Weil McLain Boiler BMC User Manual

BMC and BMC-6X Installation and Operation Manual  
BMC  
BMC-6X  
AND  
HYDRONIC MODULATING BOILER CONTROL AND EXTENSION  
• INSTALLATION AND OPERATION INSTRUCTIONS MANUAL  
BMC  
Full Modulation Sequencing Control  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
INPUT RATINGS:  
115VAC 60Hz , 30VA MAX  
B
---  
---  
USE COPPER WIRE,  
CLASS 1 WIRE ONLY.  
C
D
C
US  
ENCLOSED  
ENERGY  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
A
RUN  
C
SHUTDOWN  
/TSTAT  
/SETBACK  
EXTENSION  
MODULE  
SYSTEM  
PROVE  
OUTDOOR SYSTEM  
TEMP TEMP  
B
D
PWR  
SYS  
A
B
C
D
CUR / VLT CUR / VLT CUR / VLT CUR / VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
RS-485  
L
1
N
2
T
O
T
O
O
O
-
-
-
-
+
+
+
+
+
+
+
+
3
4
5
6
7
8
9 10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
This Weil McLain control is strictly an operating control; it should never be used as a  
primary limit or safety control. All equipment must have its own certified limit and safety  
controls required by local codes. The installer must verify proper operation and correct any  
safety problems prior to the installation of this Weil McLain control.  
WARNING  
Part Number 550-100-072/0408
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BMC and BMC-6X Installation and Operation Manual  
BMC LAYOUT  
Program Switch to restrict access to  
function changes. This switch is  
covered with Wiring Enclosure.  
The digital display shows the system status, set point,  
lead stage <in brackets>, and status of each stage.  
To view and adjust settings, press the appropriate buttons.  
Buttons function is presented on  
Bottom Row of display.  
LED indicates the  
associated relay status.  
BMC  
Full Modulation Sequencing Control  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
B
C
D
INPUT RATINGS:  
115VAC 60Hz , 30VA MAX  
---  
---  
USE COPPER WIRE,  
CLASS 1 WIRE ONLY.  
C
US  
ENCLOSED  
ENERGY  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
RUN  
C
SHUTDOWN  
/TSTAT  
/SETBACK  
EXTENSION  
MODULE  
SYSTEM  
PROVE  
OUTDOOR SYSTEM  
TEMP TEMP  
A
B
D
PWR  
SYS  
A
B
C
D
CUR / VLT CUR / VLT CUR / VLT CUR / VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
RS-485  
L
1
N
2
T
O
T
O
O
O
-
-
-
-
+
+
+
+
+
+
+
+
3
4
5
6
7
8
9
10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
Four N.O. Boiler startup relay  
When connecting Outdoor and System  
Sensors, no Polarity is observed.  
Prove terminals must be connected  
for BMC to operate boilers.  
120VAC Power  
outputs. Each is wired in series  
with each boiler's limit circuit.  
System Output controls  
pumps, valves, or other  
system components.  
Four modulation outputs can be 0-5V,  
Connect Extension panels to  
add additional stages using  
a 6 pin phone line only (cable  
provided with BMC-6X).  
0-10V, 1-5V, 2-10V, or 4-20ma. Go to  
Startup Menu to determine the type of  
output for each stage.  
3
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BMC and BMC-6X Installation and Operation Manual  
BMC OVERVIEW  
SEQUENCES UP TO 4 FULLY MODULATING STAGES.  
The BMC is the perfect control whenever multiple fully modulating stages are required for hydronic heating applications. The BMC  
controls the on/off and the modulation of each stage to maintain precise system set point control.  
PID TYPE LOGIC  
The BMC’s control algorithms allow it to look at the rate of change in the system. If the system temperature is changing quickly, the BMC  
will react quickly to adjust the modulating stagesoutput. If the system temperature changes slowly, the BMC will make slow and gradual  
output adjustments. Therefore, the BMC adapts to specific system requirements and minimizes fluctuations around the set point.  
CONTROLS 0-5 V, 0-10 V, 1-5V, 2-10V, OR 4-20 MA MODULATING MOTORS  
The BMC is designed to accurately control the output from 0 to 100% of modulation for each of these different types of motors. One  
BMC can even control a variety of the above different motors.  
