AQUASNAP®
30MPA,MPW015-045
Liquid Chillers with Scroll Compressors
and ComfortLink™ Controls
Controls, Start-Up, Operation,
Service, and Troubleshooting
SAFETY CONSIDERATIONS
CAUTION
Installing, starting up, and servicing this equipment can be
hazardous due to system pressures, electrical components, and
equipment location (elevated structures, mechanical rooms,
etc.). Only trained, qualified installers and service mechanics
should install, start up, and service this equipment.
When working on this equipment, observe precautions in
the literature, and on tags, stickers, and labels attached to the
equipment, and any other safety precautions that apply. Follow
all safety codes. Wear safety glasses and work gloves. Use
care in handling, rigging, and setting this equipment, and in
handling all electrical components.
This unit uses a microprocessor-based electronic control
system. Do not use jumpers or other tools to short out
components, or to bypass or otherwise depart from recom-
mended procedures. Any short-to-ground of the control
board or accompanying wiring may destroy the electronic
modules or electrical components.
CAUTION
To prevent potential damage to heat exchanger, always run
fluid through heat exchanger when adding or removing
refrigerant charge. Use appropriate brine solutions in cooler
fluid loop to prevent the freezing of brazed plate heat
exchanger when the equipment is exposed to temperatures
below 32 F (0° C). Proof of flow switch is factory installed
on all models. Do NOT remove power from this chiller dur-
ing winter shutdown periods without taking precaution to
remove all water from heat exchanger and optional
hydronic system. Failure to properly protect the system
from freezing may constitute abuse and may void warranty.
WARNING
Electrical shock can cause personal injury and death. Shut
off all power to this equipment during installation. There
may be more than one disconnect switch. Tag all discon-
nect locations to alert others not to restore power until work
is completed.
WARNING
DO NOT VENT refrigerant relief valves within a building.
Outlet from relief valves must be vented outdoors in
accordance with the latest edition of ANSI/ASHRAE
(American National Standards Institute/American Society
of Heating, Refrigerating and Air Conditioning Engineers)
15 (Safety Code for Mechanical Refrigeration). The
accumulation of refrigerant in an enclosed space can
displace oxygen and cause asphyxiation. Provide adequate
ventilation in enclosed or low overhead areas. Inhalation of
high concentrations of vapor is harmful and may cause
heart irregularities, unconsciousness or death. Misuse can
be fatal. Vapor is heavier than air and reduces the amount
of oxygen available for breathing. Product causes eye and
skin irritation. Decomposition products are hazardous.
CAUTION
Compressors require specific rotation. Monitor control
alarms during first compressor start up for reverse rotation
protection. Damage to unit may result.
CAUTION
Refrigerant charge must be removed slowly to prevent loss
of compressor oil that could result in compressor failure.
CAUTION
Puron® refrigerant (R-410A) systems operate at higher
pressures than standard R-22 systems. Do not use R-22 ser-
vice equipment or components on Puron refrigerant equip-
ment. If service equipment is not rated for Puron
refrigerant, equipment damage or personal injury may
result.
WARNING
DO NOT attempt to unbraze factory joints when servicing
this equipment. Compressor oil is flammable and there is
no way to detect how much oil may be in any of the
refrigerant lines. Cut lines with a tubing cutter as required
when performing service. Use a pan to catch any oil that
may come out of the lines and as a gage for how much oil
to add to system. DO NOT re-use compressor oil. Damage
to equipment or personal injury may result.
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
Catalog No. 04-53300053-01 Printed in U.S.A. Form 30MP-1T Pg 1 1-10 Replaces: New
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When a value is included as part of the path name, it will be
shown at the end of the path name after an equals sign. If the
value represents a configuration setting, an explanation will
be shown in parenthesis after the value. As an example,
ConfigurationOPT1MLV.S = 1 (Minimum Load Valve
Select).
Changing item values or testing outputs is accomplished in
the same manner. Locate and display the desired item. Press
so that the item value flashes. Use the arrow keys to
ENTER
change the value or state and press the
key to accept
ENTER
key to return to the next higher level of
it. Press the
ESCAPE
structure. Repeat the process as required for other items.
Pressing the
and
keys simultaneously
ENTER
ESCAPE
will scroll an expanded text description of the point name or
value across the display. The expanded description is shown in
the local display tables but will not be shown with the path
names in text.
Items in the Configuration and Service Test modes are pass-
word protected. The words ‘PASS’ and ‘WORD’ will alternate
on the display when required. The default password is 0111.
Press
and the 1111 password will be displayed. Press
ENTER
again and the first digit will begin to flash. Use the
The CCN (Carrier Comfort Network®) point names are also
referenced in the local display tables for users configuring the
unit with CCN software instead of the local display. The CCN
tables are located in Appendix B of the manual.
ENTER
arrow keys to change the number and press
to accept
ENTER
the digit. Continue with the remaining digits of the password.
The password can only be changed through CCN operator in-
terface software such as ComfortWORKS®, ComfortVIEW™
and Service Tool.
Basic Control Usage
SCROLLING MARQUEE DISPLAY — The scrolling mar-
quee display is the standard interface display to the ComfortLink
Control System for 30MP units. The display has up and down
See Tables 2-14 and Appendix A for further details.
ACCESSORY NAVIGATOR™ DISPLAY MODULE —
The Navigator module provides a mobile user interface to the
ComfortLink™ control system, which is only available as a
arrow keys, an
key, and an
key. These
ESCAPE
keys are used to navigate through the different levels of the
display structure. Press the key until the highest
ENTER
ESCAPE
field-installed accessory. The display has up and down arrow
operating level is displayed to move through the top 11 mode
levels indicated by LEDs (light emitting diodes) on the left side
of the display. See Fig. 1 and Tables 2-14.
keys, an
key, and an
key. These keys are
ESCAPE
used to navigate through the different levels of the display
structure. Press the key until ‘Select a Menu Item’
ENTER
ESCAPE
is displayed to move through the top 11 mode levels indicated
by LEDs on the left side of the display. See Fig. 2.
Once within a mode or sub-mode, pressing the
ENTER
keys simultaneously will put the scrolling
and
ESCAPE
marquee display into expanded text mode where the full mean-
ing of all sub-modes, items and their values can be displayed
Once within a Mode or sub-mode, a “>” indicates the cur-
rently selected item on the display screen. Pressing the
for the current selection. Press the
and
ESCAPE
ENTER
and
keys simultaneously will put the Nav-
ESCAPE
ENTER
keys to return the scrolling marquee display to its default menu
of rotating display items (those items in Run StatusVIEW).
In addition, the password will be disabled, requiring that it be
entered again before changes can be made to password protect-
igator module into expanded text mode where the full meaning
of all sub-modes, items and their values can be displayed. Press-
ing the
and
keys when the display says
ESCAPE
ENTER
‘Select Menu Item’ (Mode LED level) will return the Navigator
module to its default menu of rotating display items (those items
in Run StatusVIEW). In addition, the password will be dis-
abled, requiring that it be entered again before changes can be
ed items. Press the
text mode.
key to exit out of the expanded
ESCAPE
NOTE: When the Language Selection (Configuration
DISPLANG), variable is changed, all appropriate display
expansions will immediately change to the new language. No
power-off or control reset is required when reconfiguring
languages.
made to password protected items. Press the
exit out of the expanded text mode.
key to
ESCAPE
NOTE: When the Language Selection (Configuration
DISPLANG), variable is changed, all appropriate display
expansions will immediately change to the new language. No
power-off or control reset is required when reconfiguring
languages.
When a specific item is located, the item name alternates
with the value. Press the
key at a changeable item
ENTER
and the value will be displayed. Press
again and the
ENTER
value will begin to flash indicating that the value can be
changed. Use the up and down arrow keys to change the value,
When a specific item is located, the item name appears on the
left of the display, the value will appear near the middle of the
display and the units (if any) will appear on the far right of the
and confirm the value by pressing the
key.
ENTER
display. Press the
key at a changeable item and the val-
ENTER
ue will begin to flash. Use the up and down arrow keys to change
the value, and confirm the value by pressing the key.
ENTER
MODE
Run Status
Service Test
Temperature
Changing item values or testing outputs is accomplished in
the same manner. Locate and display the desired item. Press
Pressures
Setpoints
so that the item value flashes. Use the arrow keys to
ENTER
change the value or state and press the
Alarm Status
Inputs
key to accept
Outputs
ENTER
key to return to the next higher level of
Configuration
Time Clock
Operating Modes
Alarms
ESCAPE ENTER
it. Press the
ESCAPE
structure. Repeat the process as required for other items.
Items in the Configuration and Service Test modes are pass-
word protected. The words Enter Password will be displayed
when required, with 1111 also being displayed. The default
password is 1111. Use the arrow keys to change the number
Fig. 1 — Scrolling Marquee Display
3
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and press
to enter the digit. Continue with the re-
Configuration mode. Press
mode. The display will read:
> TEST OFF
to obtain access to this
ENTER
ENTER
maining digits of the password. The password can only be
changed through CCN operator interface software such as
ComfortWORKS, ComfortVIEW and Service Tool.
METR OFF
LANG ENGLISH
Adjusting the Contrast — The contrast of the display can be
adjusted to suit ambient conditions. To adjust the contrast of
Pressing
will cause the “OFF” to flash. Use the up
ENTER
or down arrow keys to change “OFF” to “ON”. Pressing
will illuminate all LEDs and display all pixels in the
the Navigator module, press the
key until the dis-
ESCAPE
ENTER
play reads, “Select a menu item.” Using the arrow keys move
view screen. Pressing the up and down arrow keys simultane-
ously allows the user to adjust the display brightness. Use the
up or down arrow keys to adjust screen brightness. Press
to the Configuration mode. Press
this mode. The display will read:
to obtain access to
ENTER
> TEST OFF
METR OFF
LANG ENGLISH
to accept the change. The Navigator module will
ENTER
keep this setting as long as it is plugged in to the LEN bus.
Pressing
will cause the “OFF” to flash. Use the up
ENTER
or down arrow to change “OFF” to “ON”. Pressing
Comf
or
ENTER
will illuminate all LEDs and display all pixels in the view
screen. Pressing and simultaneously
t
Link
ESCAPE
ENTER
allows the user to adjust the display contrast. Use the up or
down arrows to adjust the contrast. The screen’s contrast will
MODE
Run
Alar
S
m
Status
tatus
Ser
vice
Te
s
t
Te
m
per
atur
es
P
ressures
Setpoints
Inputs
change with the adjustment. Press
to accept the
ENTER
Outputs
Configur
ation
Time Cloc
change. The Navigator module will keep this setting as long as
it is plugged in to the LEN bus.
k
ESC
Oper
ating Modes
Alar
m
s
ENTER
Adjusting the Backlight Brightness — The backlight of the
display can be adjusted to suit ambient conditions. The factory
default is set to the highest level. To adjust the backlight of the
Navigator module, press the
reads, “Select a menu item.” Using the arrow keys move to the
key until the display
ESCAPE
Fig. 2 — Accessory Navigator™ Display Module
Table 2 — Scrolling Marquee Display Menu Structure*
RUN
STATUS
SERVICE
TEST
SET
POINTS
TIME
CLOCK
OPERATING
MODES
MODE
TEMPERATURES PRESSURES
INPUTS OUTPUTS CONFIGURATION
ALARMS
Auto
View of
Run Status
(VIEW)
Service
Test Mode
(TEST)
Pressures
Cooling
Setpoints
(COOL)
General
Inputs
(GEN.I)
General
Outputs
(GEN.O)
Display
Configuration
(DISP)
Time of
Day
(TIME)
Unit Temperatures
Modes
(MODE)
Current
(CRNT)
Circuit A
(UNIT)
(PRC.A)
Unit Run
Hour and
Start
Head
Month,
Date, Day,
and Year
(DATE)
Outputs
and Pumps
(OUTS)
Temperatures
Circuit A
(CIR.A)
Circuit
Inputs
(CRCT)
Outputs
Circuit A
(CIR.A)
Unit
Configuration
(UNIT)
Reset
Alarms
(RCRN)
Pressure
Setpoint
(HEAD)
(RUN)
Circuit and
Compressor
Run Hours
(HOUR)
Brine
Freeze
Setpoint
(FRZ)
Daylight
Savings
Time
Ciruit A Comp
Test
(CMPA)
4-20mA
Inputs
(4-20)
Unit Options 1
Hardware
(OPT1)
Alarm
History
(HIST)
(DST)
Local
Holiday
Schedules
(HOL.L)
Compressor
Starts
(STRT)
Unit Options 2
Controls
(OPT2)
SUB-MODE
Preventive
Maintenance
(PM)
CCN Network
Configuration
(CCN)
Schedule
Number
(SCH.N)
Local
Occu-
Software
Version
(VERS)
Reset Cool Temp
(RSET)
pancy
Schedule
(SCH.L)
Set Point and
Ramp Load
(SLCT)
Schedule
Override
(OVR)
Service
Configuration
(SERV)
Broadcast
Configuration
(BCST)
LEGEND
For example, using the language selection item:
Language Selection (ConfigurationDISPLANG)
Ckt — Circuit
*Throughout this text, the location of items in the menu structure will be
described in the following format:
Item Expansion (Mode NameSub-mode NameITEM)
4
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Table 3 — Run Status Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
DISPLAY SUB-ITEM DISPLAY SUB-ITEM DISPLAY
EXPANSION
SUB-MODE
VIEW
ITEM
EWT
LWT
COMMENT
ENTER
XXX.X F
ENTERING FLUID TEMP
LEAVING FLUID TEMP
ACTIVE SETPOINT
CONTROL POINT
XXX.X F
SETP XXX.X F
CTPT XXX.X F
LOD.F
STAT
XXX
X
LOAD/UNLOAD FACTOR
CONTROL MODE
0 = Service Test
1 = Off Local
2 = Off CCN
3 = Off Time
4 = Off Emrgcy
5 = On Local
6 = On CCN
7 = On Time
8 = Ht Enabled
9 = Pump Delay
OCC
YES/NO
OCCUPIED
OVERRIDE MODES IN EFFECT
PERCENT TOTAL CAPACITY
REQUESTED STAGE
CURRENT ALARMS & ALERTS
TIME OF DAY
MODE YES/NO
CAP
STGE
ALRM
TIME
XXX %
X
XXX
XX.XX
XX
00.00-23.59
1 = January, 2 = February, etc.
01-31
MNTH
DATE
YEAR
MONTH OF YEAR
XX
DAY OF MONTH
XX
YEAR OF CENTURY
RUN
ENTER
HRS.U XXXX HRS
MACHINE OPERATING HOURS
MACHINE STARTS
STR.U
HR.P1
HR.P2
XXXX
XXXX.X
XXXX.X
PUMP 1 RUN HOURS
PUMP 2 RUN HOURS
HOUR
STRT
PM
ENTER
HR.A1 XXXX HRS
HR.A2 XXXX HRS
HR.A3 XXXX HRS
COMPRESSOR A1 RUN HOURS
COMPRESSOR A2 RUN HOURS
COMPRESSOR A3 RUN HOURS
COMPRESSOR A1 STARTS
COMPRESSOR A2 STARTS
COMPRESSOR A3 STARTS
STRAINER MAINTENANCE
STRAINER SRVC INTERVAL
STRAINER SRVC COUNTDOWN
ENTER
ST.A1
ST.A2
ST.A3
STRN
XXXX
XXXX
XXXX
ENTER
ENTER
SI.ST
S.T.DN
S.T.MN
ST.DT
XXXX HRS
XXXX HRS
YES/NO
STRAINER MAINT. DONE
STRAINER MAINT. DATES
MM/DD/YY HH:MM
User Entry
ENTER
S.T.M0
S.T.M1
S.T.M2
S.T.M3
S.T.M4
MM/DD/YY HH:MM
MM/DD/YY HH:MM
MM/DD/YY HH:MM
MM/DD/YY HH:MM
5
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Table 3 — Run Status Mode and Sub-Mode Directory (cont)
KEYPAD
ENTRY
ITEM
DISPLAY SUB-ITEM DISPLAY SUB-ITEM DISPLAY
EXPANSION
SUB-MODE
VERS
ITEM
COMMENT
ENTER
AUX
CESR131333-xx-xx
CESR131279-xx-xx
CESR131174-xx-xx
CESR131171-xx-xx
CESR130227-xx-xx
xx-xx is Version number*
MBB
EMM
MARQ
NAVI
xx-xx is Version number*
xx-xx is Version number*
xx-xx is Version number*
xx-xx is Version number*
*Press
ENTER
and
ESCAPE
simultaneously to obtain version number.
Table 4 — Service Test Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
TEST
ITEM
DISPLAY
COMMENT
EXPANSION
ON/OFF
SERVICE TEST MODE
To Enable Service Test Mode,
move Enable/Off/Remote
Contact switch to OFF. Change
TEST to ON. Move switch to
ENABLE.
ENTER
OUTS
OUTPUTS AND PUMPS
COOLER PUMP RELAY
CLR.P
CND.P
UL.TM
CC.H
ON/OFF
ON/OFF
0 to 15
CONDENSER PUMP
COMP A1 UNLOAD TIME
CRANKCASE HEATER
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
CW.VO
CW.VC
LL.SV
RMT.A
CONDENSER VALVE OPEN
CONDENSER VALVE CLOSE
LIQUID LINE SOLENOID
REMOTE ALARM RELAY
CMPA
CIRCUIT A COMPRESSOR TEST
COMPRESSOR A1 RELAY
ENTER
CC.A1
UL.TM
CC.A2
CC.A3
MLV
ON/OFF
0 to 15
COMP A1 UNLOAD TIME
COMPRESSOR A2 RELAY
COMPRESSOR A3 RELAY
MINIMUM LOAD VALVE RELAY
ON/OFF
ON/OFF
ON/OFF
Table 5 — Temperature Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
UNIT
ITEM
DISPLAY
COMMENT
EXPANSION
ENT AND LEAVE UNIT TEMPS
ENTER
CEWT
CLWT
CDET
CDLT
OAT
XXX.X F
XXX.X F
XXX.X F
XXX.X F
XXX.X F
XXX.X F
XXX.X F
COOLER ENTERING FLUID
COOLER LEAVING FLUID
CONDENSER ENTERING FLUID
CONDENSER LEAVING FLUID
OUTSIDE AIR TEMPERATURE
SPACE TEMPERATURE
SPT
DLWT
LEAD/LAG LEAVING FLUID
6
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Table 5 — Temperature Mode and Sub-Mode Directory (cont)
KEYPAD
ENTRY
ITEM
SUB-MODE
CIR.A
ITEM
DISPLAY
COMMENT
EXPANSION
TEMPERATURES CIRCUIT A
ENTER
SCT.A
SST.A
RGT.A
D.GAS
SH.A
XXX.X F
XXX.X F
XXX.X F
XXX.X F
XXX.X ^F
SATURATED CONDENSING TMP
SATURATED SUCTION TEMP
COMPR RETURN GAS TEMP
DISCHARGE GAS TEMP
SUCTION SUPERHEAT TEMP
Table 6 — Pressure Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
PRC.A
ITEM
DISPLAY
COMMENT
EXPANSION
PRESSURES CIRCUIT A
ENTER
DP.A
SP.A
XXX.X PSIG
XXX.X PSIG
DISCHARGE PRESSURE
SUCTION PRESSURE
Table 7 — Set Points Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
COOL
ITEM
DISPLAY
COMMENT
EXPANSION
COOLING SETPOINTS
ENTER
CSP.1
CSP.2
CSP.3
XXX.X F
XXX.X F
XXX.X F
COOLING SETPOINT 1
COOLING SETPOINT 2
ICE SETPOINT
Default: 44 F
Default: 44 F
Default: 32 F
HEAD
FRZ
HEAD PRESSURE SETPOINTS
HEAD SETPOINT
ENTER
ENTER
H.DP
XXX.X F
XXX.X F
Default: 95 F
Default: 34 F
BRINE FREEZE SETPOINT
BRINE FREEZE POINT
BR.FZ
Table 8 — Inputs Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
GEN.I
ITEM
DISPLAY
COMMENT
EXPANSION
GENERAL INPUTS
ENTER
STST
FLOW
CD.FL
DLS1
DLS2
ICED
STRT/STOP
ON/OFF
START/STOP SWITCH
COOLER FLOW SWITCH
CONDENSER FLOW SWITCH
DEMAND LIMIT SWITCH 1
DEMAND LIMIT SWITCH 2
ICE DONE
OPEN/CLSE
ON/OFF
ON/OFF
ON/OFF
DUAL
ON/OFF
DUAL SETPOINT SWITCH
CRCT
4-20
CIRCUITS INPUTS
ENTER
FKA1
FKA2
FKA3
ON/OFF
ON/OFF
ON/OFF
COMPRESSOR A1 FEEDBACK
COMPRESSOR A2 FEEDBACK
COMPRESSOR A3 FEEDBACK
4-20 MA INPUTS
ENTER
DMND
RSET
CSP
XX.X MA
XX.X MA
XX.X MA
4-20 MA DEMAND SIGNAL
4-20 MA RESET SIGNAL
4-20 MA COOLING SETPOINT
7
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Table 9 — Outputs Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
GEN.O
ITEM
DISPLAY
COMMENT
EXPANSION
GENERAL OUTPUTS
ENTER
C.LWP
C.DWP
ALRM
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
COOLER PUMP RELAY
CONDENSER PUMP
ALARM RELAY
CDWO
CDWC
CONDENSER VALVE OPEN
CONDENSER VALVE CLOSE
CIR.A
OUTPUTS CIRCUIT A
ENTER
CC.A1
D.SOL
CC.A2
CC.A3
CCH
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
COMPRESSOR A1 RELAY
DIGITAL SCROLL SOLENOID
COMPRESSOR A2 RELAY
COMPRESSOR A3 RELAY
CRANKCASE HEATER RELAY
LIQUID LINE SOLENOID
LLSV
MLV.R
MINIMUM LOAD VALVE RELAY
Table 10 — Configuration Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
DISP
ITEM
DISPLAY
COMMENT
EXPANSION
DISPLAY CONFIGURATION
ENTER
TEST
ON/OFF
TEST DISPLAY LEDS
Off = English
On = Metric
METR
LANG
ON/OFF
X
METRIC DISPLAY
LANGUAGE SELECTION
Default: 0
0 = English
1 = Espanol
2 = Francais
3 = Portuguese
PAS.E
PASS
ENBL/DSBL
xxxx
PASSWORD ENABLE
SERVICE PASSWORD
UNIT CONFIGURATION
Default: Enable
Default: 1111
UNIT
ENTER
2=WaterCooled
3=Split System
TYPE
x
UNIT TYPE
SIZE
SZA.1
SZA.2
SZA.3
XX
XX
XX
XX
UNIT SIZE
COMPRESSOR A1 SIZE
COMPRESSOR A2 SIZE
COMPRESSOR A3 SIZE
Unit Dependent
Unit Dependent
Unit Dependent
Default: Yes (A1 Digital Scroll)
Default: 7
A1.TY
MAX.T
No/Yes
0 to 15
COMPRESSOR A1 DIGITAL?
MAXIMUM A1 UNLOAD TIME
8
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Table 10 — Configuration Mode and Sub-Mode Directory (cont)
KEYPAD
ENTRY
ITEM
SUB-MODE
OPT1
ITEM
DISPLAY
COMMENT
EXPANSION
UNIT OPTIONS 1 HARDWARE
Default: Water
1 = Water
2 = Medium Temperature Brine
ENTER
FLUD
X
COOLER FLUID
MLV.S
R.G.EN
OAT.E
D.G.EN
CSB.E
CPC
YES/NO
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
ON/OFF
MINIMUM LOAD VALVE SELECT
RETURN GAS SENSOR ENABLE
ENABLE OAT SENSOR
Default: No
DISCHARGE GAS TEMP ENABLE
CSB BOARDS ENABLE
COOLER PUMP CONTROL
Default: On
PM.DY
DPME
DFLS
XX MIN
COOLER PUMP SHUTDOWN DLY
ENABLE CONDENSER PUMP
ENABLE COND FLOW SWITCH
ENABLE COND WTR SENSORS
0 to 10 minutes, Default: 1 min.
0 to 2
x
ENBL/DSBL
ENBL/DSBL
CDWS
OPT2
UNIT OPTIONS 2 CONTROLS
CONTROL METHOD
CTRL
X
Default: Switch
ENTER
0 = Enable/Off/Remote Switch
2 = Occupancy
3 = CCN Control
Default: 60
LCWT
DELY
ICE.M
XX.X F
XX
HIGH LCW ALERT LIMIT
MINUTES OFF TIME
ICE MODE ENABLE
Range: 2 to 60 F
Default: 0 Minutes
Range: 0 to 15 Minutes
ENBL/DSBL
Default: Disable
CCN
CCN NETWORK CONFIGURATION
CCN ADDRESS
Default: 1
Range: 1 to 239
CCNA
XXX
ENTER
Default: 0
CCNB
BAUD
XXX
X
CCN BUS NUMBER
CCN BAUD RATE
Range: 0 to 239
Default: 9600
1 = 2400
2 = 4800
3 = 9600
4 = 19,200
5 = 38,400
RSET
RESET COOL TEMP
CRST
X
COOLING RESET TYPE
Default: No Reset
0 = No Reset
ENTER
1 = 4 to 20 mA Input
2 = Outdoor Air Temperature
3 = Return Fluid
4 = Space Temperature
Default: 0.0F
MA.DG
RM.NO
RM.F
XX.X F
XXX.X F
XXX.X F
XX.X F
4-20 - DEGREES RESET
REMOTE - NO RESET TEMP
REMOTE - FULL RESET TEMP
REMOTE - DEGREES RESET
RETURN - NO RESET TEMP
RETURN - FULL RESET TEMP
Range: –30 to 30F
Default: 125F (51.7C)
Range: 0° to 125F
Default: 0.0F (-17.8C)
Range: 0 to 125F
Default: 0.0F
Range: –30 to 30F
RM.DG
RT.NO
RT.F
Default: 10.0F (5.6C)
Range: 0 to 125F COOLER T
XXX.X F
XXX.X F
Default: 0.0F (0.0C)
Range: 0 to 125F COOLER T
Default: 0.0F
RT.DG
DMDC
XX.X F
RETURN - DEGREES RESET
DEMAND LIMIT SELECT
Range: –30 to 30F (–34.4 to -1.1 C)
X
Default: None
0 = None
1 = Switch
2 = 4 to 20 mA Input
3 = CCN Loadshed
Default: 100%
DM20
SHNM
SHDL
SHTM
DLS1
DLS2
XXX %
XXX
DEMAND LIMIT AT 20 MA
LOADSHED GROUP NUMBER
LOADSHED DEMAND DELTA
MAXIMUM LOADSHED TIME
DEMAND LIMIT SWITCH 1
DEMAND LIMIT SWITCH 2
Range: 0 to 100%
Default: 0
Range: 0 to 99
Default: 0%
Range: 0 to 60%
XXX %
XXX
Default: 60 minutes
Range: 0 to 120 minutes
Default: 80%
Range: 0 to 100%
XXX %
XXX %
Default: 50%
Range: 0 to 100%
9
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Table 10 — Configuration Mode and Sub-Mode Directory (cont)
KEYPAD
ENTRY
ITEM
EXPANSION
SUB-MODE
ITEM
DISPLAY
COMMENT
LLEN
ENBL/DSBL
LEAD/LAG CHILLER ENABLE
Default: Disable
Default: Master
MSSL
SLVA
SLVE/MAST
XXX
MASTER/SLAVE SELECT
SLAVE ADDRESS
Default: 0
Range: 0 to 239
ENTER
Default: Master Leads
0 = Master Leads
1 = Slave Leads
2 = Automatic
RSET
(cont)
LLBL
X
LEAD/LAG BALANCE SELECT
Default: 168 hours
LLBD
LLDY
PARA
XXX
XXX
YES
LEAD/LAG BALANCE DELTA
LAG START DELAY
Range: 40 to 400 hours
Default: 5 minutes
Range: 0 to 30 minutes
PARALLEL CONFIGURATION
Default: YES (CANNOT BE CHANGED)
SLCT
SETPOINT AND RAMP LOAD
COOLING SETPOINT SELECT
CLSP
X
Default: Single
0 = Single
1 = Dual Switch
2 = Dual CCN Occupied
3 = 4 to 20 mA Input (requires
EMM)
ENTER
RL.S
CRMP
SCHD
Z.GN
ENBL/DSBL
RAMP LOAD SELECT
COOLING RAMP LOADING
SCHEDULE NUMBER
Default: Enable
Default: 1.0
Range: 0.2 to 2.0
X.X
XX
Default: 1
Range: 1 to 99
Default: 1.0
Range: 1.0 to 4.0
X.X
DEADBAND MULTIPLIER
SERV
SERVICE CONFIGURATION
ENABLE COMPRESSOR A1
ENTER
EN.A1
EN.A2
EN.A3
REV.R
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
Unit dependent
Unit dependent
Unit dependent
Default: Enable
ENABLE COMPRESSOR A2
ENABLE COMPRESSOR A3
REVERSE ROTATION ENABLE
BCST
BROADCAST CONFIGURATION
CCN TIME/DATE BROADCAST
ENTER
T.D.BC
OAT.B
ON/OFF
ON/OFF
ON/OFF
ON/OFF
CCN OAT BROADCAST
GLOBAL SCHEDULE BROADCAST
CCN BROADCAST ACK’ER
G.S.BC
BC.AK
10
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Table 11 — Time Clock Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
TIME
ITEM
DISPLAY
SUB-ITEM
DISPLAY
COMMENT
EXPANSION
TIME OF DAY
ENTER
HH.MM
XX.XX
HOUR AND MINUTE
Military (00:00 – 23:59)
DATE
MONTH,DATE,DAY AND YEAR
MONTH OF YEAR
ENTER
MNTH
DOM
DAY
XX
XX
1-12 (1 = January, 2 = February, etc)
Range: 01-31
DAY OF MONTH
DAY OF WEEK
X
1-7 (1 = Monday, 2 = Tuesday, etc)
YEAR
XXXX
YEAR OF CENTURY
DST
DAYLIGHT SAVINGS TIME
MONTH
ENTER
STR.M
STR.W
STR.D
MIN.A
STP.M
STP.W
STP.D
MIN.S
XX
X
Default: 4, Range 1 – 12
Default: 1, Range 1 – 5
Default: 7, Range 1 – 7
Default: 60, Range 0 – 99
Default: 10, Range 1 – 12
Default: 5, Range 1 – 5
Default: 7, Range 1 – 7
Default: 60, Range 0 – 99
WEEK
DAY
X
XX
XX
XX
XX
XX
MINUTES TO ADD
MONTH
WEEK
DAY
MINUTES TO SUBTRACT
HOL.L
LOCAL HOLIDAY SCHEDULES
HOLIDAY START MONTH
HD.01 through HD.30
Range 0 – 12
ENTER
MON
DAY
LEN
XX
XX
START DAY
Range 0 – 31
XX
XX
DURATION (DAYS)
Range 0 - 99
SCH.N
SCH.L
SCHEDULE NUMBER
Default: 1, Range 1 – 99
LOCAL OCCUPANCY SCHEDULE
ENTER
ENTER
PER.1
OCCUPANCY PERIOD 1*
PERIOD OCCUPIED TIME
PERIOD UNOCCUPIED TIME
MONDAY IN PERIOD
OCC.1
UNC.1
MON.1
TUE.1
WED.1
THU.1
FRI.1
XX:XX
XX.XX
Military (00:00 – 23:59)
Military (00:00 – 23:59)
YES/NO
YES/NO
YES/NO
YES/NO
YES/NO
YES/NO
YES/NO
YES/NO
TUESDAY IN PERIOD
WEDNESDAY IN PERIOD
THURSDAY IN PERIOD
FRIDAY IN PERIOD
SAT.1
SATURDAY IN PERIOD
SUNDAY IN PERIOD
SUN.1
HOL.1
HOLIDAY IN PERIOD
OVR
SCHEDULE OVERRIDE
ENTER
OVR.T
OVR.L
T.OVR
X
X
TIMED OVERRIDE HOURS
Default: 0, Range 0-4 hours
Default: 0, Range 0-4 hours
User Entry
OVERRIDE TIME LIMIT
TIMED OVERRIDE
YES/NO
* Repeats for Occupancy Periods 2 through 8.
