Carrier 48/50PD05 manual Cool Supply Air Set Point

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48/50PD

variable or Unoccupied Cool Set Point (SetpointsUCSP) plus

the Fan Speed Control Demand (ConfigurationCOOLFS.CD) configuration variable the indoor fan will run at 100%. When the temperature in the conditioned space is between the Occupied Cool Set Point (SetpointsOCSP) and Occupied Cool Set Point

(SetpointsOCSP) plus the Fan Speed Control Demand (ConfigurationCOOLFS.CD) configuration variable the indoor fan modulates to satisfy the Occupied Cool Set Point (SetpointsOCSP) or Unoccupied Cool Set Point

(SetpointsUCSP). When the temperature in the conditioned space falls to 0.5F below the Occupied Cool Set Point (SetpointsOCSP) or Unoccupied Cool Set Point

(SetpointsUCSP) for 5 minutes the controls will run unit in ventilation mode. See ventilation mode sequence of operation.

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Fig. 6 - Cooling Speed Demand Window

Cooling Supply Air Set Point Reset

The PD unit can be configured to allow for reset of the Cool Supply Air Set Point (SetpointSASP). This is needed for applications where a high Cool Supply Air Set Point (SetpointSASP) is required or where dramatic load changes occur over short time periods. In these situations a high supply air temperature may not provide enough cooling to reduce the Space Temperature (TemperaturesAIR.TSPT) to the Occupied Cool Set Point (SetpointsOCSP) or the Unoccupied Cool Set Point (SetpointsUCSP) over a reasonable time period.

The compressor or economizer operation supplying cooling to the conditioned space controls to the Supply Air Control Point (Run StatusCOOLSA.CP). The Supply Air Control Point (Run StatusCOOLSA.CP) which is a calculated value that is equal to the Cool Supply Air Set Point (SetpointSASP) plus the calculated amount of reset required up to the values set by configuration variables SASP Maximum Reset Down (ConfigurationCOOLSATSA.MD) and SASP Maximum Reset Up (ConfigurationCOOLSATSA.MU).

Reset of the Cool Supply Air Set Point (SetpointSASP) is limited by the configuration variables SASP Maximum Reset Down (ConfigurationCOOLSATSA.MD) and SASP Maximum Reset Up (ConfigurationCOOLSATSA.MU).

The SASP Maximum Reset Down (ConfigurationCOOLSATSA.MD) configuration variable can be set from -20 to 0 F and will allow the Cool Supply Air Set Point (SetpointSASP) to be reset to as much as 20 F below the Cool Supply Air Set Point (SetpointSASP). The SASP Maximum Reset Up (ConfigurationCOOL?SATSA.MU) configuration variable can be set from 0 to 20 F and will allow the Supply Air Temperature to be Reset to as much as 20 F above the Cool Supply Air Set Point (SetpointSASP). The SASP Maximum Reset Down (ConfigurationCOOLSATSA.MD)

and SASP Maximum Reset Up (ConfigurationCOOLSATSA.MU) configuration variables can be set independently and do not need to be equal values above and below the Cool Supply Air Set Point (SetpointSASP). For

example, the SASP Maximum Reset Down (ConfigurationCOOLSAT?SA.MD) configuration variable

can be set to -10 and the SASP Maximum Reset Up (ConfigurationCOOLSATSA.MU) configuration variable can be set to 0 giving the range of Cool Supply Air Set Point (SetpointSASP) reset of +0 and -10 F.

In normal operation when the Space Temperature is within the speed demand window the unit control will modulate the indoor fan speed and supply air temperature along a defined curve to bring the Space Temperature to Occupied or Unoccupied Cool Set Point. Since this curve is independent of the conditioned space load the control scheme will adapt to any load present in the conditioned space by adjusting the fan speed and supply air temperature and move the space temperature along the defined time temperature curve to Occupied or Unoccupied Cool Set Point.

When the space temperature rises above the Occupied Cool Set Point (SetpointsOCSP) + Fan Speed Control Demand (ConfigurationCOOLFS.CD) for over 2 minutes or is outside the speed demand window and there is some amount of SASP Maximum Reset Down (ConfigurationCOOL?SATSA.MD) configured the indoor fan will be locked at 100% and the unit controls will subtract a calculated amount of temperature reset to the Cool Supply Air Set Point (SetpointSASP). The indoor fan speed will be locked at 100% as long as reset is applied. The Supply Air Temperature will now adjust to this new Supply Air Control Point (Run StatusCOOLSA.CP). The controls will continue to subtract a calculated amount of temperature reset cumulatively to a value equal to the Supply Air Temperature Set Point (SetpointSASP) + SASP Maximum Reset Down (ConfigurationCOOLSATSA.MD). When the reset is no longer needed the control will remove Down Reset until all reset is removed and the Supply Air Control Point (Run StatusCOOLSA.CP) is back to the original Supply Air Set Point (SetpointSASP). The indoor fan will then modulate lower than 100% to move the Space Temperature (TemperaturesSPT) along the defined time temperature curve to Cool Supply Air Set Point (SetpointSASP) or Unoccupied Cool Set Point (SetpointsUCSP). See Fig. 6 and 7.