ONLY ONE SENSOR  
When Set Point sensor type is selected, the BMC requires only one sensor located in the common output header of all stages. However,  
when Reset is selected, an additional Outdoor Sensor is required for Outdoor Reset Ratio input.  
DIGITAL DISPLAY OF ALL SYSTEM SETTINGS  
The BMC’s alphanumeric digital display names each system parameter in simple English and shows its precise value. The easy to follow  
menu system allows users to quickly make changes to any system setting without having to learn any specialized codes or keyboard  
commands.  
AUTOMATIC ROTATION AMONG STAGES  
Rotating the first stage to be activated on a call for output promotes even wear on each stage. The BMC has three modes of rotation:  
Manual, Last On, or Time. The Time rotates the lead stage every selected time period from every hour to every 60 days.  
OUTDOOR RESET  
The BMC has a hydronic outdoor temperature reset function. This allows the BMC to change the set point based on outdoor temperature.  
Furthermore, additional settings have been added to fine tune this operation, like Offset, Minimum, and Maximum Water Temperature  
and night setback schedule.  
STANDBY BOILERS  
Each of the BMC stages can be configured as a Standby boiler with an adjustable Standby delay. A boiler can be used as a backup during  
extended large demand periods.  
SYSTEM OUTPUT  
In Set Point mode, this output can be used to activate a system pump, combustion air damper, or perform any other function that is required  
when any stage is active. In Outdoor Reset mode, the System Output will activate whenever the outdoor temperature is below the Outdoor  
Cutoff setting. A System Prove input checks the status of components activated by the System output before stages can be activated.  
STAGING (NORMAL) OR PARALLEL MODULATION  
The BMC can stage boilers as needed. That will allow it to increase the modulation on the lead boiler. When the lead boiler reaches  
its modulation start point adjustment and does not satisfy the load, the BMC will start the next boiler and so on... Moreover, the BMC  
allows for a parallel mode that can modulate several boilers together as a one large boiler. This mode is useful for boilers with lower  
water content, which are usually more efficient at lower firing points.  
ADD UP TO 16 BOILER STAGE (OPTIONAL)  
As a stand-alone, the BMC is designed to control four modulating boilers. However, it has the capability of expanding its control to two  
extension panels each with six boiler stages. Thus, the BMC can control a total of up to 16 boiler stages.  
4
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BMC and BMC-6X Installation and Operation Manual  
UNDERSTANDING OPERATION CONCEPT  
1:4 1:3  
1:2  
1:1.5  
220  
210  
200  
190  
180  
170  
160  
150  
140  
130  
120  
110  
100  
The BMC has multiple operating modes that satisfy most hydronic systems. It can change the  
System Set Point based on outdoor temperature (Outdoor Reset) or it can modulate its stages  
to achieve an adjustable fixed Set Point.  
1:1.25  
1:1  
In Outdoor Reset, the BMC controls a hot water heating system to provide a building with  
comfortable and even heat levels. The BMC varies the temperature of the circulating heating  
water in response to changes in the outdoor temperature. The heating water temperature is  
controlled through the modulation of stages.  
1.25:1  
1.5:1  
2:1  
3:1  
4:1  
The BMC also controls the system circulating pump with an adjustable Outdoor Cutoff. When  
the outdoor temperature is above Outdoor Cutoff, the pump is off and no heating water is  
circulated through the system. When the outdoor temperature drops below the Outdoor Cutoff,  
the system pump relay is activated and the heating water circulates through the system. The  
temperature of the heating water is controlled by the Reset Ratio, Water Offset, and changes  
with Outdoor temperature.  
50  
30  
0
-10  
70 60  
40  
20 10  
-20  
Outdoor Temperature (in °F)  
Reset Ratio is Presented as  
Outdoor Temp. : Water Temp. Ratio  
Reset Ratio Curves  
RESET RATIO/OUTDOOR RESET  
1:4  
1:1  
130  
When a building is being heated, heat escapes through the walls, doors, and windows to  
the colder outside air. The colder the outside temperature, the more heat escapes. If you  
120  
With a 0° Offset, the  
can input heat into the building at the same rate that it is lost out of the building, then  
the building temperatures will remain constant. The Reset Ratio is an adjustment that  
lets you achieve this equilibrium between heat input and heat loss.  
ratio curves begin at  
100° Water Temperature.  
