Carrier 30GN040-420 Example 9 Ð Using the Schedule Function, Keypad Display Comment Entry

Page 46

NOTE: This is true only if the occupied period starts at 00:00 (midnight). If the occupied period starts at a time other than midnight, then the occupied period must end at 00:00 hours (midnight) and new occupied period must be programmed to start at 00:00 in order for the chiller to stay in the occu- pied mode past midnight.

The time schedule can be overridden to keep unit in oc- cupied mode for one, 2, 3, or 4 hours on a one-time basis. See Example 9.

All subfunctions of schedule function are password

protected except the override subfunction, . Pass-

word entry into subfunctions through ,

is done through service function. See page 43, logging on/ logging off.

Figure 10 shows a schedule for an office building with the chiller operating on a single set point schedule. The sched- ule is based on building occupancy with a 3-hour off-peak cool-down period from midnight to 3 a.m. following the week- end shutdown. To learn how this sample schedule would be programmed, see Example 9.

NOTE: This schedule was designed to illustrate the pro- gramming of the schedule function and is not intended as a recommended schedule for chiller operation.

Example 9 Ð Using the Schedule Function

KEYPAD

DISPLAY

COMMENT

ENTRY

 

 

 

 

 

 

OVRD 0

No scheduled override

 

in effect

 

 

 

OVRD 3

3 hours override in effect

 

OVRD 0

Override cancelled

 

CLOCK 0

Schedule function is inactive

 

CLOCK 1

Schedule function is enabled

 

through local unit clock

 

 

 

 

 

PROGRAMMING PERIOD 1:

 

Example 9 Ð Using the Schedule Function (cont)

KEYPAD

DISPLAY

COMMENT

ENTRY

 

 

 

 

 

PROGRAMMING PERIOD 2:

 

 

 

 

 

 

PERIOD 2

De®ne schedule period 2

 

OCC 00.00

Start of occupied time

 

OCC 7.00

Occupied time will start

 

at 7:00 a.m.

 

 

 

 

Start of unoccupied time

 

UNO 00.00

(end of period). For this

 

example, period 2 should

 

 

end at 18:00 (6:00 p.m.)

 

UNO 18.00

Period 2 ends at 18:00

 

(6:00 p.m.)

 

 

Monday is now ¯agged no

 

MON NO

for period 2. To put period 2

 

into effect on Monday,

 

 

 

 

Monday must be ¯agged yes

 

MON YES

Monday is now ¯agged for

 

period 2 to be in effect

 

 

 

 

Tuesay is now ¯agged no

 

 

for period 2. To put period 2

 

TUE NO

into effect on Tuesday,

 

 

Tuesday must be ¯agged

 

 

yes

 

TUE YES

Tuesday is now ¯agged for

 

period 2 to be in effect

 

 

 

 

For this example, period 2

 

 

is to be in effect only on

 

 

Monday and Tuesday.

 

WED YES

All other days must be

 

checked to be sure that

 

 

 

 

they are ¯agged no. If

 

 

a day is ¯agged yes,

 

 

change to no

 

WED NO

Wednesday is now ¯agged

 

no for period 2

 

 

 

 

 

 

PERIOD 3

De®ne schedule

 

period 3

 

 

 

OCC 00.00

Start of occupied

 

time

 

OCC 7.00

Occupied time will start

 

at 7:00 a.m.

 

 

 

 

Start of unoccupied time

 

UNO 00.00

(end of period 3). For this

 

example, period 3 should

PERIOD 1

OCC 00.00

UNO 00.00

UNO 3.00

MON NO

MON YES

TUE YES

TUE NO

De®ne schedule period 1. Start of occupied time

For this example, ®rst period should start here (at midnight) so no entry is needed

Start of unoccupied time (end of period). For this example, period 1 should end at 3:00 a.m.

Period 1 ends at 3:00 a.m.

Monday is now ¯agged no for period 1. To put period 1 into effect on Monday, Monday must be ¯agged yes

Monday is now ¯agged for period 1 to be in effect

For this example, period 1 is to be in effect on Monday only. All other days must be checked to be sure that they are ¯agged no. If any day is ¯agged yes, change to no

Tuesday is now ¯agged no for period 1

 

end at 21:30 (9:30 p.m.)

UNO 21.30

Period 3 ends at 21:30

(9:30 p.m.)

 

Check to be sure that

MON NO

Monday and Tuesday are

 

¯agged no for period 3

TUE NO

 

WED NO

Wednesday is ¯agged

no, change to yes

 

WED YES

Wednesday is now

¯agged yes for period 3

 

THUR NO

Check to be sure that all

other days are ¯agged no

 

FRI NO

 

SAT NO

 

SUN NO

 

