Variable Speed

Coil

MBH

KW

COP

Furnace

 

 

 

 

PV8*A12

FC/MC/PC36A

1.00

0.97

1.00

PV8*B16

FC/MC/PC36B

1.00

0.97

1.00

PV8*B16

HC36

1.00

0.97

1.00

PV8*B16

HD36

1.00

0.97

1.00

PV8*C16

FC/MC/PC36C

1.00

0.97

1.00

PV8*C20

FC/MC/PC36C

1.00

0.97

1.00

PV9*A12

FC/MC/PC36A

1.00

0.95

1.01

P(C,V)9*B12

FC/MC/PC36B

1.00

0.95

1.01

P(C,V)9*B12

HC36

1.00

0.97

1.00

P(C,V)9*B12

HD36

1.00

0.97

1.00

P(C,V)9*C16

FC/MC/PC36C

1.00

0.97

1.00

P(C,V)9*C20

FC/MC/PC36C

1.00

0.97

1.00

Y*(8,L)C*B12

FC/MC/PC35B

0.99

0.98

1.01

Y*9C*B12

FC/MC/PC35B

0.99

0.98

1.01

Y*(8,L)C*C16

FC/MC/PC35C

0.98

1.01

0.97

Y*(8,L)C*C20

FC/MC/PC35C

0.98

1.02

0.96

Y*9C*C16

FC/MC/PC35C

0.98

1.01

0.98

Y*9C*C20

FC/MC/PC35C

0.99

1.01

0.99

Y*(8,L)C*A12

FC/MC/PC36A

0.99

0.98

1.01

Y*(8,L)C*B12

FC/MC/PC36B

0.98

0.99

1.00

Y*9C*B12

FC/MC/PC36B

0.98

0.99

0.99

Y*(8,L)C*C16

FC/MC/PC36C

0.98

1.01

0.97

Y*(8,L)C*C20

FC/MC/PC36C

0.98

1.02

0.96

Y*9C*C16

FC/MC/PC36C

0.98

1.02

0.96

Y*9C*C20

FC/MC/PC36C

0.99

1.02

0.98

Y*(8,L)C*A12

FC/MC/PC37A

0.97

0.97

1.00

Y*(8,L)C*B12

FC/MC/PC43B

0.99

1.02

0.98

Y*9C*B12

FC/MC/PC43B

0.99

1.02

0.98

Y*(8,L)C*C16

FC/MC/PC43C

0.98

1.05

0.94

Y*(8,L)C*C20

FC/MC/PC43C

0.98

1.05

0.94

Y*9C*C16

FC/MC/PC43C

0.99

1.03

0.96

Y*9C*C20

FC/MC/PC43C

0.99

1.04

0.95

Y*(8,L)C*C16

FC/MC/PC48C

0.98

1.05

0.93

Y*(8,L)C*C20

FC/MC/PC48C

0.98

1.06

0.92

Y*9C*C16

FC/MC/PC48C

0.99

1.05

0.94

Y*9C*C20

FC/MC/PC48C

1.00

1.05

0.95

Y*(8,L)C*C16

HC42

0.98

1.04

0.94

Y*(8,L)C*C20

HC42

0.98

1.05

0.93

Y*9C*C16

HC42

0.99

1.03

0.97

Y*9C*C20

HC42

0.99

1.04

0.95

271457-YTG-B-0908

Variable Speed

Coil

MBH

KW

COP

Furnace

 

 

 

 

