Furnaces

Coils

T.C.

S.C.

KW

T*(8,L)X*A12

FC/MC/PC24A

1.02

1.03

0.95

T*(8,L)X*B12

FC/MC/PC24B

1.03

1.05

0.94

T*9X*B12

FC/MC/PC24B

1.02

1.03

0.95

T*(8,L)X*A12

FC/MC/PC30A

1.02

1.02

0.95

T*(8,L)X*B12

FC/MC/PC30B

1.03

1.05

0.94

T*9X*B12

FC/MC/PC30B

1.02

1.02

0.93

T*(8,L)X*A12

FC/MC/PC32A

1.03

1.05

0.94

T*(8,L)X*B12

FC/MC/PC35B

1.03

1.06

0.94

T*(8,L)X*C16

FC/MC/PC35C

0.99

0.95

0.93

T*(8,L)X*C20

FC/MC/PC35C

1.03

1.08

0.94

T*9X*B12

FC/MC/PC35B

1.03

1.05

0.95

T*9X*C16

FC/MC/PC35C

1.02

1.01

0.93

T*9X*C20

FC/MC/PC35C

1.03

1.05

0.94

T*(8,L)X*A12

FC/MC/PC36A

1.03

1.05

0.94

T*(8,L)X*B12

FC/MC/PC36B

1.03

1.06

0.95

T*(8,L)X*C16

FC/MC/PC36C

1.01

0.98

0.94

T*9X*B12

FC/MC/PC36B

1.03

1.05

0.94

T*9X*C16

FC/MC/PC36C

1.03

1.04

0.93

T*9X*C20

FC/MC/PC36C

1.03

1.05

0.94

T*(8,L)X*A12

FC/MC/PC37A

1.04

1.09

0.96

T*(8,L)X*B12

FC/MC/PC42B

1.05

1.10

0.96

T*(8,L)X*C16

FC/MC/PC42C

1.03

1.01

0.94

T*9X*B12

FC/MC/PC42B

1.03

1.06

0.95

T*9X*C16

FC/MC/PC42C

1.03

1.07

0.93

T*9X*C20

FC/MC/PC42C

1.03

1.05

0.94

T*(8,L)X*B12

FC/MC/PC43B

1.04

1.10

0.94

T*(8,L)X*C16

FC/MC/PC43C

1.00

0.96

0.94

T*9X*B12

FC/MC/PC43B

1.04

1.07

0.96

T*9X*C16

FC/MC/PC43C

1.03

1.02

0.94

T*9X*C20

FC/MC/PC43C

1.04

1.06

0.96

T*(8,L)X*C16

FC/MC/PC48C

1.03

1.00

0.94

T*9X*C16

FC/MC/PC48C

1.05

1.07

0.94

T*9X*C20

FC/MC/PC48C

1.05

1.08

0.96

T*(8,L)X*A12

HD36

1.00

1.01

0.94

T*(8,L)X*B12

HD36

1.00

1.01

0.94

T*(8,L)X*C16

HD36

1.00

1.01

0.94

T*9X*B12

HD36

1.00

1.01

0.94

T*(8,L)X*A12

UC24A

1.03

1.03

0.94

T*(8,L)X*B12

UC24B

1.03

1.05

0.94

T*9X*B12

UC24B

1.03

1.03

0.94

T*(8,L)X*A12

UC30A

1.03

1.03

0.94

T*(8,L)X*B12

UC30B

1.03

1.05

0.94

T*9X*B12

UC30B

1.03

1.03

0.94

T*(8,L)X*A12

UC36A

0.99

0.99

0.91

T*(8,L)X*B12

UC36B

1.00

1.03

0.92

T*(8,L)X*C16

UC36C

1.01

1.05

0.92

T*9X*B12

UC36B

0.99

0.99

0.91

T*9X*C16

UC36C

1.00

1.01

0.90

T*9X*C20

UC36C

0.99

1.00

0.91

T*(8,L)X*B12

UC42B

1.03

1.02

0.92

T*(8,L)X*C16

UC42C

1.03

1.02

0.94

T*9X*B12

UC42B

1.03

1.05

0.95

T*9X*C16

UC42C

1.03

1.05

0.93

T*9X*C20

UC42C

1.02

1.02

0.95

T*(8,L)X*C16

UC48C

1.02

1.00

0.93

T*9X*C16

UC48C

1.03

1.05

0.92

T*9X*C20

UC48C

1.04

1.07

0.96

Y*(8,L)C*A12

FC/MC/PC24A

1.03

1.03

0.93

Y*(8,L)C*B12

FC/MC/PC24B

1.03

1.04

0.92

556454-YTG-A-0210

Furnaces

Coils

T.C.

S.C.