110  
4:1  
100  
70  
60  
50  
40  
Outdoor Temperature  
The starting point for most systems is the 1.00 (OD):1.00 (SYS) (Outdoor Temperature  
: Heating Water Temperature) ratio. This means that for every degree the outdoor  
temperature drops, the temperature of the heating water will increase one degree. The  
starting point of the curves is adjustable, but comes factory selected at 70°F Outdoor  
Temp. and 100°F Water Temp. For example with a 1.00 (OD):1.00 (SYS) ratio, if the  
outdoor temperature is 50°F, this means the temperature has fallen 20° from the starting  
point of 70°F. Therefore, the heating water temperature will increase 20° to 120°F.  
1:4  
1:1  
110  
100  
90  
With a -20° Offset, the  
ratio curves begin at  
80° Water Temperature.  
-20 Offset  
50  
4:1  
8070  
60  
40  
Each building has different heat loss characteristics. A very well insulated building will  
not lose much heat to the outside air, and may need a Reset Ratio of 2.00 (OD):1.00  
(SYS) (Outdoor:Water). This means the outdoor temperature would have to drop  
2 degrees to increase the water temperature 1 degree. On the other hand, a poorly  
insulated building with insufficient radiation may need a Reset Ratio of 1.00 (OD):2.00  
(SYS). This means that for each degree the outdoor temperature dropped the water  
temperature will increase 2 degrees. The BMC has a full range of Reset Ratios to match  
any buildings heat loss characteristics.  
Outdoor Temperature  
1:4  
1:1  
150  
140  
130  
With a +20° Offset, the  
ratio curves begin at  
120° Water Temperature.  
4:1  
120  
A heating curve that relies not only on Outdoor temperature but also on type of radiation  
will improve heat comfort. The following are suggested initial settings for different  
types of radiation based on average building insulation and heat loss. The contractor  
can fine tune these adjustments based on the specific building need.  
90  
+20 Offset  
100  
70  
60  
50  
40  
Outdoor Temperature  
Type of Radiation in Building  
Radiators (Steel & Cast Iron)  
Baseboard (Finned copper tube& Cast Iron)  
Radiant (High Mass/Concrete)  
Radiant (Low Mass/Joists)  
Reset Ratio  
Offset  
0˚F  
1.00 (OD) : 1.00 (SYS)  
1.00 (OD) : 1.00 (SYS)  
4.00 (OD) : 1.00 (SYS)  
2.00 (OD) : 1.00 (SYS)  
1.00 (OD) : 1.00 (SYS)  
WARNING  
When controlling a non condensing  
boiler directly without the use of a  
mixing valve, minimum boiler water  
temperature must be set to boiler  
manufacturer specifications. In that  
case, system temperature must not go  
below such temperature.  
0˚F  
-10˚F  
-10˚F  
20˚F  
Fan Coils & Air Handlers  
5
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BMC and BMC-6X Installation and Operation Manual  
MAKE SURE YOU HAVE THE RIGHT CONTROL  
If you need the BCP-8W to do additional tasks that either are not listed or do not know how to set them, contact Weil McLain.  
INITIAL SETUP  
Setting an Initial Program will ease the configuration of the BMC and will give the opportunity to utilize many of the energy saving  
features and give more comfortable heat when needed.  
The program should consist of the following:  
Selecting the features that your system can utilize,  
Installation: Install the Control, switches and sensors,  
Setting the System Startup,  
Setting the System Settings,  
Setting the Stages  
Adjusting Reset Ratio and Water Offset (In Reset Mode Only)  
SELECTING THE SYSTEM FEATURES  
The BMC has been designed with Hydronic building heating as the primary purpose. With this in mind, many of the BMC features can  
be utilized to ease, enhance and improve your system performance. Some of these features are listed in this section.  
OUTDOOR RESET OR SET POINT  
The BMC can control the System Temperature either by adjusting the calculated temperature according to the Outdoor Temperature  
(Outdoor Reset) or by maintaining an adjustable Set Point. The earlier relies on an Outdoor Sensor (supplied with the control) and  
achieves better fuel savings in addition to better comfort.  
