Carrier 50XJ064-104 specifications When the unit is off, both valves are closed

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Dependencies — Water Economizer option is enabled, and Fan is On, and Inlet Water Temperature is below set point; or from “Remote Scheduler,” or from “Remote Linkage.”

Economizer mode is switched to Off or no start if: there is no condenser waterflow, Fire Input is On, Fan is not On, or Un- occupied mode is On.

Variable Waterflow Systems — Whenever water economizer is off, the economizer flow control valve is fully closed, and the reverse flow valve directly to the condenser is fully open. Upon engagement of the water economizer, the economizer flow con- trol valve shall be controlled to maintain the MA_RA located between the economizer coil and the DX cooling coil, at a tem- perature near the supply air set point. The the reverse flow valve will be controlled in reverse of the economizer flow control valve’s position. The following formula is an example: Reverse/ Head Press Ctrl output = 100 – two-position/Econo output.

When the unit is off, both valves are closed.

Constant Waterflow Systems — Control of the economizer flow control valve is same as for variable waterflow systems. Control of the reverse flow control valve position will inversely track the economizer flow control valve, such that the total sum of the two valves open positions always equals 100%. The only difference between the variable waterflow system and the constant waterflow system is that for the constant flow system when the unit is off, the economizer valve will be closed and the reverse flow control valve will be open.

WATER ECONOMIZER COIL (50BV) — For the 50BV unit, this factory-installed option contains a water-to-air coil, a two-position diverting valve, and related piping. The water econ- omizer is controlled by an Aquastat and a return-air thermostat.

HEATING COILS AND VALVE (50XJ PCB2) — Water or steam heating options are factory installed. Each includes a motorized, variable control water or steam flow control valve, which can be factory supplied for field installation outside the unit. Installed in the water or steam inlet pipe, this valve is wired to the unit main controller and operates on a 4 to 20 mA signal. A Heating mode PID control is needed to control the valve position (i.e., coil heating capacity) variably between 10 and 100%. The PID will control a set point to + 1° F; for VAV Units this set point is at the Supply Air Temperature Sensor, or as communicated from a remote thermostat.

HEAD PRESSURE CONTROL (50XJ PCB2) — Head Pres- sure Control is required for unit installations that will experience entering condenser water temperatures of 55 F or lower.

NOTE: Head Pressure Control is not needed or used in conjunction with a Water Economizer. A refrigerant pres- sure transducer will monitor head pressure on compressor circuit 1, allowing the unit main controller to regulate water flow rate in the main water line entering the unit; i.e., flow to all condensers. (Water header design to the condensers will be optimized such as to provide relative flow rates to each condenser based on its compressor capacity, enabling successful waterflow control at the main entering pipe.) There are two possible water valving configurations, as outlined below.

Pressure transducer input is factory installed in the discharge line of compressor circuit 1. It is provided 5 vdc by the unit main controller and returns a signal 1 to 5 vdc linearly. The sensor’s range is 0 to 550 psig.

Water Valve(s) Control

Variable Building Waterflow Systems — Variable waterflow configurations use only one water valve in the main water supply pipe. The factory installed valve is a normally open motorized variable control type. The valve is controlled by a 4 to 20 mA signal from the main unit controller using the Reverse/Head Press Ctrl output, which modulates to maintain the head pressure set point (Setpoint 04).

Constant Building Waterflow Systems — Constant waterflow configurations use two (2) water valves, only one of which is in the main water supply pipe. The second valve is located in a bypass pipe to the main outlet water pipe branched off of the supply pipe immediately ahead of the first valve. This valve is same type, but normally closed and is controlled in unison with the first valve, but opposite position, such that the total opening of the 2 valves always equals 100%.