11
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Table 12 — Operating Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
MODE
ITEM
DISPLAY
COMMENT
EXPANSION
MODES CONTROLLING UNIT
ENTER
MD01
MD03
MD05
MD06
MD07
MD09
MD10
MD13
MD14
MD15
MD16
MD17
MD18
MD19
MD20
MD21
MD23
MD24
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
ON/OFF
CSM CONTROLLING CHILLER
MASTER/SLAVE CONTROL
RAMP LOAD LIMITED
TIMED OVERRIDE IN EFFECT
LOW COOLER SUCTION TEMPA
SLOW CHANGE OVERRIDE
MINIMUM OFF TIME ACTIVE
DUAL SETPOINT
TEMPERATURE RESET
DEMAND LIMITED
COOLER FREEZE PROTECTION
LOW TEMPERATURE COOLING
HIGH TEMPERATURE COOLING
MAKING ICE
STORING ICE
HIGH SCT CIRCUIT A
MINIMUM COMP ON TIME
PUMP OFF DELAY TIME
LEGEND
CSM
SCT
WSM
—
—
—
Chillervisor System Manager
Saturated Condensing Temperature
Water System Manager
Table 13 — Alarms Mode and Sub-Mode Directory
KEYPAD
ENTRY
ITEM
SUB-MODE
CRNT
ITEM
COMMENT
EXPANSION
Alarms are shown as AXXX.
Alerts are shown as TXXX.
ENTER
ENTER
ENTER
AXXX OR TXXX
YES/NO
CURRENTLY ACTIVE ALARMS
RESET ALL CURRENT ALARMS
ALARM HISTORY
RCRN
HIST
Alarms are shown as AXXX.
Alerts are shown as TXXX.
AXXX OR TXXX
12
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Table 14 — Operating Modes
MODE
NO.
ITEM EXPANSION
DESCRIPTION
01
03
CSM CONTROLLING CHILLER
MASTER/SLAVE CONTROL
RAMP LOAD LIMITED
Chillervisor System Manager (CSM) is controlling the chiller.
Dual Chiller control is enabled.
Rampload(pull-down)limitingineffect.Inthismode,therateatwhichleavingfluidtemperature
isdroppedislimitedtoapredeterminedvaluetopreventcompressoroverloading.SeeCooling
Ramp Loading (ConfigurationSLCTCRMP). The pull-down limit can be modified, if
desired, to any rate from 0.2° F to 2° F (0.1° to 1° C)/minute.
05
06
TIMED OVERRIDE IN EFFECT
LOW COOLER SUCTION TEMPA
Timed override is in effect. This is a 1 to 4 hour temporary override of the programmed
schedule, forcing unit to Occupied mode. Override can be implemented with unit under
Local (Enable) or CCN (Carrier Comfort Network®) control. Override expires after each use.
Circuit A cooler Freeze Protection mode. At least one compressor must be on, and the Sat-
urated Suction Temperature is not increasing greater than 1.1° F (0.6° C) in 10 seconds. If
the saturated suction temperature is less than the Brine Freeze Point (Set PointsFRZ
BR.FZ) minus 6° F (3.4° C) and less than the leaving fluid temperature minus 14° F
(7.8° C) for 2 minutes, a stage of capacity will be removed from the circuit. Or, If the satu-
rated suction temperature is less than the Brine Freeze Point minus 14° F (7.8° C), for
90 seconds, a stage of capacity will be removed from the circuit. The control will continue to
decrease capacity as long as either condition exists.
07
SLOW CHANGE OVERRIDE
Slow change override is in effect. The leaving fluid temperature is close to and moving
towards the control point.
09
10
MINIMUM OFF TIME ACTIVE
DUAL SETPOINT
Chiller is being held off by Minutes Off Time (ConfigurationOPT2DELY).
Dual Set Point mode is in effect. Chiller controls to Cooling Set Point 1 (Set PointsCOOL
CSP.1) during occupied periods and Cooling Set Point 2 (Set PointsCOOLCSP.2)
during unoccupied periods.
13
TEMPERATURE RESET
DEMAND LIMITED
Temperature reset is in effect. In this mode, chiller is using temperature reset to adjust leav-
ing fluid set point upward and is currently controlling to the modified set point. The set point
can be modified based on return fluid, outdoor-air-temperature, space temperature, or 4 to
20 mA signal.
14
Demand limit is in effect. This indicates that the capacity of the chiller is being limited by
demand limit control option. Because of this limitation, the chiller may not be able to pro-
duce the desired leaving fluid temperature. Demand limit can be controlled by switch inputs
or a 4 to 20 mA signal.
15
COOLER FREEZE PROTECTION
LOW TEMPERATURE COOLING
HIGH TEMPERATURE COOLING
Cooler fluid temperatures are approaching the Freeze point (see Alarms and Alerts section
for definition). The chiller will be shut down when either fluid temperature falls below the
Freeze point.
16
17
18
Chiller is in Cooling mode and the rate of change of the leaving fluid is negative and
decreasing faster than -0.5° F per minute. Error between leaving fluid and control point
exceeds fixed amount. Control will automatically unload the chiller if necessary.
Chiller is in Cooling mode and the rate of change of the leaving fluid is positive and increasing.
Error between leaving fluid and control point exceeds fixed amount. Control will automatically
load the chiller if necessary to better match the increasing load.
MAKING ICE
STORING ICE
Chiller is in an unoccupied mode and is using Cooling Set Point 3 (Set PointsCOOL
19
20
CSP.3) to make ice. The ice done input to the Energy Management Module (EMM) is open.
ChillerisinanunoccupiedmodeandiscontrollingtoCoolingSetPoint2(SetPointsCOOL
CSP.2). The ice done input to the Energy Management Module (EMM) is closed.
HIGH SCT CIRCUIT A
Chiller is in a Cooling mode and the Saturated Condensing Temperature (SCT) is greater than
the calculated maximum limit. No additional stages of capacity will be added. Chiller capacity
may be reduced if SCT continues to rise to avoid high-pressure switch trips by reducing con-
densing temperature.
21
MINIMUM COMP ON TIME
PUMP OFF DELAY TIME
Cooling load may be satisfied, however control continues to operate compressor to ensure
proper oil return. May be an indication of oversized application, low fluid flow rate or low loop
volume.
23
24
Cooling load is satisfied, however cooler pump continues to run for the number of minutes set
by the configuration variable Cooler Pump Shutdown Delay (ConfigurationOPT1
PM.DY).
13
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the main base board (MBB) is supplied with the current soft-
ware. If necessary, reload current software. If the problem still
persists, replace the MBB. A red LED that is lit continuously or
blinking at a rate of once per second or faster indicates that the
board should be replaced.
GREEN LED — The MBB has one green LED. The Local
Equipment Network (LEN) LED should always be blinking
whenever power is on. All other boards have a LEN LED
which should be blinking whenever power is on. Check LEN
connections for potential communication errors at the board J3
and/or J4 connectors. Communication between modules is
accomplished by a 3-wire sensor bus. These 3 wires run in
parallel from module to module. The J4 connector on the MBB
provides both power and communication directly to the
marquee display only.
CONTROLS
General — The 30MP liquid scroll chillers contain the
ComfortLink™ electronic control system that controls and
monitors all operations of the chiller.
The control system is composed of several components as
listed in the sections below. See Fig. 3 for a typical control box
drawing. See Fig. 4 and 5 for control schematics.
Main Base Board (MBB) — See Fig. 6. The MBB is
the heart of the ComfortLink control system. It contains the
major portion of operating software and controls the operation
of the machine. The MBB continuously monitors input/output
channel information received from its inputs and from all other
modules. The MBB receives inputs from the discharge and
suction pressure transducers and thermistors. See Table 15. The
MBB also receives the feedback inputs from each compressor
current sensor board and other status switches. See Table 16.
The MBB also controls several outputs. Relay outputs con-
trolled by the MBB are shown in Table 17. Information is
transmitted between modules via a 3-wire communication bus
or LEN (Local Equipment Network). The CCN (Carrier Com-
fort Network) bus is also supported. Connections to both LEN
and CCN buses are made at the LVT (low voltage terminal).
YELLOW LED — The MBB has one yellow LED. The
Carrier Comfort Network (CCN) LED will blink during times
of network communication.
Carrier Comfort Network® (CCN) Interface —
The 30MP chiller units can be connected to the CCN if
desired. The communication bus wiring is a shielded,
3-conductor cable with drain wire and is supplied and installed
in the field. See Table 18. The system elements are connected
to the communication bus in a daisy chain arrangement. The
positive pin of each system element communication connector
must be wired to the positive pins of the system elements on
either side of it. This is also required for the negative and
signal ground pins of each system element. Wiring connections
for CCN should be made at LVT. Consult the CCN Contrac-
tor’s Manual for further information.
NOTE: Conductors and drain wire must be 20 AWG (Ameri-
can Wire Gage) minimum stranded, tinned copper. Individual
conductors must be insulated with PVC, PVC/nylon, vinyl,
Teflon, or polyethylene. An aluminum/polyester 100% foil
shield and an outer jacket of PVC, PVC/nylon, chrome vinyl,
or Teflon with a minimum operating temperature range of
–20 C to 60 C is required. Wire manufactured by Alpha (2413
or 5463), American (A22503), Belden (8772), or Columbia
(02525) meets the above mentioned requirements.
It is important when connecting to a CCN communication
bus that a color coding scheme be used for the entire network
to simplify the installation. It is recommended that red be used
for the signal positive, black for the signal negative, and white
for the signal ground. Use a similar scheme for cables contain-
ing different colored wires.
At each system element, the shields of its communication
bus cables must be tied together. If the communication bus is
entirely within one building, the resulting continuous shield
must be connected to a ground at one point only. If the commu-
nication bus cable exits from one building and enters another,
the shields must be connected to grounds at the lightning
suppressor in each building where the cable enters or exits the
building (one point per building only). To connect the unit to
the network:
Energy Management Module (EMM) — The EMM
module is available as a factory-installed option or as a field-
installed accessory. The EMM module receives 4 to 20 mA
inputs for the leaving fluid temperature reset, cooling set point
and demand limit functions. The EMM module also receives
the switch inputs for the field-installed 2-stage demand limit
and ice done functions. The EMM module communicates the
status of all inputs with the MBB, and the MBB adjusts the
control point, capacity limit, and other functions according to
the inputs received.
Current Sensor Board (CSB) — The CSB is used to
monitor the status of the compressors by measuring current and
providing an analog input to the main base board (MBB).
Enable/Off/Remote Contact Switch — The Enable/
Off/Remote Contact switch is a 3-position switch used to
control the chiller. When switched to the Enable position the
chiller is under its own control. Move the switch to the Off
position to shut the chiller down. Move the switch to the
Remote Contact position and a field-installed dry contact can
be used to start the chiller. The contacts must be capable of
handling a 24 vac, 50-mA load. In the Enable and Remote
Contact (dry contacts closed) positions, the chiller is allowed to
operate and respond to the scheduling configuration, CCN
configuration and set point data. See Fig. 7.
Emergency On/Off Switch — The Emergency On/Off
switch should only be used when it is required to shut the
chiller off immediately. Power to the MBB, EMM, and
marquee display is interrupted when this switch is off and all
outputs from these modules will be turned off. See Fig. 7.
Board Addresses — The main base board (MBB) has a
3-position instance jumper that must be set to ‘1.’ The EMM
board has 4-position DIP switches. All switches are set to ‘On’
for all boards except the AUX2 board. The AUX2 board DIP
switch settings are shown on the wiring schematic.
1. Turn off power to the control box.
2. Cut the CCN wire and strip the ends of the red (+), white
(ground), and black (–) conductors. (Substitute appropri-
ate colors for different colored cables.)
3. Connect the red wire to (+) terminal on LVT of the plug,
the white wire to COM terminal, and the black wire to the
(–) terminal.
4. The RJ14 CCN connector on LVT can also be used, but is
only intended for temporary connection (for example, a
laptop computer running Service Tool).
Control Module Communication
RED LED — Proper operation of the control boards can be
visually checked by looking at the red status LEDs
(light-emitting diodes). When operating correctly, the red status
LEDs should be blinking in unison at a rate of once every
2 seconds. If the red LEDs are not blinking in unison, verify
that correct power is being supplied to all modules. Be sure that
14
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LEGEND FOR FIG. 3-5
ALMR
AUX
C
— Alarm Relay
— Auxilliary
— Contactor, Compressor
— Circuit Breaker
CB
CCB
CH
CCH
COMP
CR
— Compressor Circuit Breaker
— Crankcase Heater
— Crankcase Heater Relay
— Compressor
— Control Relay
CSB
CWFS
CWP
DGS
DPT
DTT
DUS
EMM
EWT
FB
— Current Sensor Board
— Chilled Water Flow Switch
— Chilled Water Pump
— Digital Scroll Compressor
— Discharge Pressure Transducer
— Discharge Temperature Thermistor
— Digital Unloader Solenoid
— Energy Management
— Entering Water Temperature
— Fuse Block
FIOP
FU
— factory Installed Option
— Fuse
GND
HPS
LLSV
LON
LVT
— Ground
— High-Pressure Switch
— Liquid Line Solenoid Valve
— Local Operating Network
— Low Voltage Terminal
— Leaving Water Temperature
— Main Base Board
LWT
MBB
MLV
MP
— Minimum Load Valve
— Modular Motor Protection
— National Electrical Code
— Outdoor-Air Thermistor
— Plug
NEC
OAT
PL
RLY
SPT
SW
— Relay
— Suction Pressure Transducer
— Switch
TB
— Terminal Block
TRAN
UPC
— Transformer
— Unitary Protocol Converter
Terminal Block
Terminal (Unmarked)
Terminal (Marked)
Splice
Factory Wiring
Field Wiring
Accessory or Option Wiring
To indicate common potential only; not to represent wiring.
15
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UPC LON
OPTION
EQUIP
GND
UPC
TB3
25242322212019181716151413121110 9
8
7
6
5
4
3
2
1
LVT
DISCONNECT
OPTION CB1A/TB1A
L1
L2
L3
CCB-3
CCB-2
CCB-1
EMM
CSB-A2
CSB-A3
CSB-A1
2
4
6
CCH
CA3
CA1
CA2
TRAN1
MBB
FB1
LOCATED OVER EMM
CB1
CB2
CB3
REMOTE
CONTROL
OFF
ON
SW1
OFF
ENABLE
SW2
Fig. 3 — Typical Control Box — 30MP015-045 Units
a30-4963
16
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TO FUSED DISCONNECT
PER NEC
TARN1
a30-4965
TO FUSED
DISCONNECT
PER NEC
17
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TRAN1
A2
B2
CB2
3.2 AMPS
SW2
C2
SECONDARY 24V
XF
X1
X2
1
RED
RED
FU3
BRN
TB3
GRN/YEL
ORN
MBB
CB1
3.2 AMPS
ORN
J10A
1
2
3
4
5
6
7
8
9
1
2
3
4
5
1
2
ORN
PNK
LVT
J12
PNK
ORN
ORN
ORN
RLY 11
GRA
1
25
3
ALMR
ALARM RELAY
SEE NOTE 7
4
TB3
1
5
BRN
BRN
BRN
X2 TRAN1
CWFS-3
PNK
2
24
6
CR
RLY 9
CWP RELAY
SEE NOTE 7
7
2
3
8
J12
6
LLSV-A
RLY 10
9
BLU
ORN
PNK
20
19
18
CR
J10B
CONDENSER FAN/PUMP RELAY
SEE NOTE 7
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
RLY 5
7
CONDENSER
WATER
VALVE
J11
1
ORN
ORN
(MPB ONLY)
RLY 6
6
7
RED
RED
GRA
BRN
BRN
3
TB3
RLY 7
8
LLSV-A
MLV-A
BRN
9
(MPA AND BRINE ONLY)
10
BLU
ORN
GRA
VIO
GRA
C2 CA3
MLV-A
RLY 8
RLY 1
RLY 2
RLY 3
RLY 4
BLU
ORN
GRA
VIO
C1 CCH C2
(MPA ONLY)
BRN
BRN
HPS-A
11
12
BLK
BLK
BLK
PNK
PL1-1
PL1-2
MP-A1
VIO
VIO
BRN
BRN
PL1-4
PL2-4
M1
M2
C1 CA1 C2
SEE NOTE 11
PL2-1
13
14
VIO
PL2-2
M2 VIO
BLK
MP-A2
VIO M1
BRN
BRN
PL2-4
PL3-4
C1
CA2
C2
15
SEE NOTE 11
PL3-1
VIO
PL3-2
VIO
MP-A3
16
17
18
VIO
C2 CCH
M1
M2
C1 CA3 C2
BRN
BRN
SEE NOTE 11
VIO
(040,045 ONLY)
PL3-4
GRA
GRA
BRN
BRN
BRN
LLSV-A
MLV-A
C2 CCH
MLV FIOP
BLK
PNK
1
3
PNK
PNK
PNK
PNK
BRN
BLU
BRN
BRN
BRN
2
CWFS
TB3
LVT
6
5
4
3
2
1
6
5
4
3
2
1
J11
2
SEE NOTE
8
PL1-3
RED
PL1-4
BRN
17
T2 MP-A1 T1
C2 CA1
J6
SEE NOTE
9
3
4
5
6
7
8
9
RED
PL2-3
RED
PL2-4
BRN
CWPI
T2 MP-A2 T1
BRN
BRN
C2 CA1
C2 CA2
(SEE
NOTE
12)
SEE NOTE 10
PL3-3
RED
PL3-4
BRN
CWFS
4
2
C2 CA2
C2 CA3
T2 MP-A3 T1
BRN
BRN
10
1
2
3
4
5
6
1
2
3
4
5
6
MARQUEE
DISPLAY
16
15
14
BLK
WHT
10
9
RED
WHT
BLK
RED
WHT
BLK
1
2
3
4
5
6
1
2
3
4
5
6
9
8
7
6
5
4
VIO
J4
J3
RED
BRN
BRN
RED
RED
8
REMOTE
ON-OFF
SWITCH
(SEE
SW1
ENABLE
A1
B1
1
2
3
4
RED
WHT
BLK
1
2
3
4
RED
7
OFF
ORN
NOTE 5)
C1
6
13
12
J7
1
MAIN
BASE
1
2
3
4
5
6
7
8
9
10
5
2
DUAL
SETPOINT
3
AUX2
4
BLU
BLU
VIO
4
11
12
13
14
6
5
4
3
2
1
BOARD
RED
ORN
BRN
RED
ORN
BRN
RED
ORN
BRN
2
3
1
2
3
1
2
3
1
-
G
+
-
G
+
3
2
1
3
2
1
5
CSB
A2
CNPI
CNFS
6
7
8
3
2
1
DUS
DTT
-
7
8
VIO
BRN
3
7
J9
J9
J2
J6
CH1
BLK
8
CSB
A3
(040,045 ONLY)
WHT
RED
9
DGS
FIOP
2
11
1
2
10
11
12
CH11
-
1
2
RED
BLK
10
11
12
CSB
A1
1
ON
OFF
1
DARK
2
3
=
4
5
6
7
8
CONDENSER EWT
ACCESSORY
1
2
3
4
5
6
1
2
3
4
1
2
3
4
1
2
3
4
5
6
7
SWITCH LOCATION
1
2
CONDENSER LWT
ACCESSORY
3
T-55
ACCSY
LVT
SEN
LVT
4
J12
T55
LVT
J10
5
BLU
3
23
1
J13
10
9
1
2
GRA
17
16
15
14
13
12
11
1
2
3
4
5
6
BRN
10
9
4
3
2
1
6
VIO
RED
4
5
22
21
2
1
2
3
4
5
6
7
8
BLK
4
3
2
1
EMM
GRA
RED
RED
BLU
BLU
RED
3
ICE DONE
8
WHT
RED
BRN
RED
BLK
WHT
RED
7
BLK
WHT
RED
3
8
J3
J4
4
7
RED
WHT
4
8
BLK
WHT
RED
7
OAT ACCESSORY OR
DUAL CHILLER LWT
5
DLS STEP
DLS STEP
1
2
6
RGTA
ACCESSORY
5
6
9
6
5
J5
6
5
7
BLK
4
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
7
4
8
3
4
3
2
1
COOLER ENTERING
FLUID TEMP
J7
J6
RED
8
BLK
WHT
RED
3
4
3
2
1
9
2
9
2
BLK
WHT
RED
J1
BLK
RED
10
11
12
13
14
1
10
11
12
13
14
1
COOLER LEAVING
FLUID TEMP
J8
BLK
10
9
8
7
6
5
4
3
2
1
FIOP/
ACCESSORY
DEMAND
LIMIT
4-20mA
UPC
7
8
+
-
1
PORT
2
1
2
2
RED
BLK
1
NET
+
-
LON
OPTION
VIO
BRN
3
2
3
4
5
NET
N/C
N/C
3
J3 GND
NET
4
TEMP
RESET
4-20mA
4
9
+
-
5
5
ORN
PNK
J4
1
WHT
SIGNAL
B
6
RED
6
+
7
PORT 1A
2
8
C
A
COOLING
SETPOINT
4-20mA
7
10
+
-
DPTA
GRN
BLK
1
2
3
NET
NET
+
2
8
8
9
-
9
9
SHIELD
UPC OPT
10
10
11
12
B
C
A
RED
10
11
12
+
11
12
SPTA
GRN
BLK
-
a30-4966
Fig. 5 — Typical Control Wiring Schematic — 30MP015-045 Units
18
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RGTA, CNDE, CNDL, EWT, LWT, and OAT are identical in
temperature versus resistance and voltage drop performance.
The dual chiller thermistor (DLWT) is 5 kat 77 F (25 C)
thermistor. Space temperature thermistor (SPT) is a 10 kat
77 F (25 C). See Thermistors section for temperature-resis-
tance-voltage drop characteristics.
COOLER LEAVING FLUID SENSOR (LWT) — The thermis-
tor is installed in a well in the factory-installed leaving fluid
piping coming from the bottom of the brazed-plate heat
exchanger.
COOLER ENTERING FLUID SENSOR (EWT) —The therm-
istor is installed in a well in the factory-installed entering fluid
piping coming from the top of the brazed-plate heat exchanger.
CONDENSER LEAVING FLUID SENSOR (CNDL) — The
thermistor is installed in a well in the factory-installed leaving
fluid piping coming from the bottom of the brazed-plate heat
exchanger.
IMPORTANT: A shorted CCN bus cable will prevent some
routines from running and may prevent the unit from start-
ing. If abnormal conditions occur, unplug the connector. If
conditions return to normal, check the CCN connector and
cable. Run new cable if necessary. A short in one section of
the bus can cause problems with all system elements on the
bus.
Table 15 — Thermistor Designations
PIN
THERMISTOR CONNECTION
POINT
THERMISTOR INPUT
CLWT
CEWT
J8-13,14 (MBB) Cooler Leaving Fluid
J8-11,12 (MBB) Cooler Entering Fluid
J8-9,10 (MBB)
Circuit A Return Gas
Temperature (accessory)
RGTA
J8-6,7 (MBB),
LVT 4,13
Outdoor-Air Temperature
Sensor (accessory) or Dual
LWT Sensor
OAT
COOLER ENTERING FLUID SENSOR (CNDE) —The therm-
istor is installed in a well in the factory-installed entering fluid
piping coming from the top of the brazed-plate heat exchanger.
J8-5,6 (MBB)
LVT-3,4
Accessory Remote Space
Temperature Sensor
SPT
COMPRESSOR RETURN GAS TEMPERATURE SEN-
SOR (RGTA) — This accessory thermistor can be installed in
a well located in the suction line.
OUTDOOR-AIR TEMPERATURE SENSOR (OAT) —
This sensor is an accessory that is remotely mounted and used
for outdoor air temperature reset. See Table 15.
J8-1,2
Condenser Entering Water
Temperature Sensor
Condenser Leaving Water
Temperature Sensor
CNDE
CNDL
J8-3,4
LEGEND
LWT — Leaving Water Temperature
MBB — Main Base Board
DUAL LEAVING WATER TEMPERATURE SENSOR
(DLWT) — This input can be connected to the LVT. See Ta-
ble 15. For dual chiller applications (parallel only are support-
ed), connect the dual chiller leaving fluid temperature sensor
(5 kthermistor, Carrier part no. HH79NZ029) to the outside
air temperature input of the Master chiller. If outside air tem-
perature is required for reset applications, connect the sensor to
the Slave chiller and configure the slave chiller to broadcast the
value to the Master chiller.
REMOTE SPACE TEMPERATURE SENSOR (SPT) —
The sensor (part no. 33ZCT55SPT) is an accessory sensor that
is remotely mounted in the controlled space and used for space
temperature reset. The sensor should be installed as a wall-
mounted thermostat would be (in the conditioned space where
it will not be subjected to either a cooling or heating source or
direct exposure to sunlight, and 4 to 5 ft above the floor).
Table 16 — Status Inputs
STATUS SWITCH
Condenser Flow Switch
Dual Set Point
PIN CONNECTION POINT
LVT-11,17, J7-2, J6-2
LVT-12,13, J7-3,4
LVT-14,15
LVT-16,17, J6-2, J7-10
J9-11,12
Remote On/Off
Cooler Flow Switch Interlock
Compressor Fault Signal, A1
Compressor Fault Signal, A2
Compressor Fault Signal, A3
J9-5,6
J9-8,9
Table 17 — Output Relays
RELAY
NO.
DESCRIPTION
Energize Compressor A1
Energize Compressor A2
Energize Compressor A3
Energize Minimum Load Valve
Water Valve Open
Water Valve Close
Liquid Line Solenoid Valve
Crankcase Heater Relay (30MPA Only)
Chilled Water Pump
Condenser Fan/Pump
Alarm Relay
Space temperature sensor wires are to be connected to
terminals in the unit main control box. The space temperature
sensor includes a terminal block (SEN) and a RJ11 female
connector. The RJ11 connector is used access into the Carrier
Comfort Network® (CCN) at the sensor.
K1
K2
K3
K4
K5
K6
K7
K8
K9
K10
K11
To connect the space temperature sensor (Fig. 8):
1. Using a 20 AWG twisted pair conductor cable rated for
the application, connect 1 wire of the twisted pair to one
SEN terminal and connect the other wire to the other
SEN terminal located under the cover of the space
temperature sensor.
2. Connect the other ends of the wires to terminals 3 and 4
on LVT located in the unit control box.
Units on the CCN can be monitored from the space at the
sensor through the RJ11 connector, if desired. To wire the RJ11
connector into the CCN (Fig. 9):
Table 18 — CCN Communication Bus Wiring
PART NO.
MANUFACTURER
Regular Wiring
1895
Plenum Wiring
Alpha
American
Belden
Columbia
Manhattan
Quabik
—
A48301
884421
—
IMPORTANT: The cable selected for the RJ11 connector
wiring MUST be identical to the CCN communication bus
wire used for the entire network. Refer to Table 18 for
acceptable wiring.
A21451
8205
D6451
M13402
6130
M64430
—
1. Cut the CCN wire and strip ends of the red (+), white
(ground), and black (–) conductors. (If another wire color
scheme is used, strip ends of appropriate wires.)
Sensors — The electronic control uses 2 to 7 thermistors to
sense temperatures for controlling chiller operation. See
Table 15. These sensors are outlined below. Thermistors
19
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RED LED - STATUS
GREEN LED -
LEN (LOCAL EQUIPMENT NETWORK)
YELLOW LED -
CCN (CARRIER COMFORT NETWORK)
INSTANCE JUMPER
CEPL130346-01
K11
K10
K9
K5
K8
K6
K7
J1
STATUS
J2
J3
J10
LEN
J4
K1
K4
K3
K2
CCN
J5
J6
J7
J8
J9
Fig. 6 — Main Base Board
a30-4967
Fig. 7 — Enable/Off/Remote Contact Switch, and Emergency On/Off Switch Locations
T-55 SPACE
SENSOR
a30-4968
SPT (T10) PART NO. 33ZCT55SPT
SENSOR
6
5
4
3
2
1
CCN+
LVT
TO CCN
CCN GND
SEN
SEN
COMM 1
BUS (PLUG)
AT UNIT
3
CCN-
4
Fig. 8 — Typical Space Temperature
Sensor Wiring
Fig. 9 — CCN Communications Bus Wiring
to Optional Space Sensor RJ11 Connector
20
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2. Insert and secure the red (+) wire to terminal 5 of the
space temperature sensor terminal block.
3. Insert and secure the white (ground) wire to terminal 4 of
the space temperature sensor.
4. Insert and secure the black (–) wire to terminal 2 of the
space temperature sensor.
5. Connect the other end of the communication bus cable to
the remainder of the CCN communication bus.
stages. The chilled fluid temperature set point can be automati-
cally reset by the return fluid temperature, space, or outdoor-air
temperature reset features. It can also be reset from an external
4 to 20-mA signal (requires energy management module FIOP
or accessory).
The capacity control algorithm runs every 30 seconds. The
algorithm attempts to maintain the Control Point at the desired
set point. Each time it runs, the control reads the entering and
leaving fluid temperatures. The control determines the rate at
which conditions are changing and calculates 2 variables based
on these conditions. Next, a capacity ratio is calculated using
the 2 variables to determine whether or not to make any
changes to the current stages of capacity. This ratio value
ranges from –100 to +100%. If the next stage of capacity is a
compressor, the control starts (stops) a compressor when the
ratio reaches +100% (–100%). If installed, the minimum load
valve solenoid will be energized with the first stage of capacity.
Minimum load valve value is a fixed 30% in the total capacity
calculation. The control will also use the minimum load valve
solenoid as the last stage of capacity before turning off the last
compressor. A delay of 90 seconds occurs after each capacity
step change. Refer to Table 19.
MINUTES LEFT FOR START — This value is displayed
only in the network display tables (using Service Tool,
ComfortVIEW™ or ComfortWORKS® software) and
represents the amount of time to elapse before the unit will start
its initialization routine. This value can be zero without the
machine running in many situations. This can include being
unoccupied, ENABLE/OFF/REMOTE CONTACT switch in
the OFF position, CCN not allowing unit to start, Demand
Limit in effect, no call for cooling due to no load, and alarm or
alert conditions present. If the machine should be running and
none of the above are true, a minimum off time (DELY, see
below) may be in effect. The machine should start normally
once the time limit has expired.
Energy Management Module (Fig. 10) — This
factory-installed option (FIOP) or field-installed accessory is
used for the following types of temperature reset, demand
limit, and/or ice features:
•
•
•
4 to 20 mA leaving fluid temperature reset (requires
field-supplied 4 to 20 mA generator)
4 to 20 mA cooling set point reset (requires field-
supplied 4 to 20 mA generator)
Discrete inputs for 2-step demand limit (requires field-
supplied dry contacts capable of handling a 24 vac,
50 mA load)
4 to 20 mA demand limit (requires field-supplied 4 to
20 mA generator)
•
•
Discrete input for Ice Done switch (requires field-
supplied dry contacts capable of handling a 24 vac,
50 mA load)
See Demand Limit and Temperature Reset sections on
pages 27 and 31 for further details.
CAUTION
Care should be taken when interfacing with other manufac-
turer’s control systems due to possible power supply
differences, full wave bridge versus half wave rectification.
The two different power supplies cannot be mixed.
ComfortLink™ controls use half wave rectification. A
signal isolation device should be utilized if a full wave
bridge signal generating device is used.
MINUTES
OFF
TIME
(ConfigurationOPT2
DELY) — This user-configurable time period is used by the
control to determine how long unit operation is delayed after
power is applied/restored to the unit. Typically, this time period
is configured when multiple machines are located on a single
site. For example, this gives the user the ability to prevent all
the units from restarting at once after a power failure. A value
of zero for this variable does not mean that the unit should be
running.
Loss-of-Cooler Flow Protection —
A
proof-of-
cooler flow device is factory installed in all chillers.
Condenser Flow Protection — A proof-of-condens-
er flow protection accessory can be field installed in the con-
denser water piping of all chillers. The unit must be configured
for the input to be enabled.
LEAD/LAG DETERMINATION — This is a configurable
choice and is factory set to be automatic for all units unless the
unit is equipped with minimum load, then circuit A is lead
(ConfigurationOPT2 LLCS). The value can be changed
to Circuit A or Circuit B leading as desired. Set at automatic,
the control will sum the current number of logged circuit starts
and one-quarter of the current operating hours for each circuit.
