the control will lock out. Press the reset button to reset the control and return to the functions listed in the previous step.

yRepeat the previous steps if needed, until the pump is fully primed and the oil is free of bubbles. Then terminate the call for heat, and the control will resume normal operation.

Disable function

yAny time the motor is running, press and hold the reset button to disable the burner. The burner will remain off as long as the button is held and will return to standby when released.

CAD cell resistance check

yWhile the burner is firing, and after the ignition has been turned off, press and release the reset button (hold 1/2 sec- ond or less) to check the cad cell resistance. The LED will flash 1 to 4 times, depending on the cad cell resistance (refer to the table below).

Number of LED

Cad Cell Resistance (ohms)

flashes

 

1

Strong (0 to 400)

2

Normal (400 to 800)

3

Weak (800 to 1600)

4

Poor (1600 or higher)*

* Lockout is likely to occur.

 

LED Indicator

Status

On

Flame sensed

Off

Flame not sensed

Flashing (1/2 sec off - 1/2

Lockout/Restricted

sec on)

Lockout

Flashing (2 sec off - 2 sec

Recycle

on)

 

‰Set combustion using instruments

1.Allow the burner to run for approximately 5 to 10 minutes.

2.Set the stack or over-fire draft to the level specified by the

appliance manufacturer.

y Natural Draft Applications; typically over-fire draft

is -0.01” or -0.02” w.c.

y Direct Venting; typically may not require draft adjust-

ment.

y High Efficiency/Positive Pressure Appliances; also vary from traditional appliances (see manufacturer’s recommendations).

3.Follow these four steps to properly adjust the burner:

Step 1: Adjust the air shutter/band until a trace of smoke is achieved.

Step 2: At the trace of smoke level, measure the CO2 (or O2) . This is the vital reference point for further adjustments. Example: 13.5% CO2 (2.6% O2)

Step 3: Increase the air to reduce the CO2 by 1.5 to 2 percentage points. (O2 will be increased by approximately 2.0 to 2.7 percentage points.) Example: Reduce CO2 from 13.5% to 11.5% (2.6% to 5.3% O2).

Step 4: Recheck smoke level. It should be Zero.

yThis procedure provides a margin of reserve air to accommodate variable conditions.

yIf the draft level has changed, recheck the

smoke and CO2 (or O2) levels and readjust the burner, if necessary

4.Once combustion is set, tighten all fasteners on air band, air shutter and escutcheon plate.

5.Start and stop the burner several times to ensure satisfactory operation. Test the primary control and all other appliance safety controls to verify that they function according to the manufacturer’s specifications.

6.Check the breech draft pressure against the appliance man- ufacturer’s recommended setting (typically + 0.1” W.C.). If the breech pressure is higher or lower than recommended level, adjust the appliance breech damper to achieve the

specified setting. Recheck the smoke and CO2 (or O2) levels. Adjust burner air if necessary.

6104 BCF5 R07

13

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Beckett 800, CF500 manual Disable function, CAD cell resistance check, ‰ Set combustion using instruments
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800, CF500 specifications

The Beckett CF500 and CF800 are advanced oil-fired boiler systems designed to provide reliable heating solutions for both residential and commercial applications. Known for their efficiency and cutting-edge technology, these models exhibit a variety of features that distinguish them in the heating market.

One of the standout characteristics of the Beckett CF500 and CF800 is their high combustion efficiency. Both models utilize a unique air control system that optimizes the air-fuel mixture, ensuring complete combustion and reducing emissions. This not only enhances performance but also benefits the environment by minimizing the carbon footprint.

The CF500 features a compact design, making it ideal for installations in tighter spaces. Its rugged construction ensures durability and longevity, often requiring less maintenance than competing systems. This model is equipped with advanced safety features, including a primary safety control and a backup safety circuit, ensuring secure operation in any conditions.

On the other hand, the CF800 is designed for larger applications, boasting a higher capacity and output. Its powerful burner system can handle higher BTU outputs, making it suitable for demanding heating needs. Like the CF500, the CF800 also features the advanced air-fuel management system, along with an innovative ignition system that guarantees quick starts and efficient operation.

Both models are engineered for ease of installation and maintenance. Their intuitive design allows for straightforward setup, while accessible components simplify routine servicing. Additionally, Beckett offers comprehensive support and resources, ensuring users can operate their systems effectively and efficiently.

Another notable technology integrated into these models is the noise reduction features. The quiet operation of both the CF500 and CF800 allows for a comfortable indoor environment, whether it's in a residential setup or a commercial facility.

In summary, the Beckett CF500 and CF800 represent a blend of efficiency, safety, and ease of use in oil-fired heating solutions. Their advanced features and technological innovations not only meet the heating demands of various applications but also support environmentally-conscious practices, making them an excellent choice for modern heating systems.
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