Carrier ComfortLink 6 Series Controls, Start-Up, Operation, Service, And Troubleshooting
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Carrier ComfortLink 6 Series Controls, Start-Up, Operation, Service, And Troubleshooting

Air-cooled and water-cooled chillers with controls 50/60 hz
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Air-Cooled and Water-Cooled Chillers with Comfort Link™ Controls
Controls Start-Up, Operation,
Service, and Troubleshooting

SAFETY CONSIDERATIONS

Installing, starting up, and servicing this equipment can be
hazardous due to system pressures, electrical components, and
equipment location (roof, elevated structures, 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.
Electrical shock can cause personal injury and death. Shut
off all power to this equipment during installation and ser-
vice. There may be more than one disconnect switch. Tag
all disconnect locations to alert others not to restore power
until work is completed.
This unit uses a microprocessor-based electronic control
system. Do not use jumpers or other tools to short out com-
ponents, 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.
To prevent potential damage to heat exchanger tubes
always run fluid through heat exchangers when adding or
removing refrigerant charge. Use appropriate brine solu-
tions in cooler and condenser fluid loops to prevent the
freezing of heat exchangers when the equipment is exposed
to temperatures below 32 F (0° C).
DO NOT VENT refrigerant relief valves within a building.
Outlet from relief valves must be vented outdoors in accor-
dance with the latest edition of ANSI/ASHRAE (American
National Standards Institute/American Society of Heating,
Refrigeration 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.
Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.
PC 903
Book 2
Tab
5c
Catalog No. 533-00052
Printed in U.S.A.
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 refrig-
erant 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. Do NOT leave
refrigerant system open to air any longer than necessary.
Seal circuits being serviced and charge with dry nitrogen to
prevent oil contamination when timely repairs cannot be
completed.
CONTENTS
SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . . . . . 1
GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2,3
MAJOR SYSTEM COMPONENTS . . . . . . . . . . . . . . . .3,4
Main Base Board (MBB) . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Screw Compressor Board (SCB) . . . . . . . . . . . . . . . . . 3
(CCP) Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Energy Management Module (EMM) . . . . . . . . . . . . . . 3
Enable/Off/Remote Connect Switch . . . . . . . . . . . . . . 3
Emergency On/Off Switch . . . . . . . . . . . . . . . . . . . . . . . . 3
Board Addresses. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Control Module Communication. . . . . . . . . . . . . . . . . . 3
OPERATION DATA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-40
Electronic Expansion Valve (EXV) . . . . . . . . . . . . . . . . 4
• EXV OPERATION
• ECONOMIZER OPERATION
Oil Pumps. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Motor Cooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
and 30HXA only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Starting Option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Capacity Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
• MINUTES LEFT FOR START
• LOADING SEQUENCE
• CAPACITY CONTROL OVERRIDES
Form 30G,H-9T
Pg 1
30GXN,R080-528
30HXA,HXC076-271
50/60 Hz
Series 6
Page
1-04
Replaces: New
7

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Summary of Contents for Carrier ComfortLink 6 Series

  • Page 1: Table Of Contents

    Carrier Comfort Network (CCN) Interface..3 OPERATION DATA......4-40 Electronic Expansion Valve (EXV) .

  • Page 2: General

    Oil Heater Control ....... 18 Carrier Comfort Network (CCN) Interface ..69 Navigator Display Module Usage .

  • Page 3: Major System Components

    YELLOW LED — The MBB has one yellow LED. The The EXV board has 4 inputs and 2 outputs. It receives signals Carrier Comfort Network (CCN) LED will blink during times from the MBB and operates the electronic expansion devices.

  • Page 4: Operation Data

    LEGEND Next, the refrigerant flows to the EXV which regulates flow to — Carrier Comfort Network the cooler to maintain the discharge superheat setpoint. — Input Not Read by Processor The increase in performance is achieved by diverting a...

  • Page 5: Oil Pumps

    Oil Pumps — The 30GXN,GXR,HX screw chillers use OIL FEED TO COMPRESSOR one externally mounted prelubricating oil pump per circuit. This pump is operated as part of the start-up sequence. On 30GXN,R units, the pumps are mounted above the base rails on the oil separator side of the unit (see Fig.
  • Page 6 Table 3 — Thermistor and Transducer Locations THERMISTORS Sensor Description Location Connection Terminals Cooler Leaving Fluid Temp Cooler Head Leaving Fluid Side MBB, J8-13,14 Cooler Entering Fluid Temp Cooler Head Entering Fluid Side MBB, J8-11,12 Motor Temp A1 Motor Temperature A1 Compressor A1 Junction Box CCP1, plug J5 Motor Temp A2*...

  • Page 7: Comfort Link Compressor Protection (Ccp) Board

    Comfort Link™ Compressor Protection (CCP) INPUTS: • motor temperature Board — One CCP board controls up to 2 compressors. • three-phase current The CCP provides the following functions: • high-pressure switch • compressor main contactor control A diagram of the CCP board is shown in Fig. 4. One CCP •...

  • Page 8: Wye-Delta Vs Across-The-Line (Xl)

    Table 4 — Comfort Link™ Compressor Protection Position 12 in model number) are supplied with factory- (CCP) Board Plug Connections installed Wye-Delta starters. All other voltage options can be ordered with either Wye-Delta or XL starting options. The XL CCP PLUG DESCRIPTION starting method is the most cost effective and simply starts the 24-vac Power Input...

  • Page 9: Minutes Off Time

    COMPRESSOR JUNCTION BOX TERMINAL BLOCK COMPRESSOR CONTACTOR JUMPER BARS Fig. 5 — Across-the-Line (XL) Compressor Wiring COMPRESSOR JUNCTION BOX COMPRESSOR STARTER ASSEMBLY TERMINAL BLOCK Fig. 6 — Wye-Delta Compressor Wiring MINUTES OFF TIME (DELY, Configuration mode under required to maintain better leaving fluid temperature sub-mode OPT2) —...

  • Page 10: Minimum Load Valve

    MINIMUM LOAD VALVE (MLVS, Configuration mode 6. Adjust the minimum load ball valve until the cooler under sub-mode OPT1) — When this option is installed and temperature difference reading from Step 5 is equal to configured, the first stage of capacity is altered by energizing half of the temperature difference reading from Step 3.

  • Page 11: Head Pressure Control

    SERV sub-mode under the Configuration mode. Only certified number of capacity stages being used and/or may lower the Carrier Comfort Network technicians should perform checkout EXD position when system pressures approach the set and adjustment of the PID loop. To obtain this accessory for parameters.