The circuit with the lowest sum is started first. Changes to
which circuit is the lead circuit and which is the lag are also
made when total machine capacity is at 100% or when there is
a change in the direction of capacity (increase or decrease) and
each circuit’s capacity is equal.
Thermostatic Expansion Valves (TXV) — All
units are equipped from the factory with conventional TXVs.
The 30MPA units and 30MPW units with medium temperature
brine also have factory-installed liquid line solenoids. The liq-
uid line solenoid valves are not intended to be a mechanical
shut-off. For 30MPW units, when service is required, reclaim
the refrigerant from the system.
For 30MPA units when service is required, the compressor
and evaporator can be serviced by closing the factory-installed
liquid line service valve and field-installed discharge line ser-
vice valve. After the valves are closed, reclaim the refrigerant
from the system.
The TXV is set at the factory to maintain approximately 8 to
12° F (4.4 to 6.7° C) suction superheat leaving the cooler by
monitoring the proper amount of refrigerant into the cooler. All
TXVs are adjustable, but should not be adjusted unless abso-
lutely necessary.
CAPACITY CONTROL OVERRIDES — The following over-
rides will modify the normal operation of the routine.
Deadband Multiplier — The user configurable Deadband
Multiplier (ConfigurationSLCTZ.GN) has a default
value of 1.0. The range is from 1.0 to 4.0. When set to other
than 1.0, this factor is applied to the capacity Load/Unload
Factor. The larger this value is set, the longer the control will
delay between adding or removing stages of capacity. Figure
11 shows how compressor starts can be reduced over time if
the leaving water temperature is allowed to drift a larger
amount above and below the set point. This value should be set
in the range of 3.0 to 4.0 for systems with small loop volumes.
Figure 12 shows the operating envelope for the compressor.
Capacity Control — The control system cycles com-
pressors, digital scroll modulting solenoid (if equipped), and
minimum load valve solenoids (if equipped) to maintain the
user-configured leaving chilled fluid temperature set point. En-
tering fluid temperature is used by the main base board (MBB)
to determine the temperature drop across the cooler and is used
in determining the optimum time to add or subtract capacity
21
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First Stage Override — If the current capacity stage is zero,
the control will modify the routine with a 1.2 factor on adding
the first stage to reduce cycling. This factor is also applied
when the control is attempting to remove the last stage of
capacity.
Slow Change Override — The control prevents the capacity
stages from being changed when the leaving fluid temperature
is close to the set point (within an adjustable deadband) and
moving towards the set point.
CEBD430351-0396-01C
J1
J2
LEN
J4
J3
STATUS
J5
J7
J6
TEST 2
GREEN LED -
LEN (LOCAL EQUIPMENT NETWORK)
ADDRESS
DIP SWITCH
RED LED - STATUS
Fig. 10 — Energy Management Module
Table 19 — Part Load Data Percent Displacement, Standard Units with Minimum Load Valve
CONTROL
STEPS
CAPACITY STEPS
(% Displacement)
30MP UNIT SIZE
015
1
2
3
18*
50
100
1
2
3
1
2
3
25*
50
020
030
100
34*
50
100
1
2
3
4
21*
33
040
67
100
1
2
3
4
22*
33
045
67
100
*Hot gas bypass (minimum load) valve energized.
NOTE: These capacity steps may vary due to different capacity
staging sequences.
22
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2 STARTS
DEADBAND EXAMPLE
47
46
45
8
7
6
5
44
43
42
41
0
200
400
600
800
1000
3 STARTS
TIME (SECONDS)
STANDARD
DEADBAND
LEGEND
LWT — Leaving Water Temperature
MODIFIED
DEADBAND
Fig. 11 — Deadband Multiplier
170
160
150
140
130
120
110
100
90
80
70
60
50
40
30
-30
-20
-10
0
10
20
30
40
50
60
70
80
SST (F)
LEGEND
a30-4969
SCT — Saturated Condensing Temperature
SST
—
Saturated Suction Temperature
Fig. 12 — Operating Envelope for R-410A Compressor
Ramp Loading
—
Ramp
loading
(Configura-
may be used as needed to obtain leaving fluid temperature
close to set point.
tionSLCTCRMP) limits the rate of change of leaving
fluid temperature. If the unit is in a Cooling mode and config-
ured for Ramp Loading, the control makes 2 comparisons be-
fore deciding to change stages of capacity. The control calcu-
lates a temperature difference between the control point and
leaving fluid temperature. If the difference is greater than 4° F
(2.2° C) and the rate of change (°F or °C per minute) is more
than the configured Cooling Ramp Loading value (CRMP),
the control does not allow any changes to the current stage of
capacity.
Cooler Freeze Protection — The control will try to prevent
shutting the chiller down on a Cooler Freeze Protection alarm
by removing stages of capacity. If the cooler fluid selected
is Water, the freeze point is 34 F (1.1 C). If the cooler fluid
selected is Brine, the freeze point is the Brine Freeze Point (Set
PointsFRZBR.FZ). This alarm condition (A207) only
references leaving fluid temperature and NOT Brine Freeze
point. If the cooler leaving fluid temperature is less than the
freeze point plus 2.0° F (1.1° C), the control will immediately
remove one stage of capacity. This can be repeated once every
30 seconds.
Low Saturated Suction Protection — The control will try to
prevent shutting a circuit down due to low saturated suction
conditions by removing stages of capacity. The circuit alert
condition (T116) compares saturated suction temperature to the
configured Brine Freeze Point (Set PointsFRZBR.FZ).
The Brine Freeze point is a user-configurable value that must
be left at 34 F (1.1 C) for 100% water systems. A lower value
Low Entering Fluid Temperature Unloading — When the
entering fluid temperature is below the control point, the
control will attempt to remove 25% of the current stages being
used. If exactly 25% cannot be removed, the control removes
an amount greater than 25% but no more than necessary. The
lowest stage will not be removed.
Hot Gas Bypass — If equipped, the hot gas bypass valve is
energized only when one compressor is running on circuit A. If
the close control feature is enabled the hot gas bypass valve
23
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may be entered for systems with brine solutions, but this value
should be set according to the freeze protection level of the
brine mixture. Failure to properly set this brine freeze point val-
ue may permanently damage the brazed plate heat exchanger.
The control will initiate Mode 7 (Circuit A) to indicate a cir-
cuit’s capacity is limited and that eventually the circuit may
shut down.
Cooling Set Point Select
SINGLE — Unit operation is based on Cooling Set Point 1
(Set PointsCOOLCSP.1).
DUAL SWITCH — Unit operation is based on Cooling Set
Point 1 (Set PointsCOOLCSP.1) when the Dual Set
Point switch contacts are open and Cooling Set Point 2 (Set
PointsCOOLCSP.2) when they are closed.
Operation of Machine Based on Control
Method and Cooling Set Point Selection Set-
tings — Machine On/Off control is determined by the
DUAL CCN OCCUPIED — Unit operation is based on
Cooling Set Point 1 (Set PointsCOOLCSP.1) during the
Occupied mode and Cooling Set Point
2
(Set
configuration of the Control Method
(Configuration
PointsCOOLCSP.2) during the Unoccupied mode as
configured under the local occupancy schedule accessible only
from CCN. Schedule Number in Table SCHEDOVR (See Ap-
pendix B) must be configured to 1. If the Schedule Number is
set to 0, the unit will operate in a continuous 24-hr Occupied
mode. Control method must be configured to 0 (switch). See
Table 20.
OPT2CTRL) and Cooling Set Point Select
(ConfigurationSLCTCLSP) variables. All units are fac-
tory configured with Cooling Set Point Select set to 0 (single
set point). With the control method set to 0, simply switching
the Enable/Off/Remote Contact switch to the Enable or
Remote Contact position (external contacts closed) will put the
chiller in an occupied state. The control mode (Run
StatusVIEWSTAT) will be 1 (OFF LOCAL) when the
switch is Off and will be 5 (ON LOCAL) when in the Enable
position or Remote Contact position with external contacts
closed.
4 TO 20 mA INPUT — Unit operation is based on an external
4 to 20 mA signal input to the Energy Management Module
(EMM).
Cooler Pump Control — The AquaSnap® 30MP ma-
chines are configured with the Cooler Pump Control (Configu-
rationOPT1CPC) = ON.
Two other control methods are available for Machine On/
Off control:
The maximum load allowed for the Chilled Water Pump
Starter is 5 VA sealed, 10 VA inrush at 24 volts. The starter coil
is powered from the chiller control system. The starter should
be wired between LVT 24 and TB3-1. If equipped, the field-in-
stalled chilled water pump starter auxiliary contacts should be
connected in series with the chilled water flow switch between
LVT 16 and LVT 17.
OCCUPANCY
SCHEDULE
(ConfigurationOPT2
CTRL = 1) — The main base board will use the operating
schedules as defined under the Time Clock mode in the scroll-
ing marquee display. These schedules are identical. The sched-
ule number must be set to 1 for local schedule.
The schedule number can be set anywhere from 65 to 99
for operation under a CCN global schedule. The Enable/Off/
Remote Contact must be in the Enable or Remote Contact posi-
tion. The control mode (Run StatusVIEWSTAT) will be
1 when the switch is Off. The control mode will be 3 when the
Enable/Off/Remote Contact switch input is On and the time of
day is during an unoccupied period. Similarly, the control
mode will be 7 when the time of day is during an occupied
period.
Ice Mode — When Ice Mode is enabled Cooling Setpoint
Select must be set to Dual Switch, Dual 7 day or Dual CCN
Occupied and the Energy Management Module (EMM) must
be installed. Unit operation is based on Cooling Setpoint 1
(CSP.1) during the Occupied mode, Ice Setpoint (CSP.3) dur-
ing the Unoccupied mode with the Ice Done contacts open and
Cooling Setpoint 2 (CSP.2) during the Unoccupied mode with
the Ice Done contacts closed. These 3 set points can be utilized
to develop your specific control strategy.
CCN SCHEDULE (ConfigurationOPT2CTRL
=
2) — An external CCN device such as Chillervisor System
Manager controls the On/Off state of the machine. This CCN
device forces the variable ‘CHIL_S_S’ between Start/Stop to
control the chiller. The control mode (Run Status
VIEWSTAT) will be 1 when the switch is Off. The con-
trol mode will be 2 when the Enable/Off/Remote Contact
switch input is On and the CHIL_S_S variable is ‘Stop.’
Similarly, the control mode will be 6 when the CHIL_S_S vari-
able is ‘Start.’
Service Test (See Table 4) — Both main power and
control circuit power must be on.
The Service Test function should be used to verify proper
operation of condenser output, compressors, minimum load
valve solenoid (if installed), cooler pump, and remote alarm re-
lay. To use the Service Test mode, the Enable/Off/Remote Con-
tact switch must be in the OFF position. Use the display keys
and Table 4 to enter the mode and display TEST. Press
Table 20 illustrates how the control method and cooling set
point select variables direct the operation of the chiller and the
set point to which it controls. The illustration also shows the
ON/OFF state of the machine for the given combinations.
twice so that OFF flashes. Enter the password if re-
ENTER
quired. Use either arrow key to change the TEST value to the
ON position and press
. Press
and the
ESCAPE
ENTER
button to enter the OUTS or COMP sub-mode.
Table 20 — Control Methods and Cooling Set Points
COOLING SET POINT SELECT (CLSP)
CONTROL
OCCUPANCY
TYPE
0
1
2
3
STATE
(CTRL)
(single)
(dual, switch)
(dual, occ)
(4 to 20 mA)
Occupied
Unoccupied
Occupied
Unoccupied
Occupied
Unoccupied
ON,CSP1
ON,CSP1
ON,CSP1
OFF
ON,CSP1
ON,CSP1
ON*
ON*
ON*
OFF
ON*
ON*
ON,CSP1
ON,CSP2
Illegal
Illegal
ON,CSP1
ON,CSP2
ON†
ON
ON†
OFF
ON†
ON†
0 (switch)
2 (Occupancy)
3 (CCN)
*Dual set point switch input used. CSP1 used when switch input is open. CSP2 used when switch input is closed.
†Cooling set point determined from 4 to 20 mA input to energy management module (EMM) to terminals TB6-3,5.
24
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Test the condenser output, cooler pump, liquid line solenoid
valve (30MPA only), crankcase heater, water valve (accesso-
ry), and alarm relay by changing the item values from OFF to
ON. These discrete outputs are then turned off if there is no
keypad activity for 10 minutes. When testing compressors,
lead compressor must be started first. All compressor outputs
can be turned on, but the control will limit the rate by staging
one compressor per minute. Minimum load valve can be tested
with the compressors on or off. The relays under the COMP
mode will stay on for 10 minutes if there is no keypad activity.
Compressors will stay on until they are turned off by the opera-
tor. The Service Test mode will remain enabled for as long as
there is one or more compressors running. All safeties are mon-
itored during this test and will turn a compressor, circuit or the
machine off if required. Any other mode or sub-mode can be
accessed, viewed, or changed during the TEST mode. The
STAT item (Run StatusVIEW) will display “0” as long as
the Service mode is enabled. The TEST sub-mode value must
be changed back to OFF before the chiller can be switched to
Enable or Remote contact for normal operation.
Configuring and Operating Dual Chiller Con-
trol — The dual chiller routine is available for the control of
two units supplying chilled fluid on a common loop. This
control algorithm is designed for parallel fluid flow arrangement
only. One chiller must be configured as the master chiller, the
other as the slave. An additional leaving fluid temperature
thermistor (Dual Chiller LWT) must be installed as shown in
Fig. 13 and 14 and connected to the master chiller. Refer to Sen-
sors section, page 19, for wiring. The CCN communication bus
must be connected between the two chillers. Connections can be
made to the CCN screw terminals on LVT. Refer to Carrier
Comfort Network® Interface section, page 14, for wiring infor-
mation. Configuration examples are shown in Tables 21 and 22.
Refer to Table 21 for dual chiller configuration. In this
example the master chiller will be configured at address 1 and
the slave chiller at address 2. The master and slave chillers
must reside on the same CCN bus (ConfigurationCCN
CCNB) but cannot have the same CCN address (Configu-
rationCCNCCNA). Both master and slave chillers must
have Lead/Lag Chiller Enable (ConfigurationRSET
LLEN) configured to ENBL. Master/Slave Select (Config-
urationRSET MSSL) must be configured to MAST for
the master chiller and SLVE for the slave. Also in this example,
the master chiller will be configured to use Lead/Lag Balance
Select (ConfigurationRSETLLBL) and Lead/Lag Bal-
ance Delta (ConfigurationRSETLLBD) to even out the
chiller run-times weekly. The Lag Start Delay (Configura-
tionRSETLLDY) feature will be set to 10 minutes. This
will prevent the lag chiller from starting until the lead chiller
has been at 100% capacity for the length of the delay time. Par-
allel configuration (ConfigurationRSETPARA) can
only be configured to YES. The variables LLBL, LLBD and
LLDY are not used by the slave chiller.
Dual chiller start/stop control is determined by configura-
tion of Control Method (ConfigurationOPT1CTRL) of
the Master chiller. The Slave chiller should always be config-
ured for CTRL=0 (Switch). If the chillers are to be controlled
by Remote Contacts, both Master and Slave chillers should be
enabled together. Two separate relays or one relay with
two sets of contacts may control the chillers. The Enable/Off/
Remote Contact switch should be in the Remote Contact
position on both the Master and Slave chillers. The Enable/Off/
Remote Contact switch should be in the Enable position for
CTRL=2 (Occupancy) or CTRL=3 (CCN Control).
Both chillers will stop if the Master chiller Enable/Off/
Remote Contact switch is in the Off position. If the Emergency
Stop switch is turned off or an alarm is generated on the Master
chiller the Slave chiller will operate in a Stand-Alone mode.
If the Emergency Stop switch is turned off or an alarm is
generated on the Slave chiller the Master chiller will operate in
a Stand-Alone mode.
Cooler Pump Sequence of Operation — At any-
time the unit is in an ON status, as defined by the one of the
following conditions, the cooler pump relay will be enabled.
1. The Enable-Off-Remote Switch in ENABLE,
(CTRL=0).
2. Enable-Off-Remote Switch in REMOTE with
a
Start-Stop remote contact closure (CTRL=0).
3. An Occupied Time Period from an Occupancy Schedule
in combination with items 1 or 2 (CTRL=2).
4. A CCN Start-Stop Command to Start in combination
with items 1 or 2 (CTRL=3).
There are certain alarm conditions and Operating Modes
that will turn the cooler pump relay ON. This sequence will de-
scribe the normal operation of the pump control algorithm.
When the unit cycles from an "On" state to an "Off' state,
the cooler pump output will remain energized for the Cooler
Pump Shutdown Delay (ConfigurationOPT1PM.DY).
This is configurable from 0 to 10 minutes. The factory default
is 1 minute. If the pump output was deenergized during the
transition period, the pump output will not be energized.
The Cooler Pump Relay will be energized when the ma-
chine is "On." The chilled water pump interlock circuit consists
of a chilled water flow switch and a field-installed chilled water
pump interlock. If the chilled water pump interlock circuit does
not close within five (5) minutes of starting, an A200 - Cooler
Flow/Interlock failed to close at Start-Up alam1 will be gener-
ated and chiller will not be allowed to start.
If the chilled water pump interlock or chilled water flow
switch opens for at least three (3) seconds after initially being
closed, an A201 - Cooler Flow 1 Interlock Contacts Opened
During Normal Operation alarm will be generated and the ma-
chine will stop.
The master chiller controls the slave chiller by changing its
Control Mode (Run StatusVIEWSTAT) and its operat-
ing setpoint or Control Point (Run StatusVIEWCT.PT).
Condenser Pump/Condenser Fan Output Con-
trol — The main base board (MBB) has the capability to
control either a condenser fan output or a condenser pump out-
put depending on the unit configuration.
If the unit is configured for Configuration
UNITTYPE = 2 (air cooled), then the output will be off as
long as capacity is equal to 0 and will be energized 5 seconds
before a compressor is started and remain energized until ca-
pacity is 0 again.
If the unit is configured for Configuration
UNITTYPE = 3 (water cooled), then the output will be used
for consenser pump control and additional configuration is re-
quired. To enable the condenser pump control use Configura-
tionOPT1DPME. The pump can be configured for no
pump control, on when occupied, and on when capacity is
greater than 0.
THERMISTOR
WIRING*
LEAVING
FLUID
MASTER
CHILLER
RETURN
FLUID
SLAVE
CHILLER
INSTALL DUAL CHILLER LWT
LEAVING FLUID TEMPERATURE
THERMISTOR (T10) HERE
*Depending on piping sizes, use either:
• HH79NZ014 sensor/10HB50106801 well (3-in. sensor/well)
• HH79NZ029 sensor/10HB50106802 well (4-in. sensor/well)
Fig. 13 — Dual Chiller Thermistor Location
25
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Table 21 — Dual Chiller Configuration (Master Chiller Example)
SUB-MODE
ITEM
KEYPAD ENTRY
DISPLAY
ITEM EXPANSION
COMMENTS
DISP
UNIT
OPT1
ENTER
ENTER
ESCAPE
CTRL
0
CONTROL METHOD
SWITCH
OPT2
CTRL
DEFAULT 0
OPT2
CCN
1
CCNA
CCNB
ENTER
CCN ADDRESS
DEFAULT 1
DEFAULT 0
CCNB
0
CCN
ENTER
CCN BUS NUMBER
ESCAPE
CCN
RSET
CRST
LLEN
DSBL
DSBL
ENBL
ENBL
LLEN
MSSL
MAST
MSSL
SLVA
0
PROCEED TO
SUBMODE RESET
RSET
ENTER
COOLING RESET TYPE
LEAD/LAG CHILLER ENABLE
15 ITEMS
SCROLLING STOPS
VALUE FLASHES
SELECT ENBL
LLEN
LLEN
MSSL
SLVA
SLVA
LLBL
ENTER
ENTER
ENTER
LEAD/LAG CHILLER ENABLE
CHANGE ACCEPTED
ESCAPE
MASTER /SLAVE SELECT
MASTER /SLAVE SELECT
ENTER
DEFAULT MAST
ESCAPE
SLAVE ADDRESS
ENTER
ENTER
SCROLLING STOPS
VALUE FLASHES
SELECT 2
0
2
ENTER
2
SLAVE ADDRESS
CHANGE ACCEPTED
ESCAPE
SLVA
LLBL
0
LEAD/LAG BALANCE SELECT
ENTER
ENTER
SCROLLING STOPS
VALUE FLASHES
0
2
SELECT 2 - Automatic
26
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Table 21 — Dual Chiller Configuration (Master Chiller Example) (cont)
SUB-MODE
ITEM
KEYPAD ENTRY
DISPLAY
ITEM EXPANSION
COMMENTS
RSET
LLBL
ENTER
2
LEAD/LAG BALANCE SELECT
CHANGE ACCEPTED
ESCAPE
LLBL
LLBD
168
LLBD
LLDY
5
LEAD/LAG BALANCE DELTA
LEAD/LAG BALANCE DELTA
LLBD
LLDY
LLDY
PARA
ENTER
DEFAULT 168
ESCAPE
LAG START DELAY
ENTER
ENTER
SCROLLING STOPS
VALUE FLASHES
SELECT 10
5
10
ENTER
ESCAPE
ESCAPE
ENTER
10
LAG START DELAY
CHANGE ACCEPTED
LLDY
RSET
YES
MASTER COMPLETE
NOTES:
1. Master Control Method (CTRL) can be configured as 0-Switch, 2-Occupancy or 3-CCN.
2. Parallel Configuration (PARA) cannot be changed.
Temperature Reset — The control system is capable of
handling leaving-fluid temperature reset based on return cooler
fluid temperature. Because the change in temperature through
the cooler is a measure of the building load, the return tempera-
ture reset is in effect an average building load reset method.
The control system is also capable of temperature reset based
on outdoor-air temperature (OAT), space temperature (SPT), or
from an externally powered 4 to 20 mA signal. Accessory sen-
sors must be used for SPT reset (33ZCT55SPT) and for OAT
reset (HH79NZ014). The energy management module (EMM)
must be used for temperature reset using a 4 to 20 mA signal.
See Tables 23 and 24.
DIMENSIONS in. (mm)
PART
NUMBER
A
B
10HB50106801
10HB50106802
3.10 (78.7)
4.10 (104.1)
1.55 (39.4)
1.28 (32.5)
A
0.505/0.495
0.61
DIA
B
6” MINIMUM
CLEARANCE FOR
THERMISTOR
REMOVAL
1/4 N.P.T.
Fig. 14 — Dual Leaving Water Thermistor Well
27
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Table 22 — Dual Chiller Configuration (Slave Chiller Example)
SUB-MODE
ITEM
KEYPAD ENTRY
DISPLAY
ITEM EXPANSION
COMMENTS
DISP
UNIT
OPT1
ENTER
CTRL
0
CONTROL METHOD
SWITCH
OPT2
CTRL
DEFAULT 0
ESCAPE
OPT2
CCN
CCNA
1
CCNA
ENTER
ENTER
CCN ADDRESS
SCROLLING STOPS
VALUE FLASHES
1
SELECT 2
(SEE NOTE 2)
2
CCN
CCNA
CCNB
ENTER
ESCAPE
ENTER
2
CCN ADDRESS
CHANGE ACCEPTED
CCN
0
DEFAULT 0
(SEE NOTE 3)
CCN BUS NUMBER
ESCAPE
CCN
RSET
CRST
LLEN
DSBL
DSBL
ENBL
ENBL
LLEN
MSSL
MAST
MAST
SLVE
SLVE
MSSL
RSET
PROCEED TO
SUBMODE RSET
RSET
ENTER
COOLING RESET TYPE
LEAD/LAG CHILLER ENABLE
15 ITEMS
SCROLLING STOPS
VALUE FLASHES
SELECT ENBL
LLEN
LLEN
MSSL
MSSL
ENTER
ENTER
ENTER
LEAD/LAG CHILLER ENABLE
MASTER /SLAVE SELECT
CHANGE ACCEPTED
ESCAPE
ENTER
ENTER
SCROLLING STOPS
VALUE FLASHES
SELECT SLVE
ENTER
ESCAPE
ESCAPE
MASTER /SLAVE SELECT
CHANGE ACCEPTED
SLAVE COMPLETE
NOTES:
1. Slave Control Method (CTRL) must be configured for 0.
2. Slave CCN Address (CCNA) must be different than Master.
3. Slave CCN Bus Number (CCNB) must be the same as Master
4. Slave does not require SLVA, LLBL, LLBD, or LLDY to be configured.
28
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Table 23 — Menu Configuration of 4 to 20 mA Cooling Set Point Control
MODE
(RED LED)
KEYPAD
ENTRY
KEYPAD
ENTRY
ITEM
EXPANSION
SUB-MODE
DISP
ITEM
DISPLAY
COMMENT
ENTER
UNIT
OPT1
OPT2
CCN
CONFIGURATION
RSET
SLCT
ENTER
ENTER
ENTER
CLSP
0
0
0
3
3
COOLING SETPOINT SELECT
Scrolling Stops
Flashing ‘0’
Select ‘3’
ENTER
Change Accepted
Table 24 — 4 to 20 mA Reset
KEYPAD
ITEM
DISPLAY
SUB-MODE
RSET
ITEM
COMMENT
ENTRY
EXPANSION
0 = no reset
1 = 4 to 20 mA input
2 = Outdoor air temp
3 = Return Fluid
COOLING RESET
ENTER
CRST
1
TYPE
4 = Space Temperature
5.0 F
(2.8 C)
DEGREES COOL
RESET
Default: 0° F (0° C) Reset at 20 mA
Range: –30 to 30 F (–16.7 to 16.7 C)
MA.DG
NOTE: The example above shows how to configure the chiller for
4 to 20 mA reset. No reset will occur at 4.0 mA input, and a 5.0 F
reset will occur at 20.0 mA. An EMM (energy management module)
is required.
RM.NO should be set to the temperature that no reset should
occur. The variable RM.F should be set to the temperature that
maximum reset is to occur. The variable RM.DG should be set
to the maximum amount of reset desired. Figures 15 and 16 are
examples of outdoor air and space temperature resets.
To use return reset, four variables must be configured. In the
Configuration mode under the sub-mode RSET, items CRST,
RT.NO, RT.F and RT.DG must be properly set. See Table 26
— Configuring Return Temperature Reset. This example pro-
vides 5.0 F (2.8 C) chilled water set point reset at 2.0 F (1.1 C)
cooler T and 0° F (0° C) reset at 10.0 F (5.6 C) cooler T. The
variable RT.NO should be set to the cooler temperature differ-
ence (T) where no chilled water temperature reset should oc-
cur. The variable RT.F should be set to the cooler temperature
difference where the maximum chilled water temperature reset
should occur. The variable RM.DG should be set to the maxi-
mum amount of reset desired.
IMPORTANT: Care should be taken when interfacing with
other control systems due to possible power supply differ-
ences: full wave bridge versus half wave rectification. Con-
nection of control devices with different power supplies
may result in permanent damage. ComfortLink™ controls
incorporate power supplies with half wave rectification. A
signal isolation device should be utilized if the signal gen-
erator incorporates a full wave bridge rectifier.
To use outdoor air or space temperature reset, four variables
must be configured. In the Configuration mode under the sub-
mode RSET, items (ConfigurationRSETCRST),
(ConfigurationRSETRM.NO),
(Configuration
RSETRM.F), and (ConfigurationRSETRT.DG)
must be properly set. See Table 25 — Configuring Outdoor Air
and Space Temperature Reset. The outdoor air reset example
provides 0° F (0° C) chilled water set point reset at 85.0 F
(29.4 C) outdoor-air temperature and 15.0 F (8.3 C) reset at
55.0 F (12.8 C) outdoor-air temperature. The space tempera-
ture reset example provides 0° F (0° C) chilled water set point
reset at 72.0 F (22.2 C) space temperature and 6.0 F (3.3 C) re-
set at 68.0 F (20.0 C) space temperature. The variable CRST
should be configured for the type of reset desired. The variable
To verify that reset is functioning correctly proceed to Run
Status mode, sub-mode VIEW, and subtract the active set point
(Run StatusVIEWSETP) from the control point (Run
StatusVIEWCTPT) to determine the degrees reset.
29
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Table 25 — Configuring Outdoor Air and Space Temperature Reset
DISPLAY
MODE
(RED LED)
KEYPAD
ENTRY
SUB-
MODE
KEYPAD
ENTRY
ITEM
EXPANSION
ITEM
COMMENT
Outdoor
Air
Space
ENTER
DISP
UNIT
OPT1
OPT2
CCN
2 = Outdoor-Air Temperature
(Connect to LVT-4,5)
4 = Space Temperature
(Connect to LVT-3,4)
CONFIGURATION
ENTER
COOLING RESET
TYPE
RSET
CRST
2
4
REMOTE - NO
RESET TEMP
Default: 125.0 F (51.7 C)
Range: 0° to125 F
RM.NO*
RM.F
85 °F
55 °F
72 °F
68 °F
REMOTE - FULL
RESET TEMP
Default: 0.0° F (-17.7 C)
Range: 0° to 125 F
Default: 0° F (0° C)
Range: –30 to 30 F
(–34.4 to -1.1 °C)
REMOTE - DEGREES
RESET
RM.DG
15 °F
6 °F
*1 item skipped in this example.
Table 26 — Configuring Return Temperature Reset
MODE
(RED LED)
KEYPAD
ENTRY
KEYPAD
ENTRY
ITEM
SUB-MODE
DISP
ITEM DISPLAY
COMMENT
EXPANSION
ENTER
ENTER
ENTER
ENTER
ENTER
TEST
TYPE
FLUD
CTRL
ON/OFF
TEST DISPLAY LEDs
UNIT TYPE
UNIT
X
X
X
OPT1
COOLER FLUID
CONTROL METHOD
OPT2
CCN
0 = No Reset
ENTER
1 = 4 to 20 mA Input (EMM required)
(Connect to EMM TB6-2,3)
CONFIGURATION
RSET
CRST
3
COOLING RESET TYPE 2 = Outdoor-Air Temperature
3 = Return Fluid
4 = Space Temperature
(Connect to TB5-5,6)
RETURN FLUID - NO
RESET TEMP
Default: 10.0 F (5.6 C)
Range: 0° to10 F COOLER T
RT.NO* 10.0 F
RETURN FLUID - FULL Default: 0 F (–17.8 C)
RT.F
2.0 F
5.0 F
RESET TEMP
Range: 0° to 30 F COOLER T
RETURN - DEGREES
RESET
Default: 0 F (0 C)
Range: –30 to 30°F (–16.7 to 16.7 C)
RT.DG
*1 item skipped in this example.
30
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Under normal operation, the chiller will maintain a constant
leaving fluid temperature approximately equal to the chilled
fluid set point. As the cooler load varies, the entering cooler
fluid will change in proportion to the load as shown in Fig. 17.
Usually the chiller size and leaving-fluid temperature set point
are selected based on a full-load condition. At part load, the flu-
id temperature set point may be colder than required. If the
leaving fluid temperature was allowed to increase at part load,
the efficiency of the machine would increase.
Return temperature reset allows for the leaving temperature
set point to be reset upward as a function of the return fluid
temperature or, in effect, the building load.
Demand Limit — Demand limit is a feature that allows
the unit capacity to be limited during periods of peak energy us-
age. There are 3 types of demand limiting that can be config-
ured. The first type is through 2-stage switch control, which will
reduce the maximum capacity to 2 user-configurable percentag-
es. The second type is by 4 to 20 mA signal input which will re-
duce the maximum capacity linearly between 100% at a 4 mA
input signal (no reduction) down to the user-configurable level
at a 20 mA input signal. The third type uses the CCN Loadshed
module and has the ability to limit the current operating capaci-
ty to maximum and further reduce the capacity if required.
LEGEND
EWT — Entering Water (Fluid) Temperature
LWT
—
Leaving Water (Fluid) Temperature
Fig. 17 — Standard Chilled Fluid
Temperature Control — No Reset
To use demand limit, select the type of demand limiting to
use. Then configure the demand limit set points based on the
type selected.
NOTE: The 2-stage switch control and 4 to 20-mA input sig-
nal types of demand limiting require the energy management
module (EMM).