KW

Y*9C*B12

FC/MC/PC24B

1.02

1.02

0.92

Y*(8,L)C*A12

FC/MC/PC30A

1.03

1.02

0.93

Y*(8,L)C*B12

FC/MC/PC30B

1.03

1.03

0.92

Y*9C*B12

FC/MC/PC30B

1.03

1.02

0.93

Y*(8,L)C*A12

FC/MC/PC32A

1.03

1.04

0.94

Y*(8,L)C*B12

FC/MC/PC35B

1.03

1.02

0.93

Y*9C*B12

FC/MC/PC35B

1.03

1.05

0.94

Y*(8,L)C*C16

FC/MC/PC35C

1.04

1.08

0.92

Y*(8,L)C*C20

FC/MC/PC35C

1.03

1.02

0.90

Y*9C*C16

FC/MC/PC35C

1.05

1.10

0.94

Y*9C*C20

FC/MC/PC35C

1.03

1.02

0.91

Y*(8,L)C*A12

FC/MC/PC36A

1.03

1.04

0.93

Y*(8,L)C*B12

FC/MC/PC36B

1.03

1.04

0.92

Y*9C*B12

FC/MC/PC36B

1.03

1.04

0.93

Y*(8,L)C*C16

FC/MC/PC36C

1.04

1.08

0.92

Y*(8,L)C*C20

FC/MC/PC36C

1.03

1.02

0.90

Y*9C*C16

FC/MC/PC36C

1.03

1.04

0.92

Y*9C*C20

FC/MC/PC36C

1.03

1.02

0.91

Y*(8,L)C*A12

FC/MC/PC37A

1.04

1.05

0.94

Y*(8,L)C*B12

FC/MC/PC43B

1.04

1.04

0.92

Y*9C*B12

FC/MC/PC43B

1.04

1.06

0.93

Y*(8,L)C*C16

FC/MC/PC43C

1.06

1.13

0.93

Y*(8,L)C*C20

FC/MC/PC43C

1.04

1.04

0.90

Y*9C*C16

FC/MC/PC43C

1.05

1.07

0.93

Y*9C*C20

FC/MC/PC43C

1.06

1.12

0.93

Y*(8,L)C*C16

FC/MC/PC48C

1.06

1.10

0.91

Y*9C*C16

FC/MC/PC48C

1.07

1.14

0.93

Y*(8,L)C*A12

HC18

0.99

0.98

0.94

Y*(8,L)C*A12

HC30

1.02

1.02

0.93

Y*(8,L)C*B12

HC36

1.03

1.02

0.93

Y*9C*B12

HC36

1.03

1.05

0.94

Y*(8,L)C*C16

HC42

1.06

1.13

0.93

Y*(8,L)C*C20

HC42

1.04

1.04

0.90

Y*9C*C16

HC42

1.05

1.07

0.93

Y*9C*C20

HC42

1.06

1.13

0.93

Y*(8,L)C*A12

HD24

1.04

1.05

0.93

Y*(8,L)C*B12

HD24

1.04

1.05

0.92

Y*9C*B12

HD24

1.04

1.05

0.93

Y*(8,L)C*A12

HD36

1.02

1.00

0.92

Y*(8,L)C*B12

HD36

1.02

0.98

0.92

Y*(8,L)C*C16

HD36

1.03

1.04

0.92

Y*(8,L)C*C20

HD36

1.02

0.98

0.90

Y*9C*B12

HD36

1.02

1.00

0.92

Y*9C*C16

HD36

1.03

1.00

0.91

Y*9C*C20

HD36

1.02

0.99

0.91

Y*(8,L)C*A12

UC24A

1.03

1.04

0.93

Y*(8,L)C*B12

UC24B

1.03

1.04

0.92

Y*9C*B12

UC24B

1.03

1.04

0.94

Y*(8,L)C*A12

UC30A

1.03

1.04

0.93

Y*(8,L)C*B12

UC30B

1.03

1.04

0.92

Y*9C*B12

UC30B

1.03

1.04

0.94

Y*(8,L)C*A12

UC36A

0.99

0.99

0.92

Y*(8,L)C*B12

UC36B

1.00

1.00

0.91

Y*9C*B12

UC36B

0.99

0.99

0.91

Y*(8,L)C*C16

UC36C

1.01

1.04

0.92

Y*(8,L)C*C20

UC36C

0.99

0.98

0.90

Y*9C*C16

UC36C

1.00

1.00

0.91

Y*9C*C20

UC36C

0.99

0.98

0.90

Y*(8,L)C*C16

UC48C

1.02

1.03

0.91

Y*9C*C16

UC48C

1.03

1.07

0.93

Johnson Controls Unitary Products

21

Page 21
Image 21
York TCHD18 THRU 60 warranty LX*A12 HD36 LX*B12 LX*C16 9X*B12

TCHD18 THRU 60 specifications

The York TCHD18 THRU 60 series is a prominent lineup in the world of commercial heating and cooling solutions, showcasing an impressive array of features, technologies, and characteristics aimed at delivering superior performance and efficiency. Designed specifically for medium to large commercial spaces, these units are engineered to provide optimal comfort while ensuring energy efficiency, making them a top choice for facility managers and building owners.

One of the standout features of the York TCHD series is its advanced scroll compressor technology. This innovative compressor design enhances reliability and promotes quieter operation, making it ideal for installations in noise-sensitive environments. Additionally, sequential operation of multiple compressors allows for precise control over the heating and cooling output, resulting in enhanced system efficiency and reduced energy consumption.

The TCHD series is also equipped with a state-of-the-art microprocessor control system. This sophisticated control technology features user-friendly interfaces, allowing for straightforward operation and easy access to system diagnostics. With built-in communication capabilities, these units can seamlessly integrate into existing building management systems (BMS), ensuring effective monitoring and control of HVAC operations.

Energy efficiency is further accentuated by the units' robust refrigerant management system, designed to optimize refrigerant flow and minimize waste. This not only enhances overall performance but also aligns with environmental standards by promoting the use of eco-friendly refrigerants.

In terms of physical design, the York TCHD series boasts a durable steel cabinet construction, providing stability and resilience in various operating conditions. The units come with high-efficiency heat exchangers that maximize thermal transfer, ensuring that energy use is minimized while comfort is maximized.

Furthermore, York offers a variety of customization options, allowing customers to tailor the size and performance characteristics of the TCHD units to meet specific needs. Options like variable-speed fans and enhanced filtration systems provide added versatility, enabling optimal air quality and comfort control.

Overall, the York TCHD18 THRU 60 series exemplifies a commitment to innovation and performance in the commercial HVAC sector. With its advanced technologies, robust design, and energy-efficient operation, this series stands out as a reliable solution for modern commercial applications, making it a smart investment for those seeking efficient heating and cooling systems.