VFD BYPASS (50XJ PCB2) — The VFD Bypass option provides backup for the VFD Drive in VAV units. It uses a manually operated rotary switch, which includes a series of high voltage contacts. The bypass is a direct input to the unit controller, and will be activated via a switch on the unit front panel. When manually activated, the rotary switch takes the VFD out of the fan power circuit and provides the 3-phase power directly to the fan motor, running it at constant speed. A low voltage control circuit ensures that the unit controller pro- vides a signal to allow all VAV dampers to open fully before the fan is turned on (at constant/full speed). A blue indicator light located on the front of the unit indicates that the VFD By- pass is active. A High Duct Static Switch (HDS) shuts the fan down if duct static exceeds a maximum setting.

VENTILATION OUTPUT (50XJ PCB2) — The ventilation output is controller output signal (available for field connection) to a field-supplied ventilation damper(s). This signal is activated whenever the unit is in the occupied mode.

SPACE TEMPERATURE SENSOR (50XJ PCB2) — A field- supplied Carrier space temperature sensor is required to maintain space temperature in sensor mode.

SUPPLY AIR RESET (50XJ PCB2) — Supply air temperature set point may be reset using either the SPT or MA_RA.

SUPPLY AIR RESET (50BV) — Reset is provided by a field-installed temperature sensor.

EXHAUST FAN CONTROL OUTPUT (50XJ PCB2) — This output is activated whenever the unit is in the Occupied mode. This is a modulating output that controls based on the Building Pressure Input set point.

CONDENSER WATER PUMP/WATER TOWER (50XJ PCB2) — This output (provided for field connection) is used to control condenser water flow. Either an On/Off signal or a variable output may be required for this feature.

PHASE LOSS/REVERSAL PROTECTION SWITCH (50XJ PCB2) — This switch monitors VFD/Fan Motor sup- ply leads to detect phase loss or reversal. If the switch detects improper phasing, an input is sent to the unit controller, which shuts the unit down. After a time delay, the controller attempts to restart the unit.

A phase loss/reversal switch may be installed in the unit to detect over/under voltage conditions and phase loss or reversal. When the switch opens, the controller outputs are forced to off with Safety forces, the alarm output will close and the red alarm light will be lit. A system alarm will be generated and displayed on the unit keypad. Unit reset is automatic when the voltage and power phases have been restored.

FREEZE THERMOSTAT (FREEZSTAT) (50XJ PCB2) — The Economizer Freezestat, used in conjunction with an optional water economizer coil or heating coil, is a factory installed averaging (capillary tube) air temperature sensor positioned in the unit inlet airstream.

If the freeze protection switch contacts open the ventilation request output will be closed for 15 minutes and the warning light will light. If the freeze protection switch contacts are still open after 15 minutes the supply fan will be stopped, all compressor cooling will stop, the economizer valve will open to 100%, the pump request output will remain on, and the alarm light will light. This will maintain condenser water flow through the coil to prevent freezing the coil while stopping all other operations that could have contributed or will be affected