DEMAND LIMIT (2-Stage Switch Controlled) — To con-
figure demand limit for 2-stage switch control set the Demand
Limit Select (ConfigurationRSETDMDC) to 1. Then
configure the 2 Demand Limit Switch points (Configura-
tionRSETDLS1) and (ConfigurationRSETDLS2)
to the desired capacity limit. See Table 27. Capacity steps are
controlled by 2 relay switch inputs field wired to LVT as shown
in Fig. 5.
For demand limit by 2-stage switch control, closing the first
stage demand limit contact will put the unit on the first demand
limit level. The unit will not exceed the percentage of capacity
entered as Demand Limit Switch 1 set point (DLS1). Closing
contacts on the second demand limit switch prevents the unit
from exceeding the capacity entered as Demand Limit Switch
2 set point. The demand limit stage that is set to the lowest de-
mand takes priority if both demand limit inputs are closed. If
the demand limit percentage does not match unit staging, the
unit will limit capacity to the closest capacity stage.
LEGEND
To disable demand limit configure DMDC to 0. See
Table 27.
LWT — Leaving Water (Fluid) Temperature
Fig. 15 — Outdoor-Air Temperature Reset
EXTERNALLY POWERED DEMAND LIMIT (4 to
20 mA Controlled) — To configure demand limit for 4 to 20
mA control set the Demand Limit Select (Configura-
tionRSETDMDC) to 2. Then configure the Demand
Limit at 20 mA (ConfigurationRSETDM20) to the
maximum loadshed value desired. Connect the output from an
externally powered 4 to 20 mA signal to terminal block LVT,
terminals 7 and 8 (+,–). Refer to the unit wiring diagram for
these connections to the optional/accessory energy manage-
ment module and terminal block. The control will reduce al-
lowable capacity to this level for the 20 mA signal. See Table
27 and Fig. 18.
CAUTION
Care should be taken when interfacing with other manufac-
turer’s control systems, due to possible power supply
differences, full wave bridge versus half wave rectification.
The two different power supplies cannot be mixed.
ComfortLink™ controls use half wave rectification. A sig-
nal isolation device should be utilized if a full wave bridge
signal generating device is used.
LEGEND
LWT — Leaving Water (Fluid) Temperature
Fig. 16 — Space Temperature Reset
31
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DEMAND LIMIT (CCN Loadshed Controlled) — To con-
figure Demand Limit for CCN Loadshed control set the De-
mand Limit Select (ConfigurationRSETDMDC) to 3.
Then configure the Loadshed Group Number (Configura-
tionRSETSHNM), Loadshed Demand Delta (Configu-
rationRSETSHDL), and Maximum Loadshed Time
(ConfigurationRSETSHTM). See Table 27.
The Loadshed Group number is established by the CCN
system designer. The ComfortLink™ controls will respond to a
Redline command from the Loadshed control. When the
Redline command is received, the current stage of capacity is
set to the maximum stages available. Should the loadshed con-
trol send a Loadshed command, the ComfortLink controls will
reduce the current stages by the value entered for Loadshed
Demand delta. The Maximum Loadshed Time is the maximum
length of time that a loadshed condition is allowed to exist. The
control will disable the Redline/Loadshed command if no
Cancel command has been received within the configured
maximum loadshed time limit.
Cooling Set Point (4 to 20 mA) — A field supplied
and generated, externally powered 4 to 20 mA signal can be
used to provide the leaving fluid temperature set point. Connect
the signal to LVT-10,8 (+,–). See Table 27 for instructions to
enable the function. Figure 19 shows how the 4 to 20 mA sig-
nal is linearly calculated on an overall 10 F to 80 F range for
fluid types (ConfigurationOPT1FLUD) 1 or 2. The set
point will be limited by the fluid (FLUD) type. Be sure that the
chilled water loop is protected at the lowest temperature.
100
50% CAPACITY AT 20 mA
80
60
100% CAPACITY AT 4 mA
40
75% CAPACITY AT 12 mA
20
0
0
2
6
8
12
16
18
4
20
10
14
DEMAND LIMIT SIGNAL – 4 - 20 mA INPUT
Fig. 18 — 4 to 20-mA Demand Limiting
100
(38)
90
(32)
80
(27)
70
(21)
MAXIMUM
SET POINT
70 F (21.1 C)
60
(15)
50
(10)
40
(4.4)
(FLUD = 1) MINIMUM
SET POINT 38 F (3.3 C)
30
(-1)
20
(-7)
(FLUD = 2) MINIMUM
SET POINT 14 F (-10 C)
10
(-12)
0
(-17)
4
6.3
8.6
10.9
13.1
15.4
17.7
20
4 TO 20 mA SIGNAL TO EMM
EMM — Energy Management Module
Fig. 19 — Cooling Set Point (4 to 20 mA)
32
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Table 27 — Configuring Demand Limit
KEYPAD
ENTRY
KEYPAD
MODE
SUB-MODE
DISP
ITEM
TEST
TYPE
FLUD
CTRL
CCNA
CRST
DISPLAY
ITEM EXPANSION
Test Display LEDs
Unit Type
COMMENT
ENTRY
CONFIGURATION
ENTER
ENTER
ON/OFF
ENTER
ENTER
ENTER
ENTER
ENTER
UNIT
X
X
X
X
X
OPT1
Cooler Fluid
OPT2
Control Method
CCN Address
CCN
RSET
Cooling Reset Type
Default: 0
0 = None
1 = Switch
DMDC*
X
Demand Limit Select
2 = 4 to 20 mA Input
3 = CCN Loadshed
Default: 100%
DM20
SHNM
SHDL
SHTM
DLS1
DLS2
XXX %
XXX
Demand Limit at 20 mA
Range: 0 to 100
Loadshed Group
Number
Default: 0
Range: 0 to 99
Loadshed Demand
Delta
Default: 0%
Range: 0 to 60%
XXX%
XXX MIN
XXX %
XXX %
Maximum Loadshed
Time
Default: 60 min.
Range: 0 to 120 min.
Demand Limit
Switch 1
Default: 80%
Range: 0 to 100%
Demand Limit
Switch 2
Default: 50%
Range: 0 to 100%
*Seven items skipped in this example.
5. Oil should be visible in the compressor sightglass(es).
See Fig. 20. An acceptable oil level in the compressors is
from 1/8 to 3/8 of sight glass when the compressors are off.
Adjust the oil level as required. See Oil Charge section on
page 37 for Carrier approved oils.
6. Crankcase heaters must be firmly attached to compres-
sors, and must be on for 24 hours prior to start-up
(30MPA units only).
PRE-START-UP
IMPORTANT: Before beginning Pre-Start-Up or Start-Up,
complete Start-Up Checklist for 30MP Liquid Chiller at
end of this publication (page CL-1 to CL-8). The checklist
assures proper start-up of a unit, and provides a record of
unit condition, application requirements, system informa-
tion, and operation at initial start-up.
7. Electrical power source must agree with unit nameplate.
Do not attempt to start the chiller until following checks
have been completed.
8. Check rotation of scroll compressors. Monitor control
alarms during first compressor start up for reverse rota-
tion protection alarm.
System Check
1. Check all auxiliary components, such as chilled fluid
pumps, air-handling equipment, condenser pump or other
equipment to which the chiller supplies liquid. Consult
manufacturer's instructions. Verify that any pump inter-
lock contacts have been properly installed. If the unit has
field-installed accessories, be sure all are properly in-
stalled and wired correctly. Refer to unit wiring diagrams.
Table 28 — Minimum Flow Rates and Minimum
Loop Volume (for Comfort Cooling)
MINIMUM EVAPORATOR
EVAPORATOR CONDENSER*
LOOP VOLUME
UNIT SIZE
Gal./Min L/s Gal./Min L/s
Gal.
L
30MP015
30MP020
30MP030
30MP040
30MP045
22
28
43
55
64
1.4
1.8
2.7
3.5
4.0
22
28
43
55
64
1.4
1.8
2.7
3.5
4.0
46.2
60.9
92.4
78.4
91.6
174.9
230.5
349.7
296.7
346.7
2. Use the scrolling marquee display to adjust the Cooling
Set Point.
3. Fill chilled fluid circuit with clean water (with recom-
mended inhibitor added) or other non-corrosive fluid to
be cooled. Bleed all air out of the high points of the sys-
tem. If chilled water is to be maintained at a temperature
below 40 F (4.4 C), a brine of sufficient concentration
must be used to prevent freeze-up at anticipated suction
temperatures. To ensure sufficient loop volume, see
Table 28.
LEGEND
AHRI — Air Conditioning, Heating, and Refrigeration Institute
N
V
—
—
Liters per kW
Gallons per ton
NOTES:
Gallons = V x AHRI capacity in tons.
Liters = N x AHRI capacity in kW.
APPLICATION
V
3
N
3.25
6.5 to 10.8
6.5 to 10.8
4. Check tightness of all electrical connections.
Normal Air Conditioning
Process Type Cooling
Low Ambient Operation
6 to 10
6 to 10
33
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All refrigerant charging should be done through the ¼-in.
Schraeder connection on the liquid line. Do NOT add refriger-
ant charge through the low-pressure side of the system. If com-
plete charging is required, weigh in the appropriate charge for
the circuit as shown on the unit nameplate. If partial charging is
required, operate circuit at full load and add charge until the
sight glass is clear of bubbles.
a30-4978
CAUTION
Never charge liquid into low-pressure side of system. Do
not overcharge. Overcharging results in higher discharge
pressure, possible compressor damage, and higher power
consumption. During charging or removal of refrigerant, be
sure water is continuously circulating through the cooler to
prevent freezing.
The 30MPA units (condenserless) are shipped with a nitro-
gen holding charge only. After chiller assembly is completed in
the field, system must be fully charged. While the unit is run-
ning at full capacity, add refrigerant until the sight glass is clear.
R-410A is the normal refrigerant.
OIL SIGHTGLASS
Fig. 20 — Sight Glass Location
Do not open the liquid valve until there is a charge in re-
mainder of system. A positive pressure indicates a charge in
system. With the unit operating at full load, check liquid line
sight glass to be sure the unit is fully charged (bubbles in the
sight glass indicate the unit is not fully charged).
START-UP AND OPERATION
CAUTION
Crankcase heaters on 30MPA units are wired into the con-
trol circuit, so they are always operable as long as the main
power supply disconnect is on (closed), even if any safety
device is open. Compressor heaters must be on for 24
hours prior to the start-up of any compressor. Equipment
damage could result if heaters are not energized for at least
24 hours prior to compressor start-up.
If there is no refrigerant vapor pressure in the system, the
entire system must be leak tested. After repairing leaks, evacu-
ate the system before recharging.
Follow approved evacuation procedures when removing
refrigeration. Release remaining pressure to an approved evac-
uated cylinder.
The liquid charging method is recommended for complete
charging or when additional charge is required.
Compressor crankcase heaters must be on for 24 hours be-
fore start-up. To energize the crankcase heaters, close the field
disconnect. Leave the compressor circuit breakers off/open.
The crankcase heaters are now energized.
CAUTION
NOTE: Refer to Start-Up Checklist on pages CL-1 to CL-8.
Be careful not to overcharge the system. Overcharging
results in higher discharge pressure, possible compressor
damage, and higher power consumption.
Actual Start-Up — Actual start-up should be done only
under supervision of a qualified refrigeration mechanic.
EVACUATION AND DEHYDRATION — Because the
30MP systems use polyolester (POE) oil, which can absorb
moisture, it is important to minimize the amount of time that
the system interior is left exposed to the atmosphere. Minimiz-
ing the exposure time of the oil to the atmosphere will mini-
mize the amount of moisture that needs to be removed during
evacuation.
Once all of the piping connections are complete, leak test
the unit and then pull a deep dehydration vacuum. Connect the
vacuum pump to the high flow Schraeder valve in the suction
line and liquid line. For best results, it is recommended that a
vacuum of at least 500 microns (0.5 mm Hg) be obtained. Af-
terwards, to ensure that no moisture is present in the system,
perform a standing vacuum-rise test.
With the unit in deep vacuum (500 microns or less), isolate
the vacuum pump from the system. Observe the rate-of-rise of
the vacuum in the system. If the vacuum rises by more than
50 microns in a 30-minute time period, then continue the dehy-
dration process. Maintain a vacuum on the system until the
standing vacuum requirement is met. This will ensure a dry
system.
By following these evacuation and dehydration procedures,
the amount of moisture present in the system will be mini-
mized. It is required that liquid line filter driers be installed
between the condenser(s) and the expansion devices to capture
any foreign debris and provide additional moisture removal
capacity.
1. Be sure all service valves are open (30MPA units only).
2. Using the scrolling marquee display, set leaving-fluid set
point (Set PointsCOOLCSP.1). No cooling range
adjustment is necessary.
3. Start chilled fluid pump (if not configured for cooler
pump control).
4. Turn ENABLE/OFF/REMOTE CONTACT switch to
ENABLE position.
5. Allow unit to operate and confirm that everything is func-
tioning properly. Check to see that leaving fluid tempera-
ture agrees with leaving set point (Set PointsCOOL
CSP.1) or (Set PointsCOOLCSP.2), or if reset is
used, with the control point (Run StatusVIEW
CTPT).
6. Check the cooler leaving chilled water temperature to see
that it remains well above 32 F (0° C), or the brine freez-
ing point if the unit is a medium temperature brine unit.
7. Recheck compressor oil level (see Oil Charge section).
Check Refrigerant Charge — All 30MPW units are
shipped with a complete operating charge of R-410A and
should be under sufficient pressure to conduct a leak test after
installation. If there is no system pressure, admit nitrogen until
a pressure is observed and then proceed to test for leaks. After
leaks are repaired, the system must be dehydrated.
34
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LIQUID CHARGING METHOD — Add charge to the unit
through the liquid line service valve. Never charge liquid into
the low-pressure side of the system.
medium temperature brine unit, the cooler LCWT can go
down to 15 F (–9.4 C).
Table 29 — Temperature Limits for
Standard 30MP Units
1. Close liquid line ball valve (30MPA only).
2. Connect a refrigerant cylinder loosely to the high flow
Schraeder valve connection on the liquid line. Purge the
charging hose and tighten the connections.
TEMPERATURE LIMIT
Maximum Condenser LWT
Minimum Condenser EWT
Maximum Cooler EWT*
Maximum Cooler LWT
F
140
70
95
70
40
C
60
21
35
21
4
3. Open the refrigerant cylinder valve.
4. If the system has been dehydrated and is under vacuum,
break the vacuum with refrigerant gas. For R-410A, build
up system pressure to 101 psig and 32 F (697 kPa and
0° C). Invert the refrigerant cylinder so that the liquid re-
frigerant will be charged.
5. a. For complete charge of 30MPW units, follow
charging by weight procedure. When charge is
nearly full, complete the process by observing the
sight glass for clear liquid flow while the unit is
operating. The use of sight glass charging is valid
only when unit is operating at full capacity.
Minimum Cooler LWT†
LEGEND
Entering Fluid (Water) Temperature
Leaving Fluid (Water) Temperature
EWT
LWT
—
—
*For sustained operation, EWT should not exceed 85 F (29.4 C).
†Unit requires modification below this temperature.
CAUTION
b. For complete charge of 30MPA units or where
refrigerant cylinder cannot be weighed, follow the
condenser manufacturer’s charging procedure or
follow charging by sight glass procedure. The use
of sight glass charging is valid only when unit is
operating at full capacity.
Medium temperature brine duty application (below 32 F
[0° C] LCWT) for chiller normally requires factory modifi-
cation. Contact your Carrier representative for applicable
LCWT range for standard water-cooled chiller in a specific
application.
6. a. The 30MPA condenserless units are shipped
with a nitrogen holding charge. After installation
with the field-supplied system high side, the com-
plete system should be evacuated and charged per
the condenser manufacturer’s charging procedure
or charged until the sight glass is clear (with the
unit running at full capacity). To achieve maxi-
mum system capacity, add additional charge equal
to the difference between the condenser optimal
charge and the condenser minimum charge, which
can be obtained from the charge data provided in
the condenser installation instructions.
VOLTAGE — ALL UNITS
Main Power Supply — Minimum and maximum acceptable
supply voltages are listed in the Installation Instructions.
Unbalanced 3-Phase Supply Voltage — Never operate a motor
where a phase imbalance between phases is greater than 2%.
To determine percent voltage imbalance:
a30-4979
max voltage deviation
from avg voltage
% Voltage Imbalance = 100 x
average voltage
The maximum voltage deviation is the largest difference
between a voltage measurement across 2 legs and the average
across all 3 legs.
Example: Supply voltage is 240-3-60.
AB = 243 v
b. To ensure maximum performance of 30MPW
units, raise the compressor saturated discharge
temperature (SDT) to approximately 100 F
(37.8 C) by throttling the condenser water intake.
Add charge until there is approximately 9 to 12° F
(5.0 to 6.6° C) of system subcooling (SDT minus
actual temperature entering the thermostatic
expansion valve).
BC = 236 v
AC = 238 v
1. Determine average voltage:
Operating Limitations
TEMPERATURES (See Table 29 for 30MP standard tem-
perature limits).
243 + 236 + 238
Averagevoltage =
3
717
=
3
CAUTION
= 239
Do not operate with cooler leaving chiller water (fluid)
temperature (LCWT) below 32 F (0° C) for standard units
with proper brine solution or 40 F (4.4 C) for the standard
units with fresh water, or below 15 F (–9.4 C) for units fac-
tory built for medium temperature brine.
2. Determine maximum deviation from average voltage:
(AB) 243 – 239 = 4 v
(BC) 239 – 236 = 3 v
(AC) 239 – 238 = 1 v
Maximum deviation is 4 v.
3. Determine percent voltage imbalance:
High Cooler Leaving Chilled Water (Fluid) Temperatures
(LCWT) — During start-up with cooler the LCWT should not
be above approximately 60 F (16 C).
Low Cooler LCWT — For standard units with fresh water,
the LCWT must be no lower than 40 F (4.4 C). For standard
units with a proper brine solution, the LCWT must be no lower
than 32 F (0° C). If the unit is the factory-installed optional
4
% Voltage Imbalance = 100 x
239
= 1.7%
35
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This voltage imbalance is satisfactory as it is below the
maximum allowable of 2%.
mounting hardware. Using new tubing as required, reconnect
compressor suction and discharge lines. Using hardware saved,
reinstall the mounting bolts and washers through the compres-
sor feet. Using proper techniques, braze suction and discharge
lines and check for leaks. Reconnect oil equalization line.
Re-install the crankcase heater (30MPA units). Reconnect
the compressor power connections and high-pressure switch
wiring as on the old compressor. Refer to Fig. 21. Following
the installation of the new compressor, tighten all hardware to
the following specifications. (See Table 30.)
IMPORTANT: If the supply voltage phase imbalance is
more than 2%, contact your local electric utility company
immediately. Do not operate unit until imbalance condition
is corrected.
Control Circuit Power — Power for the control circuit is
supplied from the main incoming power through a factory-
installed control power transformer (TRAN1) for all models.
Field wiring connections are made to the LVT.
Table 30 — Unit Torque Specification
FASTENER
RECOMMENDED TORQUE
OPERATION SEQUENCE
Compressor Mounting
Bolts
7 to 10 ft-lb (9.5 to 13.5 N-m)
The unit is started by putting the ENABLE/OFF/REMOTE
CONTACT switch in the ENABLE or REMOTE CONTACT
position. When the unit receives a call for cooling (either from
the internal control or CCN network command or remote con-
tact closure), the unit stages up in capacity to maintain the leav-
ing fluid set point. The first compressor starts 11/2 to 3 minutes
after the call for cooling.
For all units, if temperature reset is being used, the unit con-
trols to a higher leaving-fluid temperature as the building load
reduces. If demand limit is used, the unit may temporarily be
unable to maintain the desired leaving-fluid temperature be-
cause of imposed power limitations.
Compressor Power
Connections
Compressor Ground
Terminal Connections
24 to 28 in.-lb (2.7- to 3.2 N-m)
14 to 18 in.-lb (1.6 to 2.0 N-m)
30MPW Condenser and 30MP Cooler
BRAZED-PLATE COOLER AND CONDENSER HEAT
EXCHANGER REPLACEMENT — Brazed-plate heat ex-
changers cannot be repaired if they develop a leak. If a leak
(refrigerant or water) develops, the heat exchanger must be
replaced. To replace a brazed plate heat exchanger:
1. Disconnect the liquid-in and liquid-out connections at the
heat exchanger.
2. Check that the replacement heat exchanger is the same as
the original heat exchanger. For the condensers, compare
part numbers on the heat exchangers. For the coolers, in-
sulation covers the manufacturer’s part number. Make
sure the depths of the replacement and original cooler
heat exchangers are the same.
3. Recover the refrigerant from the system, and unsolder the
refrigerant-in and refrigerant-out connections.
4. Remove the four nuts holding the heat exchanger to the
brackets. Save the nuts.
5. Install the replacement heat exchanger in the unit and at-
tach to the bracket using the four nuts removed in Step 4.
For sizes 015 and 020, torque is 7-10 ft-lb. For sizes 030-
045, torque is 35 to 50 ft-lb.
SERVICE
WARNING
Electrical shock can cause personal injury and death. Shut
off all power to this equipment during service. There may
be more than one disconnect switch. Tag all disconnect
locations to alert others not to restore power until work is
completed.
Electronic Components
CONTROL COMPONENTS — Unit uses an advanced elec-
tronic control system that normally does not require service.
For details on controls refer to Operating Data section.
Access to the controls is through a hinged panel. Inner pan-
els are secured in place and should not be removed unless all
power to the chiller is off.
6. Carefully braze the refrigerant lines to the connections on
the heat exchanger. Lines should be soldered using silver
as the soldering material with a minimum of 45% silver.
Keep the temperature below 1472 F (800 C) under nor-
mal soldering conditions (no vacuum) to prevent the cop-
per solder of the brazed plate heat exchanger from chang-
ing its structure. Failure to do so can result in internal
or external leakage at the connections which cannot be
repaired.
Compressor Replacement — All models contain
scroll compressors and have two or three compressors. A com-
pressor is most easily removed from the side of the unit or
above, depending on where clearance space was allowed dur-
ing unit installation. See Fig. 21.
Remove the junction box cover bolts and disconnect the
compressor power and crankcase heater connections (30MPA
only). Remove the cable from the compressor junction box.
Remove the connections from the high-pressure switch. Re-
move the crankcase heater. Knock the same holes out of the
new compressor junction box and install the cable connectors
from the old compressor.
7. For coolers, ensure that the original size tubing is used
(1/2-in. for sizes 015 and 020 and 5/8-in. for sizes 030-045)
between the TXV and the cooler. The TXV must be lo-
cated within 1 ft of the heat exchanger, with no bends be-
tween the TXV outlet and the cooler inlet.
8. Reconnect the water/brine lines.
9. Dehydrate and recharge the unit. Check for leaks.
The compressors are bolted to rails, which are in turn bolted
to the unit basepan for all sizes. Remove the 4 bolts holding the
compressor to the rail on the basepan. Save the mounting hard-
ware for use with the new compressor. Carefully cut the com-
pressor suction and discharge lines with a tubing cutter as close
to the compressor as feasible. Remove high-pressure switch
and pressure transducer(s) if required for compressor removal.
Lift one corner of the compressor at a time and remove all the
steel spacers. Remove the old compressor from the unit.
BRAZED-PLATE COOLER AND CONDENSER HEAT
EXCHANGER CLEANING — Brazed-plate heat exchang-
ers must be cleaned chemically. A professional cleaning ser-
vice skilled in chemical cleaning should be used. Use a weak
acid (5% phosphoric acid, or if the heat exchanger is cleaned
frequently, 5% oxalic acid). Pump the cleaning solution
through the exchanger, preferably in a backflush mode. After
cleaning, rinse with large amounts of fresh water to dispose of
all the acid. Cleaning materials must be disposed of properly.
Slide the new compressor in place on the rails. Lifting one
side of the compressor at a time, replace all of the compressor
36
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The strainers in front of the water/brine inlets of the heat
exchangers should be cleaned periodically, depending on con-
dition of the chiller water/brine.
Do not reuse oil that has been drained out, or oil that has
been exposed to atmosphere.
Check Refrigerant Feed Components
Oil Charge
CAUTION
FILTER DRIER — The function of the filter drier is to main-
tain a clean, dry system. The moisture indicator (described
below) indicates any need to change the filter drier. The filter
drier is a sealed-type drier. When the drier needs to be
changed, the entire filter drier must be replaced.
MOISTURE-LIQUID INDICATOR —The indicator is located
immediately ahead of the TXV to provide an indication of the
refrigerant moisture content. It also provides a sight glass for
refrigerant liquid. Clear flow of liquid refrigerant (at full unit
loading) indicates sufficient charge in the system. Bubbles in the
sight glass (at full unit loading) indicate an undercharged system
or the presence of noncondensables. Moisture in the system,
measured in parts per million (ppm), changes the color of the
indicator as follows:
The compressor in a Puron® refigerant (R-410A) system
uses a polyol ester (POE) oil. This is extremely hygro-
scopic, meaning it absorbs water readily. POE oils can
absorb 15 times as much water as other oils designed for
HCFC and CFC refrigerants. Take all necessary precau-
tions to avoid exposure of the oil to the atmosphere. Failure
to do so could result in possible equipment damage.
Puron refrigerant systems use a polyol ester (POE) oil. Use
only Carrier approved compressor oil. Oil should be visible in
compressor oil sight glass. An acceptable oil level is from 1/8 to
3/8 of sight glass. All compressors must be off when checking
oil level. Recommended oil level adjustment method is as
follows:
Green (safe) —Moisture is below 75 ppm
Yellow-Green (caution) — 75 to 150 ppm
Yellow (wet) — above 150 ppm
The unit must be in operation at least 12 hours before the
moisture indicator gives an accurate reading, and must be in
contact with liquid refrigerant. At the first sign of moisture in
the system, change the corresponding filter drier.
THERMOSTATIC EXPANSION VALVE (TXV) — The
TXV controls the flow of liquid refrigerant to the cooler by
maintaining constant superheat of vapor leaving the cooler.
The valve(s) is activated by a temperature-sensing bulb(s)
strapped to the suction line(s).
ADD OIL — Recover charge from the unit. Add oil to suction
line Schrader valve on tandem compressors sets and the com-
pressor Schrader on the trios. (See Fig. 21.) When oil can be
seen at the bottom of the sight glass, add oil in 5 oz increments
which is approximately 1/8 in oil level. Run all compressors for
20 minutes then shut off to check oil level. Repeat procedure
until acceptable oil level is present.
NOTE: Use only Carrier approved compressor oil. Approved
sources are:
The valve(s) is factory-set to maintain between 8° and 10° F
(4.4° and 5.6° C) of superheat leaving the cooler. Check the
superheat during operation after conditions have stabilized. If
necessary, adjust the superheat to prevent refrigerant floodback
to the compressor.
Totaline . . . . . . . . . . . . . . . . . . . . . . 3MAF POE, P903-1601
Mobil. . . . . . . . . . . . . . . . . . . . . . . . . . .EAL Arctic 32-3MA
Uniqema . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RL32-3MAF
HPS
DPT
LEGEND
RGT
CWFS — Chilled Water Flow Switch
DPT
EWT
HPS
LWT
RGT
SPT
— Discharge Pressure Transducer
— Entering Water Thermistor
— High Pressure Switch
SPT
— Leaving Water Thermistor
— Return Gas Thermistor (Optional)
— Suction Pressure Transducer
EWT
(HIDDEN)
CWFS
LWT
a30-5049
Fig. 21 — Compressor Location — 30MP015-045 Units (30MPW045 Unit Shown)
37
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MINIMUM LOAD VALVE — On units equipped with the
factory-installed hot gas bypass option, a solenoid valve and
discharge bypass valve (minimum load valve) are located
between the discharge line and the cooler entering-refrigerant
line. The MBB cycles the solenoid to perform minimum load
valve function and the discharge bypass valve modulates to the
suction pressure set point of the valve. The bypass valve has an
adjustable opening setting between 95 to 115 psig (655 to
793 kPa). The factory setting is 105 psig (724 kPa).
The amount of capacity reduction achieved by the mini-
mum load valve is not adjustable. The total unit capacity with
the minimum load valve is shown in Table 19.
PRESSURE RELIEF DEVICES — All units have one pres-
sure relief device per circuit located in the liquid line which re-
lieves at 210 F (100 C).
COOLER FREEZE-UP PROTECTION
WARNING
On medium temperature brine units, the anti-freeze solu-
tion must be properly mixed to prevent freezing at a tem-
perature of at least 15 F (8.3 C) below the leaving-fluid
temperature set point. Failure to provide the proper anti-
freeze solution mixture is considered abuse and may impair
or otherwise negatively impact the Carrier warranty.
The main base board (MBB) monitors cooler leaving fluid
temperature at all times. The MBB will rapidly remove stages
of capacity as necessary to prevent freezing conditions due to
the rapid loss of load or low cooler fluid flow.
When the cooler is exposed to lower temperatures (40 F
[4.4 C] or below), freeze-up protection is required using inhib-
ited ethylene or propylene glycol.
The 30MPW unit does not have a condenser pressure relief
valve, because the brazed-plate condenser is not considered a
pressure vessel, as defined in ANSI/ASHRAE 15 (American
National Standards Institute/American Society of Heating,
Refrigerating, and Air Conditioning Engineers) safety code
requirements.
For 30MPA condenserless units, pressure relief devices de-
signed to relieve at the pressure determined in local codes,
must be field-supplied and installed in the discharge line piping
in accordance with ANSI/ASHRAE 15 safety code require-
ments. Additional pressure relief valves, properly selected,
must be field-supplied and installed to protect high side equip-
ment and may be required by applicable codes.
Thermistors — Electronic control uses up to five 5 k
thermistors to sense temperatures used to control operation of
the chiller. Thermistors EWT, LWT, RGTA, CNDE, CNDL,
and OAT are identical in their temperature and voltage drop
performance. The SPT space temperature thermistor has a
10 k input channel and it has a different set of temperature vs.
resistance and voltage drop performance. Resistance at various
temperatures are listed in Tables 32-35. For dual chiller opera-
tion, a dual chiller sensor is required which is a 5 k
thermistor.
Most codes require that a relief valve be vented directly to
the outdoors. The vent line must not be smaller than the relief
valve outlet. Consult ANSI/ASHRAE 15 for detailed informa-
tion concerning layout and sizing of relief vent lines.
REPLACING THERMISTORS (EWT, LWT, RGT, CNDE,
CNDL) — Add a small amount of thermal conductive grease
to the thermistor well and end of probe. For all probes, tighten
the retaining nut ¼ turn past finger tight. See Fig. 22.
THERMISTOR/TEMPERATURE SENSOR CHECK — A
high quality digital volt-ohmmeter is required to perform this
check.
1. Connect the digital voltmeter across the appropriate the-
mistor terminals at the J8 terminal strip on the main base
board (see Fig. 23).
Check Unit Safeties
HIGH-PRESSURE SWITCH — A high-pressure switch is
provided to protect each compressor and refrigeration system
from unsafe high pressure conditions. See Table 31 for high-
pressure switch settings.
The high-pressure switch is mounted in the discharge line of
each circuit. If an unsafe, high-pressure condition should exist,
the switch opens and shuts off the affected circuit. The CSB
(current sensing board) senses the compressor feedback signal
and generates an appropriate alarm. The MBB prevents the cir-
cuit from restarting until the alert condition is reset. The switch
should open at the pressure corresponding to the appropriate
switch setting as shown in Table 31.
2. Using the voltage reading obtained, read the sensor tem-
perature from Tables 32-35.
3. To check thermistor accuracy, measure temperature at
probe location with an accurate thermocouple-type tem-
perature measuring instrument. Insulate thermocouple to
avoid ambient temperatures from influencing reading.
Temperature measured by thermocouple and temperature
determined from thermistor voltage reading should be
close, ± 5° F (3° C) if care was taken in applying thermo-
couple and taking readings.
Table 31 — Factory Settings, High-Pressure
Switch (Fixed)
CUTOUT
CUT-IN
If a more accurate check is required, unit must be shut down
and thermistor removed and checked at a known temperature
(freezing point or boiling point of water) using either voltage
drop measured across thermistor at the J8 terminal, by deter-
mining the resistance with chiller shut down and thermistor
disconnected from J8. Compare the values determined with the
value read by the control in the Temperatures mode using the
scrolling marquee display.
