York R-410A manual Electric Heat Minimum Supply Air, Indoor Blower Specifications

Page 68

251934-YTG-G-0708

Electric Heat Minimum Supply Air

Size

 

 

 

 

 

Minimum Supply Air (CFM)

 

 

Voltage

 

Heater kW

 

(Tons)

 

 

 

 

 

 

 

18

36

54

72

 

 

 

 

 

180

208/230-3-60

 

4500

4500

5000

5000

460-3-60

 

 

4500

4500

5000

4500

(15)

 

 

600-3-60

 

 

4500

4500

4500

4500

 

 

 

210

208/230-3-60

 

6000

6000

6000

6000

460-3-60

 

 

6000

6000

6000

6000

(17.5)

 

 

600-3-60

 

 

6000

6000

6000

6000

 

 

 

240

208/230-3-60

 

6000

6000

6000

6000

460-3-60

 

 

6000

6000

6000

6000

(20)

 

 

600-3-60

 

 

6000

6000

6000

6000

 

 

 

300

208/230-3-60

 

7500

7500

7500

7500

460-3-60

 

 

7500

7500

7500

7500

(25)

 

 

600-3-60

 

 

7500

7500

7500

7500

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

For units with VFD and electric heat, the speed of the indoor blower motor continues to be controlled by duct static pressure via the VAV control board.

If there are VAV boxes present in the duct system, the boxes must be driven to the full-open position using a customer-supplied power source to assure adequate airflow across electric heating elements or gas heat exchanger tubes.

Indoor Blower Specifications

Size

Model

 

 

Motor

 

 

Motor Sheave

 

Blower Sheave

Belt

 

 

 

 

 

Datum Dia.

 

 

Datum Dia.

 

 

(Tons)

HP

RPM

Eff.

SF

Frame

Bore (in.)

Model

Bore (in.)

Model

 

 

 

 

 

 

 

(in.)

 

 

(in.)

 

 

 

 

180

ZJ/ZF

5

1725

0.89

1.15

184T

5.2 - 6.4

1 1/8

1VP65

10.4

 

1

BK110

BX85

(15)

5

1725

0.89

1.15

184T

5.2 - 6.4

1 1/8

1VP65

8.4

 

1

BK090

BX81

 

 

210

ZJ/ZF

5

1725

0.89

1.15

184T

4.2 - 5.5

1 1/8

1VP60

10.4

 

1 3/16

BK110

BX78

(17.5)

7.5

1725

0.91

1.15

213T

4.2 - 5.5

1 3/8

1VP60

8.4

 

1 3/16

BK090

BX75

 

 

240

ZJ/ZF

5

1725

0.89

1.15

184T

4.2 - 5.5

1 1/8

1VP60

10.4

 

1 3/16

BK110

BX78

(20)

7.5

1725

0.91

1.15

213T

4.2 - 5.5

1 3/8

1VP60

8.4

 

1 3/16

BK090

BX75

 

 

300

 

7.5

1725

0.91

1.15

213T

4.2 - 5.5

1 3/8

1VP60

9.5

 

1 7/16

1B5V94

BX78

ZJ/ZF

10

1725

0.89

1.15

215T

5.8 - 7.0

1 3/8

1VP75X

11.1

 

1 7/16

1B5V110

5VX840

(25)

 

 

15

1725

0.91

1.15

254T

6.2 - 7.4

1 5/8

1VP75X

9.5

 

1 7/16

1B5V94

5VX860

 

 

 

180

ZR

5

1725

0.89

1.15

184T

5.2 - 6.4

1 1/8

1VP65

10.4

 

1

BK110

BX85

(15)

7.5

1725

0.91

1.15

213T

5.2 - 6.4

1 3/8

1VP65

8.4

 

1

BK090

BX81

 

 

240

ZR

7.5

1725

0.91

1.15

213T

4.2 - 5.5

1 3/8

1VP60

10.4

 

1 3/16

BK110

BX78

(20)

10

1725

0.89

1.15

215T

4.2 - 5.5

1 3/8

1VP60

8.4

 

1 3/16

BK090

BX75

 

 

300

 

7.5

1725

0.91

1.15

213T

4.2 - 5.5

1 3/8

1VP60

9.5

 

1 7/16

1B5V94

BX78

ZR

10

1725

0.89

1.15

215T

5.8 - 7.0

1 3/8

1VP75X

11.1

 

