York E1FB240, E1FB180 installation manual 80 F 30070 F 60 F

Page 17

035-16192-001-A-1001

Discharge Pressure (psig)

400

IDDB

 

350

80 °F

30070 °F

60 °F

250

200

150

100

50

30

40

50

60

70

80

90

Suction Pressure (psig)

FIG. 11 - HEATING MODE CHARGING CHART AT 6600 CFM - EFB180A

Discharge Pressure (psig)

 

 

 

 

 

 

IDDB

400

 

 

 

 

 

 

350

 

 

 

 

 

80 °F

 

 

 

 

 

 

70 °F

300

 

 

 

 

 

60 °F

250

 

 

 

 

 

 

200

 

 

 

 

 

 

150

 

 

 

 

 

 

100

 

 

 

 

 

 

50

 

 

 

 

 

 

30

40

50

60

70

80

90

Suction Pressure (psig)

FIG. 12 - HEATING MODE CHARGING CHART AT 6400 CFM - EFB240A

Unitary Products Group

17

Image 17
Contents General Installation InstructionReference InspectionTable of Contents Limitations InstallationLocation Rigging and HandlingCompressor Crankcase Heater Power and Control WiringClearances Wire in Accordance with Local and National Electrical Codes Typical Field WiringOverhead Top1 035-16192-001-A-1001 Unit Dim.Connection Connection Size Entry 15 Ton Installation Service ValvesSuction Lines 1,2 Refrigerant PipingRefrigerant Line Charge Liquid LinesEvacuating and Charging Extending the Service PortsBalance Point Setting Alternate Charging Methods Extending the Service PortsSystem Sequence of Operation OperationCooling Operation VoltDefrost Cycle Heating OperationEmergency Heat Operation Operation below 0F Outdoor Tempera TureSTART-UP MaintenanceOddb Iddb 80 F 30070 F 60 F 80 F 70 F 035-16192-001-A-1001 Unitary Products Group Supersedes 035-16192-000

E1FB240, E1FB180 specifications

The York E1FB180 and E1FB240 are part of York's advanced series of commercial heating and cooling systems, specifically designed to meet the dynamic needs of modern edifices. These models stand out due to their balance of efficiency, reliability, and innovative technology, making them ideal solutions for a myriad of industrial and commercial applications.

One of the main features of the York E1FB series is its impressive energy efficiency. Both the E1FB180 and E1FB240 incorporate high-efficiency compressors that significantly reduce electricity consumption while providing optimal performance. This energy efficiency is crucial not only for reducing operational costs but also for ensuring compliance with increasingly stringent environmental regulations.

In terms of technology, the E1FB series utilizes advanced inverter-driven technology. This feature allows the system to adjust its cooling and heating output based on real-time demand, enabling it to operate at varying speeds. Consequently, this results in quieter operation and a reduction in wear and tear on the components, prolonging the lifespan of the equipment.

Moreover, both models possess robust construction to withstand the rigors of commercial environments. They are built using high-quality materials that ensure durability and reliability even in challenging conditions. This is complemented by an array of corrosion-resistant features, making them suitable for installation in diverse geographical locations, including coastal areas where salt and moisture are prevalent.

The York E1FB180 and E1FB240 also come equipped with sophisticated control systems. These smart controls allow for easy integration into building management systems, enabling real-time monitoring and management. This integration facilitates better energy management practices, yielding further operational savings and improved efficiency.

Additionally, the E1FB series incorporates environmentally friendly refrigerants that align with global initiatives for reducing greenhouse gas emissions. This commitment to sustainability is a cornerstone of York’s design philosophy and is increasingly important for businesses seeking to enhance their green credentials.

In summary, the York E1FB180 and E1FB240 are exemplary models that reflect the brand's commitment to efficiency, durability, and advanced technology. Their innovative features make them a preferred choice for businesses looking to invest in reliable HVAC solutions that not only meet but exceed contemporary performance and environmental standards.