  • Page 12: Water-Cooled Units (30Hxc)

    SERV sub-mode under the Configuration mode. Only certi- the use of the vdc signal. Set this configuration (VHPT, config- fied Carrier Comfort Network technicians should perform uration mode under sub-mode OPT1) to 1 (4 to 20 mA or 2 to checkout and adjustment of the PID loop.
  • Page 13 Table 7 — Fan Staging Select Configuration Settings for Air Cooled (30GXN,R) Units COMPUTER UNIT 30GXN,R NAVIGATOR DISPLAY DESCRIPTION SOFTWARE DISPLAY 1st stage compressor status and SCT set point 080,090* (1 STAGE COM) 2nd stage common control based on highest SCT 083,093,106,108, 1st stage compressor status and SCT set point (2 STAGE COM)
  • Page 14 30GXN,R UNITS — MOTORMASTER V CONTROL NOT INSTALLED LEGEND SCT — Saturated Condensing Temperature ® Fig. 9A — 30GXN,R Units Head Pressure Control Without Motormaster V Control 30GXN,R UNITS — MOTORMASTER V CONTROL INSTALLED IS SCT GREATER CALCULATE NEW DOES PID OUTPUT READ CIRCUIT THAN HEAD PID VALUE.
  • Page 15 Table 9 — 30GXN,R080-350 Condenser Fan Staging (Main Base Board Controlled) NAVIGATOR OUTPUT 30GXN,R UNIT SIZE FAN TYPE FAN CONTACTOR FANS CONTROLLED POINT NAME Fan 1 FC-1 1, 2 Standard Fan 2 FC-2 3, 4 080, 090 Fan 1 FC-1, 1A 1, 2 High Static Fan 2...

  • Page 16: 09Dk Air-Cooled Condensers

    Table 9 — 30GXN,R080-350 Condenser Fan Staging (Main Base Board Controlled) (cont) NAVIGATOR OUTPUT 30GXN,R UNIT SIZE FAN TYPE FAN CONTACTOR FANS CONTROLLED POINT NAME Comp. B1 contactor* FC-1 Fan 1 FC-2 Fan 2 FC-3 Fan 4 FC-4 Standard Fan 3 FC-5 Comp.

  • Page 17: 09Az Air-Cooled Condensers

    The 09DK054-094 condensers are supplied with fan cycling REMOTE position. The unit can be enabled and disabled by pressure switches suitable for use with R-22 refrigerant. Fan this action or all control methods. cycling pressure switches that are compatible with R-134a 7-DAY SCHEDULE —...

  • Page 18: Condenser Pump Control

    When the cooler pump control is “ON,” the cooler pump relay When there is chilled water flow, but the flow is inadequate will be energized when the chiller enters an “ON” mode (i.e., to close the switch and allow unit operation, one red LED will ON LOCAL, ON TIME, ON CCN).

  • Page 19: Service Test

    Two items, OAT Outside Air Temperature (Temperature Mode, Sub-mode UNIT) and SPT Space Temperature (Temperature Mode, Sub-mode UNIT) can be forced to a value at the Navigator. If one of these two points has been forced, a flashing “f” will appear next to the value indicating a forced value.
  • Page 20 point of the slave chiller. The master chiller will also split demand limiting function appropriately between the two RETURN SLAVE MASTER LEAVING FLUID CHILLER CHILLER FLUID chillers, if demand limiting is enabled. The master chiller is now configured for dual chiller opera- Fig.
  • Page 21 Table 12 — Configuration Mode and Sub-Mode Directory SUB- KEYPAD ITEM ITEM DISPLAY COMMENT MODE ENTRY EXPANSION TEST ON/OFF TEST DISPLAY LEDs See Backlight and Contrast adjustment in DISP ENTER Tables 21 and 22. METR ON/OFF METRIC DISPLAY Off = English On = Metric LANG LANGUAGE SELECTION...
  • Page 22 Table 12  Configuration Mode and Sub-Mode Directory (cont) SUB- KEYPAD ITEM ITEM DISPLAY COMMENT MODE ENTRY EXPANSION OPT1 FLUD COOLER FLUID Default: Water ENTER Water Medium Temperature Brine Low Temperature Brine (30HX only) MLVS YES/NO MIN LOAD VALVE SELCT Minimum Load Valve HPCT HEAD PRESS CONTROL TYPE...
  • Page 23 Table 12  Configuration Mode and Sub-Mode Directory (cont) SUB- KEYPAD ITEM ITEM DISPLAY COMMENT MODE ENTRY EXPANSION RSET CRST COOLING RESET TYPE Default: No Reset ENTER No Reset 4 to 20 mA Input Outdoor Air Temperature Return Fluid Space Temperature CRT1 XXX.X °F NO COOL RESET TEMP...
  • Page 24 Table 12  Configuration Mode and Sub-Mode Directory (cont) KEYPAD ITEM ITEM DISPLAY COMMENT MODE ENTRY EXPANSION SLCT CLSP COOLING SETPOINT SELECT Default: Single ENTER Single Dual Switch Dual 7 day Dual CCN Occupied 4 to 20 mA Input (requires EMM) HTSP HEATING SETPOINT SELECT Default: Single...
  • Page 25 Table 13 — Service Test Mode and Sub-Mode Directory SUB- KEYPAD ITEM ITEM DISPLAY COMMENT MODE ENTRY EXPANSION TEST ON/OFF SERVICE TEST MODE To Enable Service Test Mode, move Enable/Off/ ENTER Remote Contact switch to OFF. Change TEST to ON. Move switch to ENABLE. OUTS EXV.A XXX %...
  • Page 26 Table 14 — Temperature Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION UNIT CEWT XXX.X °F COOLER ENTERING FLUID ENTER CLWT XXX.X °F COOLER LEAVING FLUID XXX.X °F OUTSIDE AIR TEMPERATURE XXX.X °F SPACE TEMPERATURE CNDE XXX.X °F CONDENSER ENTERING FLUID CNDL...
  • Page 27 Table 15 — Pressure Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION PRC.A DP.A XXX.X PSIG DISCHARGE PRESSURE ENTER SP.A XXX.X PSIG SUCTION PRESSURE ECN.A XXX.X PSIG ECONOMIZER PRESSURE OP.A1 XXX.X PSIG A1 OIL PRESSURE OP.A2 XXX.X PSIG A2 OIL PRESSURE Equals oil pressure minus...
  • Page 28 Table 17 — Inputs Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION GEN.I STST STRT/STOP START/STOP SWITCH ENTER FLOW ON/OFF COOLER FLOW SWITCH CND.F ON/OFF CONDENSER FLOW SWITCH DLS1 ON/OFF DEMAND LIMIT SWITCH 1 DLS2 ON/OFF DEMAND LIMIT SWITCH 2 ICED ON/OFF...
  • Page 29 Table 18 — Outputs Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION GEN.O FAN1 ON/OFF FAN 1 RELAY ENTER FAN2 ON/OFF FAN 2 RELAY FAN3 ON/OFF FAN 3 RELAY FAN4 ON/OFF FAN 4 RELAY ON/OFF MINIMUM LOAD VALVE C.PMP ON/OFF COOLER PUMP RELAY...
  • Page 30 Table 19 — Operating Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION MODE MD01 ON/OFF CSM CONTROLLING CHILLER ENTER MD02 ON/OFF WSM CONTROLLING CHILLER MD03 ON/OFF MASTER/SLAVE CONTROL MD04 ON/OFF LOW SOURCE PROTECTION MD05 ON/OFF RAMP LOAD LIMITED MD06 ON/OFF TIMED OVERRIDE IN EFFECT...
  • Page 31 Table 20 — Run Status Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION VIEW XXX.X °F ENTERING FLUID TEMP ENTER XXX.X °F LEAVING FLUID TEMP SETP XXX.X °F ACTIVE SETPOINT CTPT XXX.X °F CONTROL POINT STAT CONTROL MODE SERVICE TEST OFF LOCAL...
  • Page 32 Table 20 — Run Status Mode and Sub-Mode Directory (cont) KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION VERS CESR-131344-xx-xx xx-xx is Version number ENTER CESR-131172-xx-xx xx-xx is Version number CESR-131174-xx-xx xx-xx is Version number 100233-1R1-xx-xx xx-xx is Version number 100233-1R1-xx-xx xx-xx is Version number CESR-131226-xx-xx...
  • Page 33 Table 23 — Time Clock Mode and Sub-Mode Directory KEYPAD ITEM SUB-MODE ITEM DISPLAY COMMENT ENTRY EXPANSION TIME HH.MM XX.XX HOUR AND MINUTE Military (00:00 — 23:59) ENTER DATE MNTH MONTH OF YEAR January, February, etc. DAY OF MONTH Range: 01-31 DAY OF WEEK Monday, Tuesday, etc.
  • Page 34 Table 24A — Example of Configuring Dual Chiller Control (Master Chiller) SUB-MODE ITEM KEYPAD ENTRY DISPLAY ITEM EXPANSION COMMENT OPT2 OPT2 ENTER CTRL SWITCH VALUE FLASHES ENTER CTRL SWITCH CONTROL METHOD SEE NOTE 1 ENTER CCNA ENTER DEFAULT 1 CCNA CCN ADDRESS CHANGE IF REQUIRED ENTER...
  • Page 35 Table 24B — Example of Configuring Dual Chiller Control (Slave Chiller) SUB-MODE ITEM KEYPAD ENTRY DISPLAY ITEM EXPANSION COMMENT OPT2 OPT2 ENTER CTRL SWITCH CONTROL METHOD SEE NOTE 1 ENTER SWITCH ESCAPE CTRL ESCAPE CTRL CCNA CCNA CCN ADDRESS SCROLLING STOPS ENTER VALUE FLASHES ENTER...