UNIT
Psig
650
kPa
4482
Psig
500
kPa
3447
30MP015-045
Clear the alarm using the scrolling marquee display. The
unit should restart after the compressor anti-short-cycle delay,
built into the unit control module, expires.
PRESSURE TRANSDUCERS — Each unit is equipped with
a suction and discharge pressure transducer. These inputs to the
MBB are not only used to monitor the status of the unit, but to
also maintain operation of the chiller within the compressor
manufacturer's specified limits. The input to the MBB from the
suction pressure transducer is also used to protect the compres-
sor from operating at low pressure conditions. If suction return
gas thermistors are installed, then additional low superheat
conditions are detected. In some cases, the unit may not be able
to run at full capacity. The control module will automatically
reduce the capacity of a circuit as needed to maintain specified
maximum/minimum operating pressures.
Pressure Transducers — The suction and discharge
transducers are different part numbers and can be distinguished
by the color of the transducer body, suction (yellow) and dis-
charge (red). No pressure transducer calibration is required.
The transducers operate on a 5 vdc supply, which is generated
by the main base board (MBB). See Fig. 23 for transducer con-
nections to the J8 connector on the MBB.
TROUBLESHOOTING — If a transducer is suspected of be-
ing faulty, first check supply voltage to the transducer. Supply
voltage should be 5 vdc ± 0.2 v. If supply voltage is correct,
compare pressure reading displayed on the scrolling marquee
display module against pressure shown on a calibrated pressure
38
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gauge. Pressure readings should be within ± 15 psig. If the
two readings are not reasonably close, replace the pressure
transducer.
4. Wrong pump motor rotation. Pump must rotate clockwise
when viewed from motor end of pump.
CONDENSER EWT
ACCESSORY
1
2
3
4
5
6
1
2
3
4
1
2
3
4
1
2
3
4
5
6
7
1
2
Chilled Water Flow Switch — A factory-installed
flow switch is installed in the leaving fluid piping for all units.
This is a thermal-dispersion flow switch with no field adjust-
ments. The switch is set for approximately 0.5 ft/sec of flow.
The sensor tip houses two thermistors and a heater element.
One thermistor is located in the sensor tip, closest to the flow-
ing fluid. See Fig. 24. This thermistor is used to detect changes
in the flow velocity of the liquid. The second thermistor is
bonded to the cylindrical wall and is affected only by changes
in the temperature of the liquid. The thermistors are positioned
to be in close contact with the wall of the sensor probe and, at
the same time, to be kept separated from each other within the
confines of the probe.
In order to sense flow, it is necessary to heat one of the
thermistors in the probe. When power is applied, the tip of the
probe is heated. As the fluid starts to flow, heat will be carried
away from the sensor tip. Cooling of the first thermistor is a
function of how fast heat is conducted away by the flowing
liquid.
CONDENSER LWT
ACCESSORY
3
T-55
ACCSY
LVT
T55
SEN
4
J12
3
BLU
VIO
RED
5
23
22
21
6
4
5
7
8
OAT ACCESSORY OR
DUAL CHILLER LWT
RGTA
ACCESSORY
9
BASE
BOARD
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
COOLER ENTERING
FLUID TEMP
RED
BLK
RED
COOLER LEAVING
FLUID TEMP
J8
BLK
The difference in temperature between the two thermistors
provides a measurement of fluid velocity past the sensor probe.
When fluid velocity is high, more heat will be carried away
from the heated thermistor and the temperature differential will
be small. As fluid velocity decreases, less heat will be taken
from the heated thermistor and there will be an increase in tem-
perature differential.
B
C
A
RED
+
8
DPTA
GRN
BLK
9
-
10
B
C
A
RED
+
11
12
SPTA
GRN
BLK
-
a30-5043
When unit flow rate is above the minimum flow rate, then
the output is switched on, sending 24 vac to the MBB to prove
flow has been established.
For recommended maintenance, check the sensor tip for
build-up every 6 months. Clean the tip with a soft cloth. If
necessary, build-up (e.g., lime) can be removed with a common
vinegar cleansing agent.
The flow sensor cable is provided with (3) LEDs that indi-
cate if 24 vac power is present and also status of the switch
contacts. The LEDs are as follows:
LEGEND
ACCSY — Accessory
DPT
EWT
LWT
LVT
OAT
RGT
SEN
SPT
— Discharge Pressure Transducer
— Entering Water Temperature
— Leaving Water Temperature Sensor
— Low Voltage Terminal
— Outdoor Air Temperature Sensor
— Return Gas Temperature Sensor
— Sensor Terminal Block
— Space Temperature Sensor
Fig. 23 — Thermistor Connections to
Main Base Board, J8 Connector
• Green LED ON – 24 vac present
• One Yellow LED ON – Flow sensor switch OPEN
• Two Yellow LED ON – Flow sensor switch CLOSED
If nuisance trips of the sensor are occurring, follow the
steps below to correct the situation:
1. Check to confirm that the field-installed strainer is clean.
Use the blow-down valve provided or remove the screen
and clean it. For the case of VFD controlled pumps, en-
sure that the minimum speed setting has not been
changed.
2. Measure the pressure drop across the cooler and compare
this to the system requirements.
3. Verify that cable connections at the switch and at the ter-
minal block are secure.
a30-499
NOTE: Dimensions are in millimeters.
Fig. 24— Chilled Water Flow Switch
5/8 in. HEX
1/4-18 NPT
6" MINIMUM
CLEARANCE FOR
THERMISTOR
REMOVAL
Fig. 22 — Thermistor Well
39
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Table 32 — 5K Thermistor Temperatures (°F) vs. Resistance/Voltage Drop
(Voltage Drop for EWT, LWT, RGT, CNDE, CNDL, Dual Chiller, and OAT)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
TEMP
(F)
RESISTANCE
(Ohms)
TEMP
(F)
RESISTANCE
(Ohms)
TEMP
(F)
RESISTANCE
(Ohms)
59
60
1.982
1.956
1.930
1.905
1.879
1.854
1.829
1.804
1.779
1.754
1.729
1.705
1.681
1.656
1.632
1.609
1.585
1.562
1.538
1.516
1.493
1.470
1.448
1.426
1.404
1.382
1.361
1.340
1.319
1.298
1.278
1.257
1.237
1.217
1.198
1.179
1.160
1.141
1.122
1.104
1.086
1.068
1.051
1.033
1.016
0.999
0.983
0.966
0.950
0.934
0.918
0.903
0.888
0.873
0.858
0.843
0.829
0.815
0.801
0.787
0.774
0.761
0.748
0.735
0.723
0.710
0.698
0.686
0.674
0.663
0.651
0.640
0.629
0.618
0.608
0.597
0.587
0.577
0.567
0.557
0.548
0.538
0.529
0.520
7,686
7,665
7,468
7,277
7,091
6,911
6,735
6,564
6,399
6,238
6,081
5,929
5,781
5,637
5,497
5,361
5,229
5,101
4,976
4,855
4,737
4,622
4,511
4,403
4,298
4,196
4,096
4,000
3,906
3,814
3,726
3,640
3,556
3,474
3,395
3,318
3,243
3,170
3,099
3,031
2,964
2,898
2,835
2,773
2,713
2,655
2,597
2,542
2,488
2,436
2,385
2,335
2,286
2,239
2,192
2,147
2,103
2,060
2,018
1,977
1,937
1,898
1,860
1,822
1,786
1,750
1,715
1,680
1,647
1,614
1,582
1,550
1,519
1,489
1,459
1,430
1,401
1,373
1,345
1,318
1,291
1,265
1,240
1,214
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
0.511
0.502
0.494
0.485
0.477
0.469
0.461
0.453
0.445
0.438
0.430
0.423
0.416
0.408
0.402
0.395
0.388
0.381
0.375
0.369
0.362
0.356
0.350
0.344
0.339
0.333
0.327
0.322
0.317
0.311
0.306
0.301
0.296
0.291
0.286
0.282
0.277
0.272
0.268
0.264
0.259
0.255
0.251
0.247
0.243
0.239
0.235
0.231
0.228
0.224
0.220
0.217
0.213
0.210
0.206
0.203
0.200
0.197
0.194
0.191
0.188
0.185
0.182
0.179
0.176
0.173
0.171
0.168
0.165
0.163
0.160
0.158
0.155
0.153
0.151
0.148
0.146
0.144
0.142
0.140
0.138
0.135
0.133
1,190
1,165
1,141
1,118
1,095
1,072
1,050
1,029
1,007
986
965
945
925
906
887
868
850
832
815
798
782
765
750
734
719
705
690
677
663
650
638
626
614
602
591
581
570
561
551
542
533
524
516
508
501
494
487
480
473
467
461
456
450
445
439
434
429
424
419
415
410
405
401
396
391
386
382
377
372
367
361
356
350
344
338
332
325
318
311
304
297
289
282
–25
–24
–23
–22
–21
–20
–19
–18
–17
–16
–15
–14
–13
–12
–11
–10
–9
–8
–7
–6
–5
–4
–3
–2
–1
0
3.699
3.689
3.679
3.668
3.658
3.647
3.636
3.624
3.613
3.601
3.588
3.576
3.563
3.550
3.536
3.523
3.509
3.494
3.480
3.465
3.450
3.434
3.418
3.402
3.386
3.369
3.352
3.335
3.317
3.299
3.281
3.262
3.243
3.224
3.205
3.185
3.165
3.145
3.124
3.103
3.082
3.060
3.038
3.016
2.994
2.972
2.949
2.926
2.903
2.879
2.856
2.832
2.808
2.784
2.759
2.735
2.710
2.685
2.660
2.634
2.609
2.583
2.558
2.532
2.506
2.480
2.454
2.428
2.402
2.376
2.349
2.323
2.296
2.270
2.244
2.217
2.191
2.165
2.138
2.112
2.086
2.060
2.034
2.008
98,010
94,707
91,522
88,449
85,486
82,627
79,871
77,212
74,648
72,175
69,790
67,490
65,272
63,133
61,070
59,081
57,162
55,311
53,526
51,804
50,143
48,541
46,996
45,505
44,066
42,679
41,339
40,047
38,800
37,596
36,435
35,313
34,231
33,185
32,176
31,202
30,260
29,351
28,473
27,624
26,804
26,011
25,245
24,505
23,789
23,096
22,427
21,779
21,153
20,547
19,960
19,393
18,843
18,311
17,796
17,297
16,814
16,346
15,892
15,453
15,027
14,614
14,214
13,826
13,449
13,084
12,730
12,387
12,053
11,730
11,416
11,112
10,816
10,529
10,250
9,979
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
1
86
2
87
3
88
4
89
5
90
6
91
7
92
8
93
9
94
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
9,717
9,461
9,213
8,973
8,739
8,511
8,291
8,076
40
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Table 33 — 5K Thermistor Temperatures (°C) vs. Resistance/Voltage Drop
(Voltage Drop for EWT, LWT, RGT, CNDE, CNDL, Dual Chiller, and OAT)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
TEMP
(C)
RESISTANCE
(Ohms)
TEMP
(C)
RESISTANCE
(Ohms)
TEMP
(C)
RESISTANCE
(Ohms)
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
1.982
1.935
1.889
1.844
1.799
1.754
1.710
1.666
1.623
1.580
1.538
1.497
1.457
1.417
1.378
1.340
1.302
1.265
1.229
1.194
1.160
1.126
1.093
1.061
1.030
0.999
0.969
0.940
0.912
0.885
0.858
0.832
0.807
0.782
0.758
0.735
0.713
0.691
0.669
0.649
0.629
0.610
0.591
0.573
0.555
0.538
0.522
7,855
7,499
7,161
6,840
6,536
6,246
5,971
5,710
5,461
5,225
5,000
4,786
4,583
4,389
4,204
4,028
3,861
3,701
3,549
3,404
3,266
3,134
3,008
2,888
2,773
2,663
2,559
2,459
2,363
2,272
2,184
2,101
2,021
1,944
1,871
1,801
1,734
1,670
1,609
1,550
1,493
1,439
1,387
1,337
1,290
1,244
1,200
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
0.506
0.490
0.475
0.461
0.447
0.433
0.420
0.407
0.395
0.383
0.371
0.360
0.349
0.339
0.329
0.319
0.309
0.300
0.291
0.283
0.274
0.266
0.258
0.251
0.244
0.237
0.230
0.223
0.217
0.211
0.204
0.199
0.193
0.188
0.182
0.177
0.172
0.168
0.163
0.158
0.154
0.150
0.146
0.142
0.138
0.134
1,158
1,118
1,079
1,041
1,006
971
938
906
876
836
805
775
747
719
693
669
645
623
602
583
564
547
531
516
502
489
477
466
456
446
436
427
419
410
402
393
385
376
367
357
346
335
324
312
299
285
–32
3.705
3.687
3.668
3.649
3.629
3.608
3.586
3.563
3.539
3.514
3.489
3.462
3.434
3.406
3.376
3.345
3.313
3.281
3.247
3.212
3.177
3.140
3.103
3.065
3.025
2.985
2.945
2.903
2.860
2.817
2.774
2.730
2.685
2.639
2.593
2.547
2.500
2.454
2.407
2.360
2.312
2.265
2.217
2.170
2.123
2.076
2.029
100,260
94,165
88,480
83,170
78,125
73,580
69,250
65,205
61,420
57,875
54,555
51,450
48,536
45,807
43,247
40,845
38,592
38,476
34,489
32,621
30,866
29,216
27,633
26,202
24,827
23,532
22,313
21,163
20,079
19,058
18,094
17,184
16,325
15,515
14,749
14,026
13,342
12,696
12,085
11,506
10,959
10,441
9,949
–31
–30
–29
–28
–27
–26
–25
–24
–23
–22
–21
–20
–19
–18
–17
–16
–15
–14
–13
–12
–11
–10
–9
–8
–7
–6
–5
–4
–3
–2
–1
0
1
2
3
4
5
6
7
8
9
10
11
9,485
12
9,044
13
8,627
14
8,231
41
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Table 34 — 10K Thermistor Temperature (°F) vs. Resistance/Voltage Drop
(For SPT)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
TEMP
(F)
RESISTANCE
(Ohms)
TEMP
(F)
RESISTANCE
(Ohms)
TEMP
(F)
RESISTANCE
(Ohms)
–25
–24
–23
–22
–21
–20
–19
–18
–17
–16
–15
–14
–13
–12
–11
–10
–9
–8
–7
–6
–5
–4
–3
–2
–1
0
4.758
4.750
4.741
4.733
4.724
4.715
4.705
4.696
4.686
4.676
4.665
4.655
4.644
4.633
4.621
4.609
4.597
4.585
4.572
4.560
4.546
4.533
4.519
4.505
4.490
4.476
4.461
4.445
4.429
4.413
4.397
4.380
4.363
4.346
4.328
4.310
4.292
4.273
4.254
4.235
4.215
4.195
4.174
4.153
4.132
4.111
4.089
4.067
4.044
4.021
3.998
3.975
3.951
3.927
3.903
3.878
3.853
3.828
3.802
3.776
3.750
3.723
3.697
3.670
3.654
3.615
3.587
3.559
3.531
3.503
3.474
3.445
3.416
3.387
3.357
3.328
3.298
3.268
3.238
3.208
3.178
3.147
3.117
3.086
3.056
3.025
196,453
189,692
183,300
177,000
171,079
165,238
159,717
154,344
149,194
144,250
139,443
134,891
130,402
126,183
122,018
118,076
114,236
110,549
107,006
103,558
100,287
97,060
94,020
91,019
88,171
85,396
82,729
80,162
77,662
75,286
72,940
70,727
68,542
66,465
64,439
62,491
60,612
58,781
57,039
55,319
53,693
52,086
50,557
49,065
47,627
46,240
44,888
43,598
42,324
41,118
39,926
38,790
37,681
36,610
35,577
34,569
33,606
32,654
31,752
30,860
30,009
29,177
28,373
27,597
26,838
26,113
25,396
24,715
24,042
23,399
22,770
22,161
21,573
20,998
20,447
19,903
19,386
18,874
18,384
17,904
17,441
16,991
16,552
16,131
15,714
15,317
61
62
2.994
2.963
2.932
2.901
2.870
2.839
2.808
2.777
2.746
2.715
2.684
2.653
2.622
2.592
2.561
2.530
2.500
2.470
2.439
2.409
2.379
2.349
2.319
2.290
2.260
2.231
2.202
2.173
2.144
2.115
2.087
2.059
2.030
2.003
1.975
1.948
1.921
1.894
1.867
1.841
1.815
1.789
1.763
1.738
1.713
1.688
1.663
1.639
1.615
1.591
1.567
1.544
1.521
1.498
1.475
1.453
1.431
1.409
1.387
1.366
1.345
1.324
1.304
1.284
1.264
1.244
1.225
1.206
1.187
1.168
1.150
1.132
1.114
1.096
1.079
1.062
1.045
1.028
1.012
0.996
0.980
0.965
0.949
0.934
0.919
0.905
14,925
14,549
14,180
13,824
13,478
13,139
12,814
12,493
12,187
11,884
11,593
11,308
11,031
10,764
10,501
10,249
10,000
9,762
9,526
9,300
9,078
8,862
8,653
8,448
8,251
8,056
7,869
7,685
7,507
7,333
7,165
6,999
6,838
6,683
6,530
6,383
6,238
6,098
5,961
5,827
5,698
5,571
5,449
5,327
5,210
5,095
4,984
4,876
4,769
4,666
4,564
4,467
4,370
4,277
4,185
4,096
4,008
3,923
3,840
3,759
3,681
3,603
3,529
3,455
3,383
3,313
3,244
3,178
3,112
3,049
2,986
2,926
2,866
2,809
2,752
2,697
2,643
2,590
2,539
2,488
2,439
2,391
2,343
2,297
2,253
2,209
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
0.890
0.876
0.862
0.848
0.835
0.821
0.808
0.795
0.782
0.770
0.758
0.745
0.733
0.722
0.710
0.699
0.687
0.676
0.666
0.655
0.645
0.634
0.624
0.614
0.604
0.595
0.585
0.576
0.567
0.558
0.549
0.540
0.532
0.523
0.515
0.507
0.499
0.491
0.483
0.476
0.468
0.461
0.454
0.447
0.440
0.433
0.426
0.419
0.413
0.407
0.400
0.394
0.388
0.382
0.376
0.370
0.365
0.359
0.354
0.349
0.343
0.338
0.333
0.328
0.323
0.318
0.314
0.309
0.305
0.300
0.296
0.292
0.288
0.284
0.279
0.275
0.272
0.268
0.264
2,166
2,124
2,083
2,043
2,003
1,966
1,928
1,891
1,855
1,820
1,786
1,752
1,719
1,687
1,656
1,625
1,594
1,565
1,536
1,508
1,480
1,453
1,426
1,400
1,375
1,350
1,326
1,302
1,278
1,255
1,233
1,211
1,190
1,169
1,148
1,128
1,108
1,089
1,070
1,052
1,033
1,016
998
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
1
87
2
88
3
89
4
90
5
91
6
92
7
93
8
94
9
95
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
981
964
947
931
915
900
885
870
855
841
827
814
800
787
774
762
749
737
725
714
702
691
680
670
659
649
639
629
620
610
601
592
583
574
566
557
42
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Table 35 — 10K Thermistor Temperature (°C) vs. Resistance/Voltage Drop
(For SPT)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
VOLTAGE
DROP
(V)
TEMP
(C)
RESISTANCE
(Ohms)
TEMP
(C)
RESISTANCE
(Ohms)
TEMP
(C)
RESISTANCE
(Ohms)
–32
–31
–30
–29
–28
–27
–26
–25
–24
–23
–22
–21
–20
–19
–18
–17
–16
–15
–14
–13
–12
–11
–10
–9
4.762
4.748
4.733
4.716
4.700
4.682
4.663
4.644
4.624
4.602
4.580
4.557
4.533
4.508
4.482
4.455
4.426
4.397
4.367
4.335
4.303
4.269
4.235
4.199
4.162
4.124
4.085
4.044
4.003
3.961
3.917
3.873
3.828
3.781
3.734
3.686
3.637
3.587
3.537
3.485
3.433
3.381
3.328
3.274
3.220
3.165
3.111
200,510
188,340
177,000
166,342
156,404
147,134
138,482
130,402
122,807
115,710
109,075
102,868
97,060
91,588
86,463
81,662
77,162
72,940
68,957
65,219
61,711
58,415
55,319
52,392
49,640
47,052
44,617
42,324
40,153
38,109
36,182
34,367
32,654
31,030
29,498
28,052
26,686
25,396
24,171
23,013
21,918
20,883
19,903
18,972
18,090
17,255
16,464
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
3.056
3.000
2.944
2.889
2.833
2.777
2.721
2.666
2.610
2.555
2.500
2.445
2.391
2.337
2.284
2.231
2.178
2.127
2.075
2.025
1.975
1.926
1.878
1.830
1.784
1.738
1.692
1.648
1.605
1.562
1.521
1.480
1.439
1.400
1.362
1.324
1.288
1.252
1.217
1.183
1.150
1.117
1.086
1.055
1.025
0.996
0.968
15,714
15,000
14,323
13,681
13,071
12,493
11,942
11,418
10,921
10,449
10,000
9,571
9,164
8,776
8,407
8,056
7,720
7,401
7,096
6,806
6,530
6,266
6,014
5,774
5,546
5,327
5,117
4,918
4,727
4,544
4,370
4,203
4,042
3,889
3,743
3,603
3,469
3,340
3,217
3,099
2,986
2,878
2,774
2,675
2,579
2,488
2,400
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
0.940
0.913
0.887
0.862
0.837
0.813
0.790
0.767
0.745
0.724
0.703
0.683
0.663
0.645
0.626
0.608
0.591
0.574
0.558
0.542
0.527
0.512
0.497
0.483
0.470
0.457
0.444
0.431
0.419
0.408
0.396
0.386
0.375
0.365
0.355
0.345
0.336
0.327
0.318
0.310
0.302
0.294
0.287
0.279
0.272
0.265
2,315
2,235
2,157
2,083
2,011
1,943
1,876
1,813
1,752
1,693
1,637
1,582
1,530
1,480
1,431
1,385
1,340
1,297
1,255
1,215
1,177
1,140
1,104
1,070
1,037
1,005
974
–8
–7
–6
–5
944
–4
915
–3
889
–2
861
–1
836
0
811
1
787
2
764
3
742
4
721
5
700
6
680
7
661
8
643
9
626
10
609
11
592
12
576
13
561
14
Strainer — Periodic cleaning of the required field-installed
strainer is required. Pressure drop across strainer in excess of
3 psi (21 kPa) indicates the need for cleaning. Normal (clean)
pressure drop is approximately 1 psi (6.9 kPa). Open the
blowdown valve to clean the strainer. If required, shut the chill-
er down and remove the strainer screen to clean. When strainer
has been cleaned, enter ‘YES’ for Strainer Maintenance Done
(Run StatusPMS.T.MN.
WARNING
Electrical shock can cause personal injury and death. Shut
off all power to this equipment during installation. There
may be more than one disconnect switch. Tag all discon-
nect locations to alert others not to restore power until work
is completed.
Replacing Defective Modules — The Comfort-
Link™ replacement modules are shown in Table 36. If the main
base board (MBB) has been replaced, verify that all configura-
tion data is correct. Follow the Configuration mode table and
verify that all items under sub-modes UNIT, OPT1 and OPT2
are correct. Any additional field-installed accessories or op-
tions (RSET, SLCT sub-modes) should also be verified as well
as any specific time and maintenance schedules.
Refer to the Start-Up Checklist for 30MP Liquid Chillers
(completed at time of original start-up) found in the job folder.
This information is needed later in this procedure. If the check-
list does not exist, fill out the current information in the Config-
uration mode on a new checklist. Tailor the various options and
configurations as needed for this particular installation.
1. Check that all power to unit is off. Carefully disconnect
all wires from the defective module by unplugging its
connectors.
2. Remove the defective module by removing its mounting
screws with a Phillips screwdriver, and removing the
module from the control box. Save the screws later use.
3. Verify that the instance jumper (MBB) or address switch-
es (all other modules) exactly match the settings of the
defective module.
NOTE: Handle boards by mounting standoffs only to
avoid electrostatic discharge.
4. Package the defective module in the carton of the new
module for return to Carrier.
5. Mount the new module in the unit’s control box using a
Phillips screwdriver and the screws saved in Step 2.
43
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6. Reinstall all module connectors. For accessory Naviga-
tor™ device replacement, make sure the plug is installed
at TB3 in the LEN connector.
7. Carefully check all wiring connections before restoring
power.
UNIT ENABLE-OFF-REMOTE CONTACT SWITCH IS
OFF — When the switch is OFF, the unit will stop immediate-
ly. Place the switch in the ENABLE position for local switch
control or in the REMOTE CONTACT position for control
through remote contact closure.
CHILLED FLUID PROOF-OF-FLOW SWITCH OPEN —
After the problem causing the loss of flow has been corrected,
reset is manual by resetting the alarm with the scrolling
marquee.
OPEN 24-V CONTROL CIRCUIT BREAKER(S) — De-
termine the cause of the failure and correct. Reset circuit break-
er(s). Restart is automatic after MBB start-up cycle is com-
plete.
8. Verify the ENABLE/OFF/REMOTE CONTACT switch
is in the OFF position.
9. Restore control power. Verify that all module red LEDs
blink in unison. Verify that all green LEDs are blinking
and that the scrolling marquee or Navigator™ display is
communicating correctly.
10. Verify all configuration information, settings, set points
and schedules. Return the ENABLE/OFF/REMOTE
CONTACT switch to its previous position.
COOLING LOAD SATISFIED — Unit shuts down when
cooling load has been satisfied. Unit restarts when required to
satisfy leaving fluid temperature set point.
Table 36 — Replacement Modules
THERMISTOR FAILURE — If a thermistor fails in either an
open or shorted condition, the unit will be shut down. Replace
EWT, or LWT as required. Unit restarts automatically, but must
be reset manually by resetting the alarm with the scrolling
marquee.
REPLACEMENT
MODULE
PART NO.
(with Software)
Main Base Board (MBB)
Scrolling Marquee Display
Energy Management Module (EMM)
Navigator Display
30MP500346
HK50AA031
30GT515218
HK50AA033
CAUTION
If unit stoppage occurs more than once as a result of any of
the safety devices listed, determine and correct cause
before attempting another restart.
MAINTENANCE
Recommended Maintenance Schedule — The fol-
lowing are only recommended guidelines. Jobsite conditions
may dictate that maintenance schedule is performed more often
than recommended.
LOW SATURATED SUCTION — Several conditions can
lead to low saturated suction alarms and the chiller controls
have several override modes built in which will attempt to keep
the chiller from shutting down. Low fluid flow, low refrigerant
charge and plugged filter driers are the main causes for this
condition. To avoid permanent damage and potential freezing
of the system, do NOT repeatedly reset these alert and/or alarm
conditions without identifying and correcting the cause(s).
Routine:
Every month:
•
Check moisture indicating sight glass for possible refrig-
erant loss and presence of moisture.
Every 3 months (for all machines):
COMPRESSOR SAFETIES — The 30MP units with Com-
fortLink™ controls include a compressor protection board that
protects the operation of each of the compressors. Each board
senses the presence or absence of current to each compressor.
If there is a command for a compressor to run and there is
no current, then one of the following safeties or conditions
have turned the compressor off:
Compressor Overcurrent — All compressors have internal
line breaks or a motor protection device located in the com-
pressor electrical box.
Compressor Short Circuit — There will not be current if the
compressor circuit breaker that provides short circuit protection
has tripped.
Compressor Motor Over Temperature — The internal line-
break or over temperature switch has opened.
High-Pressure Switch Trip — The high pressure switch has
opened. See Table 31 for the factory settings for the fixed high
pressure switch.
ASTP Protection Trip — All non-digital Copeland compres-
sors are equipped with an advanced scroll temperature protec-
tion (ASTP). A label located above the terminal box identifies
models that contain this technology. See Fig. 25.
•
•
Check refrigerant charge.
Check all refrigerant joints and valves for refrigerant
leaks, repair as necessary.
•
•
Check chilled water flow switch operation.
Check compressor oil level.
Every 12 months (for all machines):
•
•
•
Check all electrical connections, tighten as necessary.
Inspect all contactors and relays, replace as necessary.
Check accuracy of thermistors, replace if greater than
± 2° F (1.2° C) variance from calibrated thermometer.
Check to be sure that the proper concentration of anti-
freeze is present in the chilled water loop, if applicable.
Verify that the chilled water loop is properly treated.
Check refrigerant filter driers for excessive pressure
drop, replace as necessary.
Check chilled water and condenser strainers, clean as
necessary.
Perform Service Test to confirm operation of all
components.
•
•
•
•
•
•
Check for excessive cooler approach (Leaving Chilled
Water Temperature — Saturated Suction Temperature)
which may indicate fouling. Clean evaporator if
necessary.
Advanced scroll temperature protection is a form of internal
discharge temperature protection that unloads the scroll com-
pressor when the internal temperature reaches approximately
300 F. At this temperature, an internal bi-metal disk valve
opens and causes the scroll elements to separate, which stops
compression. Suction and discharge pressures balance while
the motor continues to run. The longer the compressor runs un-
loaded, the longer it must cool before the bi-metal disk resets.
See Fig. 26 for approximate reset times.
TROUBLESHOOTING
Complete Unit Stoppage and Restart — Possi-
ble causes for unit stoppage and reset methods are shown be-
low and in Table 37. Refer to Fig. 3-7 for component arrange-
ment and control wiring diagrams.
GENERAL POWER FAILURE — After power is restored,
restart is automatic through normal MBB start-up.
44
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the compressor is commanded OFF and the current sensor
reads ON, an alert is generated. This will indicate that a com-
pressor contactor has failed closed. In this case, a special mode,
Compressor Stuck on Control, will be enabled and all other
compressors will be turned off. An alarm will then be enabled
to indicate that service is required. Outdoor fans will continue
to operate. The condenser output is turned on immediately.
Alarms and Alerts — These are warnings of abnormal
or fault conditions, and may cause either one circuit or the
whole unit to shut down. They are assigned code numbers as
described in Table 38.
Automatic alarms will reset without operator intervention if
the condition corrects itself. The following method must be
used to reset manual alarms:
Fig. 25 — Advanced Scroll Temperature
Protection Label
Before resetting any alarm, first determine the cause of the
alarm and correct it. Enter the Alarms mode indicated by the
LED on the side of the scrolling marquee display. Press
To manually reset ASTP, the compressor should be stopped
and allowed to cool. If the compressor is not stopped, the motor
will run until the motor protector trips, which occurs up to
90 minutes later. Advanced scroll temperature protection will
reset automatically before the motor protector resets, which
may take up to 2 hours.
High Discharge Gas Temperature Protection — Units
equipped with optional digital compressors have an additional
thermistor located on the discharge line, If discharge tempera-
ture exceeds 265 F (129.4 C), the digital compressor will be
shut off.
and
until the sub-menu item RCRN “RESET
ENTER
ALL CURRENT ALARMS” is displayed. Press
.
ENTER
The control will prompt the user for a password, by displaying
PASS and WORD. Press to display the default pass-
ENTER
for each character. If the password
word, 1111. Press
ENTER
has been changed, use the arrow keys to change each individu-
al character. Toggle the display to “YES” and press
The alarms will be reset.
.
ENTER
Alarms will also occur if the current sensor board malfunc-
tions or is not properly connected to its assigned digital input. If
120
110
100
90
80
70
60
50
40
30
20
10
0
0
10
20
30
40
50
60
70
80
90
Compressor Unloaded Run Time (Minutes)
*Times are approximate.
NOTE: Various factors, including high humidity, high ambient temperature,
and the presence of a sound blanket will increase cool-down times.
Fig. 26 — Recommended Minimum Cool Down Time After Compressor is Stopped*
45
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Table 37 — Troubleshooting
SYMPTOMS
Compressor Cycles
Off on Loss of Charge
CAUSE
REMEDY
Repair leak and recharge.
Loss of charge control. Acting erratically.
Replace control.
Low refrigerant charge
Low suction temperature
Thermistor failure
Add refrigerant.
Raise cooler leaving fluid temperature set point.
Replace thermistor.
Compressor Cycles Off on Out
of Range Condition
System load was reduced faster than controller could
remove stages
Unit will restart after fluid temperature rises back into the
control band. Avoid rapidly removing system load or
increase loop volume.