NUMBER OF STAGES  
The BMC can be configured to control up to 4 modulating boilers. It can control up to 16 boiler stages using a maximum of two  
BMC-6X Panels  
MODULATION MODE  
The BMC can stage boilers using one of two methods. Normal Modulation Mode, allows it to increase the modulation of the lead  
boiler. When the lead boiler reaches its modulation start point adjustment and does not satisfy the load, the BMC will start the next  
boiler and so on. This mode targets boilers that can run more efficient at higher modulation rates.  
The Parallel Modulation Mode can modulate several boilers together as a one large boiler. This mode is useful for boilers that are  
more efficient at lower firing points.  
MODULATING SIGNAL  
The BMC is designed to accurately control the output from 0 to 100% of modulation for each of these different types of motors. One  
BMC can even control a variety of the above different modulation motors.  
AUTOMATIC ROTATION AMONG BOILERS  
Rotating the first burner to be activated on a call for output promotes even wear on all burners. The BMC has three modes of rotation:  
Manual, Last-ON, or Time automatically rotating every selected time period from every hour to every 60 days.  
STANDBY BOILER  
Any boiler can be configured as a Standby boiler. It withholds a specific boiler from being included in the Lead Rotation. However,  
the Standby boiler will be fired only as a backup when all other stages combined cannot satisfy the demand and after an adjustable  
delay period.  
SETBACK OR DAY/NIGHT SCHEDULING  
Two Setback modes are available for the BMC:  
The Day/Night Scheduling provides an adjustable time-based schedule for the Setback.  
The Setback mode uses an external signal to switch the operation of the BMC in and out of setback mode.  
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System Run-On  
This feature lets the BMC run the SYS relay for a longer period after the boilers have been turned off. When this relay is used to  
control a pump, it helps in dissipating the excess heat from the boilers combustion chamber.  
INSTALLATION  
Each of the BMC or BMC-6X consists of three primary enclosure components.  
The Enclosure Display Module: contains the display, buttons, LEDs and electric wiring terminals. It has two screws to hold it  
to the base. A program configuration switch, used to adjust BMC settings, is placed above the terminals. This switch is enclosed  
with the enclosure wiring cover for security. Wiring terminals are of the plug-in type to ease installation and removal.  
The Enclosure Base: contains the holes to mount and hold the control against the wall or any flat surface. All other enclosure  
components mount on the base. The bottom section of the Enclosure Base contains the wiring chamber with knockouts on the  
bottom to easy installation.  
The Enclosure Wiring Cover: seals the wires from the external environment. It has two screws to hold it the base and a hole to  
secure a lock on the wiring enclosure. A plastic web that separates the wiring chamber into high and low volt sections has been  
provided.  
Enclosure Display Module  
MOUNTING THE ENCLOSURE  
Select a location near the equipment to be controlled.  
The surface should be flat and sufficiently wide and strong to hold the BMC  
or BMC-6X.  
Keep the control away from extreme heat, cold, or humidity. Ambient  
operating temperature is from 20 to 120°F.  
Remove the Enclosure Wiring Cover from the control enclosure by  
removing the two bottom screws.  
Remove the Enclosure Display Module by removing the middle screws.  
Screw the Enclosure Base to the surface through the upper and lower  
mounting holes on the back of the enclosure.  
Replace the Enclosure Display Module and replace the middle screws.  
Do not replace the enclosure wiring cover until all wiring is done.  
When purchasing a padlock for the enclosure, the maximum shank diameter  
should not exceed ¼"  
Enclosure Wiring Cover  
Enclosure Base  
Hole for optional lock  
Mounting Base  
Display Mounting Screws  
Wiring Cover Mounting Screws  
7
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BMC and BMC-6X Installation and Operation Manual  
Immersion Heating System Sensor  
INSTALL THE SENSORS  
Immersion Well  
3/8" ID 1/2" NPT  
Common Supply Pipe  
HEATING SYSTEM SENSOR (HSS) INSTALLATION  
Shield  
LOCATING HSS  
Put the Heating System sensor approximately 10' feet past the last boiler on  
the common supply header but before any major takeoffs.  
Heating System  
Sensor  
Sensor Probe  
The sensor must be located where it sees the output of all the boiler stages. If  
a boiler is piped so that the sensor does not see its output, the BMC will not  
sequence the boilers correctly.  
Strap-On Heating System Sensor  
Common Supply Pipe  
Pipe Insulation  
Only use a Standard Brass Tube sensor (389-900-230).  