  • Page 36: Alarms/Alerts

    Alarms/Alerts — Temperature Reset — Alarms and alerts are messages that The control system is capable of one or more faults have been detected. The alarms and alerts handling leaving-fluid temperature reset based on return cooler indicate failures that cause the unit to shut down, terminate an fluid temperature.
  • Page 37 Table 27 — Configuring Temperature Reset KEYPAD KEYPAD ITEM MODE SUB-MODE ITEM DISPLAY COMMENT ENTRY ENTRY EXPANSION CONFIGURATION ENTER DISP ENTER TEST ON/OFF TEST DISPLAY LEDs UNIT TYPE UNIT TYPE ENTER OPT1 ENTER FLUD COOLER FLUID OPT2 CTRL CONTROL METHOD ENTER RSET CRST...

  • Page 38: Demand Limit

    percentages. The second type is by 4 to 20 mA signal input which will reduce 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 capacity to maximum and further reduce the capacity if required.

  • Page 39: Cooling Set Point (4 To 20 Ma)

    reduce the current stages by the value entered for Loadshed Cooling Set Point (4 to 20 mA) — Unit operation is Demand delta. The Maximum Loadshed Time is the defines based on an external 4 to 20 mA signal input to the Energy the maximum length of time that a loadshed condition is Management Module (EMM).
  • Page 40 Table 29 — Configuring Demand Limit KEYPAD KEYPAD MODE SUB-MODE ITEM DISPLAY ITEM EXPANSION COMMENT ENTRY ENTRY CONFIGURATION DISP TEST ON/OFF Test Display LEDs ENTER ENTER UNIT ENTER TYPE Unit Type OPT1 FLUD Cooler Fluid ENTER OPT2 CTRL Control Method ENTER RSET CRST...

  • Page 41: Troubleshooting

    TROUBLESHOOTING shut down immediately and EXV closes. Refer to Table 31 for typical stoppage faults and reset types. The 30GXN,R and 30HX screw chiller control has many features to aid in troubleshooting. By using the Navigator control, operating conditions of the chiller can be viewed while the chiller is running.