Temperature controller deadband setting is too low
High-pressure control acting erratically
Noncondensables in system
Raise deadband setting.
Replace control.
Compressor Shuts Down on
High-Pressure Control
Purge system.
Condenser scaled/dirty
Clean condenser.
Fans in remote condensing unit (30MPA only) not operating Repair or replace if defective.
System overcharged with refrigerant
Low refrigerant charge
Control contacts fused
Air in system
Reduce charge.
Unit Operates Too Long
or Continuously
Add refrigerant.
Replace control.
Purge system.
Partially plugged or plugged expansion valve or filter drier
Defective insulation
Clean or replace as needed.
Replace or repair as needed.
Keep doors and windows closed.
Check compressor and replace if necessary.
Support piping as required.
Check for loose pipe connections or damaged compressor
Add refrigerant.
Service load
Damaged compressor
Unusual or Loud System
Noises
Piping vibration
Expansion valve hissing
Compressor noisy
Check for plugged liquid line filter drier.
Replace compressor (worn bearings).
Check for loose compressor holddown bolts.
Repair leak.
Compressor Loses Oil
Leak in system
Mechanical damage (Failed seals or broken scrolls)
Oil trapped in line
Replace compressor.
Check piping for oil traps.
Repair leak and recharge.
Replace filter drier.
Hot Liquid Line
Shortage of refrigerant due to leak
Restricted filter drier
Frosted Liquid Line
Frosted Suction Line
Expansion valve admitting excess refrigerant (note: this is a Replace valve if defective.
normal condition for brine applications)
Stuck TXV
Replace valve if defective.
Freeze-Up
Improper charging
Make sure a full quantity of fluid is flowing through the cooler
while charging, and suction pressure in cooler is equal to or
greater than pressure corresponding to 32 F (0° C).
System not drained for winter shutdown
Loose Thermistor
Recommended that system be filled with an appropriate gly-
col mixture to prevent freezing of pumps and fluid tubing.
Verify thermistors are fully inserted in wells.
46
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Table 38 — Alarm and Alert Codes
ALARM/ ALARM
WHY WAS THIS
ACTION TAKEN
ALARM
RESET
METHOD
PROBABLE
CAUSE
ALERT
CODE
OR
DESCRIPTION
BY CONTROL
GENERATED?
ALERT
Circuit A Compressor
Availability Alarm
Two compressors on circuit
Circuit shut down
failed
Only one compressor
operating.
A048
T051
Alarm
Alert
Manual
Manual
High-pressure switch open,
faulty CSB, loss of condenser
flow, filter drier plugged, non-
condensables, operation
beyond capability.
Circuit A, Compressor 1
Failure
Compressor feedback signal
does not match relay state
Compressor A1 shut
down.
High-pressure switch open,
faulty CSB, loss of condenser
flow, filter drier plugged, non-
condensables, operation
beyond capability.
Respective current sensor
board (CSB) feedback signal
is ON when the compressor
should be off
Circuit A, Compressor 1
Failure
A051
T052
A052
T053
Alarm
Alert
Unit shut down
Manual
Manual
Manual
Manual
High-pressure switch open,
faulty CSB, loss of condenser
flow, filter drier plugged, non-
condensables, operation
beyond capability.
Circuit A, Compressor 2
Failure
Compressor feedback signal
does not match relay state
Compressor A2 shut
down.
High-pressure switch open,
faulty CSB, loss of condenser
flow, filter drier plugged, non-
condensables, operation
beyond capability.
Respective current sensor
board (CSB) feedback signal
is ON when the compressor
should be off
Circuit A, Compressor 2
Failure
Alarm
Alert
Unit shut down
High-pressure switch open,
faulty CSB, loss of condenser
flow, filter drier plugged, non-
condensables, operation
beyond capability.
Circuit A, Compressor 3
Failure
Compressor feedback signal
does not match relay state
Compressor A3 shut
down.
High-pressure switch open,
faulty CSB, loss of condenser
flow, filter drier plugged, non-
condensables, operation
beyond capability.
Respective current sensor
board (CSB) feedback signal
is ON when the compressor
should be off
Circuit A, Compressor 3
Failure
A053
A060
Alarm
Alarm
Unit shut down
Manual
Cooler Leaving Fluid
Thermistor Failure
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
Chiller shut down
immediately
Thermistor failure, damaged
cable/wire or wiring error.
Automatic
Cooler Entering Fluid
Thermistor Failure
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
Chiller shut down
immediately
Thermistor failure, damaged
cable/wire or wiring error.
A061
T062
Alarm
Alert
Automatic
Automatic
Condenser Leaving Fluid
Thermistor Failure
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
Alert only.
No action taken.
Thermistor failure, damaged
cable/wire or wiring error.
T063
Alert
Condenser Entering Fluid
Thermistor Failure
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
Alert only.
No action taken.
Automatic
Thermistor failure, damaged
cable/wire or wiring error.
If return gas sensors are
enabled (RG.EN) and
thermistor is outside range of
–40 to 245 F (–40 to 118 C)
Circuit A Return Gas
Thermistor Failure
Thermistor failure, damaged
cable/wire or wiring error.
T068
None
Circuit A shut down
Automatic
Temperature reset
disabled. Chiller runs
under normal control/set
points.
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
(if enabled)
Outside Air Thermistor
Failure
Thermistor failure, damaged
cable/wire or wiring error.
T073
T074
A077
Alert
Alert
Automatic
Automatic
Manual
Temperature reset
disabled. Chiller runs
under normal control/set
points.
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
(if enabled)
Space Temperature/Dual Chiller
Thermistor Failure
Thermistor failure, damaged
cable/wire or wiring error.
Circuit A Saturated
Suction Temperature
exceeds Cooler Leaving
Fluid Temperature
Faulty expansion valve,
suction pressure transducer
or leaving fluid thermistor.
Faulty expansion valve or
suction pressure transducer
or leaving fluid thermistor.
Circuit A shutdown after
pumpdown complete.
Alarm
Dual LWT thermistor failure,
damaged cable/wire or
wiring error.
Lead/Lag LWT
Thermistor outside range of
–40 to 245 F (–40 to 118 C)
Chiller runs as a stand
alone machine
T079
A090
Alert
Automatic
Automatic
Thermistor Failure
Transducer failure, poor
connection to MBB, or wiring
damage/error.
Circuit A Discharge
Pressure Transducer Failure
Alarm
Outside of range (0 - 667 psig) Circuit A shut down
Transducer failure, poor
connection to MBB, or wiring
damage/error.
Circuit A Suction
A092
T094
Alarm
Alert
Outside of range (0 - 420 psig) Circuit A shut down
Discharge thermistor (DTT) is Digital compressor shut
Automatic
Automatic
Pressure Transducer Failure
Discharge Gas
Thermistor Failure
Thermistor failure, damaged
cable/wire or wiring error.
either open or shorted
down.
If the compressors are off
and discharge pressure
reading is < 26 psig for
30 sec.
Circuit not allowed to
start.
Refrigerant leak or
transducer failure
A110
A112
Alarm Circuit A Loss of Charge
Manual
Manual
Circuit saturated suction
temperature pressure
transducer > 70 F (21.1 C)
for 5 minutes
Faulty Expansion valve,
faulty suction pressure
transducer or high entering
fluid temperature.
Circuit A High Saturated
Alarm
Circuit shut down
Suction Temperature
Automatic restart Faulty expansion valve,
Suction superheat is
less than 5° F (2.8 C) for 5
minutes. (if RGT installed)
after first daily
occurrence.
Manual restart
thereafter.
faulty suction pressure
transducer, faulty suction gas
thermistor, circuit
Circuit A Low Suction
Superheat
A114
Alarm
Circuit A shut down.
overcharged
47
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Table 38 — Alarm and Alert Codes (cont)
ALARM/
ALERT
CODE
ALARM
OR
ALERT
WHY WAS THIS
ACTION TAKEN
ALARM
RESET
METHOD
PROBABLE
CAUSE
DESCRIPTION
BY CONTROL
GENERATED?
Mode 7 caused the com-
Faulty expansion valve, low
refrigerant charge, plugged
filter drier, faulty suction
pressure transducer, low
cooler fluid flow
pressor to unload 6 consecu-
Circuit A Low Cooler
Suction Temperature
A116
A122
Alarm
Alarm
tive times with less than a
30-minute interval between
each circuit shutdown.
Circuit shut down
Circuit shut down
Manual
High Pressure Switch
Trip Circuit A
High Pressure A Switch
Input opento MBB
Faulty transducer/high
pressure switch.
Manual
Automatic, only
after first 3 daily
occurrences.
Faulty transducer/high
pressure switch, low/
restricted condenser
airflow
SCT >Maximum condensing
temperature from operating
envelope
Manual reset
Circuit A High
A126
T133
Alarm
Alert
Circuit shut down
Circuit shut down
thereafter. Read-
ing from OAT sen-
sor must drop 5 F
(2.8 C) before
restart
Discharge Pressure
Automatic
Faulty or plugged EXV, low
refrigerant charge, EXV out
of adjustment, liquid
Suction pressure below
34 psig for 8 seconds or
below 23 psig
restart after first
daily occurrence.
Manual restart
thereafter.
Circuit A Low Suction
Pressure
line valve partially closed
Reverse any two incoming
power leads to correct. Check
for correct fan rotation first.
Reverse Rotation
Detected
Incoming chiller power leads Chiller not allowed to
A140
A150
A151
Alert
Alarm
Alarm
Manual
not phased correctly
start.
Automatic once
Chiller shutdown
without going through
pumpdown.
CCN emergency stop
command received
CCN command for CCN Network
EMSTOP returns to command.
normal
Emergency Stop
Manual once
configuration errors
are corrected
One or more illegal
configurations exists.
Chiller is not allowed to
start.
Configuration error.
Check unit settings.
Illegal Configuration
Automatic once
alarms/alerts are
cleared that pre-
Alarm notifies user
that chiller is 100%
Unit Down Due to
Failure
Both circuits are down due
to alarms/alerts.
Chiller is unable
to run.
A152
Alarm
vent the chiller from down.
starting.
Occupancy schedule
will not be used. Chiller
defaults to Local On
mode.
Automatic when
correct clock con-
trol restarts.
Time/Date/Month/
Real Time Clock
Hardware Failure
T153
A154
Alert
Internal clock on MBB fails
Hardware failure with MBB
Day/Year not
properly set.
Serial EEPROM
Hardware Failure
Chiller is unable
to run.
Main Base Board
failure.
Alarm
Manual
Potential failure of
MBB. Download
Serial EEPROM
Storage Failure
Configuration/storage
failure with MBB
T155
Alert
No Action
Manual
current operating
software. Replace
MBB if error occurs again.
Critical Serial EEPROM
Storage Failure
Configuration/storage
failure with MBB
Chiller is not allowed
to run.
Main Base Board
failure.
A156
A157
Alarm
Alarm
Manual
Manual
Hardware failure with
peripheral device
Chiller is not allowed
to run.
Main Base Board
failure.
A/D Hardware Failure
4 to 20 mA
temperature reset
disabled. Demand
Limit set to 100%. 4 to
20 mA set point
disabled.
Wiring error, faulty
wiring or failed
Energy Management Module
(EMM).
Loss of Communication
with EMM
MBB loses communication
with EMM
T173
Alert
Automatic
If configured with EMM and
input less than 2 mA or
greater than 22 mA
Set point function
disabled. Chiller
controls to CSP1.
Faulty signal
4 to 20 mA Cooling Set
Point Input Failure
T174
T176
Alert
Alert
Automatic
Automatic
generator, wiring
error, or faulty EMM.
Reset function
4 to 20 mA
Temperature Reset
Input Failure
If configured with EMM
and input less than 2 mA or
greater than 22 mA
Faulty signal
generator, wiring
error, or faulty EMM.
disabled. Chiller
returns to normal set
point control.
Demand limit function
disabled. Chiller
returns to 100%
demand limit
If configured with EMM and
input less than 2 mA or
greater than 22 mA
Faulty signal
generator, wiring
error, or faulty EMM.
4 to 20 mA Demand
Limit Input Failure
T177
Alert
Automatic
control.
See legend on page 51.
48
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Table 38 — Alarm and Alert Codes (cont)
ALARM/
ALERT
CODE
ALARM
OR
ALERT
WHY WAS THIS
ACTION TAKEN
ALARM
RESET
METHOD
PROBABLE
CAUSE
DESCRIPTION
BY CONTROL
GENERATED?
Cooler flow switch contacts
failed to close within
1 minute (if cooler pump
control is enabled) or
within 5 minutes (if cooler
pump control is not
Chiller not allowed to
start. For models with
dual pumps, the
second pump will be
started if available
Cooler Flow/Interlock
Contacts failed to Close
at start-up
Faulty flow switch or
interlock.
T200
Alert
Manual
Manual
enabled) after start-up
All compressors shut
down. For models with
dual pumps, the
Cooler Flow/Interlock
Contacts Opened
During Normal
Operation
Flow switch opens for at
least 3 seconds after
being initially closed
Cooler pump failure,
faulty flow switch or
interlock.
A201
A202
Alarm
Alarm
second pump will be
started if available
If configured for cooler
pump control and flow
switch input is closed for
5 minutes while pump
output(s) are off
Cooler Pump Interlock
Closed When Pump is
Off
Wiring error, faulty
pump contactor
(welded contacts)
Automatic when
aux contacts open
Chiller shut down
Wiring error, faulty
wiring, failed Slave
chiller MBB module,
power loss at slave
chiller, wrong slave
address.
Dual chiller control
disabled. Chiller runs
as a stand-alone
machine.
Master chiller MBB
loses communication
with slave chiller MBB
Loss of Communication
with slave chiller
T203
T204
Alert
Alert
Automatic
Automatic
Wiring error, faulty
wiring, failed master
chiller MBB module,
power loss at Master
chiller.
Dual chiller control
disabled. Chiller runs
as a stand-alone
machine
Slave chiller MBB loses
communication with
master chiller MBB
Loss of Communication
with master chiller
CCN Address for
both chillers is the
same. Must be
different. Check
CCN.A under the
OPT2 sub-mode in
Configuration at both
chillers.
Dual chiller routine
disabled. Master/slave
run as stand-alone
chillers.
Master and slave chiller
have the same CCN
address (CCN.A)
Master and slave chiller
with same address
T205
Alert
Automatic
Building load greater
than unit capacity,
low water/brine flow
or compressor fault.
Check for other
LWT read is greater than
LCW Alert Limit, Total
capacity is 100% and LWT
is greater than LWT
High Leaving Chilled
Water Temperature
Alert only. No action
taken.
T206
A207
Alert
Automatic
reading one minute ago
alarms/alerts.
Chiller shutdown
without going through
pumpdown. Cooler
pump continues to
run a minimum of
5 minutes (if control
enabled).
Both EWT and LWT
must be at least 6 F
(3.3 C) above Brine
Freeze point
(BR.FZ). Automatic
for first, Manual reset
there after.
Faulty thermistor
(T1/T2), low water
flow.
Cooler Freeze
Protection
Cooler EWT or LWT is less
than Brine Freeze (BR.FZ)
Alarm
Cooler EWT is less than
LWT by 3° F (1.7° C) for
1 minute after a circuit is
started
Faulty cooler pump,
low water flow,
plugged fluid
strainer.
Chiller shutdown.
EWT or LWT
A208
A220
Alarm
Alarm
Cooler pump shut off
(if control enabled).
Manual
Manual
Thermistor failure
Condenser Pump
Interlock Failure to
Close
If configured for con-
denser pump interlock
and the flow switch
Condenser and cooler
pumps shut off.
Chiller shutdown with-
out going through
pumpdown.
Failure of condenser
pump or controls.
Wiring error.
at Start-Up
input fails to close with-
in 5 minutes after start-
up. Also valid when
configured for con-
denser pump control.
A221
A222
Alarm
Condenser Pump
If configured for con-
denser pump interlock
and the flow switch
opens for 15 seconds
during normal
operation (or when
the condenser pump
relay is on when con-
denser pump control
is configured.)
Condenser and cooler
pumps shut off. Chiller
shutdown without
going through pump-
down.
Manual
Failure of condenser
pump or controls.
Wiring error.
Interlock Opened During
Normal Operation
Alarm
Condenser Pump
Interlock Closed When
Pump is Off
If configured for con-
denser pump interlock
condenser pump con-
trol, and the flow
switch is closed
when pump relay is off.
Chiller is not allowed to
start.
Manual
Failure of condenser
pump relays or inter-
locks, welded
contacts.
49
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Table 38 — Alarm and Alert Codes (cont)
ALARM/
ALERT
CODE
ALARM
OR
ALERT
WHY WAS THIS
ACTION TAKEN
ALARM
RESET
METHOD
PROBABLE
CAUSE
DESCRIPTION
BY CONTROL
GENERATED?
Strainer Service
Countdown (S.T.DN)
Strainer Blowdown
Scheduled
Maintenance Due
Routine strainer
maintenance
required
expired. Complete strainer
T302
Alert
None
Automatic
blowdown and enter 'YES'
for Strainer Maintenance
Done (S.T.MN) item.
Current Sensor Board
A1 Failure
Alert occurs when CSB out-
put is a constant high value
Compressor A1 shut
down
CSB failure.
CSB failure.
CSB failure.
T500
T501
Alert
Alert
Automatic
Automatic
Current Sensor Board
A2 Failure
Alert occurs when CSB out-
put is a constant high value
Compressor A2 shut
down
Current Sensor Board
A3 Failure
Alert occurs when CSB out-
put is a constant high value
Compressor A3 shut
down
T502
T950
Alert
Alert
Automatic
Automatic
Loss of Communication
with Water System
Manager
No communications have
been received by the MBB
within 5 minutes of last
transmission
WSM forces removed.
Chiller runs under own
control
Failed module, wiring
error, failed
transformer, loose
connection plug,
wrong address
T951
Alert
Loss of Communication
with Chillervisor System
Manager
No communications have
been received by the MBB
within 5 minutes of last
transmission
CSM forces removed.
Chiller runs under own
control
Automatic
Failed module, wiring
error, failed
transformer, loose
connection plug,
wrong address
LEGEND
CCN
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
Carrier Comfort Network
Current Sensor Board
CSB
CSM
CXB
Chiller System Manager
Compressor Expansion Board
EEPROM
EMM
EWT
EXV
Electronic Eraseable Programmable Read Only Memory
Energy Management Module
Entering Fluid Temperature
Electronic Expansion Valve
Hydronic System Manager
Leaving Chilled Water
HSM
LCW
LWT
Leaving Fluid Temperature
Main Base Board
MBB
OAT
Outdoor-Air Temperature
RGT
Return Gas Thermistor
WSM
Water System Manager
COMPRESSOR FAILURE ALERTS
To check out alerts T051-T053:
A048 (Circuit A Compressor Availability Alarm) — This
alarm occurs when two compressors are unavailable to run on
a 3 compressor circuit. The control ensures proper oil return by
ensuring a circuit does not operate with one compressor for
longer than one hour of cumulative run time.
1. Turn on the compressor in question using Service Test
mode. If the compressor does not start, then most likely
the problem is one of the following: HPS open, open in-
ternal protection, circuit breaker trip, incorrect safety wir-
ing, or incorrect compressor wiring.
T051, T052, T053 (Circuit A Compresser Failures) — Alert
codes 051, 052, and 053 are for compressors A1, A2, and A3
respectively. These alerts occur when the current sensor (CS)
does not detect compressor current during compressor opera-
tion. When this occurs, the control turns off the compressor.
If the current sensor board reads OFF while the compressor
relay has been commanded ON, an alert is generated.
2. If the compressor does start, verify it is rotating in the cor-
rect direction.
IMPORTANT: Prolonged operation in the wrong direction
can damage the compressor. Correct rotation can be veri-
fied by a gage set and looking for a differential pressure
rise on start-up.
POSSIBLE CAUSES
IMPORTANT: If the CS is always detecting current, verify
that the compressor is on. If the compressor is on, check
the contactor and the relay on the MBB. If the compressor
is off and there is no current, verify the CSB wiring and
replace if necessary.
Compressor Overload — Either the compressor internal over-
load protector is open or the external overload protector (Kri-
wan module) has activated. The external overload protector
modules are mounted in the compressor wiring junction box.
Temperature sensors embedded in the compressor motor wind-
ings are the inputs to the module. The module is powered with
24 vac from the units main control box. The module output is a
normally closed contact that is wired in series with the com-
pressor contactor coil. In a compressor motor overload condi-
tion, contact opens, deenergizing the compressor contactor.
IMPORTANT: Return to Normal mode and observe com-
pressor operation to verify that compressor current sensor
is working.
COMPRESSOR STUCK ON FAILURE ALARMS
Low Refrigerant Charge — If the compressor operates for an
extended period of time with low refrigerant charge, the com-
pressor ASTP device will open, which will cause the compres-
sor to trip on its overload protection device.
Circuit A A051, A052, A053 — Alarm codes 051, 052, and
053 are for compressors A1, A2, and A3. These alarms occur
when the CSB detects current when the compressor should be
off. When this occurs, the control turns off the compressor.
Circuit Breaker Trip — The compressors are protected from
short circuit by a breaker in the control box.
Wiring Error — A wiring error might not allow the compres-
sor to start.
If the current sensor board reads ON while the compressor
relay has been commanded OFF for a period of 4 continuous
seconds, an alarm is generated. These alarms are only moni-
tored for a period of 10 seconds after the compressor relay has
50
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been commanded OFF. This is done to facilitate a service tech-
nician forcing a relay to test a compressor.
In addition, if a compressor stuck failure occurs and the cur-
rent sensor board reports the compressor and the request off,
certain diagnostics will take place as follows:
leaving water for 5 minutes. This alarm will occur if either the
suction pressure transducer reading, which is used to calculate
SST, or cooler leaving water is incorrect. Potential causes for
this alarm are loose wiring connection, sensor not located in
well or bad Schrader fitting. Reset is manual.
T079 (Dual Chiller Thermistor Failure) — This alert occurs
when the dual chiller temperature sensor is outside its range of
–40 to 240 F. Failure of this thermistor will disable Dual Chill-
er operation and return to stand-alone operation. The unit must
be configured for Dual Chiller operation for this alert to occur.
The cause of the alert is usually a faulty thermistor, a shorted or
open thermistor caused by a wiring error, or a loose connection.
Reset is automatic.
1. If any of the compressors are diagnosed as stuck on and
the current sensor board is on and the request is off, the
control will command the condenser fans to maintain
normal head pressure.
2. The control will shut-off all other compressors.
The possible causes include welded contactor or frozen
compressor relay on the MBB.
To check out alarms A051 to A053:
A090 (Circuit A Discharge Pressure Transducer Failure) —
This alarm occurs when the pressure is outside the range of 0.0
to 667.0 psig. A circuit cannot run when this alarm is active.
Use the scrolling marquee to reset the alarm. The cause of the
alarm is usually a faulty transducer, faulty 5-v power supply, or
a loose connection.
1. Place the unit in Service Test mode. All compressors
should be off.
2. Verify that there is not 24-v at the contactor coil. If there
is 24 v at the contactor, check relay on MBB and wiring.
3. Check for welded contactor.
4. Verify CSB wiring.
5. Return to Normal mode and observe compressor opera-
tion to verify that compressor current sensor is working
and condenser fans are energized.
A092 (Circuit A Suction Pressure Transducer Failure)
—
This alarm occurs when the pressure is outside the range of 0.0
to 420.0 psig. A circuit cannot run when this alarm is active.
Use the scrolling marquee to reset the alarm. The cause of the
alarm is usually a faulty transducer, faulty 5-v power supply, or
a loose connection.
A060 (Cooler Leaving Fluid Thermistor Failure)
—
The
T094 (Discharge Gas Thermistor Failure) — This alert oc-
curs for units which have the digital compressor installed on
circuit A. If discharge gas temperature is open or shorted, the
circuit will be shut off. The alert will reset itself when discharge
temperature is less than 250 F (121.1 C). The cause of the alert
is usually low refrigerant charge or a faulty thermistor.
A110 (Circuit A Loss of Charge) — This alarm occurs when
the compressor is OFF and the discharge pressure is less than
26 psig.
sensor reading is outside the range of –40 to 245 F (–40 to
118 C) then the alarm will occur. The cause of the alarm is usu-
ally a faulty thermistor, a shorted or open thermistor caused by
a wiring error, or a loose connection. Failure of this thermistor
will shut down the entire unit.
A061 (Cooler Entering Thermistor Failure) — If the sensor
reading is outside the range of –40 to 240 F (–40 to116 C) then
the alarm will occur. The cause of the alarm is usually a faulty
thermistor, a shorted or open thermistor caused by a wiring er-
ror, or a loose connection. Failure of this thermistor will shut
down the entire unit.
T062 (Condenser Leaving Fluid Thermistor Failure) — The
sensor reading is outside the range of –40 to 245 F (–40 to
118 C) then the alert will occur. The cause of the alert is usually
a faulty thermistor, a shorted or open thermistor caused by a
wiring error, or a loose connection. Failure of this thermistor
will send out an alert only.
T063 (Condenser Entering Thermistor Failure) — If the sen-
sor reading is outside the range of –40 to 240 F (–40 to116 C)
then the alert will occur. The cause of the alert is usually a
faulty thermistor, a shorted or open thermistor caused by a wir-
ing error, or a loose connection.Failure of this thermistor will
send out an alert only.
T068 (Circuit A Compressor Return Gas Temperature
Thermistor Failure) — This alert occurs if the RGT is config-
ured and the compressor return gas temperature sensor is out-
side the range of –40 to 240 F (–40 to 116 C). Failure of this
thermistor will shut down the appropriate circuit.
A112 (Circuit A High Saturated Suction Temperature)
—
Alarm code 112 occurs when compressors in a circuit have
been running for at least 5 minutes and the circuit saturated
suction temperature is greater than 70 F (21.1 C). The high sat-
urated suction alarm is generated and the circuit is shut down.
A114 (Circuit A Low Superheat) — Alarm code 114 occurs
when the superheat of a circuit is less than 5 F (2.8 C) for 5
continuous minutes. The low superheat alarm is generated and
the circuit is shut down. The RGT sensor must be installed.
A122 (Circuit A, High Pressure Switch Failure) — The
high pressure switch is wired in series with the compressor
contactor coils of each compressor on the circuit to disable
compressor operation immediately upon a high discharge pres-
sure condition. The normally closed contacts in the switches
are calibrated to open at 650 ± 10 psig which corresponds to a
saturated condensing temperature of 155.6 ± 1.3 F. The pres-
sure switches will automatically reset when the discharge pres-
sure is reduced to 500 ± 15 psig which corresponds to a saturat-
ed condensing temperature of 134.1 ± 2.4 F.
The output of the high pressure switch is wired to inputs on
the MBB to provide the control with an indication of a high
pressure switch trip. This alert could occur when compressors
are off if the wiring to the switch is broken or the switch has
failed open.
T073 (Outside Air Temperature Thermistor Failure) — This
alert occurs when the outside air temperature sensor is outside
the range of –40 to 240 F (–40 to 116 C). Failure of this therm-
istor will disable any elements of the control which requires its
use. The OAT must be configured.
If the high pressure switch trips on a circuit with compres-
sors commanded on, the discharge pressure is recorded. If the
recorded discharge pressure is between 630 to 660 psig (satu-
rated condensing temperature between 153.0 and 156.9 F), and
is also less than the value recorded on any previous high pres-
sure switch trip, the upper horizontal portion of the compressor
operating envelope (see Fig. 12) is lowered 0.4 F (3 psig). The
control will not allow the compressor operating envelope to be
lowered below 153.0 F (630 psig).
T074 (Space Temperature Thermistor Failure) — This alert
occurs when the space temperature sensor is outside the range
of –40 to 245 F (–40 to 118 C). Failure of this thermistor will
disable any elements of the control which requires its use. The
cause of the alert is usually a faulty thermistor in the T55, or
T58 device, a shorted or open thermistor caused by a wiring er-
ror, or a loose connection. The SPT must be configured.
A077 (Circuit Saturated Suction Temperature Exceeds
Cooler Leaving Water Temperature) — This alarm occurs
when the saturated suction temperature (SST) is greater than
51
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This is done to make a rough calibration of the high pres-
sure switch trip point. In most cases this allows the control to
detect a high head pressure condition prior to reaching the high
pressure switch trip point.
When the trip occurs, all mechanical cooling on the circuit
is shut down for 15 minutes. After 15 minutes, the circuit is al-
lowed to restart.
A126 (Circuit A High Head Pressure) — This alarm occurs
when the appropriate saturated condensing temperature is
greater than the operating envelope shown in Fig 12. Prior to
the alarm, the control will shut down one compressor on a cir-
cuit if that circuit's saturated condensing temperature is greater
than the maximum SCT minus 5° F (2.7° C). If SCT continues
to rise to greater than the maximum SCT, the alarm will occur
and the circuit's remaining compressor will shut down. The
cause of the alarm is usually an overcharged system, high out-
door ambient temperature coupled with dirty outdoor coil
(30MPA only), plugged filter drier, a faulty high-pressure
switch, or loss of condenser water flow.
• Invalid unit size has been entered.
• Unit configuration set to invalid type.
A152 (Unit Down Due to Failure) — Reset is automatic
when all alarms are cleared. This alarm indicates the unit is at
0% capacity.
T153 (Real Time Clock Hardware Failure) — A problem
has been detected with MBB real time clock hardware. Try re-
setting the power and check the indicator lights. If the alarm
continues, the board should be replaced.
A154 (Serial EEPROM Hardware Failure) — A problem
has been detected with the EEPROM on the MBB. Try
resetting the power and check the indicator lights. If the alarm
continues, the board should be replaced.
T155 (Serial EEPROM Storage Failure Error) — A problem
has been detected with the EEPROM storage on the MBB. Try
resetting the power and check the indicator lights. If the alert
continues, the board should be replaced.
A156 (Critical Serial EEPROM Storage Failure Error) — A
problem has been detected with the EEPROM storage on the
MBB. Try resetting the power and check the indicator lights. If
the alarm continues, the board should be replaced.
A140 (Reverse Rotation Detected) — A test is made once, on
power up, for suction pressure change on the first activated cir-
cuit. The unit control determines failure as follows:
A157 (A/D Hardware Failure) — A problem has been detect-
ed with A/D conversion on the boards. Try resetting the power
and check the indicator lights. If the alarm continues, the board
should be replaced.
T173 (Energy Management Module Communication Fail-
ure) — This alert indicates that there are communications
problems with the energy management. All functions per-
formed by the EMM will stop, which can include demand lim-
it, reset and capacity input. The alert will automatically reset.
T174 (4 to 20 mA Cooling Set point Input Failure) — This
alert indicates a problem has been detected with cooling set
point 4 to 20 mA input. The input value is either less than 2 mA
or greater than 22 mA.
T176 (4 to 20 mA Reset Input Failure) — This alert indi-
cates a problem has been detected with reset 4 to 20 mA input.
The input value is either less than 2 mA or greater than 22 mA.
The reset function will be disabled when this occurs.
1. The suction pressure is sampled 5 seconds before the
compressor is brought on, right when the compressor is
brought on and 5 seconds afterwards.
2. The rate of suction pressure change from 5 seconds be-
fore the compressor is brought on to when the compres-
sor is brought on is calculated.
3. The rate of suction pressure change from when the
compressor is brought on to 5 seconds afterwards is
calculated.
4. With the above information, the test for reverse rotation is
made. If the suction pressure change 5 seconds after com-
pression is greater than the suction pressure change 5 sec-
onds before compression – 1.25, then there is a reverse
rotation error.
This alarm will disable mechanical cooling and will require
manual reset. This alarm may be disabled once the reverse ro-
tation check has been verified by setting REV.R = Yes.
A150 (Unit is in Emergency Stop) — If the CCN emergency
stop command is received, the alarm is generated and the unit
will be immediately stopped.
If the CCN point name "EMSTOP" in the system table is set
to emergency stop, the unit will shut down immediately and
broadcast an alarm back to the CCN, indicating that the unit is
down. This alarm will clear when the variable is set back to
"enable."
A151 (Illegal Configuration) — An A151 alarm indicates an
invalid configuration has been entered. The following are ille-
gal configurations.
T177 (4 to 20 mA Demand Limit Input Failure)
—
This
alert indicates a problem has been detected with demand limit
4 to 20 mA input. The input value is either less than 2 mA or
greater than 22 mA. The reset function will be disabled when
this occurs.