The sensor wires can be extended up to 500' using a shielded 2-conductor  
cable (Belden #8760 or equivalent). Do not ground the shield at the sensor  
but at the panel using one of the terminals marked with an “O”.  
Do not run sensor wires in conduit with line voltage wiring.  
IMMERSION HEATING SYSTEM SENSOR (HSS) INSTALLATION  
Shield  
Sensor Probe  
Install a 3/8"ID 1/2"NPT immersion well (592-300-023 or equivalent).  
Insert the sensor probe of the supplied sensor into the well.  
ALERT  
STRAP-ON HEATING SYSTEM SENSOR (HSS) INSTALLATION  
If the HSS can not sense the correct  
heating system water temperature being  
supplied to the building, the BMC will not  
provide comfortable heat levels. Be sure  
the HSS is located on a main supply pipe  
which can not easily be isolated from the  
system.  
Strap the sensor to the pipe using metal clamps. Do not over tighten the  
clamp.  
Strap pipe insulation around the sensor and pipe.  
OUTDOOR SENSOR INSTALLATION  
Outdoor Sensor  
Only use the Weil McLain sensor included with the unit (389-900-229).  
Locate the sensor in the shade on the north side of the building. The sensor  
should never be in direct sunlight.  
Seal around  
sensor and wall  
Be sure the location is away from doors, windows, exhaust fans, vents, or  
other possible heat sources.  
Outdoor  
Sensor  
The sensor should be mounted approximately 10' feet above ground level.  
Adhere the Outdoor Label provided to the back of the sensor base.  
Use the Enclosure Base bottom knockout for the conduit. Use the locknut to  
hold the conduit and enclosure base together. Screw the cover to the base.  
If screws are used to affix the enclosure to the wall, make sure to seal around  
the sensor and wall except from the bottom.  
snap-in  
location  
Mounting  
screws  
location  
Shield  
not connected  
The sensor wires can be extended up to 500' using shielded 2-conductor cable  
(#18/2). Do not ground the shield at the sensor but at the control using the  
terminal marked with an “O”.  
Outdoor Label  
on back of Sensor  
Do not run sensor wires in conduit with line voltage wiring.  
Outdoor  
drip-hole  
Conduit  
WARNING  
The BMC is an operating control only. All boilers must have all  
safety and limit controls required by code. It is the responsibility  
of the installer to verify that all the safety and limits are working  
properly before the BMC is installed.  
ALERT  
Determining the proper location for the Outdoor Sensor is very important. The BMC will base the heat on the  
outdoor temperature information it receives from this location. If the sensor is in the sun, or covered with ice,  
its reading will be different from the actual Outdoor temperature (OD).  
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WIRING  
PWR  
L
1
N
2
WIRING THE POWER (TERMINALS 1, 2)  
Bring the 120VAC 60Hz power wires through the bottom Knockout of the enclosure.  
Class 1 voltages must enter the enclosure through a different opening from any Class 2 voltage wiring.  
Connect the hot line to terminal marked L.  
120VAC  
Power Source  
Connect the neutral line to the terminal marked N.  
Weil McLain recommends installing a surge suppressor on the power source to the BMC.  
WARNING  
Class 1 voltages must enter the enclosure through a different opening from any Class 2 voltage wiring.  
Weil McLain recommends installing a surge suppressor on the power source to the BMC.  
OUTDOOR SYSTEM  
TEMP TEMP  
PRO  
/DHW  
WARNING  
T
O
T
O
25 26 27 28 29  
Connect the shield at the control terminal end and cut the shield wire at the sensor end.  
WIRING THE SENSORS  
SYSTEM SENSOR WIRING (TERMINALS 27, 28)  
A BMC must be connected to a temperature sensor located in the common header.  
The BMC is designed to be connected to a 389-900-230 temperature sensor for immersion in a 3/8ID  
well (592-300-023 or equivalent). Contact the factory for additional temperature sensor options.  
Temperature sensor wires can be extended up to 500’ by splicing shielded  
2-conductor cable (Belden #8760 or equivalent (#18/2)).  
Temperature sensors have no polarity. Connect the two wires from the  
sensor to the BMC terminals marked SYSTEM TEMP 27, 28.  
Connect the sensor shield to the circled terminal 28 with one of the sensor wires.  