CCN Ð Carrier Comfort Network

46

Image 46
Contents Controls, Operation, Troubleshooting Unit Model Nominal Section a Section B Unit Sizes and Modular CombinationsTons Unit 30GN 30GN Control Panel 040-110 Unit Shown Keypad and Display Module Also Called Hsio LOCAL/ENABLE-STOP-CCN Switch Positions and OperationLOCAL/ENABLE StopThermistors Compressor Protection Control Module CpcsThermistor and Transducer Locations Pressure TransducersLoading Sequence a Loading Sequence B Unit Control Ð Capacity Control StepsSteps Ð Capacity Control Steps, 040-070 Ð Capacity Control Steps, 040-070 A1²**, B1² Displacement Compressors Approx 080, 230B 60 HzA1²,B1² A1²**,B1²090, 245B 60 Hz Compressors Displacement090, 245B 50 Hz 100, 255B 270B 60 HzUnit Control Loading Sequence a Loading Sequence B 270B 50 Hz315B 60 Hz 110, 290B315B 50 Hz A1*,A2,B1 A1,A2,B1 A1²²,A2,B1,B2 A1*,A2,B1,B2 130 60 Hz 130 50 Hz 150, 230A, 245AA1,kB1 170, 270A 330A/B 60 Hz330A/B,360B 50 Hz 330A/B, 360B 50 Hz A1,B1 Approx 190, 290A, 360A/B390B 60 Hz A1**,B1210, 315A, 390A 420A/B 60 Hz420A/B 50 Hz Head Pressure Control PumpoutCondenser Fan Sequence FAN Arrangement FAN Numbers FAN Contactor Controlled byFunction USE Keys Keypad and Display Module UsageFunctions and Subfunctions Operative USE KeysAccessing Functions and Subfunctions Keypad DirectorySubfunction Keypad Entry Display Comment Stage TemperatureKeypad Directory Status SET PointInputs Subfunction Keypad Entry Display Comment PressureAnalog OutputsSubfunction Keypad Entry Display Comment Compressors Subfunction Keypad Entry Display CommentSubfunction Keypad Entry Display Comment Outputs Unloaders CPA1Keypad Directory Test Keypad Directory Schedule Service Keypad Directory ServiceConfiguration Subfunction Keypad Entry Display Comment FactoryStarts ALARM/ALERTSubfunction Keypad Entry Display Comment RUN Time HISTORY²²Demand SET Points Reset SET PointsSubfunction Keypad Entry Display Comment SET Points Date and TimeExample 2 Ð Reading Current Operating Modes Example 1 Ð Reading Alarm CodesKeypad Display Comments Entry Response Operational and Mode Display Codes Example 3 Ð Using Test Function Reset Set PointsExample 4 Ð Reading and Changing Chilled Fluid Set Point Example 5A Ð External ResetReset Amounts Measurement Method Input Data DescriptionExample 5C Ð Using Return Fluid Temperature Reset Keypad Display Comments Entry ResponseComm Ð Communications Bus PowerSwitch PWRSUB Keypad Display Comment Service FunctionsPassword LoggedonTo Disable Demand Limit Example 8 Ð Setting Time of Day Day of Week4-20 mA Demand Limiting Adjustable Field Congurations Factory Conguration KeystrokesProgramming Period Example 9 Ð Using the Schedule FunctionKeypad Display Comment Entry Keypad Display Comment Entry Programming PeriodExample 10 Ð Holiday Schedule Function Enter DisplayTypical Stoppage Faults and Reset Types Stop position. Unit cannot start if these contacts areAlarm and Alert Codes LOCAL/ENABLE-STOP-CCNFSM CpcsWSM Dsio COM, CommDGT HPSComm CGF Subfunction. Groups Electronic Expansion Valve EXV EXV Cable Connections to EXV Driver Module, Dsio EXV Thermistor Replacement T1, T2, T7, T8 Temperature Voltage Resistance Drop Ohms Temperature Voltage Resistance Drop Thermistor and Pressure Transducer Locations Thermistor Locations Circuits a and B, Lead Compressor Only Lead Compressor Transducer and Thermistor Locations Module Address Selector Switch Locations Control ModulesAccessory Unloader Installation Installation 4 In/4 Out Module SIOTroubleshooting Standard and Accessory UnloadersPage Hgbpr Ð Or HGBPR-A²Or HGBPR-B COMCWP Ð Chilled Water Fluid Pump Externally PoweredOutdoor-Air Temperature TB Ð Terminal BlockRemote Alarm InterlocksPage Copyright 1995 Carrier Corporation

30GN040-420 specifications

The Carrier 30GN040-420 is a well-regarded model within the industry of chillers, designed to deliver efficient cooling solutions for a variety of commercial applications. Its compact design and advanced technology make it an ideal choice for businesses looking to optimize their HVAC systems.

One of the standout features of the Carrier 30GN series is its flexibility. This chiller model is available in a range of capacities, specifically from 40 to 420 tons, allowing for customized solutions based on specific cooling demands. Such versatility enables this unit to cater to a broad array of installations, from small commercial spaces to larger industrial facilities.

The Carrier 30GN040-420 utilizes a scroll compressor design, known for its reliability and efficiency. The scroll technology allows for a reduction in the number of moving parts, resulting in lower maintenance costs and increased durability. Additionally, the unit operates with environmentally friendly refrigerants such as R-410A, promoting sustainability without compromising performance.

Energy efficiency is another significant aspect of this model. The 30GN series is designed to provide high energy efficiency ratios (EER), which translates to lower operational costs for users over the lifespan of the unit. This is particularly beneficial in an era where energy costs are consistently rising.

The advanced controls found within the Carrier 30GN040-420 further enhance its performance and ease of use. The unit is equipped with a microprocessor-based control system that allows for precise temperature management while providing valuable diagnostic information. This feature not only improves the overall reliability of the system but also facilitates proactive maintenance, reducing the risk of unscheduled downtime.

Moreover, the design of the Carrier 30GN040-420 emphasizes quiet operation, making it suitable for environments where noise levels must be minimized. This characteristic is critical for applications in hospitals, schools, or office buildings, where a peaceful atmosphere is essential.

In summary, the Carrier 30GN040-420 chiller provides a robust solution for businesses requiring dependable and efficient cooling. Its features, including flexible capacity options, reliable scroll compressors, energy-efficient performance, advanced controls, and quiet operation, position it as a top choice for various commercial and industrial applications. As technology continues to evolve, models such as the 30GN series remain at the forefront, meeting the demands of modern HVAC needs while ensuring sustainability and efficiency.