1 7/16

1B5V110

5V840

(25)

 

 

15

1725

0.91

1.15

254T

6.2 - 7.4

1 5/8

1VP75X

9.5

 

1 7/16

1B5V94

5VX860

 

 

 

Power Exhaust Specifications

Voltage

 

Motor

 

 

Motor

 

CFM @

HP

RPM1

QTY

LRA

FLA

MCA

0.2 ESP

 

208/230-1-60

3/4

1075

1

7.7

5.0

6.25

5250

460-1-60

3/4

1075

1

4.1

2.2

2.75

5250

575-1-60

3/4

1050

1

2.84

1.5

1.875

5250

1. Motors are multi-tapped and factory wired for high speed.

68

Johnson Controls Unitary Products

Image 68
Contents ZJ/ZR Shown DescriptionTable of Contents Component Location ZJ shownNomenclature Ton Sunline Magnum Model Number NomenclatureBalanced Heating Features and BenefitsStandard Features Factory Installed Options Control Options General Guide SpecificationsField Installed Accessories Unit Cabinet Indoor Evaporator Fan AssemblyDescription Outdoor Condenser Fan Assembly Refrigerant ComponentsUnit Controls Gas Heating Section ZJ/ZR/ZF***N ModelsUnit Operating Characteristics Other Pre-engineered Accessories AvailableElectrical Requirements Standard Limited WarrantiesAlternate Mode Reheat Mode Sequence Of OperationNormal Mode Reheat Control Board Reheat Controls PartRHB Physical Data ZJ180-300 Physical DataFilters ZR180-300 Physical Data No. speeds Number of motors Motor HP each ZF180-300 Physical Data AFUE%ZJ/ZR/ZF180-300 Unit Limitations MinZJ180 15 Ton Capacity PerformanceZJ180-300 Cooling Capacities 115F 125F ZJ210 17.5 Ton ZJ210 17.5 Ton ZJ240 20 Ton ZJ240 20 Ton ZJ300 25 Ton ZJ300 25 Ton ZR180-300 Cooling and Reheat Capacities ZR180 15 TonZR180 15 Ton ZR180 15 Ton Alternate Reheat Mode 35F 45FSensible Capacity MBh ZR240 20 Ton 115F 125F ZR240 20 Ton Alternate Reheat Mode 75F 85F ZR300 25 Ton 115F 125F ZR300 25 Ton Alternate Reheat Mode 75F 85F ZF180-300 Cooling Capacities ZF180 15 Ton115F 125F ZF210 17.5 Ton ZF210 17.5 Ton ZF240 20 Ton ZF240 20 Ton ZF300 25 Ton ZF300 25 Ton Airflow Performance ZJ180-300 Side Duct ApplicationZJ180 15 Ton Side Duct ZJ210 17.5 Ton Side DuctZJ240 20 Ton Side Duct ZJ300 25 Ton Side Duct ZJ210 17.5 Ton Bottom Duct ZJ180-300 Bottom Duct ApplicationZJ180 15 Ton Bottom Duct ZJ240 20 Ton Bottom Duct ZJ300 25 Ton Bottom Duct ZR240 20 Ton Side Duct ZR180-300 Side Duct ApplicationZR180 15 Ton Side Duct ZR300 25 Ton Side Duct ZR240 20 Ton Bottom Duct ZR180-300 Bottom Duct ApplicationZR180 15 Ton Bottom Duct ZR300 25 Ton Bottom Duct ZF210 17.5 Ton Side Duct ZF180-300 Side Duct ApplicationZF180 15 Ton Side Duct ZF240 20 Ton Side Duct ZF300 25 Ton Side Duct ZF210 17.5 Ton Bottom Duct ZF180-300 Bottom Duct ApplicationZF180 15 Ton Bottom Duct ZF240 20 Ton Bottom Duct ZF300 25 Ton Bottom Duct RPM Selection Additional Static ResistanceDrive Selection Altitude/Temperature Correction Factors Air Temperature ºF Gas Heat Minimum Supply AirFactor CorrectionElectric Heat Minimum Supply Air Indoor Blower SpecificationsPower Exhaust Specifications Electric Heat Multipliers ZJ/ZR/ZF Indoor Sound Power LevelsSound Performance ZJ180 ZJ180-300 Standard Drive Without Powered Convenience OutletElectrical Data MCA ZJ180-300 Standard Drive With Powered Convenience Outlet Model Stages AmpsZJ180-300 Standard Drive With Powered Convenience Outlet Conv YTG-G-0708 ZJ180-300 High Static Drive With Powered Convenience Outlet ZJ180-300 High Static Drive With Powered Convenience Outlet ZJ300 Low Static Drive Without Powered Convenience Outlet ZJ300 Low Static Drive With Powered Convenience OutletZR180-300 Standard Drive Without Powered Convenience Outlet ZR180ZR180-300 Standard Drive With Powered Convenience Outlet YTG-G-0708 ZR180-300 High Static Drive With Powered Convenience Outlet ZR300 Low Static Drive Without Powered Convenience Outlet ZR300 Low Static Drive With Powered Convenience OutletZF180-300 Standard Drive Without Powered Convenience Outlet ZF180Pwr Max Fuse Motors ZF180-300 Standard Drive With Powered Convenience Outlet ZF180-300 Standard Drive With Powered Convenience Outlet ZF180-300 Hi Static Drive Without Powered Convenience Outlet ZF180-300 Hi Static Drive Without Powered Convenience Outlet ZF180-300 Hi Static Drive With Powered Convenience Outlet ZF180-300 Hi Static Drive With Powered Convenience Outlet ZF180-300 Low Static Drive With Powered Convenience Outlet ZJ/ZR/ZF180-300 Wiring Diagrams ZJ180-300 Typical Control DiagramZR180-300 Typical Control Diagram OCC Terminal BlockZF180-300 Typical Control Diagram OCCZF Unit 4 Point Load Weight ZF Unit 6 Point Load Weight Weights and DimensionsZJ/ZR/ZF180-300 Unit Weights ZJ/ZR/ZF180-300 Unit Accessory Weights Supply Fan VFD Weights, in LbsUtilities Entry ZJ/ZR/ZF180-300 Unit DimensionsZJ/ZR Unit Dimensions Front View ZF Unit Dimensions Front View 48-5/8 15 Ton 52-5/8 17.5 thru 25 TonFor side duct applications ZJ/ZR/ZF Unit Dimensions Rear ViewFor bottom duct applications ZJ/ZR/ZF Unit Dimensions Rain Hood ZJ/ZR/ZF180-300 Unit ClearancesZJ/ZR/ZF180-300 Unit Accessory Dimensions ZJ/ZR/ZF180-300 Roof CurbZJ/ZR/ZF180-300 Typical Installation Johnson Controls Unitary Products York Drive Norman, OK
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R-410A specifications