  • Page 42: Compressor Alarm/Alert Circuit

    Compressor Alarm/Alert Circuit — fault condition for a compressor alert is included as part of the Each compres- alert description displayed on the Navigator. Press sor is directly controlled by a CCP module. Compressor faults ENTER simultaneously to display description. (T051, T052, T055, T056) are reported as alerts.
  • Page 43 Table 32  Alarm and Alert Codes (cont) ALARM/ALERT ALARM OR WHY WAS THIS ALARM ACTION TAKEN BY RESET DESCRIPTION PROBABLE CAUSE CODE ALERT GENERATED? CONTROL METHOD A034 Alarm Comp. A1 Max. Oil (Discharge press – Oil press) Comp. A1 shut down Manual Plugged oil filter, closed oil Delta P, check oil line...
  • Page 44 Table 32  Alarm and Alert Codes (cont) ALARM/ALERT ALARM OR WHY WAS THIS ALARM ACTION TAKEN BY RESET DESCRIPTION PROBABLE CAUSE CODE ALERT GENERATED? CONTROL METHOD T051 Alert Compressor A1 Failure – (See below) T052 Alert Compressor A2 Failure – (See below) See additional descriptions below.
  • Page 45 Table 32  Alarm and Alert Codes (cont) ALARM/ ALARM OR WHY WAS THIS ALARM ACTION TAKEN BY RESET DESCRIPTION PROBABLE CAUSE ALERT CODE ALERT GENERATED? CONTROL METHOD T071 Alert Cir. B Discharge Gas Average of compressor B1 Circuit B shut down Manual Thermistor failure, damaged Thermistor Failure...
  • Page 46 Table 32  Alarm and Alert Codes (cont) ALARM/ ALARM OR WHY WAS THIS ACTION TAKEN BY RESET DESCRIPTION PROBABLE CAUSE ALERT CODE ALERT ALARM GENERATED? CONTROL METHOD T120 Alert Circuit A Low SST reads 6° F (3.3° C) or Circuit A shut down Manual†...
  • Page 47 Table 32  Alarm and Alert Codes (cont) ALARM/ALERT ALARM OR WHY WAS THIS ACTION TAKEN BY RESET DESCRIPTION PROBABLE CAUSE CODE ALERT ALARM GENERATED? CONTROL METHOD T142 Alert Compressor B1 – Oil filter pressure drop None Manual Filter change needed to pre- High Oil Filter Pressure (FD.B1) exceeds 25 psig vent machine from shutting...
  • Page 48 Table 32  Alarm and Alert Codes (cont) ALARM/ALERT ALARM OR WHY WAS THIS ACTION TAKEN BY RESET DESCRIPTION PROBABLE CAUSE CODE ALERT ALARM GENERATED? CONTROL METHOD T182 Alert Compressor Protec- The Comfort Link™ Compres- Affected compressors Manual on Eliminate EMI sources around tion Module 1 Inter- sor Protection Module has are shut down.
  • Page 49 — Analog to Digital Converter Where: P = Discharge Pressure, P = Suction Pressure. — Carrier Comfort Network = Oil Pressure and P = Economizer Pressure — Comfort Link™ Compressor Protection Two oil set points are used by the control for the Low Oil Pressure —...

  • Page 50: Exv Troubleshooting Procedure

    EXV Troubleshooting Procedure — INSPECTING/OPENING ELECTRONIC EXPANSION Follow steps VALVES below to diagnose and correct EXV/Economizer problems. Check EXV motor operation first. Switch the Enable/Off/ IMPORTANT: Obtain replacement O-ring before open- Remote (EOR) Contact switch to the Off position. Press ing EXV.

  • Page 51: Brazed-Plate Economizers

    BRAZED-PLATE ECONOMIZERS — Brazed-plate econo- EQUALIZER mizers are factory-installed in each circuit on 30GXN,R108, LINE MOTOR 118-350 and 30HXA,C161-271 models. A TXV is included to COOLING meter the flow of refrigerant to the economizer port of the SOLENOID SOLENOID compressor. Flow through the TXV is enabled only when the circuit is fully loaded for 30GXN,R models.

  • Page 52: Service

    30HXC condensers. See Table 34. If tube failure is in both circuits, using tube plugs will not correct problem. Contact your Carrier representative for assistance. Use extreme care when installing plugs to prevent damage to the tube sheet section between the holes.

  • Page 53: Water Treatment

    During the tube cleaning process, use brushes specially designed to avoid scraping and scratching the tube wall. Contact your Carrier representative to obtain these brushes. Do Do not use high-pressure water or air to clean coils — fin not use wire brushes.

  • Page 54: Condenser Fans (30Gxn,R Only)

    Remove Surface Loaded Fibers — Surface loaded fibers or 7. Thoroughly rinse all surfaces with low velocity clean dirt should be removed with a vacuum cleaner. If a vacuum water using downward rinsing motion of water spray cleaner is not available, a soft brush may be used. In either nozzle.

  • Page 55: Refrigerant Charging/Adding Charge

    (30HXC) and cooler at all times to prevent Expansion Valve (EXV) and the cooler. freezing. Freezing damage is considered abuse and may void the Carrier warranty. 4. Observe the EXV Percent Open value. The EXV should begin closing as charge is being added. Allow the unit to stabilize.

  • Page 56: Oil Charging/Low Oil Recharging

    • ISO Viscosity Grade ......220 30GX204-268 26.5 18.9 This oil is available in the following quantities from your 30GX281-350 26.5 26.5 local Carrier representative (see Table 36). 30HXA076-186 18.9 18.9 Table 36 — Available Oil Quantities 30HXC076-186 17.0 17.0...

  • Page 57: Oil Filter Maintenance

    5.75 L (1.5 gallons) of oil to the system, filter and compressor inlet line assembly aside. contact your Carrier representative. 3. Remove any remaining refrigerant in the compressor and refrigerant lines using proper reclaiming techniques. All Oil Filter Maintenance —...
  • Page 58 6. Remove loader (mark solenoids no. 1 and 2 for replace- 13. After checking to ensure all lines, wires, conduits, etc. are ment) and oil solenoids and high-pressure switch from free and out of the way, remove compressor from cooler. compressor.

  • Page 59: Burnout Clean-Up Procedure

    Filter Drier — Whenever moisture-liquid indicator shows Refrigerant Charging/Adding Charge and Oil Charging/ presence of moisture, replace filter drier core. Refer to Carrier Low Oil Recharging sections of this document for Standards Service Technique Manual, Chapter 1, Refrigerants, recharging procedures and performance criteria.
  • Page 60 To Service Compressor Motor Thermistors — Two ther- these terminals. If one of the thermistors fails, disconnect and mistors are factory installed in each compressor. Connections relocate the wire on one of the S terminals to the other S termi- for the thermistors are located in the compressor junction box.
  • Page 61 Table 38A — 5K Thermistor Temperature (°F) vs Resistance/Voltage VOLTAGE VOLTAGE VOLTAGE TEMP RESISTANCE TEMP RESISTANCE TEMP RESISTANCE DROP DROP DROP (Ohms) (Ohms) (Ohms) 1.982 7,686 0.511 1,190 –25 3.699 98,010 1.956 7,665 0.502 1,165 –24 3.689 94,707 1.930 7,468 0.494 1,141 –23...
  • Page 62 Table 38B — 5K Thermistor Temperature (°C) vs Resistance/Voltage VOLTAGE VOLTAGE VOLTAGE TEMP RESISTANCE TEMP RESISTANCE TEMP RESISTANCE DROP DROP DROP (Ohms) (Ohms) (Ohms) 1.982 7,855 0.506 1,158 –32 3.705 100,260 1.935 7,499 0.490 1,118 –31 3.687 94,165 1.889 7,161 0.475 1,079 –30...
  • Page 63 Table 39A — 10K Thermistor Temperatures (°F) vs Resistance/Voltage Drop (For Thermistor T10) TEMP VOLTAGE RESISTANCE TEMP VOLTAGE RESISTANCE TEMP VOLTAGE RESISTANCE DROP (V) (Ohms) DROP (V) (Ohms) DROP (V) (Ohms) –25 4.758 196,453 2.994 14,925 0.890 2,166 –24 4.750 189,692 2.963 14,549...
  • Page 64 Table 39B — 10K Thermistor Temperatures (°C) vs Resistance/Voltage Drop (For Thermistor T10) TEMP VOLTAGE RESISTANCE TEMP VOLTAGE RESISTANCE TEMP VOLTAGE RESISTANCE DROP (V) (Ohms) DROP (V) (Ohms) DROP (V) (Ohms) –32 4.762 200,510 3.056 15,714 0.940 2,315 –31 4.748 188,340 3.000 15,000...