OUTDOOR SYSTEM  
TEMP TEMP  
PR  
/D  
T
O
T
O
25 26 27 28 29  
OUTDOOR SENSOR WIRING (TERMINALS 25, 26)  
When Outdoor Reset is selected, the BMC will vary the system Set Point based on outdoor temperature.  
Whether in Set Point or Outdoor Reset modes, the outdoor sensor can be used as an Outdoor Cutoff. The BMC  
will disable all boilers when the outdoor temperature is above the adjustable Outdoor Cutoff temperature. This  
feature will automatically be activated when an outdoor sensor is connected.  
For an outdoor sensor use a Weil McLain outdoor sensor (389-900-229).  
The sensor wires can be extended up to 500’ using shielded 2-conductor cable (Belden #8760 or equivalent  
(#18/2)).  
t
Temperature sensors have no polarity. Connect the wires from the outdoor sensor to the BMC terminals marked  
OUTDOOR TEMP - 25, 26.  
Connect the shield to the circled terminal 26 with one of the sensor wires.  
EM  
P
PROVE  
/DHW  
SHUTDOWN  
/SETBACK  
WIRING THE SHUTDOWN, TSTAT, OR SETBACK (TERMINALS 31, 32)  
O
O
O
The Shutdown will be available when selected as the Shutdown/Tstat/Setback mode from the Startup menu. See  
page 15. This will provide the user with a customizable Day/Night Schedule. See page 21.  
The Shutdown feature can be used whenever it is desirable to turn off the BMC stage outputs from a remote  
location or another controller (i.e. EMS input).  
28 29 30 31 32  
The Tstat option, when selected from the Shutdown/Tstat/Setback startup menu, provide the capability of  
controlling the operation of the BMC based on a thermostat input.  
The thermostat will provide the BMC with a call for heat by shorting terminals 31 and 32.  
When the Shutdown input is enabled by closing the dry contact, or when the Tstat input is disabled by opening  
the dry-contact, all active boilers will immediately modulate down to low for the Soft-Off period, then turn off.  
The System Output relay will remain active until the System Delay is over and then it will turn off.  
Shutdown,  
T-Stat, or  
Setback Signal  
When Setback is selected in the Startup, a BMS/EMS or external clock can provide a Setback signal using these input terminals.  
The signal must be a dry contact only. No voltage can be placed across the SHUTDOWN/TSTAT/SETBACK terminals.  
Bring the two wires from the dry contact to the terminals marked SHUTDOWN/TSTAT/SETBACK- 31,32.  
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BMC and BMC-6X Installation and Operation Manual  
DOOR SYSTEM  
EMP TEMP  
PROVE  
/DHW  
SHUTDOW  
/SETBACK  
WIRING THE PROVE (TERMINALS 29, 30)  
O
T
O
O
O
The Prove feature is provided to check system component operation and must be selected in the Startup Menu.  
See page 15.  
26 27 28 29 30 31 32  
A typical use of this feature is to check for pump flow before firing any boiler.  
If the PROVE input is open on a call, the BMC will enable only the System Output. All boiler outputs will be  
off when the PROVE input is open.  
A factory-installed jumper provides the System Prove signal. Do not remove the jumper unless it will be  
replaced by a System Prove signal or use the terminals for DHW call.  
Bring the two wires from the dry contact to the terminals marked PROVE - 29, 30. No voltage can be placed  
across the PROVE terminals  
Prove Signal  
WARNING  
The PROVE input cannot be used as a safety limit. All equipment must have its own  
certified limit and safety controls as required by local codes. If Prove is selected in the  
startup menu, no boiler stage will start unless Prove terminals are shorted. DO NOT  
remove the PROVE jumper supplied unless replacing it with a Prove signal.  
DOOR SYSTEM  
EMP TEMP  
PROVE  
/DHW  
SHUTDOW  
/SETBACK  
O
T
O
O
O
5 26 27 28 29 30 31 32  
WIRING THE DOMESTIC HOT WATER CALL DHW (TERMINALS 29, 30)  
DHW can be used to raise system Set Point to 200°F or Maximum Water temperature, whichever is lower.  
DHW with or without Priority must be selected in the Startup Menu. See page 15.  
DHW Call terminals are dry contact N.O. terminals.  
Wire an aquastat or other controls to provide closure on the DHW Call terminals.  
Remove the jumper on the DHW terminals for proper operation.  