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Fig. 7 - Cool Supply Air Set Point

Cooling Mode with Economizer Using Space Temperature Sensor T55, T56, T58 or T59

If an economizer is installed, the Economizer Installed configuration (ConfigurationECONEC.EN) should be set to YES. The economizer is controlled by the Econo Commanded Position (OutputsECONEC.CP) on the Economizer Control Board. If the indoor fan is off or the building is unoccupied, the economizer position is zero.

When the space temperature is above the Occupied Cool Set Point (SetpointsOCSP) and the economizer is installed, configured and working correctly the unit controls will always try to meet space cooling demand using the economizer before turning on the compressor. The economizer will provide free cooling when the following outside air conditions are true.

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Contents Table of Contents Safety Considerations What to do if you smell gasGeneral Basic Control UsageScrolling Marquee Mode and Menu Display Structure System Pilott and Touch Pilot DevicesCCN Tables and Display START-UP Evaporator Fan Power SupplyInternal Wiring Condenser Fans and MotorsControls Quick SET-UP Accessories CCN CommunicationFilter Status Setting an Occupied Time Schedule Weekdays Only for 730 toFan Status TimeclockIndependent Outputs Service TestProgramming Operating Schedules Fan TestThird Party Control Controls OperationUnit Configuration ModesGeneral Operating Sequence Occupancy DeterminationCompressor Operation Indoor Fan OperationOutdoor Fan Operation Economizer OperationUnoccupied Free Cooling Indoor Air Quality IAQ Cooling Modes Cool Supply Air Set Point For units with Enthalpy Control Ventilation ModeFor all units with Economizers Demand Control VentilationHeating Modes Supply-Air Temperature Sensor SAT Gas Heat Start-UpTemp Comp Strt Cool Factr TCS.C Temperature Compensated StartSetting Up the System Temp Comp Strt Heat Factr TCS.HCarrier Comfort Network Ccnr Configuration Demand LimitRestart Procedure TroubleshootingAlarm Handling Complete Unit StoppageAlarms and Alerts Communication FailuresAlert Code T075 Supply Air Temperature Thermistor Failure Alert Code T073 Outdoor Air Temperature Thermistor FailureAlert Code T074 Space Temperature Thermistor Failure Alarm Code A154 Serial Eeprom Hardware FailureAlarm Code A200 Linkage Timeout Comm Failure Alarm Code T155 Serial Eeprom Storage Failure ErrorAlarm Code A156 Critical Serial Eeprom Storage Fail Error Alarm Code A404 Fire ShutdownAlert Code T415 IAQ Input Out of Range Alert Code T416 OAQ Input Out of RangeComfortLink Alarm Codes Cooling Troubleshooting Digital Scroll Controller DSC Troubleshooting Cooling Service AnalysisFlash Code 4 ⎯ Locked Rotor DSC Red LED Flash CodesEconomizer Troubleshooting Economizer Service AnalysisHeating Troubleshooting Variable Frequency Drive VFD TroubleshootingPhase Loss Protection IGC Service Analysis Logic LED IGC Board LED Alarm CodesElectric Heat Service Analysis FlashRefrigerant Temperatures Thermistor TroubleshootingAir Temperatures Thermistor/Temperature Sensor CheckTransducer Troubleshooting Forcing Inputs and OutputsSensor Trim Temp Voltage Resistance Drop Temp Voltage Resistance Temp F Drop Degree C Degree F Pressure Voltage Major System ComponentsGeneral Psig48PD Control Wiring Schematic 50PD Control Wiring Schematic 48/50PD Power Wiring Schematic and Legend Typical Unit Component Arrangement Setting Main Base Board MBBMBB Connections FIL.SCenter of the board. Do not change this setting Economizer Control Board ECBECB Connections RM.OCModulation Board AUX1 CommunicationDigital Scroll Control Board DSC CMP.AVariable Frequency Drive VFD Variable Frequency Drive VFDIntegrated Gas Control IGC Board Integrated Gas Control IGC BoardLow Voltage Terminal Strip TB1Scrolling Marquee Display Accessory Navigatort DisplayField-Installed Accessories Carrier Comfort Network Ccnr InterfaceSpace Temperature Sensor T-58 Space Temperature Sensor AveragingSpace Temperature Sensor Averaging Service Periodic Clean Water Rinse CleaningCoil Maintenance and Cleaning Recommendation Routine Cleaning of Round-Tube Coil SurfacesOutdoor-Air Inlet Screens Condensate Drain PanFilters Main Burner 48PDEvaporator Fan Service and Replacement Evaporator Fan Performance AdjustmentLubrication Evaporator Fan Belt Tension Adjustment Variable Frequency Drive VFD ReplacementCondenser-Fan Adjustment Evacuation Economizer Operation During Power FailureVerify Sensor Performance Refrigerant ChargeAltitude Compensation 48PG03-07 Gas Valve AdjustmentPuronR Refrigerant Elevation Natural GAS PropaneFilter Drier High AltitudeMain Burners Protective DevicesRelief Devices Replacement PartsDiagnostic LEDs Compressor Sound ShieldMode RUN Status Appendix a Local Display and CCN TablesOnly StrtAlrmdisp = CCN Generic = CCNMode Service Test Mode TemperaturesMode Pressures Mode SET Points Mode InputsMode Outputs OutputsMode Configuration MRT.H HT.TYHTR MOT.HII.CF IA.CFIA.FN II.FNSPT.T TrimSPT.C SAT.CMode Time Clock CCN only TablesMode Operating Modes EN.LO OK.HTACT.H AQ.DVExpansion Range Units Mode AlarmsExpansion Range Default CCN CCN Point CCN Write TABLE/SUB---TABLE StatusAppendix B VFD Information VFD Terminal DesignationsVFD Configurations VFD Modes Standard Display ModeVFD Operation Start Up with AssistantChanged Parameters Mode Parameters ModeStart-Up Assistant Mode Drive Parameter Backup ModeVFD Diagnostics History VFD MaintenanceCorrecting Alarms Heat SinkFault Codes 101---105201---206 1002 10001001 1003Alarm Codes Maintenance IntervalsMaintenance Interval Main Fan Replacement Control Panel CleaningBattery Replacement Fan Performance 48PDE05 Vertical Units Appendix C START-UP DataFan Performance 48PDD05 Vertical Units AirflowFan Performance 48PDD06 Vertical Units Available External Static Pressure in. wg Fan Performance 48PDE06 Vertical UnitsRpm Bhp 1500 CFMFan Performance 48PDD05 Horizontal Units Fan Performance 48PDE05 Horizontal UnitsBhp Rpm Fan Performance 48PDD06 Horizontal Units 1026 1086 1144 1199 1253Fan Performance 48PDE06 Horizontal Units Fan Performance 50PD05 Vertical Units Fan Performance 50PD06 Vertical UnitsFan Performance 50PD05 Horizontal Units Bhp Rpm 1500General Notes for FAN Performance Data Tables Appendix D Additional START-UP Data Control SET Point and Configuration LOG Indicate Unit Settings belowCCN Point Entry 103 104 Unit START-UP Checklist PRE-START-UP106