T500, T501, T502 (Current Sensor Board Failure — A xx
Circuit A — Alert codes 500, 501, and 502 are for compres-
sors A1, A2, and A3 respectively. These alerts occur when the
output of the CSB is a constant high value. These alerts reset
automatically. If the problem cannot be resolved, the CSB must
be replaced.
52
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APPENDIX A — LOCAL DISPLAY TABLES
Run Status Mode and Sub-Mode Directory
SUB-MODE
ITEM
DISPLAY
ITEM DESCRIPTION
AUTO VIEW OF RUN STATUS
Entering Fluid Temp
Leaving Fluid Temp
Active Setpoint
CCN POINT
COMMENT
EWT
LWT
xxx.x ºF
xxx.x ºF
xxx.x ºF
xxx.x ºF
xxx
EWT
LWT
SP
SETP
CTPT
LOD.F
STAT
OCC
Control Point
Load/Unload Factor
Control Mode
Occupied
Override Modes in
Effect
CTRL_PNT
SMZ
STAT
OCC
NO/YES
NO/YES
VIEW
MODE
MODE
CAP
STGE
ALRM
TIME
xxx
x
xxx
xx.xx
Percent Total Capacity
Requested Stage
Current Alarms & Alerts
Time of Day
CAP_T
STAGE
ALRMALRT
TIMECOPY
00:00-23:59
1 - 12 (1 = January,
2 = February, etc.)
MNTH
xx
Month of Year
MOY
DATE
YEAR
xx
xx
Day of Month
Year of Century
DOM
YOCDISP
01-31
UNIT RUN HOUR AND START
Machine Operating
Hours
Machine Starts
Cooler Pump Run
Hours
HRS.U
STR.U
HR.P1
xxxx HRS
xxxx
HR_MACH
CY_MACH
HR_CPUMP
0 to 999999
0 to 1000000
0 to 999999.9
RUN
xxxx HRS
Condenser Pump Run
Hours
HR.P2
xxxx HRS
HR_DPUMP
0 to 999999.9
CIRC AND COMP RUN HOURS
Compressor A1 Run
Hours
Compressor A2 Run
Hours
Compressor A3 Run
Hours
HR.A1
HR.A2
HR.A3
xxxx HRS
xxxx HRS
xxxx HRS
HOURS_A1
HOURS_A2
HOURS_A3
0 to 999999
0 to 999999
0 to 999999
HOUR
STRT
COMPRESSOR STARTS
Compressor A1 Starts
Compressor A2 Starts
ST.A1
ST.A2
ST.A3
xxxx
xxxx
xxxx
CY_A1
CY_A2
CY_A3
0 to 999999
0 to 999999
0 to 999999
Compressor A3 Starts
PREVENTIVE MAINTENANCE
STRN
SI.ST
STRAINER MAINTENANCE
xxxx HRS
xxxx HRS
NO/YES
Strainer Srvc Interval
Strainer Srvc Count-
down
SI_STRNR
ST_CDOWN
ST_MAINT
0 to 65535
0 to 65535
S.T.DN
S.T.MN
ST.DT
Strainer Maint. Done
PM
STRAINER MAINT. DATES
S.T.M0
S.T.M1
S.T.M2
S.T.M3
S.T.M4
MM/DD/YY HH:MM
MM/DD/YY HH:MM
MM/DD/YY HH:MM
MM/DD/YY HH:MM
MM/DD/YY HH:MM
SOFTWARE VERSION NUMBERS
AUX
MBB
CESR131333-xx-xx
CESR131279-xx-xx
CESR131174-xx-xx
CESR131171-xx-xx
CESR130227-xx-xx
VERS
EMM
MARQ
NAVI
53
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Service Test Mode and Sub-Mode Directory
SUB-MODE
TEST
ITEM
DISPLAY
ITEM DESCRIPTION
CCN POINT
COMMENT
To enable Service Test mode, move
Enable/Off/Remote contact switch
to
ON/OFF
Service Test Mode
MAN_CTRL
OFF. Change TEST to ON.
Move switch to ENABLE
OUTPUTS AND PUMPS
CLR.P
CND.P
UL.TM
CC.H
CW.VO
CW.VC
LL.SV
RMT.A
OFF/ON
OFF/ON
xx
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
Cooler Pump Relay
Condenser Pump
Comp A1 Unload Time
Crankcase Heater
Condenser Valve Open
Condenser Valve Close
Liquid Line Solenoid
Remote Alarm Relay
CIRCUIT A COMPRESSOR TST
Compressor A1 Relay
Comp A1 Unload Time
Compressor A2 Relay
Compressor A3 Relay
Minimum Load Valve Relay
S_CLPMP
S_CNDPMP
S_A1ULTM
S_CCH
S_CWVO
S_CWVC
S_LLSV
0 to 15
OUTS
CMPA
S_ALM
CC.A1
UL.TM
CC.A2
CC.A3
MLV
OFF/ON
xx
OFF/ON
OFF/ON
OFF/ON
S_A1_RLY
S_A1ULTM
S_A2_RLY
S_A3_RLY
S_MLV
0 to 15
Temperature Mode and Sub-Mode Directory
SUB-MODE
UNIT
ITEM
DISPLAY
ITEM DESCRIPTION
CCN POINT
ENT AND LEAVE UNIT TEMPS
CEWT
CLWT
CDET
CDLT
OAT
xxx.x °F
xxx.x °F
xxx.x °F
xxx.x °F
xxx.x °F
xxx.x °F
xxx.x °F
Cooler Entering Fluid
Cooler Leaving Fluid
Condenser Entering Fluid
Condenser Leaving Fluid
Outside Air Temperature
Space Temperature
COOL_EWT
COOL_LWT
COND_EWT
COND_LWT
OAT
SPT
DLWT
SPT
DUAL_LWT
Lead/Lag Leaving Fluid
TEMPERATURES CIRCUIT A
SCT.A
SST.A
RGT.A
D.GAS
SH.A
xxx.x °F
xxx.x °F
xxx.x °F
xxx.x °F
xxx.x ΔF
Saturated Condensing Tmp
Saturated Suction Temp
Compr Return Gas Temp
Discharge Gas Temp
TMP_SCTA
TMP_SSTA
TMP_RGTA
DISGAS
CIR.A
Suction Superheat Temp
SH_A
Pressures Mode and Sub-Mode Directory
SUB-MODE
PRC.A
ITEM
DISPLAY
ITEM DESCRIPTION
CCN POINT
PRESSURES CIRCUIT A
xxx.x PSIG
xxx.x PSIG
DP.A
SP.A
Discharge Pressure
Suction Pressure
DP_A
SP_A
54
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Set Points Mode and Sub-Mode Directory
SUB-MODE
COOL
ITEM
DISPLAY
ITEM DESCRIPTION
COOLING SETPOINTS
Cooling Setpoint 1
RANGE
CCN POINT
CSP.1
CSP.2
CSP.3
xxx.x °F
xxx.x °F
xxx.x °F
–20 to 70
–20 to 70
–20 to 32
CSP1
CSP2
CSP3
Cooling Setpoint 2
ICE Setpoint
HEAD PRESSURE SETPOINTS
Head Setpoint
BRINE FREEZE SETPOINT
Brine Freeze Point
HEAD
FRZ
H.DP
xxx.x °F
xx.x °F
85 to 120
–20 to 34
HSP
BR.FZ
BRN_FRZ
Inputs Mode and Sub-Mode Directory
SUB-MODE
ITEM
DISPLAY
ITEM DESCRIPTION
GENERAL INPUTS
Start/Stop Switch
CCN POINT
STST
FLOW
CD.FL
DLS1
DLS2
ICED
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
START
Cooler Flow Switch
Condenser Flow Switch
Demand Limit Switch 1
Demand Limit Switch 2
Ice Done
COOLFLOW
CONDFLOW
DMD_SW1
DMD_SW2
ICE_DONE
DUAL_IN
GEN.I
DUAL
Dual Setpoint Switch
CIRCUIT INPUTS
FKA1
FKA2
FKA3
HPS.A
OFF/ON
OFF/ON
OFF/ON
OFF/ON
Compressor A1 Feedback
Compressor A2 Feedback
Compressor A3 Feedback
High Pressure Switch A
K_A1_FBK
K_A2_FBK
K_A3_FBK
HPSA
CRCT
4-20
4-20 MA INPUTS
DMND
RSET
CSP
xx.x
xx.x
xx.x
4-20 ma Demand Signal
4-20 ma Reset Signal
4-20 ma Cooling Setpoint
LMT_MA
RST_MA
CSP_IN
Outputs Mode and Sub-Mode Directory
SUB-MODE
GEN.O
ITEM
DISPLAY
ITEM DESCRIPTION
CCN POINT
GENERAL OUTPUTS
C.LWP
C.DWP
ALRM
CDWO
CDWC
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
Cooler Pump Relay
Condenser Pump
Alarm State
Condenser Valve Open
Condenser Valve Close
COOLPUMP
CONDPUMP
ALM
COND_WVO
COND_WVC
OUTPUTS CIRCUIT A
CC.A1
D.SOL
CC.A2
CC.A3
CCH
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
Compressor A1 Relay
Digital Scroll Solenoid
Compressor A2 Relay
Compressor A3 Relay
Crankcase Heater Relay
Liquid Line Solenoid
K_A1_RLY
DISCRSOL
K_A2_RLY
K_A3_RLY
CCH_RLY
LLSV_A
CIR.A
LLSV
MLV.R
Minimum Load Valve Relay
MLV_RLY
55
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Configuration Mode and Sub-Mode Directory
SUB-MODE
DISP
ITEM
DISPLAY
ITEM DESCRIPTION
DISPLAY CONFIGURATION
Test Display LEDs
CCN POINT
COMMENT
TEST
OFF/ON
OFF/ON
DISPTEST
DISPUNIT
METR
Metric Display
Off = English On = Metric
Default: 0
0 = English
1 = Espanol
2 = Francais
3 = Portuguese
LANG
X
Language Selection
LANGUAGE
PAS.E
PASS
DSBL/ENBL
XXXX
Password Enable
Service Password
PASS_EBL
PASSCOPY
0 to 9999
UNIT CONFIGURATION
2=Water Cooled, 3=Split
System
TYPE
X
Unit Type
UNIT_TYP
SIZE
SZA.1
SZA.2
SZA.3
A1.TY
MAX.T
XXX
XX
Unit Size
SIZE
10 to 100
Compressor A1 Size
Compressor A2 Size
Compressor A3 Size
Compressor A1 Digital?
Maximum A1 Unload Time
UNIT OPTIONS 1 HARDWARE
Cooler Fluid
SIZE_A1
SIZE_A2
SIZE_A3
CPA1TYPE
MAXULTME
UNIT
XX
XX
NO/YES
XX
0 to 15
FLUD
X
1 = Water
2 = Medium Temperature
Brine
FLUIDTYP
MLV.S
RG.EN
OAT.E
D.G.EN
CSB.E
CPC
NO/YES
DSBL/ENBL
DSBL/ENBL
DSBL/ENBL
DSBL/ENBL
OFF/ON
Minimum Load Vlv Select
Return Gas Sensor Enable
Enable OAT Sensor
Dischrge Gas Temp Enable
CSB Boards Enable
MLV_FLG
RGT_ENA
OAT_ENA
DISGASEN
CSB_ENA
CPC
OPT1
Cooler Pump Control
PM.DY
DPME
DFLS
XX MIN
Cooler Pump Shutdown Dly
PUMP_DLY
0 to 10
0 to 2
X
Enable Condenser Pump
Enable Cond Flow Switch
Enable Cond Wtr Sensors
CONDPMPE
CONDFLSW
CONDWTRS
DSBL/ENBL
DSBL/ENBL
CDWS
UNIT OPTIONS 2 CONTROLS
0=Switch, 1=Occupancy,
2=Occupancy, 3=CCN
CTRL
X
Control Method
CONTROL
OPT2
CCN
LCWT
DELY
ICE.M
XX
XX
High LCW Alert Limit
Minutes Off Time
LCW_LMT
DELAY
ICE_CNFG
2 to 60
0 to 15
DSBL/ENBL
Ice Mode Enable
CCN NETWORK CONFIGS
CCN Address
CCNA
CCNB
XXX
XXX
CCNADD
CCNBUS
1 to 239
0 to 239
1 = 2400
2 = 4800
3 = 9600
4 =19,200
5 =38,400
CCN Bus Number
BAUD
X
CCN Baud Rate
CCNBAUDD
56
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Configuration Mode and Sub-Mode Directory (cont)
SUB-MODE
ITEM
DISPLAY
ITEM DESCRIPTION
RESET COOL TEMP
CCN POINT
COMMENT
0 = No Reset
1 = 4 to 20 mA Input
2 = Outdoor Air Tempera-
ture
CRST
X
Cooling Reset Type
CRST_TYP
3 = Return Fluid
4 = Space Temperature
MA.DG
RM.NO
RM.F
XX.XΔF
XXX.X °F
XXX.X °F
XX.X °F
XXX.XΔF
XXX.XΔF
XX.X °F
4-20 - Degrees Reset
Remote - No Reset Temp
Remote - Full Reset Temp
Remote - Degrees Reset
Return - No Reset Temp
Return - Full Reset Temp
Return - Degrees Reset
420_DEG
REM_NO
REM_FULL
REM_DEG
RTN_NO
-30 to 30
0 to125
0 to125
-30 to 30
0 to 30
RM.DG
RT.NO
RT.F
RTN_FULL
RTN_DEG
0 to 10
-30 to 30
RT.DG
0 = None
1 = Switch
2 - 4 to 20 mA Input
3 = CCN Loadshed
DMDC
X
Demand Limit Select
DMD_CTRL
RSET
DM20
SHNM
SHDL
SHTM
DLS1
DLS2
XXX%
XXX
Demand Limit at 20 mA
Loadshed Group Number
Loadshed Demand Delta
Maximum Loadshed Time
Demand Limit Switch 1
Demand Limit Switch 2
DMT20MA
SHED_NUM
SHED_DEL
SHED_TIM
DLSWSP1
DLSWSP2
0 to 100
0 to 99
XXX%
XXX
0 to 60
0 to 120
0 to 100
0 to 100
XXX%
XXX%
LLEN
Lead/Lag Chiller Enable
LL_ENA
DSBL/ENBL
MSSL
SLVA
SLVE/MAST
XXX
Master/Slave Select
Slave Address
MS_SEL
SLV_ADDR
0 to 239
0 = Master Leads
1 = Slave Leads
2 = Automatic
LLBL
X
Lead/Lag Balance Select
LL_BAL
LLBD
LLDY
PARA
XXX
XXX
Lead/Lag Balance Delta
Lag Start Delay
LL_BAL_D
LL_DELAY
PARALLEL
40 to 400 hours
0 to 30 minutes
NO/YES
Parallel Configuration
SETPOINT AND RAMP LOAD
0 = Single
1 = Dual Switch
2 = Dual CCN Occupied
3 = 4 to 20 mA Input
CLSP
X
Cooling Set Point Select
CLSP_TYP
SLCT
RL.S
DSBL/ENBL
X.X
Ramp Load Select
RAMP_EBL
CRAMP
0.2 to 2
CRMP
Cooling Ramp Loading
SCHD
Z.GN
XX
Schedule Number
Deadband Multiplier
SCHEDNUM
Z_GAIN
0 to 99
1 to 4
X.X
SERVICE CONFIGURATION
Enable Compressor A1
Enable Compressor A2
Enable Compressor A3
Reverse Rotation Enable
BROADCAST CONFIGURATION
CCN Time/Date Broadcast
CCN OAT Broadcast
EN.A1
EN.A2
EN.A3
REV.R
DSBL/ENBL
DSBL/ENBL
DSBL/ENBL
DSBL/ENBL
ENABLEA1
ENABLEA2
ENABLEA3
REVR_ENA
SERV
BCST
T.D.BC
OAT.B
OFF/ON
OFF/ON
OFF/ON
OFF/ON
CCNBC
OATBC
GSBC
G.S.BC
BC.AK
Global Schedule Broadcst
CCN Broadcast Ack'er
CCNBCACK
57
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Time Clock Mode and Sub-Mode Directory
SUB-MODE
TIME
ITEM
DISPLAY
ITEM DESCRIPTION
TIME OF DAY
Hour and Minute
CCN POINT
COMMENT
HH.MM
XX.XX
TIME
MONTH, DATE, DAY, AND YEAR
1 to 12 (1 = January,
2 = February, etc.)
1 to 31
1 - 7 (1 = Sunday,
2 = Monday, etc.)
MNTH
DOM
DAY
XX
XX
Month of Year
Day of Month
Day of Week
MOY
DOM
DATE
X
DOWDISP
YOCDISP
YEAR
XXXX
Year of Century
1999 to 2098
DAYLIGHT SAVINGS TIME
STR.M
STR.W
STR.D
XX
X
X
Month
Week
Day
STARTM
STARTW
STARTD
Default: 4 Range 1 to 12
Default: 1 Range 1 to 5
Default: 7 Range 1 to 7
Default: 60 Range 0 to
90
Default: 10 Range 1 to
12
MIN.A
STP.M
XX
XX
Minutes to Add
Month
MINADD
STOPM
DST
STP.W
STP.D
XX
XX
Week
Day
STOPW
STOPD
Default: 5 Range 1to 5
Default: 7 Range 1 to 7
Default: 60 Range 0 to
90
MIN.S
XX
Minutes to Subtract
MINSUB
HOL.L
HD.01
LOCAL HOLIDAY SCHEDULES
HOLIDAY SCHEDULE 01
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON01
HOLDAY01
HOLLEN01
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 02
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON02
HOLDAY02
HOLLEN02
0 to 12
0 to 31
0 to 99
HD.02
HD.03
HD.04
HD.05
HD.06
HD.07
HD.08
Duration (days)
HOLIDAY SCHEDULE 03
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON03
HOLDAY03
HOLLEN03
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 04
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON04
HOLDAY04
HOLLEN04
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 05
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON05
HOLDAY05
HOLLEN05
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 06
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON06
HOLDAY06
HOLLEN06
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 07
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON07
HOLDAY07
HOLLEN07
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 08
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON08
HOLDAY08
HOLLEN08
0 to 12
0 to 31
0 to 99
Duration (days)
58
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Time Clock Mode and Sub-Mode Directory (cont)
SUB-MODE
HD.09
ITEM
DISPLAY
ITEM DESCRIPTION
HOLIDAY SCHEDULE 09
Holiday Start Month
Start Day
CCN POINT
COMMENT
MON
DAY
LEN
XX
XX
XX
HOLMON09
HOLDAY09
HOLLEN09
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 10
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON10
HOLDAY10
HOLLEN10
0 to 12
0 to 31
0 to 99
HD.10
HD.11
HD.12
HD.13
HD.14
HD.15
HD.16
HD.17
HD.18
HD.19
Duration (days)
HOLIDAY SCHEDULE 11
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON11
HOLDAY11
HOLLEN11
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 12
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON12
HOLDAY12
HOLLEN12
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 13
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON13
HOLDAY13
HOLLEN13
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 14
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON14
HOLDAY14
HOLLEN14
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 15
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON15
HOLDAY15
HOLLEN15
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 16
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON16
HOLDAY16
HOLLEN16
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 17
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON17
HOLDAY17
HOLLEN17
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 18
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON18
HOLDAY18
HOLLEN18
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 19
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON19
HOLDAY19
HOLLEN19
0 to 12
0 to 31
0 to 99
Duration (days)
59
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Time Clock Mode and Sub-Mode Directory (cont)
SUB-MODE
HD.20
ITEM
DISPLAY
ITEM DESCRIPTION
HOLIDAY SCHEDULE 20
Holiday Start Month
Start Day
CCN POINT
COMMENT
MON
DAY
LEN
XX
XX
XX
HOLMON20
HOLDAY20
HOLLEN20
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 21
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON21
HOLDAY21
HOLLEN21
0 to 12
0 to 31
0 to 99
HD.21
HD.22
HD.23
HD.24
HD.25
HD.26
HD.27
HD.28
HD.29
HD.30
Duration (days)
HOLIDAY SCHEDULE 22
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON22
HOLDAY22
HOLLEN22
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 23
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON23
HOLDAY23
HOLLEN23
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 24
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON24
HOLDAY24
HOLLEN24
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 25
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON25
HOLDAY25
HOLLEN25
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 26
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON26
HOLDAY26
HOLLEN26
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 27
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON27
HOLDAY27
HOLLEN27
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 28
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON28
HOLDAY28
HOLLEN28
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 29
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON29
HOLDAY29
HOLLEN29
0 to 12
0 to 31
0 to 99
Duration (days)
HOLIDAY SCHEDULE 30
Holiday Start Month
Start Day
MON
DAY
LEN
XX
XX
XX
HOLMON30
HOLDAY30
HOLLEN30
0 to 12
0 to 31
0 to 99
Duration (days)
60
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Time Clock Mode and Sub-Mode Directory (cont)
SUB-MODE
SCH.N
ITEM
DISPLAY
ITEM DESCRIPTION
Schedule Number 0
CCN POINT
SCHEDNUM
COMMENT
0 to 99
SCH.L
LOCAL OCCUPANCY SCHEDULE
OCCUPANCY PERIOD 1
Period Occupied Time
OCC.1
UNC.1
XX:XX
XX:XX
PER1OCC
PER1UNC
Period Unoccupied
Time
MON.1
TUE.1
WED.1
THU.1
FRI.1
SAT.1
SUN.1
HOL.1
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER1MON
PER1TUE
PER1WED
PER1THU
PER1FRI
PER1SAT
PER1SUN
PER1HOL
PER.1
PER.2
PER.3
PER.4
PER.5
OCCUPANCY PERIOD 2
Period Occupied Time
OCC.2
UNC.2
XX:XX
XX:XX
PER2OCC
PER2UNC
Period Unoccupied
Time
MON.2
TUE.2
WED.2
THU.2
FRI.2
SAT.2
SUN.2
HOL.2
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER2MON
PER2TUE
PER2WED
PER2THU
PER2FRI
PER2SAT
PER2SUN
PER2HOL
OCCUPANCY PERIOD 3
Period Occupied Time
OCC.3
UNC.3
XX:XX
XX:XX
PER3OCC
PER3UNC
Period Unoccupied
Time
MON.3
TUE.3
WED.3
THU.3
FRI.3
SAT.3
SUN.3
HOL.3
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER3MON
PER3TUE
PER3WED
PER3THU
PER3FRI
PER3SAT
PER3SUN
PER3HOL
OCCUPANCY PERIOD 4
Period Occupied Time
OCC.4
UNC.4
XX:XX
XX:XX
PER4OCC
PER4UNC
Period Unoccupied
Time
MON.4
TUE.4
WED.4
THU.4
FRI.4
SAT.4
SUN.4
HOL.4
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER4MON
PER4TUE
PER4WED
PER4THU
PER4FRI
PER4SAT
PER4SUN
PER4HOL
OCCUPANCY PERIOD 5
Period Occupied Time
OCC.5
UNC.5
XX:XX
XX:XX
PER5OCC
PER5UNC
Period Unoccupied
Time
MON.5
TUE.5
WED.5
THU.5
FRI.5
SAT.5
SUN.5
HOL.5
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER5MON
PER5TUE
PER5WED
PER5THU
PER5FRI
PER5SAT
PER5SUN
PER5HOL
61
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Time Clock Mode and Sub-Mode Directory (cont)
SUB-MODE
ITEM
DISPLAY
ITEM DESCRIPTION
OCCUPANCY PERIOD 6
Period Occupied Time
CCN POINT
COMMENT
OCC.6
UNC.6
XX:XX
XX:XX
PER6OCC
PER6UNC
Period Unoccupied
Time
MON.6
TUE.6
WED.6
THU.6
FRI.6
SAT.6
SUN.6
HOL.6
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER6MON
PER6TUE
PER6WED
PER6THU
PER6FRI
PER6SAT
PER6SUN
PER6HOL
PER.6
OCCUPANCY PERIOD 7
Period Occupied Time
OCC.7
UNC.7
XX:XX
XX:XX
PER7OCC
PER7UNC
Period Unoccupied
Time
MON.7
TUE.7
WED.7
THU.7
FRI.7
SAT.7
SUN.7
HOL.7
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER7MON
PER7TUE
PER7WED
PER7THU
PER7FRI
PER7SAT
PER7SUN
PER7HOL
PER.7
OCCUPANCY PERIOD 8
Period Occupied Time
OCC.8
UNC.8
XX:XX
XX:XX
PER8OCC
PER8UNC
Period Unoccupied
Time
MON.8
TUE.8
WED.8
THU.8
FRI.8
SAT.8
SUN.8
HOL.8
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
NO/YES
Monday In Period
Tuesday In Period
Wednesday In Period
Thursday In Period
Friday In Period
Saturday In Period
Sunday In Period
Holiday In Period
PER8MON
PER8TUE
PER8WED
PER8THU
PER8FRI
PER8SAT
PER8SUN
PER8HOL
PER.8
SCHEDULE OVERRIDE
Timed Override Hours
Override Time Limit
Timed Override
OVR.T
OVR.L
T.OVR
X
X
OVR_EXT
OTL
TIMEOVER
0 to 4 hours
0 to 4 hours
OVR
NO/YES
62
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Operating Mode and Sub-Mode Directory
SUB-MODE
ITEM
DISPLAY
ITEM DESCRIPTION
MODES CONTROLLING UNIT
FSM controlling Chiller
WSM controlling Chiller
Master/Slave control
Ramp Load Limited
Timed Override in effect
Low Cooler Suction TempA
Slow Change Override
Minimum OFF time active
Dual Setpoint
Temperature Reset
Demand Limited
Cooler Freeze Protection
Low Temperature Cooling
High Temperature Cooling
Making ICE
CCN POINT
COMMENT
MD01
MD02
MD03
MD05
MD06
MD07
MD09
MD10
MD13
MD14
MD15
MD16
MD17
MD18
MD19
MD20
MD21
MD23
MD24
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
OFF/ON
MODE_1
MODE_2
MODE_3
MODE_5
MODE_6
MODE_7
MODE_9
MODE_10
MODE_13
MODE_14
MODE_15
MODE_16
MODE_17
MODE_18
MODE_19
MODE_20
MODE_21
MODE_23
MODE_24
MODE
Storing ICE
High SCT Circuit A
Minimum Comp. On Time
Pump Off Delay Time
63
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APPENDIX A — LOCAL DISPLAY TABLES (cont)
Alarms Mode and Sub-Mode Directory
SUB-MODE
ITEM
DISPLAY
ITEM DESCRIPTION
CCN POINT
COMMENT
CURRENTLY ACTIVE ALARMS
AA01
AA02
AA03
AA04
AA05
AA06
AA07
AA08
AA09
AA10
AA11
AA12
AA13
AA14
AA15
AA16
AA17
AA18
AA19
AA20
AA21
AA22
AA23
AA24
AA25
AXXX
TXXX
PXXX
Alarms are shown as
AXXX
Alerts are shown as TXXX
CRNT
Current Alarms 1-25
RCRN
NO/YES
Reset All Current Alarms
ALARM HISTORY
ALRESET
AL01
AL02
AL03
AL04
AL05
AL06
AL07
AL08
AL09
AL10
AL11
AL12
AL13
AL14
AL15
AL16
AL17
AL18
AL19
AL20
AXXX
TXXX
PXXX
Alarms are shown as
AXXX
Alerts are shown as TXXX
HIST
Alarm History 1-20
64
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APPENDIX B — CCN TABLES
CCN DISPLAY TABLES — A_UNIT (General Unit Parameters
DESCRIPTION
Control Mode
Occupied
CCN Chiller
Alarm State
Active Demand Limit
Override Modes in Effect
Percent Total Capacity
Requested Stage
Active Setpoint
VALUE
10-char ASCII
No/Yes
Stop/Start
6-char ASCII
NNN
No/Yes
NNN
NN
NNN.n
NNN.n
NNN.n
NNN.n
Enable/EMStop
5-char ASCII
UNITS
POINT NAME
STAT
OCC
CHIL_S_S
ALM
DEM_LIM
MODE
CAP_T
STAGE
SP
CTRL_PNT
EWT
LWT
FORCIBLE
N
N
Y
N
Y
N
N
N
N
Y
N
N
Y
N
%
%
degF
degF
degF
degF
Control Point
Entering Fluid Temp
Leaving Fluid Temp
Emergency Stop
Minutes Left for Start
PUMPS
EMSTOP
MIN_LEFT
Cooler Pump Relay
Condenser Pump
Cooler Flow Switch
Off/On
Off/On
Off/On
COOLPUMP
CONDPUMP
COOLFLOW
N
N
N
CCN DISPLAY TABLES — CIRCA_AN (Circuit A Analog Parameters)
DESCRIPTION
CIRCUIT A ANALOG VALUES
Percent Total Capacity
Percent Available Cap.
