Install Instructions

ManualsBrandsBurnham ManualsBoilersALP285B 229,000 BTU Output Condensing Boiler

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X. Operation F. Changing Adjustable Parameters (continued)

“Press” button to access the following parameters:

Factory

Setting

Range / Choices Parameter and Description

Disable

Enable,

Disable

Master Enable/Disable

The Sequencer Master Enable/Disable is used to “turn on” the Multiple Boiler Controller.

Warning! enable ONLY one Sequence Master.

Boiler

Piped

Boiler Piped,

Primary Piped

Indirect Water Heater (IWH)

Boiler Piped Sequencer to respond to an Isolated DHW demand that is piped to a single

boiler. The individual boiler goes on “Leave” from the Sequencer Master and

goes to DHW Service.

Primary Piped The Sequence Master responds to the DHW Call For Heat. This allows one or

more boilers to provide heat to the IWH.

Disabled

Enable,

Disable

DHW Two Boiler Start

The Sequencer to immediately start two boilers for a DHW call for heat. Used when DHW is the

largest demand. Only visible when primary piped IWH is selected.

180 Secs 120 - 1200 Secs

Boiler Start Delay

Slave boiler time delay after header temperature has dropped below the setpoint minus “Diff

below” setpoint. Longer time delay will prevent nuisance starts due to short temperature swings.

195°F

(90.6°C)

Central Heat

Setpoint,

195°F (90.6°C)

Stop All Boilers Setpoint

When this temperature is reached all boilers are stopped. This setpoint allows the Sequencer to

respond to rapid load increases.

70% 50% - 100%

Base Load Common Rate

To maximize condensing boiler efciency, the ring rate is limited to an adjustable value. Boilers

are kept at or below this ring rate as long as the boilers can handle the load. After last available

boiler has started, the modulation rate limit is released up to 100%.

3 1-5

Response Speed

This parameter adjusts the Sequence Master temperature controller Proportion Integral Derivative

(PID) values. Higher values cause a larger ring rate change for each degree of temperature

change. If set too high ring rate “overshoots” required value, increases to high re causing the

temperature to exceed the “Diff Above” setpoint and cycle the boiler unnecessarily. Lower values

cause a smaller ring rate change for each degree of temperature change. If set too low, the ring

rate response will be sluggish and temperature will wander away from setpoint.