48/50PD05 specifications

The Carrier 48/50PD05 is a remarkable addition to Carrier's lineup of rooftop units, offering advanced cooling and heating solutions for commercial applications. Designed for medium-sized buildings, this unit is well-suited for both new installations and as a replacement for older systems, thanks to its versatile features and efficient performance.

One of the standout features of the 48/50PD05 is its energy efficiency. It incorporates state-of-the-art technology to achieve high Seasonal Energy Efficiency Ratios (SEER) and EER ratings, reducing operational costs while delivering superior comfort. The unit is also compliant with the latest energy regulations, making it an environmentally friendly choice for building owners concerned about sustainability.

The 48/50PD05 is equipped with a highly efficient scroll compressor, which not only enhances performance but also contributes to quiet operation. This is a significant advantage in commercial spaces where noise levels need to be kept in check for comfort and productivity. Additionally, the unit includes advanced airflow design, ensuring even distribution of conditioned air throughout the space.

Technologically, the Carrier 48/50PD05 features Carrier's Infinity Control system, which allows for precise control of indoor climate. This intelligent control mechanism can be integrated with smart building management systems, enabling users to monitor and manage energy use effectively. Wi-Fi connectivity is also available, providing remote access for real-time adjustments and diagnostics.

Durability is another characteristic of the 48/50PD05. Constructed with high-quality materials, the unit withstands various environmental conditions, ensuring longevity and reliability. Moreover, the modular design facilitates easy maintenance, making service procedures efficient and cost-effective.

In addition to cooling, the Carrier 48/50PD05 offers heating capabilities, often utilizing gas or electric heating options that can be tailored to the specific needs of a building. The unit can also be equipped with integrated economizers, allowing for free cooling during suitable outdoor conditions, further enhancing energy savings.

Overall, the Carrier 48/50PD05 stands out as a high-performance HVAC solution that combines efficiency, technology, and durability. It provides building owners with a versatile tool to ensure comfort while minimizing their environmental footprint. With a strong emphasis on energy savings and advanced control features, this rooftop unit is a smart investment for any commercial property.
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