Weil-McLain BMC-6X operation manual Standby Delay, System RUN-ON, Setback

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-------- SYSTEM RUN-ON--------
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-------- STANDBY DELAY --------

BMC and BMC-6X Installation and Operation Manual

LAG DELAY

Default: 0min

----------- LAG

DELAY -----------

Adjustable from 0min to 60min

 

 

Button: MENU/<System Settings>/Lag Delay

 

0min

• The Lag Delay requires the previous stage to remain at 100% modulation for the full

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period of the Lag Delay before another Stage can be activated. For example, if the Lag

 

 

Delay was set to 10 minutes, the Lead Stage would need to remain at 100% modulation

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for a full ten minutes (never backing down to even 99%) before a lag stage could be

 

 

activated. The Message Display Line will display Lag Delay and the remaining time.

 

 

Set the Lag Delay to 0 min when two or more Stages will generally be needed to hold the load.

The Lag Delay is useful in installations where one unit should usually have enough output to hold the load unless it fails or load conditions become extreme.

The Lag Delay overrides the value of the Modulation Start % selected for each stage. Regardless of that setting, the previous stage must reach 100% and stay there before the lag stage can be activated.

The full Lag Delay must always elapse regardless of what happens to system temperature. Therefore, set the Lag Delay to 0 min if you want smooth set point control using multiple units.

STANDBY DELAY

Adjustable from 1min to 60min

Default: 10min

Button: MENU/<System Settings>/<More Settings>/Standby Time

10min

• The Standby Delay only applies to boilers in Standby Mode. See Mode on page 25.

A boiler can be set to be a Standby boiler using the Stage Menu.

• A Standby boiler can only be activated after all the boilers in Auto Mode have run at

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100% modulation for the full Standby Time.

 

 

Standby boilers are used for backup or extreme load conditions only. A Standby boiler can never be a Lead Stage

The full Standby Delay must always elapse regardless of what happens to system temperature. Therefore, shorter Standby Times will result in smoother set point operation in extreme conditions. Longer Standby Times may prevent a Standby boiler from firing if the other boilers can eventually meet the load, or if the load decreases.

SYSTEM RUN-ON

Adjustable from 0min to 360min

Default: 0min

 

 

Button: MENU/<System Settings>/<More Settings>/System run-On

 

 

0min

• The SYS relay will energize whenever the Outdoor temperature (OD) is below the

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Outdoor Cutoff and the Shutdown is Open or the Tstat is closed. When the Outdoor

 

 

temperature increases 2°F above the Outdoor Cutoff after the last burner relay has de-

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energized, the SYS relay will stay on for a period set by the System Run-On.

 

 

A common use for the System Run-On is to control a system pump in a heating system. The extra time helps transfer the heat from the boilers to the heating system.

The System Run-On time should be set based on the size and type of the boilers and pumps. In general, a boiler with low water content and high horsepower will need a longer System Run-On than a boiler with the same horsepower and more water content. (Refer to boiler manufacturer recommendation)

SETBACK

Adjustable from 0F°/0C° to 75F°/42C°

Default: 0F°/0C°

Button: MENU/<System Settings>/<More Settings>/Setback

 

The Setback feature can be used to provide the BMC with a lower temperature Set Point when less load is required.

The lower Set Point will appear on the main display indicating this condition.

For example, if the calculated temperature is 180°F and the Setback is 20°F, then when in Setback, the BMC will hold a Set Point of 160°F.

A typical use for Setback is to provide less system temperature to a building during the night or on the weekends when building is not occupied, but heat is still required.

The amount of Setback selected is subtracted from the Set Point when a Setback Input Signal is received or the Night Time schedule setting started.

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SETBACK -----------

 

0 F

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Contents Installation and Operation Instructions Manual BMCContents BMC Layout Associated relay statusBMC Overview Reset RATIO/OUTDOOR Reset Understanding Operation ConceptMake Sure YOU have the Right Control Initial SetupSelecting the System Features Installation Mounting the EnclosureOutdoor Sensor Installation Install the SensorsHeating System Sensor HSS Installation Wiring Wiring the Power Terminals 1Wiring the Sensors Wiring the SHUTDOWN, TSTAT, or Setback Terminals 31Wiring the Prove Terminals 29 Wiring the Domestic HOT Water Call DHW Terminals 29Wiring the System Output Terminals 3 Wiring the BoilersWiring to Modulating Motors Connecting to the BMC-6X PanelsMenu Sequence 65 FSystem SETTINGS2 System SETTINGS1Maintenance Startup Settings Boost Mode not Available with Setback Normal, Parallel Default NormalButton MENU/System Startup/..../Boost Mode PROVE/DOMESTIC HOT Water DHWSetting the Control to Factory Defaults Sensor FaultButton MENU/System Startup/..../Sensor Fault Reset ModeOperating Settings SET Point not Adjustable in EMS ModeReset Ratio SeasonOutdoor Cutoff Temperature OffsetMinimum Water Temp Maximum Water TempSystem Settings Purge DelayGain Lead Boiler RotationSetback Standby DelaySystem RUN-ON Button MENU/System Settings/More Settings/Last Stg Hold Last Stage HoldDAY/NIGHT Schedules Avoiding Conflicting Boiler LimitsButton MENU/Histories HistorySET Time Maintenance SOFT-OFF DelaySystem & Outdoor Sensor Trim Output TrimConfiguration Button MENU/Maintenance/ConfigurationDisplay Display Boiler Modulation StatusBoiler Stage Settings ModeDisplay Messages Button StageCopy Settings Boiler a only Ignition %Modulation Start % Button STAGE/Ignition %Control Operation TroubleshootingSensor Inputs Boilers are Short-Cycling Direct Heating Piping Diagram Multiple Modulating BoilersDirect Heating Wiring Diagram External 4-20MA SET Point Using 4-20MA EMS Interface BMC-6X Specifications SpecificationsBMC Specifications