  • Page 65: Pressure Transducers

    Pressure Transducers — to 30 seconds. When some flow is detected but not enough for Discrete high and low pres- machine operation, a red LED at the far left will be illuminated. sure transducers are used for pressure sensing on all With increasing flow, successive red LEDs illuminate.
  • Page 66 OPT-A2 OPT-A1 OPT-B1 EPT-B SPT-A EPT-A SPT-B DPT-B DPT-A Fig. 35B — 30HX Pressure Transducer Locations (3-Compressor Unit) OPT-A OPT-B SPT-B SPT-A EPT-A EPT-B DPT-B DPT-A Fig. 35C — 30GXN,R Pressure Transducer Locations (Top View)
  • Page 67 FLOW SWITCH FLOW SWITCH LOCATION STANDARD 3-PASS LOCATION STANDARD 2-PASS (UNIT SIZES 080-119, 125, 135)* (UNIT SIZES 118, 128, 138-178, 204-350)* 1.61 [41] 2.83 [72] 2.36 [60] M12 x 4 PIN MALE 1.38 [35] 3.25 [82.6] 24VAC 1/4 NPT EXTERNAL RELAY COIL o.305 WIRING DIAGRAM [12]...

  • Page 68: Safety Devices

    YELLOW LED — The Main Base Board (MBB) has a yel- solution must be used in the chilled fluid circuit. low LED. This light will blink whenever CCN (Carrier Comfort Network) communications are in progress. Only the MBB is designed to communication on the CCN bus. All Relief Devices —...

  • Page 69: Carrier Comfort Network (Ccn) Interface

    (30HX). The basic software and unit configuration data is fac- –20 C to 60 C is required. Wire manufactured by Alpha (2413 tory installed by Carrier in the replacement module. Therefore, or 5463), American (A22503), Belden (8772), or Columbia when ordering any replacement module, specify the replace- (02525) meets the above mentioned requirements.

  • Page 70: Winter Shutdown Preparation

    • Check condenser coils for debris, clean as necessary 2. Remove the defective module by removing its mounting • Coil cleaning with Carrier approved coil cleaner. screws with a Phillips screwdriver, and removing the module from the control box. Save the screws later use.

  • Page 71: Pre-Start-Up Procedure

    Carrier Comfort Network personnel. victaulic nozzles. 1. Set leaving fluid temperature. No cooling range adjust- 3. Open the discharge and liquid valves in each circuit. Both ment is necessary.

  • Page 72: Field Wiring

    Upon building pressure, the compressor is allowed to start contactor assembly) are closed and the compressor is started in (after 15 seconds). For across-the-line (XL) start chillers, the a Wye configuration. This method reduces the locked rotor compressor starts and comes up to full speed within 1 to 3 sec- current requirements by approximately 60% while maintaining onds.
  • Page 73 Fig. 44A — 30GXN,R Minimum Load Valve Accessory Wiring, 115 or 230 V* Fig. 44B — 30HX Minimum Load Valve Accessory Wiring, 115 or 230 V* Fig. 45 — Condenser Pump Relay Wiring; 30HXC and Remote Condenser Fan/Liquid Line Solenoid Valve Wiring; 30HXA 115 or 230 V* Fig.
  • Page 74 NOTE NOTE NOTE: Install a 500 Ω resistor across output terminals to convert output signal to 2-10 vdc. Fig. 52 — Field-Supplied Head Pressure Device Wiring; 30HX Units Fig. 48 — Condenser Flow Switch Interlock and Entering/Leaving Water Thermistor Wiring; 30HXC Units Fig.

  • Page 75: (Compressor Must Trip Amps)

    APPENDIX A 30GXN,R (High Ambient Data [Position 10 in model no. equal to ‘A’, ‘F’, ‘T’, or ‘V’], All Models) Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 COMP B2 PUNCHOUTS PUNCHOUTS PUNCHOUTS...
  • Page 76 APPENDIX A (cont) 30GXN,R (High Ambient Data [Position 10 in model no. equal to ‘A’, ‘F’, ‘T’, or ‘V’], All Models) Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 COMP B2 PUNCHOUTS PUNCHOUTS PUNCHOUTS...
  • Page 77 APPENDIX A (cont) 30GXN,R (High Ambient Data [Position 10 in model no. equal to ‘A’, ‘F’, ‘T’, or ‘V’], All Models) Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 COMP B2 PUNCHOUTS PUNCHOUTS PUNCHOUTS...
  • Page 78 APPENDIX A (cont) 30GXN,R (High Ambient Data [Position 10 in model no. equal to ‘A’, ‘F’, ‘T’, or ‘V’], All Models) Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 COMP B2 PUNCHOUTS PUNCHOUTS PUNCHOUTS...
  • Page 79 APPENDIX A (cont) 30GXN,R (Reduced Ambient Data [Position 10 in model no. equal to ‘–’, ‘E’, ‘S’, or ‘U’], Limited Models Only) Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 COMP B2 PUNCHOUTS PUNCHOUTS...
  • Page 80 APPENDIX A (cont) 30GXN,R (Reduced Ambient Data [Position 10 in model no. equal to ‘–’, ‘E’, ‘S’, or ‘U’], Limited Models Only) Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 COMP B2 PUNCHOUTS PUNCHOUTS...
  • Page 81 APPENDIX A (cont) 30HXC Models Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 PUNCHOUTS PUNCHOUTS PUNCHOUTS UNIT MUST TRIP MUST TRIP MUST TRIP VOLTS-Hz FOR COMP FOR COMP FOR COMP 30HXC AMPS AMPS...
  • Page 82 APPENDIX A (cont) 30HXC Models Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 PUNCHOUTS PUNCHOUTS PUNCHOUTS UNIT MUST TRIP MUST TRIP MUST TRIP VOLTS-Hz FOR COMP FOR COMP FOR COMP 30HXC AMPS AMPS...
  • Page 83 APPENDIX A (cont) 30HXA Models Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 PUNCHOUTS PUNCHOUTS PUNCHOUTS UNIT MUST TRIP MUST TRIP MUST TRIP VOLTS-Hz FOR COMP FOR COMP FOR COMP 30HXA AMPS AMPS...
  • Page 84 APPENDIX A (cont) 30HXA Models Comfort Link™ Compressor Protection Module Configuration Header Punch-Outs and Must Trip Amps COMP A1 COMP A2 COMP B1 PUNCHOUTS PUNCHOUTS PUNCHOUTS UNIT MUST TRIP MUST TRIP MUST TRIP VOLTS-Hz FOR COMP FOR COMP FOR COMP 30HXA AMPS AMPS...

