
▲ ▼
O P T I O
P R E V I O U S
N
MO D E
O
O
F
F
F
F
O
O
O
O
O
F
F
F
F
F
0
0
F
O
F
F
F
F
F
S E L E C T
%
F
◙
C
H P
L O
Y 1
Y 2
W O G H E M
N I
O V
◄ L T
L T
C O
H O
L E
L E
E N
C O
E C
E C
E C
◄ N
O
T
R
O
L
D
I A
G
N
O
S
T
I C
S
C
E
G
R
P
S
P
P
P
P
P
P
R
H
R
W
S
H
H
H
H
H
H
G
T
I
E
I
W
Y
Y
Y
Y
Y
Y
N
V
T
I
S
S
S
S
S
S
S
S
P
I
C
T
I
I
I
I
I
I
H
E
U
O
H
C
C
C
C
C
C
C
U
T
T
U
H
A
A
A
A
A
A
T
B
S
L
L
L
L
L
L
D
A
O
C
I
I
I
I
I
I
W
K
N
N
N
N
N
N
N
P
P
P
P
P
P
U
U
U
U
U
U
N
T
T
T
T
T
T
E
X
C O N T R O L
S T A T U S
T E
M P
E R
A T
U R
E S
1
2
M
T
A
A
T
N
M
M
M
P
P
V
V
E
T
R
T
T
W
I
I
R
R
B
T
B
E
E
E
D
A
N
N
I
O
L
A
L
V
M
M
I
T
G
G
N
L
O
R
W
I
P
P
S
E
G
W
G
R
O
C
R
A
W
V
E
E
U
H
I
A
W
O
R
T
S
S
A
E
R
T
A
L
T
R
W
E
T
T
R
C
A
G
T
R
E
A
P
F
T
E
R
G
M
M
I
E
C
1
1
N
3
7
5
2
7
7
7
2
E
8
9
7
1
5
3
8
6
5
8
0
X
C
C
O
O
O
O
O
O
O
O
O
T
.
.
.
.
.
.
.
5
0
.
T
L
L
N
F
F
N
N
F
F
F
F
1
9
7
5
1
3
5
4
0
0
5
F
F
F
F
F
F
►
►
Control Diagnostics
P U
P U
F L
◄ C O N T R O L
S T A T U S
P
U
M P
O
P E
R
A T
I O
N M
M
O
P
P
P
W
R
E
S
W
R
V
P
A
A
I
E
T
T
O
E
T
E
U
D
S
S
G
P
M
6
1
7
0
4
.
%
0
4
09( .
&!$"
$! !'
• Displays the
control dipswitch
settings
• Displays a detailed
fault history for the
control
C O N T R O L
T T 0 3 8
S N - - - - - 0 1 2 3
L A
S T
5
F A
U
L T
S
T 1 L O
L
W
W
A T
E
R T
E M
P
1 2 3 4 45 65J W
76 8 7 8 ◄ O
O
O
3
P
O
O
F
O
F
F
O
O
O
O
O
O
O
R
C O N F I G U R A T I O N
1 I P
D
S
W
I T
C
H
S
3
2
\
/
\
T
/
E V
N
N
F
N
F
N
F
N
N
L
N
N
N
N
U
A
F
D
A
H
H
R
H
D
A
E
1A
B
S
H
F
P
C
A
U
C
W
E
W
V
W
E
C
H
C
O
E
E
T
L
I T
O
U
E
I E
L
E
T
I O U S
S
C
A
T
G
A
G
G
H
C
2
T
S
I
E
D
A
C
E
S
O
V
T
S
D
M
S
A
V
T
E
D
H
O
N
S
R
C
E
P
T
I I S
U
E
T
R
X
U
R
A
O
Y
O
S
U
H
S
D
O
X
I L
M
M
Y
B
R
M
W
T
1M
E
A
R
W
N
E
2
L
Y
S
P/
2P
R
B
O
Y
H
G
/
S
E
O
5
M
L
F
E
S
A
N
E
D
1
T
S
F
T
O
E
2F
A
C
W
O
I P
S
T
N
E
T
T
A
F
S
D
S
E
T
O
M
U
T
X
I G
N
T
T
M
L
T
I T
N
A
A
P
L
N
G
1
T
T
G
►
O
N
F
A
U
L
T
O
N
F
A
U
L
T
N O
F A
U
L
T
N O
F A U L T
◄
N
E
X
T
►
P R E V I O U S
S E L E C T
◙
Fault Condition Menu
A
F
U
L
T
C
O
N
D
I T
I O
N
M
E
N
U
L T
C O
F A
F A
F A
F A
F A
◄ 1
O
U
U
U
U
