All installations and services must be performed by qualified service personnel.

5.To obtain an accurate manifold gas pressure reading, the main burner must be cycled on and off several times to stabilize the gas control valve pressure regulator diaphragm.

6.Allow the burner to operate for at least 3 minutes before taking gas pressure readings.

7.Using a pressure gauge, measure the burner manifold gas pressure.

8.If checking the input rate by measuring burner manifold pressure, skip to step 12. If measuring the input rate using a gas meter, proceed to step 9.

9.Using a clock (or watch) capable of measuring time in seconds, carefully clock the gas meter to determine the time for one (1) complete revolution of the gas meter dial or reel. At least one (1) cubic foot of gas flow should be measured. Use Table 6 to determine the main burner gas flow rate in cubic feet per hour (CFH).

NOTICE: Some gas meters will require more than one (1) cubic foot of gas pass through the meter for reasons of accuracy. When more than one (1) cubic foot of gas is consumed, divide the total time by the number of cubic feet for comparison to the figures in Table 6.

10.Compare actual heat input rate with our recommended input (printed on the furnace rating label). To convert the rating label input rate (given in BTUH) to the equivalent gas flowrate (in CFH), use the following formula:

Heat input rate (in BTUH ) =

 

 

 

 

 

 

æ

BTU

ö

(

)

ç

÷

 

3

Fuel gas higher heating value ç in

ft

÷

 

Fuel gas flowrate in CFH

 

è

 

ø

 

 

 

or,

 

 

 

 

Fuel gas flowrate (in CFH ) =

Heat input rate (in BTUH )

 

 

 

æ

BTU

ö

 

 

ç

÷

 

 

3

 

Fuel gas higher heating value ç in

ft

÷

 

è

 

ø

11.If the measured input rate is above, or below, the rating label value by more than 2%, adjust the manifold gas pressure using the gas control valve pressure regulator to obtain the input rating within a ± 2% range. Refer to steps 12(a) through 12(d).

12.If the gas pressure is not within the specified low fire manifold pressure range (refer to Table 5), use the following procedure to adjust the low fire, gas pressure regulator to match the specified low fire manifold pressure.

a.Remove the gas pressure regulator adjustment cap screw from the automatic gas control valve. The cap screw is located on the outlet side of the valve. Refer to Figure 23.

35

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Thermo Products CDX1-100N, CDX1-75N, CHX1-125N, CHX1-75N, CHX1-100N, CDX1-125N operation manual Btu

CDX1-100N, CDX1-125N, CHX1-100N, CHX1-75N, CHX1-125N specifications

Thermo Products has established itself as a leader in the HVAC industry, providing innovative solutions for climate control with their latest product line, including the CHX1-125N, CDX1-75N, CDX1-100N, CHX1-75N, and CHX1-100N models. These units are designed for both efficiency and performance, catering to a wide range of heating and cooling needs.

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In contrast, the CDX1 series—featuring the CDX1-75N and CDX1-100N—focuses on delivering exceptional versatility. These models come equipped with advanced multi-zone capabilities, allowing users to control different areas or rooms with precision. This zoning capability not only enhances comfort but also optimizes energy efficiency by allowing users to heat or cool only the spaces that are occupied.

A common characteristic among all these models is their quiet operation. Designed with noise-reduction technologies, the units are engineered to operate with minimal sound, making them ideal for residential settings, offices, and other noise-sensitive environments.

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Overall, Thermo Products’ CHX1-125N, CDX1-75N, CDX1-100N, CHX1-75N, and CHX1-100N models exemplify the perfect blend of innovation, efficiency, and user-centered design. These heating and cooling solutions not only meet the demands of modern living but also contribute to sustainability efforts, making them a valuable addition to any climate control system.