  • Page 85: (Capacity Loading Sequence)

    APPENDIX B Capacity Loading Sequence Example — compressor has 2 loaders. There is no difference in operation The fol- lowing tables show the loading sequence for a 30HX186 between “Staged” and “Equal” circuit loading on 2 compressor chillers. (50/50 split) and a 30HX161 (59/41 split) chiller. Each STANDARD LOADING SEQUENCE (CIRCUIT A LEAD CIRCUIT, 2-COMPRESSOR UNIT) % TOTAL % TOTAL...
  • Page 86 APPENDIX B (cont) The following tables show the loading sequence for 30HX206 have two loaders and the chillers are configured for equal circuit (57/43 split) and 30HX271 (67/33 split) chillers.All compressors loading. See Note 2. STANDARD LOADING SEQUENCE (CIRCUIT A LEAD CIRCUIT, 3-COMPRESSOR UNIT) % TOTAL % TOTAL COMP...
  • Page 87 APPENDIX B (cont) The following tables show the loading sequence for staged circuit loading. Loaders A1 on compressors A1 and A2 30HX206 (57/43 split) and 30HX271 (67/33 split) chillers. All are energized in parallel. The same is true for Loaders A2 on compressors have two loaders and the chiller is configured for both compressors A1 and A2.
  • Page 88 APPENDIX B (cont) The following tables show the loading sequence for a 30GXN,R350 chiller. Each compressor has 2 loaders and the chiller is configured for equal circuit loading. See Note 2. STANDARD LOADING SEQUENCE (CIRCUIT A LEAD CIRCUIT, 4-COMPRESSOR UNIT) % TOTAL COMP LOADER...
  • Page 89 APPENDIX B (cont) The following tables show the loading sequence for a 30GXN,R350 chiller. Each compressor has 2 loaders and the chillers are configured for staged circuit loading. See Note 2. STANDARD LOADING SEQUENCE (CIRCUIT A LEAD CIRCUIT, 4-COMPRESSOR UNIT) % TOTAL COMP LOADER...

  • Page 90: Appendix C Available Accessories

    APPENDIX C Available Accessories ACCESSORY UNITS DESCRIPTION OF ACCESSORY COMMENTS PART NUMBER 30GX-900---001 30GXN,R080,090* Condenser Grille Package 30GX-900---002 30GXN,R083, 093, 106, 108, 114, 125, 135* Condenser Grille Package 30GX-900---003 30GXN,R118, 128, 138, 150, 160* Condenser Grille Package 30GX-900---013 30GXN,R153, 174, 204, 225* Condenser Grille Package 30GX-900---024 30GXN,R163, 178*...
  • Page 91 APPENDIX C (cont) Available Accessories (cont) ACCESSORY UNITS DESCRIPTION OF ACCESSORY COMMENTS PART NUMBER 30GXN,R080,083,090,093, 30HX076-096 (STD) Insulation Kit (14″, 3-Pass Cooler, no Tubesheets and heads 30HX-900---035 30HX116-146 (+1P) Economizer) 30GXN,R106,114 (STD) Insulation Kit (16″, 3-Pass Cooler, no Tubesheets and heads 30HX-900---036 30HX106 (STD) Economizer)

  • Page 92: Appendix D (Building Interface)

    BACnet system to facilitate the passing of data from the CCN to network. Information from the 30GXN,GXR,HX chiller control BACnet. The Carrier DataPort is an interface device that allows to support interface are listed in the following tables. other HVAC control systems to “read only” values in system elements connected to a CCN communication bus.
  • Page 93 APPENDIX D (cont) Object Definitions (cont) 30GXN/GXR/HXA/HXC Series 6 with Software Version 1.1 and later CCN Table Description Status Units Point DataPort DataLink BAClink Name CIRC. B DISCRETE OUTPUTS Compressor B1 Relay Off/On K_B1_RLY Compressor B2 Relay Off/On K_B2_RLY Loader B1 Relay Off/On LOADR_B1 Loader B2 Relay...
  • Page 94 APPENDIX D (cont) Object Definitions (cont) 30GXN/GXR/HXA/HXC Series 6 with Software Version 1.1 and later CCN Table Description Status Units Point DataPort DataLink BAClink Name PUMPS Cooler Pump Relay Off/On COOL_PMP Condenser Pump Relay Off/On COND_PMP MISCELLANEOUS Dual Setpoint Switch Off/On DUAL_IN Cooler Flow Switch...
  • Page 95 APPENDIX E The following charts list pressure drops for coolers and condensers. 136, 146 116, 126 161, 171 076, 086 246-271 1000 COOLER FLOW RATE (GPM) Unit Size Range NOTE: Ft of water = 2.31 x psig. 30HX COOLER PRESSURE DROP — ENGLISH 1000 136, 146 116, 126...
  • Page 96 APPENDIX E (cont) Unit Size Range NOTE: Ft of water = 2.31 x psig. 30HX CONDENSER PRESSURE DROP — ENGLISH Unit Size Range 30HX CONDENSER PRESSURE DROP — SI...
  • Page 97 APPENDIX E (cont) 500 600 700 COOLER FLOW RATE (GPM) COOLER FLOW RATE (L/s) NOTE: Ft of water = 2.31 x psig. 30GXN,R080-178 COOLER PRESSURE DROP — 30GXN,R080-178 COOLER PRESSURE DROP — ENGLISH 1000 204, 208 249, 253, 264, 268 225, 228 COOLER FLOW RATE (L/s) 30GXN,R204-268 COOLER PRESSURE DROP —...
  • Page 98 APPENDIX E (cont) 10000 COOLER FLOW RATE (GPM) 30GXN,R281-350 COOLER PRESSURE DROP — ENGLISH NOTE: Ft of water = 2.31 x psig. 1000 COOLER FLOW RATE (L/s) 30GXN,R281-350 COOLER PRESSURE DROP — SI...
  • Page 99 APPENDIX E (cont) 1000 10000 COOLER FLOW RATE (GPM) 30GXN,R283, 303, 370, 390, 415 DUPLEX COOLER PRESSURE DROP — ENGLISH 393, 418 328, 353, 373 500, 503, 525, 528 450, 453, 475, 478 1000 10000 COOLER FLOW RATE (GPM) 30GXN,R328, 353, 373, 393, 418-528 DUPLEX COOLER PRESSURE DROP — ENGLISH...
  • Page 100 APPENDIX E (cont) 1000 COOLER FLOW RATE (L/s) 30GXN,R283, 303, 370, 390, 415 DUPLEX COOLER PRESSURE DROP — SI 393, 418 328, 353, 373 500, 503, 525, 528 450, 453, 475, 478 COOLER FLOW RATE (L/s) 30GXN,R328, 353, 373, 393, 418-528 DUPLEX COOLER PRESSURE DROP — SI...