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Contents Controls Operation Troubleshooting Page SW2 SW3 SW1 Control Inputs and OutputsManufacturer Part Number Communication Cable RecommendationsWhen the unit is off, both valves are closed Field Terminal Blocks for 50XJ Unit Space Temperature Sensor Typical Wiring 33ZCT55SPT Operative Keys LID Function KeysNumeric Keys Operative USE KeysOmnizone Vpac KEY Algo Stat Hist Srvc Alrm SET Quick Access ChartOmnizone Page SETPT01 OMNIZONESETPT02 Controller Set PointsSoftware Points Configuration ParametersController Hardware Points Operation Page Page RUN VFD Non-Trip Messages for 50XJ Unit Keys and Functions for 50XJ VFDVFD Trip Messages for 50XJ Unit Down VFD Mode Summary for 50XJ UnitKEY Operaton LED Message Explanation 50BV VFD Display Trip Messages for 50BV VFD Non-Trip Messages for the 50BV VFDOL2 OL1Epho EPH1Error Communication Problem Possible Causes Remedies Code Clearing a Forced Input or Output Run Test TroubleshootingForcing an Input or Output Alarms Displayed at Unit LID Comp Volts Range Compressor MUX Board VoltagesUnit Wiring 50BVJ,K Low Voltage Schematic50BVJ,K High Voltage Schematic TRANS-3 24VAC BLU 50BVW,X Low Voltage Schematic50BVW,X High Voltage Schematic PCB2 J1 50BVJ,K,W,X Field-Installed Low Voltage Schematic3 4 5 6 7 50BVJ,K Field-Installed Low Voltage SchemticField Wiring 50BVW,X Field-installed Low Voltage SchematicAqua RoccSPT BpssLOW Voltage Control Wiring 50XJ Low Voltage Control WiringBLK VIO Switch Settings 50XJ 115V Control WiringPower Wiring 50XJ Power WiringPCB3 50BV,XJ Accessory Control Module PCB3 SchematicCdwfs HeatHRN IFMDescription Value Units Status Force Name Rsetrto NumcmpCdwf 0=NO,1=YES Cdfwswt Econ 0=NO,1=YES Ewtsns EwtrstDescription Value Units Name SETPT09 PntnameSENSDI00 SETPT00High Conversion Endpoint 309.77 Comparison Point OMNIZONEDSALM02 Phase Protection Monitored Input Point OMNIZONEDSALM05 Fire alarm Monitored Input Point OMNIZONEDSALM08 Compressor 1 Alarm Monitored Input Point DISCRO00 LINK09 OMNIZONEINTLK02 Ok to Cool Discrete Output Point SETPT03 VOLTI00NTFC00 HCVAV01OMNIZONELMALM02 Entering WaterTemp Monitored Input Point DOW2 DOW1DOW3 DOW4Maintenance Screens Ccvvrf FalseADAPT03 LMALM03ADAPT01 ADAPT02Eeprom RAMDodxrf Description Value Units Status Force Name CCVAV01 ANCTL01Resched Taskstat LMALM02Tasktimr Exetime

50XJ064-104 specifications

The Carrier 50XJ064-104 is a high-efficiency rooftop air conditioning system designed to deliver exceptional cooling and heating capabilities for diverse commercial applications. One of the standout features of this model is its robust cooling capacity of 64,000 BTUs, making it suitable for mid to large-sized spaces. The 50XJ064-104 is engineered using advanced technologies to ensure energy efficiency and reliable performance, contributing to reduced operational costs and environmental sustainability.

One of the primary technologies employed in the Carrier 50XJ064-104 is the high-efficiency scroll compressor. This component plays a pivotal role in optimizing energy usage while delivering consistent cooling output. The system also incorporates an economizer that allows for enhanced energy savings by utilizing outdoor air for cooling when conditions are favorable. This not only decreases reliance on the compressor but also improves indoor air quality.

The microprocessor-based controls in the 50XJ064-104 provide precise temperature regulation, ensuring optimal comfort levels in various applications. These controls allow for easy programming and can be integrated into building management systems for centralized oversight. Additionally, the unit features a built-in fault detection and diagnostic system that aids in identifying potential issues before they escalate, minimizing downtime and maintenance costs.

The Carrier 50XJ064-104 is designed with durability in mind. It features a weather-resistant cabinet, designed to withstand harsh outdoor conditions and prolong service life. The high-quality insulation within the unit not only enhances energy efficiency but also minimizes noise levels, making it an ideal choice for urban environments where sound control is critical.

Another important characteristic is its environmentally friendly R-410A refrigerant, which has a lower impact on ozone depletion compared to older refrigerants. This aligns with Carrier's commitment to creating sustainable HVAC solutions that comply with current environmental regulations.

Overall, the Carrier 50XJ064-104 stands out for its combination of efficiency, advanced technologies, and durable construction. Whether for commercial buildings, retail spaces, or industrial applications, this rooftop air conditioning unit is designed to provide reliable performance and comfort year-round.