Discharge Pressure
VALUE
UNITS
POINT NAME
FORCIBLE
NNN
NNN
%
%
CAPA_T
CAPA_A
DP_A
SP_A
HSP
TMP_SCTA
TMP_SSTA
TMP_RGTA
DISGAS
SH_A
N
N
N
N
N
N
N
N
N
N
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
PSIG
PSIG
degF
degF
degF
degF
degF
deltaF
Suction Pressure
Head Setpoint
Saturated Condensing Tmp
Saturated Suction Temp
Compr Return Gas Temp
Discharge Gas Temp
Suction Superheat Temp
CCN DISPLAY TABLES — CIRCADIO (Circuit A Discrete Inputs/Outputs)
DESCRIPTION
CIRC. A DISCRETE OUTPUTS
Compressor A1 Relay
Compressor A2 Relay
Compressor A3 Relay
VALUE
UNITS
POINT NAME
FORCIBLE
Off/On
K_A1_RLY
K_A2_RLY
K_A3_RLY
MLV_RLY
N
N
Off/On
Off/On
Off/On
Minimum Load Valve Relay
N
CIRC. A DISCRETE INPUTS
Compressor A1 Feedback
Compressor A2 Feedback
Compressor A3 Feedback
Off/On
Off/On
Off/On
K_A1_FBK
K_A2_FBK
K_A3_FBK
N
N
65
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APPENDIX B — CCN TABLES (cont)
CCN DISPLAY TABLES — OPTIONS (Unit Parameters)
DESCRIPTION
UNIT ANALOG VALUES
Cooler Entering Fluid
VALUE
UNITS
POINT NAME
FORCIBLE
NNN.n
degF
COOL_EWT
COOL_LWT
COND_EWT
COND_LWT
DUAL_LWT
N
N
N
N
N
Cooler Leaving Fluid
NNN.n
NNN.n
NNN.n
NNN.n
degF
degF
degF
degF
Condenser Entering Fluid
Condenser Leaving Fluid
Lead/Lag Leaving Fluid
TEMPERATURE RESET
4-20 ma Reset Signal
Outside Air Temperature
Space Temperature
NN.n
NNN.n
NNN.n
milliAmps
degF
degF
RST_MA
OAT
SPT
N
Y
Y
DEMAND LIMIT
4-20 ma Demand Signal
Demand Limit Switch 1
Demand Limit Switch 2
CCN Loadshed Signal
NN.n
Off/On
Off/On
N
milliAmps
LMT_MA
N
N
N
N
DMD_SW1
DMD_SW2
DL_STAT
MISCELLANEOUS
Dual Setpoint Switch
Cooler LWT Setpoint
Ice Done
Off/On
NNN.n
Off/On
DUAL_IN
LWT_SP
ICE_DONE
N
N
N
degF
CCN MAINTENANCE TABLES — STRTHOUR
DESCRIPTION
Machine Operating Hours
Machine Starts
VALUE
NNNNNN
NNNNNN
UNITS
hours
POINT NAME
HR_MACH
CY_MACH
Compressor A1 Run Hours
Compressor A2 Run Hours
Compressor A3 Run Hours
NNNNNN.n
NNNNNN.n
NNNNNN.n
hours
hours
hours
HR_A1
HR_A2
HR_A3
Compressor A1 Starts
Compressor A2 Starts
Compressor A3 Starts
NNNNNN
NNNNNN
NNNNNN
CY_A1
CY_A2
CY_A3
PUMP HOURS
Cooler Pump Run Hours
Condenser Pump Run Hours
NNNNNN.n
NNNNNN.n
hours
hours
HR_CPUMP
HR_DPUMP
66
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APPENDIX B — CCN TABLES (cont)
CCN MAINTENANCE TABLES — CURRMODS
DESCRIPTION
CSM controlling Chiller
VALUE
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
POINT NAME
MODE_1
MODE_2
MODE_3
MODE_5
MODE_6
MODE_7
MODE_9
MODE_10
MODE_13
MODE_14
MODE_15
MODE_16
MODE_17
MODE_18
MODE_19
MODE_20
MODE_21
MODE_23
MODE_24
MODE_25
WSM controlling Chiller
Master/Slave control
Ramp Load Limited
Timed Override in effect
Low Cooler Suction TempA
Slow Change Override
Minimum OFF time active
Dual Setpoint
Temperature Reset
Demand Limited
Cooler Freeze Protection
Low Temperature Cooling
High Temperature Cooling
Making ICE
Storing ICE
High SCT Circuit A
Minimum Comp. On Time
Pump Off Delay Time
Low Sound Mode
Off/On
Off/On
Off/On
Off/On
CCN MAINTENANCE TABLES — ALARMS
DESCRIPTION
Active Alarm #1
Active Alarm #2
Active Alarm #3
Active Alarm #4
Active Alarm #5
Active Alarm #6
Active Alarm #7
Active Alarm #8
Active Alarm #9
Active Alarm #10
Active Alarm #11
Active Alarm #12
Active Alarm #13
Active Alarm #14
Active Alarm #15
Active Alarm #16
Active Alarm #17
Active Alarm #18
Active Alarm #19
Active Alarm #20
Active Alarm #21
Active Alarm #22
Active Alarm #23
Active Alarm #24
Active Alarm #25
VALUE
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
4-char ASCII
POINT NAME
ALARM01C
ALARM02C
ALARM03C
ALARM04C
ALARM05C
ALARM06C
ALARM07C
ALARM08C
ALARM09C
ALARM10C
ALARM11C
ALARM12C
ALARM13C
ALARM14C
ALARM15C
ALARM16C
ALARM17C
ALARM18C
ALARM19C
ALARM20C
ALARM21C
ALARM22C
ALARM23C
ALARM24C
ALARM25C
CCN MAINTENANCE TABLES — VERSIONS
DESCRIPTION
VERSION
CESR131333-
CESR131279-
CESR131174-
CESR131171-
CESR130227-
VALUE
AUX
MBB
EMM
MARQUEE
NAVIGATOR
5-char ASCII
5-char ASCII
5-char ASCII
5-char ASCII
5-char ASCII
67
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APPENDIX B — CCN TABLES (cont)
CCN MAINTENANCE TABLES — LOADFACT
DESCRIPTION
CAPACITY CONTROL
Load/Unload Factor
Control Point
Entering Fluid Temp
Leaving Fluid Temp
VALUE
UNITS
POINT NAME
SMZ
CTRL_PNT
EWT
NNN
NNN.n
NNN.n
NNN.n
degF
degF
degF
LWT
Ramp Load Limited
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
MODE_5
MODE_9
MODE_16
MODE_17
MODE_18
MODE_23
Slow Change Override
Cooler Freeze Protection
Low Temperature Cooling
High Temperature Cooling
Minimum Comp. On Time
CCN MAINTENANCE TABLES — LEARNFNS
DESCRIPTION
SCT Delta for Comp A1
SCT Delta for Comp A2
SCT Delta for Comp A3
SAGP for Compressor A1
SAGM for Compressor A1
SAGP for Compressor A2
SAGM for Compressor A2
SAGP for Compressor A3
SAGM for Compressor A3
Reset short loop gain
VALUE
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
Yes/No
UNITS
deltaF
deltaF
deltaF
POINT NAME
A1SCTDT
A2SCTDT
A3SCTDT
SAGA1P
SAGA1M
SAGA2P
SAGA2M
SAGA3P
SAGA3M
RESET_GN
CCN MAINTENANCE TABLES — PM-STRN
DESCRIPTION
Strainer Srvc Interval
Strainer Srvc Countdown
Strainer Maint. Done
VALUE
NNNNN
NNNNN
No/Yes
UNITS
hours
hours
POINT NAME
SI_STRNR
ST_CDOWN
ST_MAINT
Strainer Maint. Date
Strainer Maint. Date
Strainer Maint. Date
Strainer Maint. Date
Strainer Maint. Date
15-char ASCII
15-char ASCII
15-char ASCII
15-char ASCII
15-char ASCII
STRN_PM0
STRN_PM1
STRN_PM2
STRN_PM3
STRN_PM4
CCN MAINTENANCE TABLES — TESTMODE
DESCRIPTION
Service Test Mode
Compressor A1 Relay
Compressor A2 Relay
Compressor A3 Relay
Cooler Pump Relay
Condenser Pump
Comp A1 Unload Time
Remote Alarm Relay
VALUE
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
NN
UNITS
POINT NAME
NET_CTRL
S_A1_RLY
S_A2_RLY
S_A3_RLY
S_CLPMP
S_CNDPMP
S_A1ULTM
S_ALM
secs
Off/On
68
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APPENDIX B — CCN TABLES (cont)
CCN MAINTENANCE TABLES — RUNTEST
DESCRIPTION
Percent Total Capacity
VALUE
NNN
UNITS
POINT NAME
CAPA_T
%
Percent Available Cap.
Discharge Pressure
Suction Pressure
NNN
%
CAPA_A
DP_A
SP_A
TMP_SCTA
TMP_SSTA
TMP_RGTA
DISGAS
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
Off/On
PSIG
PSIG
degF
degF
degF
degF
Saturated Condensing Tmp
Saturated Suction Temp
Compr Return Gas Temp
Discharge Gas Temp
Suction Superheat Temp
Compressor A1 Relay
Compressor A2 Relay
Compressor A3 Relay
Minimum Load Valve Relay
Compressor A1 Feedback
Compressor A2 Feedback
Compressor A3 Feedback
deltaF
SH_A
K_A1_RLY
K_A2_RLY
K_A3_RLY
MLV_RLY
K_A1_FBK
K_A2_FBK
K_A3_FBK
Outside Air Temperature
Space Temperature
Cooler Pump Relay
Condenser Pump
Cooler Entering Fluid
Cooler Leaving Fluid
Cooler Flow Switch
NNN.n
NNN.n
Off/On
Off/On
NNN.n
NNN.n
Off/On
degF
degF
OAT
SPT
COOLPUMP
CONDPUMP
COOL_EWT
COOL_LWT
COOLFLOW
degF
degF
CCN MAINTENANCE TABLES — DUALCHIL
DESCRIPTION
Dual Chiller Link Good?
Master Chiller Role
Slave Chiller Role
Lead Chiller Ctrl Point
Lag Chiller Ctrl Point
Control Point
VALUE
No/Yes
12-char ASCII
12-char ASCII
NNN.n
UNITS
POINT NAME
DC_LINK
MC_ROLE
SC_ROLE
LEAD_CP
LAG_CP
degF
degF
degF
NNN.n
NNN.n
CTRL_PNT
Cool EnteringFluid-Slave
Cool Leaving Fluid-Slave
Cooler Entering Fluid
Cooler Leaving Fluid
NNN.n
NNN.n
NNN.n
NNN.n
NNN.n
degF
degF
degF
degF
degF
COOLEWTS
COOLLWTS
COOL_EWT
COOL_LWT
DUAL_LWT
Lead/Lag Leaving Fluid
Percent Avail.Capacity
Percent Avail.Cap.Slave
NNN
NNN
%
%
CAP_A
CAP_A_S
Lag Start Delay Time
Load/Unload Factor
5-char ASCII
NNN
LAGDELAY
SMZ
Load/Unload Factor-Slave
Lead SMZ Clear Commanded
Lag SMZ Clear Commanded
Lag Commanded Off?
NNNN
SMZSLAVE
LEADSMZC
LAG_SMZC
LAG_OFF
No/Yes
No/Yes
No/Yes
Dual Chill Lead CapLimit
Dual Chill Lag CapLimit
NNN.n
NNN.n
%
%
DCLDCAPL
DCLGCAPL
69
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APPENDIX B — CCN TABLES (cont)
CCN CONFIGURATION TABLES — UNIT (Unit Configuration)
DESCRIPTION
VALUE
DEFAULT
UNITS
POINT NAME
UNIT_TYP
SIZE
SIZE_A1
SIZE_A2
SIZE_A3
SH_SP
Unit Type
Unit Size
N
NNN
NNN
NNN
NNN
NN.n
tons
tons
tons
tons
deltaF
Compressor A1 Size
Compressor A2 Size
Compressor A3 Size
Suction Superheat Setpt
Compressor A1 Digital?
Maximum A1 Unload Time
No/Yes
NN
CPA1TYPE
MAXULTME
secs
CCN CONFIGURATION TABLES — OPTIONS1 (Options 1 Configuration)
DESCRIPTION
Cooler Fluid
Minimum Load Vlv Select
Return Gas Sensor Enable
Enable OAT Sensor
Dischrge Gas Temp Enable
CSB Boards Enable
Reverse Rotation Enable
Cooler Pump Control
VALUE
DEFAULT
UNITS
POINT NAME
FLUIDTYP
MLV_FLG
RGT_ENA
OAT_ENA
DISGASEN
CSB_ENA
REVR_ENA
CPC
N
No/Yes
Dsable/Enable
Dsable/Enable
Dsable/Enable
Dsable/Enable
Dsable/Enable
Off/On
Cooler Pump Shutdown Dly
EMM Module Installed
Enable Condenser Pump
Enable Cond Wtr Sensors
Enable Cond Flow Switch
NN
No/Yes
N
Dsable/Enable
Dsable/Enable
mins
PUMP_DLY
EMM_BRD
CONDPMPE
CONDWTRS
CONDFLSW
CCN CONFIGURATION TABLES — OPTIONS2 (Options 2 Configuration)
DESCRIPTION
Control Method
Loading Sequence Select
Lead/Lag Circuit Select
Cooling Setpoint Select
Ramp Load Select
VALUE
DEFAULT
UNITS
POINT NAME
CONTROL
SEQ_TYPE
LEAD_TYP
CLSP_TYP
RAMP_EBL
LCW_LMT
DELAY
N
N
N
N
Dsable/Enable
NN.n
NN
High LCW Alert Limit
Minutes off time
deltaF
mins
Deadband Multiplier
Ice Mode Enable
N.n
Z_GAIN
ICE_CNFG
Dsable/Enable
CCN CONFIGURATION TABLES — SCHEDOVR (Timed Override Setup)
DESCRIPTION
Schedule Number
Override Time Limit
Timed Override Hours
Timed Override
VALUE
NN
N
DEFAULT
1
0
0
UNITS
POINT NAME
SCHEDNUM
OTL
OVR_EXT
TIMEOVER
hours
hours
N
No/Yes
No
70
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APPENDIX B — CCN TABLES (cont)
CCN CONFIGURATION TABLES — RESETCON (Temperature Reset and Demand Limit)
DESCRIPTION
COOLING RESET
Cooling Reset Type
4-20 MA RESET
VALUE
DEFAULT
UNITS
POINT NAME
CRST_TYP
420_DEG
N
0
4-20 - Degrees Reset
NNN.n
deltaF
REMOTE RESET
Remote - No Reset Temp
Remote - Full Reset Temp
Remote - Degrees Reset
NNN.n
NNN.n
NNN.n
degF
degF
deltaF
REM_NO
REM_FULL
REM_DEG
RETURN TEMPERATURE RESET
Return - No Reset Temp
Return - Full Reset Temp
Return - Degrees Reset
NNN.n
NNN.n
NNN.n
deltaF
deltaF
deltaF
RTN_NO
RTN_FULL
RTN_DEG
DEMAND LIMIT
Demand Limit Select
Demand Limit at 20 mA
Loadshed Group Number
Loadshed Demand Delta
Maximum Loadshed Time
Demand Limit Switch 1
Demand Limit Switch 2
N
NNN
NN
DMD_CTRL
DMT20MA
SHED_NUM
SHED_DEL
SHED_TIM
DLSWSP1
DLSWSP2
%
NN
%
mins
%
NNN
NNN
NNN
%
CCN CONFIGURATION TABLES — DUALCHIL (Dual Chiller Configuration Settings)
DESCRIPTION
LEAD/LAG
VALUE
DEFAULT
UNITS
POINT NAME
Lead/Lag Chiller Enable
Master/Slave Select
Slave Address
Lead/Lag Balance Select
Lead/Lag Balance Delta
Lag Start Delay
Dsable/Enable
Master/Slave
NNN
N
NNN
LL_ENA
MS_SEL
SLV_ADDR
LL_BAL
LL_BAL_D
LL_DELAY
PARALLEL
hours
mins
NN
No/Yes
Parallel Configuration
CCN CONFIGURATION TABLES — DISPLAY (Marquee Display SETUP)
DESCRIPTION
Service Password
Password Enable
Metric Display
VALUE
NNNN
Dsable/Enable
Off/On
N
DEFAULT
UNITS
POINT NAME
PASSWORD
PASS_EBL
DISPUNIT
Language Selection
LANGUAGE
CCN CONFIGURATION TABLES — HPA
DESCRIPTION
SCT Delta for Comp A1
SCT Delta for Comp A2
VALUE
NNN.n
NNN.n
DEFAULT
UNITS
deltaF
deltaF
POINT NAME
A1SCTDT
A2SCTDT
71
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APPENDIX B — CCN TABLES (cont)
CCN SERVICE TABLES — SERVICE
DESCRIPTION
SERVICE
VALUE
DEFAULT
UNITS
POINT NAME
Brine Freeze Point
NNN.n
degF
BRN_FRZ
COMPRESSOR ENABLE
Enable Compressor A1
Enable Compressor A2
Enable Compressor A3
Dsable/Enable
Dsable/Enable
Dsable/Enable
ENABLEA1
ENABLEA2
ENABLEA3
CCN SETPOINT TABLES — SETPOINT
DESCRIPTION
COOLING
VALUE
DEFAULT
UNITS
POINT NAME
Cooling Setpoint 1
Cooling Setpoint 2
ICE Setpoint
NNN.n
NNN.n
NNN.n
degF
degF
degF
CSP1
CSP2
CSP3
RAMP LOADING
Cooling Ramp Loading
N.n
CRAMP
Brine Freeze Point
NNN.n
degF
BRN_FRZ
Copyright 2010 Carrier Corporation
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
Catalog No. 04-53300053-01 Printed in U.S.A. Form 30MP-1T Pg 72 1-10 Replaces: New
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START-UP CHECKLIST FOR 30MP LIQUID CHILLER
(Remove and use for job file.)
A. Preliminary Information
JOB NAME _______________________________________________________________________________
LOCATION _______________________________________________________________________________
INSTALLING CONTRACTOR _________________________________________________________________
DISTRIBUTOR ____________________________________________________________________________
START-UP PERFORMED BY _________________________________________________________________
EQUIPMENT: Chiller:
COMPRESSORS:
MODEL NO.
SERIAL NO.
CIRCUIT A
MODEL NO.
SERIAL NO.
B. Preliminary Equipment Check (Yes or No)
IS THERE ANY SHIPPING DAMAGE?
IF SO, WHERE
_________________________________________________________________________________________
WILL THIS DAMAGE PREVENT UNIT START-UP?
CHECK POWER SUPPLY. DOES IT AGREE WITH UNIT?
HAS THE CIRCUIT PROTECTION BEEN SIZED AND INSTALLED PROPERLY? (refer to Installation Instructions)
ARE THE POWER WIRES TO THE UNIT SIZED AND INSTALLED PROPERLY? (refer to Installation Instructions)
HAS THE GROUND WIRE BEEN CONNECTED?
ARE ALL ELECTRICAL TERMINALS TIGHT?
ON BRINE UNITS, HAS THE COOLER FLUID BEEN PROPERLY PROTECTED FROM FREEZING TO AT
LEAST 15° F (8.3° C) BELOW THE LOWEST ANTICIPATED LEAVING FLUID TEMPERATURE SET POINT?
HAVE THE MAIN BASE BOARD, ENERGY MANAGEMENT MODULE (OPTION) AND CONTROL RELAY
CONNECTIONS BEEN CHECK FOR TIGHTNESS?
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
Catalog No. 04-53300053-01
Printed in U.S.A.
Form 30MP-1T
Pg CL-1
1-10
Replaces: New
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C. Unit Start-Up (insert check mark as each item is completed)
CHILLER HAS BEEN PROPERLY INTERLOCKED WITH THE AUXILIARY CONTACTS OF THE CHILLED
FLUID PUMP STARTER.
CHILLER HAS BEEN PROPERLY INTERLOCKED WITH THE AUXILIARY CONTACTS OF THE
CONDENSER WATER PUMP STARTER.
CRANKCASE HEATERS HAVE BEEN ENERGIZED FOR A MINIMUM OF 24 HOURS PRIOR TO START-UP.
(30MPA UNITS ONLY)
COMPRESSOR OIL LEVEL IS CORRECT.
LIQUID LINE SERVICE VALVE IS BACKSEATED (30MPA UNITS ONLY).
SET POINT SHOULD BE ADJUSTED TO THE DESIRED COOLER LEAVING FLUID TEMPERATURE.
(refer to installation instructions).
LEAK CHECK THOROUGHLY: CHECK ALL COMPRESSORS, CONDENSER MANIFOLDS AND HEADERS,
TXVs, SOLENOID VALVES, FILTER DRIERS, FUSIBLE PLUGS, THERMISTORS, AND COOLER CONNEC-
TIONS USING ELECTRONIC LEAK DETECTOR.
LOCATE, REPAIR, AND REPORT ANY REFRIGERANT LEAKS.
CHECK VOLTAGE IMBALANCE:
AB
AC
BC
AB + AC + BC (divided by 3) = AVERAGE VOLTAGE =
V
MAXIMUM DEVIATION FROM AVERAGE VOLTAGE =
(MAX. DEVIATION)
VOLTAGE IMBALANCE =
x 100 =
% VOLTAGE IMBALANCE
AVERAGE VOLTAGE
IF OVER 2% VOLTAGE IMBALANCE, DO NOT ATTEMPT TO START CHILLER!
CALL LOCAL POWER COMPANY FOR ASSISTANCE.
INCOMING POWER VOLTAGE TO CHILLER MODULES IS WITHIN RATED UNIT VOLTAGE
RANGE.
SYSTEM FLUID VOLUME IN LOOP:
GAL (L)
REFER TO INSTALLATION INSTRUCTIONS FOR MINIMUM FLUID VOLUME
CL-2
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C. Unit Start-Up (cont)
CHECK PRESSURE DROP ACROSS COOLER.
FLUID ENTERING COOLER:
FLUID LEAVING COOLER:
PSIG (kPa)
PSIG (kPa)
(PSIG DIFFERENCE) x 2.31 = FT OF FLUID PRESSURE DROP =
PLOT COOLER PRESSURE DROP ON PERFORMANCE DATA CHART (LOCATED IN INSTALLATION
INSTRUCTIONS LITERATURE) TO DETERMINE TOTAL GPM (L/s).
TOTAL GPM (L/s) =
UNIT’S RATED MIN GPM (L/s) =
JOB’S SPECIFIED GPM (L/s) (if available):
NOTE: IF UNIT HAS LOW FLUID FLOW, FIND SOURCE OF PROBLEM: CHECK FLUID PIPING, IN-LINE
FLUID STRAINER, SHUT-OFF VALVES, CWP ROTATION, ETC.
COOLER LOOP FREEZE PROTECTION IF REQUIRED:
GALLONS (LITERS) ADDED:
PIPING INCLUDES ELECTRIC TAPE HEATERS IF PIPNG IS EXPOSED TO TEMPERATURES
BELOW FREEZING (Y/N):
COOLER/CONDENSER PROTECTION:
IN-LINE MINIMUM 40-MESH STRAINER INSTALLED WITHIN 10 FT OF THE COOLER/CONDENSER
WATER INLET.
COOLER: YES
NO
CONDENSER: YES
NO
VISUALLY CHECK MAIN BASE BOARD FOR THE FOLLOWING:
INSPECT ALL THERMISTORS AND TRANSDUCERS FOR POSSIBLE CROSSED WIRES.
CHECK TO BE SURE ALL WELL-TYPE THERMISTORS ARE FULLY INSERTED INTO THEIR
RESPECTIVE WELLS.
TO START THE CHILLER:
TURN THE EMERGENCY ON/OFF SWITCH (SW2) TO ON POSITION.
TURN THE ENABLE/OFF/REMOTE CONTACT SWITCH (SW1) TO THE ENABLE POSITION.
IF EQUIPPED WITH THE OPTIONAL SCROLLING MARQUEE, LEAVE THE ENABLE/OFF/REMOTE CONTACT
SWITCH (SW1) IN THE OFF POSITION.
NOTE: USE ESCAPE KEY TO GO UP ONE LEVEL IN THE STRUCTURE.
USE ARROW/ESCAPE KEYS TO ILLUMINATE RUN STATUS LED. PRESS ENTER KEY UNTIL
‘VERS’ IS DISPLAYED. PRESS ENTER KEY. RECORD INFORMATION ON THE FOLLOWING PAGE.
CL-3
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C. Unit Start-Up (cont)
Record Software Versions
MODE — RUN STATUS
SOFTWARE VERSION NUMBERS
CESR131333-xx-xx
AUX
MBB
CESR131279-xx-xx
CESR131174-xx-xx
CESR131171-xx-xx
CESR130227-xx-xx
VERS
EMM
MARQ
NAVI
(PRESS ENTER AND ESCAPE SIMULTANEOUSLY TO OBTAIN SOFTWARE VERSIONS)
USE ARROW/ESCAPE KEYS TO ILLUMINATE CONFIGURATION LED. PRESS ENTER KEY. RECORD
INFORMATION BELOW.
UNIT (Configuration Settings)
SUBMODE
UNIT
ITEM
ITEM EXPANSION
UNIT CONFIGURATION
UNIT SIZE
DISPLAY
ENTRY
SIZE
SZA.1
SZA.2
SZA.3
A1.TY
MAX.T
XXX
XX
XX
XX
NO/YES
XX
COMPRESSOR A1 SIZE
COMPRESSOR A2 SIZE
COMPRESSOR A3 SIZE
COMPRESSOR A1 DIGITAL?
MAXIMUM A1 UNLOAD TIME
PRESS ESCAPE KEY TO DISPLAY ‘UNIT’. PRESS DOWN ARROW KEY TO DISPLAY ‘OPT1’.
PRESS ENTER KEY. RECORD CONFIGURATION INFORMATION BELOW:
OPTIONS1 (Options Configuration)
SUBMODE
ITEM
ITEM EXPANSION
UNIT OPTIONS 1 HARDWARE
COOLER FLUID
MINIMUM LOAD VALVE SELECT
RETURN GAS SENSOR ENABLE
ENABLE OAT SENSOR
DISPLAY
ENTRY
FLUD
MLV.S
RG.EN
OAT.E
D.G.EN
CSB.E
CPC
PM.DY
DPME
DFLS
X
NO/YES
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
ON/OFF
DISCHRGE GAS TEMP ENABLE
CSB BOARDS ENABLE
OPT1
COOLER PUMP CONTROL
COOLER PUMP SHUTDOWN DLY
ENABLE CONDENSER PUMP
ENABLE COND FLOW SWITCH
ENABLE COND WTR SENSORS
XX MIN
ENBL/DSBL
ENBL/DSBL
ENBL/DSBL
CDWS
PRESS ESCAPE KEY TO DISPLAY ‘OPT1’. PRESS DOWN ARROW KEY TO DISPLAY ‘OPT2’.
PRESS ENTER KEY.
RECORD CONFIGURATION INFORMATION ON NEXT PAGE.
CL-4
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C. Unit Start-Up (cont)
OPTIONS2 (Options Configuration)
SUBMODE
OPT2
ITEM
ITEM EXPANSION
UNIT OPTIONS 2 CONTROLS
CONTROL METHOD
HIGH LCW ALERT LIMIT
MINUTES OFF TIME
DISPLAY
ENTRY
CTRL
LCWT
DELY
ICE.M
X
XX.X F
XX
ENBL/DSBL
ICE MODE ENABLE
PRESS ESCAPE KEY TO DISPLAY ‘OPT2’. PRESS DOWN ARROW KEY TO DISPLAY ‘CCN’.
PRESS ENTER KEY.
RECORD CONFIGURATION INFORMATION BELOW.
CCN (CCN Network Configuration)
SUB-MODE
CCN
ITEM
CCNA
CCNB
BAUD
ITEM EXPANSION
CCN ADDRESS
DISPLAY
XXX
ENTRY
CCN BUS NUMBER
CCN BAUD RATE
XXX
X
PRESS ESCAPE KEY SEVERAL TIMES TO GET TO THE MODE LEVEL (BLANK DISPLAY). USE THE
ARROW KEYS TO SCROLL TO THE SET POINT LED. PRESS ENTER TO DISPLAY SETPOINTS.
RECORD CONFIGURATION INFORMATION BELOW:
SETPOINT
SUBMODE
COOL
ITEM
ITEM EXPANSION
COOLING SETPOINTS
COOLING SETPOINT 1
COOLING SETPOINT 2
ICE SETPOINT
DISPLAY
ENTRY
CSP.1
CSP.2
CSP.3
XXX.X °F
XXX.X °F
XXX.X °F
HEAD PRESSURE SETPOINTS
HEAD SET POINT
BRINE FREEZE SETPOINT
BRINE FREEZE POINT
HEAD
FRZ
H.DP
XXX.X °F
XXX.X °F
BR.FZ
COMPONENT TEST
USE ESCAPE/ARROW KEYS TO ILLUMINATE CONFIGURATION LED. PRESS ENTER TO DISPLAY ‘DISP’.
PRESS ENTER AGAIN TO DISPLAY ‘TEST’ FOLLOWED BY ‘OFF’. PRESS ENTER TO STOP DISPLAY AT
‘OFF’ AND ENTER AGAIN SO ‘OFF’ DISPLAY FLASHES. ‘PASS’ AND ‘WORD’ WILL FLASH IF PASSWORD
NEEDS TO BE ENTERED. PRESS ENTER TO DISPLAY PASSWORD FIELD AND USE THE ENTER KEY FOR
EACH OF THE FOUR PASSWORD DIGITS. USE ARROW KEYS IF PASSWORD IS OTHER THAN STANDARD.
AT FLASHING ‘OFF’ DISPLAY, PRESS THE UP ARROW KEY TO DISPLAY ‘ON’ AND PRESS ENTER. ALL LED
SEGMENTS AND MODE LEDS WILL LIGHT UP. PRESS ESCAPE TO STOP THE TEST. PRESS ESCAPE TO
RETURN TO THE ‘DISP’ DISPLAY. PRESS THE ESCAPE KEY AGAIN AND USE THE ARROW KEYS TO ILLU-
MINATE THE SERVICE TEST LED. PRESS ENTER TO DISPLAY ‘TEST’. PRESS ENTER TO STOP DISPLAY
AT ‘OFF’ AND ENTER AGAIN SO ‘OFF’ FLASHES. PRESS THE UP ARROW KEY AND ENTER TO ENABLE
THE MANUAL MODE. PRESS ESCAPE AND DISPLAY NOW SAYS ‘TEST’ ‘ON’. TURN SWITCH (SW1) TO
THE ENABLE POSITION.
PRESS THE DOWN ARROW TO DISPLAY ‘OUTS’. PRESS THE ENTER KEY TO DISPLAY ‘LL.SV’. PRESS
THE ENTER KEY TO STOP DISPLAY AT ‘OFF’ AND ENTER AGAIN SO ‘OFF’ FLASHES. PRESS THE UP
ARROW KEY AND ENTER TO TURN THE OUTPUT ON. PRESS ENTER SO THE ‘ON’ DISPLAY FLASHES,
PRESS THE DOWN ARROW KEY AND THEN ENTER TO TURN THE OUTPUT OFF. OUTPUTS WILL ALSO BE
TURNED OFF OR SENT TO 0% WHEN ANOTHER OUTPUT IS TURNED ON. CHECK OFF THE ITEMS IN THE
SERVICE TEST TABLE ON THE NEXT PAGE THAT APPLY AFTER BEING TESTED.
CL-5
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C. Unit Start-Up (cont)
USE ESCAPE KEY TO RETURN TO ‘OUTS’ DISPLAY. PRESS DOWN ARROW TO DISPLAY ‘CMPA’.
PRESS ENTER KEY TO DISPLAY ‘CC.A1’. NOTE THAT UNLOADERS AND HOT GAS BYPASS SOLENOIDS
CAN BE TESTED BOTH WITH AND WITHOUT COMPRESSOR(S) RUNNING. MAKE SURE ALL SERVICE
VALVES ARE OPEN AND COOLER/CONDENSER PUMPS HAVE BEEN TURNED ON BEFORE STARTING
COMPRESSORS. CHECK OFF EACH ITEM AFTER SUCCESSFUL TEST. THE CONTROL WILL ONLY START
ONE COMPRESSOR PER MINUTE. WHEN AT THE DESIRED ITEM, PRESS THE ENTER KEY TWICE TO
MAKE THE ‘OFF’ FLASH. PRESS THE UP ARROW KEY AND ENTER TO TURN THE OUTPUT ON. CHECK
OFF THE ITEMS IN THE SERVICE TEST TABLE BELOW THAT APPLY AFTER BEING TESTED.
SERVICE TEST
KEYPAD
ENTRY
ITEM
Completed
(Yes/No)
SUB-MODE
TEST
ITEM DISPLAY
COMMENT
EXPANSION
ON/OFF
SERVICE TEST MODE
To Enable Service Test Mode,
move Enable/Off/Remote
Contact switch to OFF. Change
TEST to ON. Move switch to
ENABLE.
ENTER
OUTPUTS AND PUMPS
COOLER PUMP RELAY
ENTER
CLR.P ON/OFF
CND.P ON/OFF
UL.TM 0 TO 15
CONDENSER PUMP
COMP A1 UNLOAD TIME
CRANKCASE HEATER
CC.H
ON/OFF
OUTS
CW.VO ON/OFF
CW.VC ON/OFF
LL.SV ON/OFF
RMT.A ON/OFF
CONDENSER VALVE OPEN
CONDENSER VALVE CLOSE
LIQUID LINE SOLENOID
REMOTE ALARM RELAY
CIRCUIT A COMPRESSOR TEST
COMPRESSOR A1 RELAY
ENTER
CC.A1 ON/OFF
UL.TM 0 TO 15
CC.A2 ON/OFF
CC.A3 ON/OFF
COMP A1 UNLOAD TIME
COMPRESSOR A2 RELAY
COMPRESSOR A3 RELAY
MINIMUM LOAD VALVE RELAY
CMPA
MLV
ON/OFF
USE ARROW/ESCAPE KEYS TO ILLUMINATE THE TEMPERATURES LED. PRESS ENTER TO DISPLAY
‘UNIT’. PRESS ENTER AND USE THE ARROW KEYS TO RECORD TEMPERATURES FOR
SENSORS BELOW.
TEMPERATURE
CLWT
CEWT
CDET
CDLT
OAT or DLWT
SPT
CL-6
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C. Unit Start-Up (cont)
ALL UNITS:
MEASURE THE FOLLOWING (MEASURE WHILE MACHINE IS IN A STABLE OPERATING CONDITION):
CIRCUIT A
DISCHARGE PRESSURE
SUCTION PRESSURE
DISCHARGE LINE TEMP
SUCTION LINE TEMP
SATURATED COND TEMP
COOLER ENTERING FLUID
COOLER LEAVING FLUID
CONDENSER ENTERING FLUID
CONDENSER LEAVING FLUID
CHECK AND ADJUST SUPERHEAT AS REQUIRED.
CL-7
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C. Unit Start-Up (cont)
COMMENTS:
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
_________________________________________________________________________________________
SIGNATURES:
START-UP TECHNICIAN ___________________________________________________________________
DATE __________________________________
CUSTOMER REPRESENTATIVE_____________________________________________________________
DATE___________________________________
Copyright 2010 Carrier Corporation
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
Catalog No. 04-53300053-01
Printed in U.S.A.
Form 30MP-1T
Pg CL-8
1-10
Replaces: New
Download from Www.Somanuals.com. All Manuals Search And Download.
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