  • Page 101: (Typical System Components)

    APPENDIX F...
  • Page 102 APPENDIX F (cont)
  • Page 103 APPENDIX F (cont)
  • Page 104 APPENDIX F (cont)
  • Page 105 APPENDIX F (cont)
  • Page 106 APPENDIX F (cont)
  • Page 107 APPENDIX F (cont)
  • Page 108 APPENDIX F (cont)
  • Page 109 APPENDIX F (cont)
  • Page 110 APPENDIX F (cont)
  • Page 111 APPENDIX F (cont)
  • Page 112 APPENDIX F (cont)

  • Page 113: Appendix G (Ccn Configuration)

    APPENDIX G A_UNIT (Unit Operation): Status Display DESCRIPTION STATUS UNITS POINT FORCIBLE Control Mode 0 = Service Test STAT 1 = Off - Local 2 = Off - CCN 3 = Off - Clock 4 = Off Emergency 5 = On - Local 6 = On - CCN 7 = On - Clock Occupied...
  • Page 114 APPENDIX G (cont) CIRCBDIO: (Circuit B Discrete Inputs/Outputs) Status Display DESCRIPTION STATUS POINT FORCIBLE CIRC. B DISCRETE OUTPUTS Compressor B1 Solenoid On/Off K_B1_RLY Compressor B2 Solenoid On/Off K_B2_RLY Loader B1 Relay On/Off LOADR_B1 Loader B2 Relay On/Off LOADR_B2 Minimum Load Valve On/Off Oil Heater On/Off...
  • Page 115 APPENDIX G (cont) OPTIONS: Status Display DESCRIPTION STATUS UNITS POINT FORCIBLE FANS Fan 1 Relay On/Off FAN_1 Fan 2 Relay On/Off FAN_2 Fan 3 Relay On/Off FAN_3 Fan 4 Relay On/Off FAN_4 UNIT ANALOG VALUES Cooler Entering Fluid snnn.n °F COOL_EWT Cooler Leaving Fluid snnn.n...
  • Page 116 APPENDIX G (cont) ALARMDEF: Alarm Configuration DESCRIPTION STATUS DEFAULT UNITS POINT Alarm Routing Control 00000000 00000000 ALRM_CNT Equipment Priority 0 to 7 EQP_TYPE Comm Failure Retry Time 1 to 240 RETRY_TM Re-alarm Time 1 to 255 RE-ALARM Alarm System Name XXXXXXXX CHILLER ALRM_NAM...
  • Page 117 APPENDIX G (cont) EXV_CONF: Configuration DESCRIPTION STATUS DEFAULT UNITS POINT EXVA Stepper Type 0=1500 Step EXVATYPE 1=15000 Step EXVA Steps in Range Type 0=1500 15000 STEPS EXVARANG Type 1=15000 EXVA Steps Per Second Type 0=30 EXVARATE Type 1=300 EXVA Fail Position in % EXVAPOSF EXVA Minimum Steps STEPS...
  • Page 118 APPENDIX G (cont) OPTIONS1: Options Configuration DESCRIPTION STATUS DEFAULT POINT Cooler Fluid 1 = Water FLUIDTYP 2 = Med. Brine 3 = Low Brine Min. Load Valve Select No/Yes MLV_FLG Head Press. Control Type 0 = None HEAD_TYP 1 = Air Cooled 2 = Water Cooled 3 = Common Condenser 4 = Independent Condenser...
  • Page 119 APPENDIX G (cont) RESETCON: Options Configuration DESCRIPTION STATUS DEFAULT UNITS POINT COOLING RESET Cooling Reset Type 0 = No Reset CRST_TYP 1 = 4 to 20 mA Input 2 = External Temp — OAT 3 = Return Fluid 4 = External Temp — SPT 4-20 MA RESET 4-20 —...
  • Page 120 APPENDIX G (cont) SETPOINT: Configuration DESCRIPTION STATUS DEFAULT UNITS POINT COOLING Cool Setpoint 1 –20 to 70 44.0 °F CSP1 Cool Setpoint 2 –20 to 70 44.0 °F CSP2 Ice Setpoint –20 to 32 32.0 °F CSP3 HEATING Heat Setpoint 1 80 to 140 100.0 °F...
  • Page 121 APPENDIX G (cont) ALARMS: Maintenance Display DESCRIPTION STATUS POINT Active Alarm #1 Axxx or Txxx ALARM01C Active Alarm #2 Axxx or Txxx ALARM02C Active Alarm #3 Axxx or Txxx ALARM03C Active Alarm #4 Axxx or Txxx ALARM04C Active Alarm #5 Axxx or Txxx ALARM05C Active Alarm #6...
  • Page 122 APPENDIX G (cont) DUALCHIL: Maintenance Display DESCRIPTION STATUS UNITS POINT Dual Chiller Link Good? Yes/No DC_LINK Master Chiller Role STAND ALONE, Lead Chiller, Lag Chiller MC_ROLE Slave Chiller Role STAND ALONE, Lead Chiller, Lag Chiller SC_ROLE Lead Chiller Ctrl Point snnn.n LEAD_CP Lag Chiller Ctrl Point...
  • Page 123 APPENDIX G (cont) OILPRESS: Maintenance Display DESCRIPTION STATUS UNITS POINT A1 Oil Pressure snnn.n PSIG OP_A1 A2 Oil Pressure snnn.n PSIG OP_A2 B1 Oil Pressure snnn.n PSIG OP_B1 B2 Oil Pressure snnn.n PSIG OP_B2 A1 Oil Filter Diff. Press nnn.n FLTP_A1 A2 Oil Filter Diff.
  • Page 124 APPENDIX G (cont) TESTMODE: Maintenance Display DESCRIPTION STATUS UNITS POINT Service Test Mode On/Off MAN_CTRL Manual Control Override On/Off FAC_CTRL Compressor A1 Relay On/Off S_A1_RLY Compressor A2 Relay On/Off S_A2_RLY Compressor B1 Relay On/Off S_B1_RLY Compressor B2 Relay On/Off S_B2_RLY Loader A1 Relay On/Off S_LDR_A1...
  • Page 125 APPENDIX G (cont) WINTLOG: Maintenance Display DESCRIPTION STATUS POINT Winterization Performed WINTDONE Date Winterized 00/00/00 00:00 WMSG00 Date Winterized 00/00/00 00:00 WMSG01 Date Winterized 00/00/00 00:00 WMSG02 Date Winterized 00/00/00 00:00 WMSG03 Date Winterized 00/00/00 00:00 WMSG04 Date Winterize Alerted 00/00/00 00:00 WALRT00 Date Winterize Alerted...