York R-410A is a widely recognized and highly efficient refrigerant used in modern air conditioning systems. Developed as an environmentally friendly alternative to R-22, R-410A has gained popularity in the HVAC industry due to its numerous advantageous features and characteristics.

One of the main features of York R-410A is its ability to provide superior cooling performance. This refrigerant operates efficiently at both high and low temperatures, allowing systems using it to maintain optimal indoor climates even during extreme weather conditions. Its high energy efficiency ratio (EER) and seasonal energy efficiency ratio (SEER) ratings make it a preferred choice for energy-conscious consumers, resulting in lower energy bills and a reduced carbon footprint.

Technologically, York R-410A systems feature advanced compressor designs that enhance their overall reliability and performance. These compressors are often equipped with variable-speed technology, enabling them to adjust their output to match the cooling demands of the space. This not only improves comfort levels but also leads to efficient energy consumption, reducing wear and tear on the equipment over time.

Another significant characteristic of York R-410A is its non-ozone-depleting properties. Unlike its predecessor R-22, which is being phased out due to its damaging effects on the ozone layer, R-410A is designed to minimize environmental impact. Its lower global warming potential (GWP) further underscores its role in promoting sustainability within the HVAC sector.

Furthermore, York R-410A systems are engineered with enhanced safety features. The refrigerant is non-toxic and non-flammable, which makes it safer for use in both residential and commercial applications. Additionally, its high thermal stability reduces the risk of breakdown or leakage, contributing to longer system lifespans and lower maintenance costs.

In conclusion, York R-410A stands out as a cutting-edge refrigerant that combines efficiency, safety, and environmental responsibility. With its advanced technologies and remarkable characteristics, it meets the demands of modern air conditioning requirements while paving the way for a sustainable future in HVAC systems. Adopting York R-410A not only benefits individual users through improved comfort and lower energy bills but also plays a vital role in protecting our planet's ozone layer and mitigating climate change.