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.

IMPORTANT: Return to Normal mode and observe com- pressor operation to verify that compressor current sensor is working and condenser fans are energized.

COMPRESSOR STUCK ON FAILURE ALARMS

Circuit A A051, A052

Circuit B A055, A056 — Alarm codes 051, 052, 055, and 056 are for compressors A1, A2, B1, and B2. These alarms oc- cur when the CSB detects current when the compressor should be off. When this occurs, the control turns off the compressor.

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 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:

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-A056:

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.

A060 (Cooler Leaving Fluid Thermistor Failure) — The 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.

T068, T69 (Circuit A,B Compressor Return Gas Tempera- ture Thermistor Failure) — This alert occurs when the com- pressor return gas temperature sensor is outside the range of –40 to 240 F (–40 to 116 C). Failure of this thermistor will shut down the appropriate circuit.

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.

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.

T090 (Circuit A Discharge Pressure Transducer Failure)

T091 (Circuit B Discharge Pressure Transducer Failure) — Alert codes 090 and 091 are for circuits A and B respectively. These alerts occur when the pressure is outside the range of 0.0 to 667.0 psig. A circuit cannot run when this alert is active. Use the scrolling marquee to reset the alert. The cause of the alert is usually a faulty transducer, faulty 5-v power supply, or a loose connection.

T092 (Circuit A Suction Pressure Transducer Failure)

T093 (Circuit B Suction Pressure Transducer Failure)

Alert codes 092 and 093 are for circuits A and B respectively. These alerts occur when the pressure is outside the range of 0.0 to 420.0 psig. A circuit cannot run when this alert is active. Use the scrolling marquee to reset the alert. The cause of the alert is usually a faulty transducer, faulty 5-v power supply, or a loose connection.

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 shutoff. 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.

T110 (Circuit A Loss of Charge)

T111 (Circuit B Loss of Charge) — Alert codes 110 and 111 are for circuits A and B respectively. These alerts occur when the compressor is OFF and the discharge pressure is less than 26 psig.

T112 (Circuit A High Saturated Suction Temperature)

T113 (Circuit B High Saturated Suction Temperature) — Alert codes 112 and 113 occur when compressors in a circuit have been running for at least 5 minutes and the circuit saturat- ed suction temperature is greater than 70 F (21.1 C). The high saturated suction alert is generated and the circuit is shut down.

T114 (Circuit A Low Superheat)

T115 (Circuit B Low Superheat) — Alert codes 114 and 115 occur when the superheat of a circuit is less than 5 F (2.8 C) for 5 continuous minutes. The low superheat alert is generated and the circuit is shut down.

T116 (Circuit A Low Cooler Suction Temperature)

T117 (Circuit B Low Cooler Suction Temperature) — Alert codes 116 and 117 are for circuits A and B respectively. These alerts are generated if the capacity stages are reduced three times without a 30 minute interval between capacity reductions due to operating mode 7 or mode 8.

T118 (High Discharge Gas Temperature Alert)

A118 (High Discharge Gas Temperature Alarm) — This alert or alarm occurs for units which have the digital compres- sor installed on circuit A. If discharge gas temperature is great- er than 268 F (131.1 C), the circuit will be shut off. The alert will reset itself when discharge temperature is less than 250 F (121.1 C). If this alert occurs 3 times within a day, the A118 alarm will be generated and the alarm must be reset manually. The cause of the alert is usually low refrigerant charge or a faulty thermistor.

T126 (Circuit A High Head Pressure)

T127 (Circuit B High Head Pressure) — Alert codes 126 and 127 are for circuits A and B respectively. These alerts occur when the appropriate saturated condensing temperature is greater than the operating envelope shown in Fig 14. Prior to the alert, the control will shut down one compressor on a circuit if that circuit's saturated condensing temperature is greater than the maximum SCT minus 5° F (2.7° C). If SCT continues to

72

Page 71 Page 73
Page 72
Image 72
Carrier 30RAP010-060 specifications Compressor Stuck on Failure Alarms
Page 71 Page 73

30RAP010-060 specifications

The Carrier 30RAP010-060 is a series of rooftop air conditioning units designed for effective climate control in commercial applications. Engineered with advanced technologies, these units are known for their reliability, energy efficiency, and ease of installation, making them a suitable choice for a range of settings including offices, retail spaces, and industrial facilities.

One of the standout features of the 30RAP series is its robust construction. Designed to withstand various environmental conditions, these units come equipped with a weather-resistant cabinet and a corrosion-resistant finish. This durability ensures long-term performance and reduced maintenance costs.

Energy efficiency is a significant characteristic of the Carrier 30RAP series. These units utilize advanced technologies such as a high-efficiency compressor and variable speed fans. The inclusion of economizers also contributes to energy savings by allowing the system to take advantage of outdoor air when the conditions are favorable. With high SEER (Seasonal Energy Efficiency Ratio) ratings, the 30RAP units help businesses reduce operating costs while minimizing their environmental footprint.

The 30RAP series is equipped with smart control systems that provide enhanced operational efficiency and comfort. With features such as programmable thermostats and remote access capabilities, building managers can easily monitor and adjust the system to maintain optimal indoor climate conditions. Additionally, the units are compatible with building automation systems, allowing for seamless integration into a larger HVAC network.

The installation process of the Carrier 30RAP010-060 is streamlined thanks to a compact design and lightweight construction, which simplifies the transportation and placement on rooftops. Moreover, the unit's modular components facilitate easy access for maintenance and repairs, minimizing downtime and improving overall reliability.

In summary, the Carrier 30RAP010-060 series stands out for its combination of durability, energy efficiency, and advanced control technologies. It is an ideal solution for businesses seeking reliable climate control systems that balance performance with cost-effectiveness. Whether for new installations or replacements, these rooftop units provide the necessary flexibility and efficiency needed in today’s commercial environments. With strong backing from Carrier, a leader in HVAC technology, the 30RAP series ensures lasting comfort and operational efficiency.
Top Page Image Contents