  • Page 126: Appendix H (30Gxn,R Duplex Combinations)

    APPENDIX H 30GXN,R Duplex Combinations SIZE MODULE A MODULE B...

  • Page 127: Operation Instructions)

    It is strongly recommended that the user NOT change any eter menu will be accessed at the parameter that was last programming without consulting Carrier service personnel. viewed or changed before exiting). If the Mode key is pressed Unit damage may occur from improper programming.
  • Page 128 Group 5 Group 6 Group 7 Group 8 Line Voltage: 01 = low line, 02 = high line Carrier Freq: 01 = 4 kHz, 02 = 6 kHz, 03 = 8 kHz Startup mode: flying restart Stop mode: coast to stop...
  • Page 129 The MMV also provides real time monitoring of key inputs FAULT LOCKOUT (LC), which requires a manual reset. See and outputs. The collective group is displayed through Tables 4 and 5. para-meters 50-56 and all values are read only. To disable external control mode (5-8) and enter manual •...

  • Page 130: Appendix J (Maintenance Log)

    APPENDIX J Copyright 2004 Carrier Corporation Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Book 2 PC 903 Catalog No. 533-00052 Printed in U.S.A. Form 30G,H-9T Pg 130...
  • Page 131 START-UP CHECKLIST FOR 30GX,HX LIQUID CHILLER I. Project Information Job Name _______________________________________________________________________ Address ________________________________________________________________________ City ______________________________________________State __________ Zip __________ Installing Contractor _______________________________________________________________ Sales Office _____________________________________________________________________ Start-up Performed By _____________________________________________________________ Design Information Capacity Fluid Type Flow Rate P.D. Ambient Cooler Condenser Equipment Model ____________________________________ Serial ________________________________...
  • Page 132 II. Preliminary Equipment Check (to be completed by installing contractor) Is there any physical damage? Description _________________________________________________________________________ __________________________________________________________________________________ 1. Unit is installed level as per the installation instructions. 2. Power supply agrees with the unit nameplate. 3. Correct control voltage ________vac. 4.
  • Page 133 Condenser Water System Check (30HXC Only) 1. All condenser water valves are open. 2. All piping is connected properly. 3. All air has been purged from the system. 4. Condenser water pump is operating with the correct rotation. 5. Condenser water pump controlled by chiller. 6.

  • Page 134: Condenser Pressure Drop

    III. Unit Start-Up (cont) 9. Verify condenser flow rate. Pressure entering condenser _______ psig (kpa) Pressure leaving condenser _______ psig (kpa) Condenser pressure drop _______ psig (kpa) Psig x 2.31 ft/psi = _______ ft of water Kpa x 0.334 m/psi = _______ m of water Condenser flow rate _______ gpm (l/s) (See Condenser Pressure Drop Curve)
  • Page 135 Record Software Versions MODE — RUN STATUS ITEM SUB-MODE ITEM DISPLAY EXPANSION VERS CESR131344-__ __-__ __ CESR131172-__ __-__ __ CESR131174-__ __-__ __ 100233-1R3-__ __-__ __ 100233-1R3-__ __-__ __ CESR131226-__ __-__ __ NAVI CESR131227-__ __-__ __ (Press simultaneously to obtain software versions) ENTER ESCAPE Record Configuration Information...
  • Page 136 Record Configuration Information (cont) MODE — CONFIGURATION (cont) SUB-MODE ITEM DISPLAY ITEM EXPANSION ENTRY OPT2 CTRL CONTROL METHOD CCNA CCN ADDRESS CCNB CCN BUS NUMBER BAUD CCN BAUD RATE LOAD LOADING SEQUENCE SELECT LLCS LEAD/LAG SEQUENCE SELECT CP.SQ COMPRESSOR SEQUENCE LCWT xx.x HIGH LCW ALERT LIMIT...
  • Page 137 Record Configuration Information MODE — CONFIGURATION (cont) SUB-MODE ITEM DISPLAY ITEM EXPANSION ENTRY SERV H.PGN xx.x HEAD PRESSURE P GAIN H.IGN xx.x HEAD PRESSURE I GAIN H.DGN xx.x HEAD PRESSURE D GAIN H.MIN xxx.x WATER VALVE MINIMUM POS MT.SP xxx.x MOTOR TEMP SETPOINT BR.FZ xxx.x...
  • Page 138 Component Test — Complete the following tests to make sure all peripheral components are operational before the compressors are started. MODE – SERVICE TEST To Enable Service Test Mode, move Enable/Off/Remote Contact Switch to OFF. Configure TEST to ON. Move Switch to ENABLE. SUB-MODE ITEM DISPLAY...
  • Page 139 ALL UNITS: Record the following information from the Pressures and Temperatures Modes when machine is in a stable operation condition. COOLER ENTERING FLUID ____________________ COOLER LEAVING FLUID ____________________ OUTSIDE AIR TEMPERATURE ____________________ SPACE TEMPERATURE ____________________ CONDENSER ENTERING FLUID ____________________ CONDENSER LEAVING FLUID ____________________ LEAD/LAG LEAVING FLUID ____________________...
  • Page 140 Copyright 2004 Carrier Corporation Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Book PC 903 Catalog No. 533-00052 Printed in U.S.A. Form 30G,H-9T Pg CL-10 3-04A 1-04 Replaces: New...

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Comfortlink 30gxnComfortlink r080Comfortlink r528Comfortlink 30hxaComfortlink hxc076Comfortlink hxc271

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