Y*(8,L)C*B12

HD48

0.97

0.92

1.05

Y*(8,L)C*C16

HD48

0.96

0.94

1.02

Y*(8,L)C*C20

HD48

0.96

0.95

1.01

Y*9C*B12

HD48

0.97

0.92

1.05

Y*9C*C16

HD48

0.96

0.93

1.03

Y*9C*C20

HD48

0.98

0.95

1.03

Y*(8,L)C*A12

UC36A

0.98

0.96

1.02

Y*(8,L)C*B12

UC36B

0.98

0.97

1.01

Y*9C*B12

UC36B

0.98

0.98

1.00

Y*(8,L)C*C16

UC36C

0.98

1.00

0.98

Y*(8,L)C*C20

UC36C

0.97

1.00

0.97

Y*9C*C16

UC36C

0.98

1.00

0.98

Y*9C*C20

UC36C

0.99

1.00

0.99

Y*(8,L)C*C16

UC48C

0.99

1.09

0.91

Y*(8,L)C*C20

UC48C

0.99

1.10

0.90

Y*9C*C16

UC48C

0.99

1.08

0.92

Y*9C*C20

UC48C

1.01

1.08

0.93

G*9V*B12

FC/MC/PC35B

0.99

0.98

1.01

G*9V*C16

FC/MC/PC35C

0.98

1.01

0.98

G*9V*C20

FC/MC/PC35C

0.99

1.01

0.99

G*9V*A12

FC/MC/PC36A

0.99

0.98

1.01

G*9V*B12

FC/MC/PC36B

0.98

0.99

0.99

G*9V*C16

FC/MC/PC36C

0.98

1.02

0.96

G*9V*C20

FC/MC/PC36C

0.99

1.02

0.98

G*9V*A12

FC/MC/PC37A

0.99

0.99

1.00

G*9V*B12

FC/MC/PC43B

0.99

1.02

0.98

G*9V*C16

FC/MC/PC43C

0.99

1.03

0.96

G*9V*C20

FC/MC/PC43C

0.99

1.04

0.95

G*9V*C16

FC/MC/PC48C

0.99

1.05

0.94

G*9V*C20

FC/MC/PC48C

1.00

1.05

0.95

G*9V*C16

HC42

0.99

1.03

0.97

G*9V*C20

HC42

0.99

1.04

0.95

G*9V*B12

HD48

0.97

0.92

1.05

G*9V*C16

HD48

0.96

0.93

1.03

G*9V*C20

HD48

0.98

0.95

1.03

G*9V*A12

UC36A

0.99

0.96

1.03

G*9V*B12

UC36B

0.98

0.98

1.00

G*9V*C16

UC36C

0.98

1.00

0.98

G*9V*C20

UC36C

0.99

1.00

0.99

G*9V*C16

UC48C

0.99

1.08

0.92

G*9V*C20

UC48C

1.01

1.08

0.93

Johnson Controls Unitary Products

37

Page 37
Image 37
York YZB018 THRU 060 warranty PV8*B16 HC36 HD36 PV8*C16

YZB018 THRU 060 specifications

The York YZB018 THRU 060 series represents a cutting-edge solution for commercial heating and cooling needs, designed to provide efficient and reliable performance in a variety of applications. These units encompass a range of capacities from 1.5 to 5 tons, making them suitable for different building sizes and requirements. The YZB series is well-known for its robust construction, advanced technology, and exceptional energy efficiency.

One of the main features of the York YZB series is its high-efficiency scroll compressors. These compressors are engineered to deliver superior performance while minimizing energy consumption, thus reducing operational costs for end-users. In addition, the use of environmentally friendly refrigerants helps to comply with modern regulations regarding greenhouse gas emissions, making the YZB series a sustainable choice for businesses.

The YZB series incorporates a user-friendly control system, allowing for simple adjustments to temperature settings and operational modes. This feature enhances user experience and enables better management of indoor climate conditions. The units also come equipped with advanced diagnostic capabilities, which help in identifying potential issues early and optimizing maintenance schedules. This proactive approach extends the lifespan of the equipment while ensuring reliable operation.

Durability is a hallmark of the York YZB series. Constructed with high-quality materials, these units can withstand the rigors of commercial use, including exposure to varying weather conditions. The corrosion-resistant cabinet and robust internal components ensure longevity and performance over time.

Another important characteristic of the YZB series is its quiet operation. With noise levels minimized, these systems are ideal for installations requiring low sound emissions, such as offices, schools, and healthcare facilities.

The flexibility of the YZB series is also noteworthy. The units can be configured for different applications, including rooftop installations, split systems, or even for use in conjunction with ductless systems. This adaptability makes them a versatile option for a wide array of commercial applications.

In summary, the York YZB018 THRU 060 series is distinguished by its energy-efficient performance, robust construction, and advanced technological features. With its user-friendly controls, diagnostic capabilities, and quiet operation, this series is an exemplary choice for businesses aiming for optimal climate management and sustainability in their operations.