U
P
L
L
L
L
L
L
R
L
T
T
T
T
T
E
O
1
V
W
T
F
I
C
P
I
E
L
/
O
O
O
W
1
M
O
O
N
S
U
A
1
P
W
F
S
S
T
:
C
I
I
E
1
C
C
O
G
B
R
1
O
O
N
L
A
N
N
D
C
E
S
T
M
D
D
I
O
E
E
I
I
T
N
C
L
M
1
T
T
I
D
A
E
P
2
I
I
O
U
C
/
O
O
N
S
T
2
N
N
S
E
5
S
S
S
◙
8+2.-(3.-1
!$" &" • Control
temperature
conditions when
the fault occurred
F A U L T
T E MP
• Control flow
conditions when
fault occurred
C O N D I T I O N S
L T 1
L O
W W A
T E
R T E
M P
C O
O L
1 1
1 : 1 1
A M
1
2 / 2
5
L
L
H
C
L
L
E
T
T
O
O
E
E
N
1
2
T
M
A
A
T
P
V
V
E
O N T
C
◄ P
R
R
C
A
W
G R O
L V
V I O
E
U
T E
T E
W A
D
I N
I N
R I
M
M
T
I
G
G
N
P
P
E
S
H
I
A
W
O
S
E
A
R
T
A
L
W
R
E
T
T
T
G
R
E
A
E
R
G
E
1
1
2
7
2
5
7
7
7
8
9
1
7
5
3
8
. 1 . 9 5 . 7 . 1 . 3 . 5 2
6
. 4
F A U L T
F L O W
C O N D I T I O N S
L T 1
L O
W W A
T E
R T E
M P
C O
O L
1 1
1 : 1 1
A M
1
2 / 2
5
C
E
M
T
A
R
G
E
T
C
F
M
E C
F L
P U
V A
◄ M
O
M
L
P
W
P
V
R
B
E
E
L
R
S
V
O
A
P
P
I
W
T
E
O
O
E
E
E
S
U
R
D
I
S
G
T
R
P
I
P
M
O
M
N
8 0 0 5
6
6
5
.
0
0
0
5
%
%
8+2.-(3.-1
$!* $!$!" $"" • Control inputs/
outputs when the
fault occurred
• Control
configuration when
the fault occurred
F A U L T
I / O
C O N D I T I O N S
F A U L T
C O N F G C O N D I T I O N S
L T 1
L O
W W A
T E
R T E
M P
C O
O L
1 1
1 : 1 1
A M
1
2 / 2
5
L T 1
L O
W W A
T E
R T E
M P
C O
O L
1 1
1 : 1 1
A M
1
2 / 2
5
C O
Y
Y
W
O
G
H
O
N
◄ S
1 2 3 4 5 6 7 8 ◄ T
N
1
2
S T A
T V C O
M
Y 1
Y 2
W O G H R D H
B
R E V I O
V
S
P
M
U
S
A
S
H
L
C
F
P
O
O
O
T Y O U
T
S C C
C
C
C
R V
A C
P T A C
N A L
G E H
M P E H
T
A
W
U
U
F
H
P
T
P
H
C
C
1
1
2
1
2
N
N
N
N
N
N
N
N
P R
1
O
O
O
O
O
O
O
O
E
V
1
2
3
4
5
6
7
8
I O
N
N
N
N
N
N
N
N
U S 2
S
O
O
O
O
O
O
O
O
L
L
1
2
3
4
T
T
3
S
O
O
O
O
1 2 N
F
F
F
W
W
F
F
F
E
E
L
L
L
L
8+2.-(3.-1
$ • Possible causes as
to why the fault
occurred
P O S S I B L E
L
L O
L O
L O
I N
B A
◄ F A U L T
C A U S E S
W
O
W
A
T
E
R
C
O
I L
T
E
M
P
W
W
W
C
D
P
O
R
W
W
R
R
L
E
A
A
E
R
T
V
T
T
F
E
1
I
E
E
R
C
O
R
R
I
T
T
U
G
H
S
T
F
L
E
E
L
C
T
R
M
O
H
1
M
P
W
A
I
-
-
R
S
S
H
H
G
E
T
T
T
E
T
O
G
G
-
T
R
H
I
T
N
G
G
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