DHW Signal  
WIRING THE SYSTEM OUTPUT (TERMINALS 3, 4)  
SYS  
A
3
4
5
6
System Output Operation in Set Point Mode  
The SYS output relay will energize when the outdoor temperature drops below the Outdoor Cutoff or whenever  
a boiler output is active. If no outdoor sensor is connected and the last boiler relay has de-energized, the SYS  
relay will remain energized for a period set by the System Run-On. See page 20.  
L
N
No boilers will be activated until the prove input is shorted. If a Prove is not required, the factory-installed  
jumper should remain connected.  
System Pump  
or Pump Starter  
A typical use of the SYS output is to activate a system pump starter. The pump can run whenever there is a call  
for heat. When heat is no longer required, the pump will stay active for an adjustable Pump Run-On delay.  
System Output Operation in Reset Mode  
The SYS output relay will energize whenever the outdoor temperature is below the Outdoor Cutoff.  
The SYS will remain constantly energized while the outdoor temperature is below the Outdoor Cutoff.  
When the outdoor temperature rises 2°F above the Outdoor Cutoff, the SYS output will remain energized for  
the period set by the System Run-On. See page 20.  
The SYS output has one Normally Open (N.O.) relay contact rated for (1/8HP).  
The N.O. contacts are dry contacts only. They do not source any voltage.  
Class 1 voltages must enter the enclosure through a different opening from any Class 2 voltage wiring.  
Each N.O. contact is capable of switching 6A resistive at 120VAC.  
WIRING THE BOILERS  
A
B
C
5
6
7
8
9
10 11  
WIRING THE BOILER OUTPUTS (A TERMINALS 5, 6), (B TERMINALS 7, 8), ...  
Each boiler output (A through D) has one Normally Open (N.O.) relay contact.  
The N.O. contacts are dry contacts only. They do not source any voltage.  
Each N.O. contact is capable of switching 1Amp inductive (1/8HP), or 6A resistive at 120VAC.  
Total output of all boilers, including the SYS, must not exceed 15A.  
Boiler  
Boiler Enable  
Output  
Wire the N.O. relay contacts in series with the unit’s limit circuit.  
Class 1 voltages must enter the enclosure through a different opening from any Class 2 voltage wiring.  
Note that some boilers may not require the use of these outputs.  
10  
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BMC and BMC-6X Installation and Operation Manual  
A
WIRING TO MODULATING MOTORS  
CUR / VLT CUR  
GND mA VLT GND  
+
The BMC can modulate any combination of the following motors. The Output Type must be selected properly  
before connecting any output wires to avoid damage components. See Output Type on page 11.  
-
-
+
13 14 15 16 1  
WIRING THE 4-20MA MODULATING MOTORS (A TERMINALS 13, 14), (B TERMINALS 16, 17),...  
The BMC can operate up to four 4-20 mA modulating motors.  
4-20mA  
+
-
The BMC-6X can operate up to six 4-20 mA modulating motors.  
Burner  
Motor  
The BMC and the BMC-6X sources 24VDC excitation voltage for the 4-20mA signal.  
Wire the (-) from the modulating motor to the boiler terminal on the BMC marked (GND). That is for boiler A,  
the modulating (-) terminal will be 13.  
Wire the (+) from the modulating motor to the boiler terminal on the BMC marked (mA). That is for boiler A,  
the modulating (-) terminal will be 14.  
Boiler 4-20mA  
Modulation Output  
C
D
UR / VLT CUR / VLT  
D
mA VLT GND mA VLT  
WIRING THE VOLTAGE MODULATING MOTORS (A TERMINALS 13, 15), (B TERMINALS 16, 18),...  
-
+
+
+
+
9 20 21 22 23 24  
The BMC can operate up to four 0-5V, 0-10V, 1-5V, or 2-10V modulating motors.  
The BMC-6X can operate up to six 0-5V, 0-10V, 1-5V, or 2-10V modulating motors.  
Wire the (GND) from the modulating motor to the boiler terminal on the BMC marked (GND). That is for  
boiler D, the modulating (GND) terminal will be 22.  
Voltage  
GND  
Wire the (V+) from the modulating motor to the boiler terminal on the BMC marked (VLT+). That is for  
boiler D, the modulating (V+) terminal will be 23.  
V+  
Burner  
Motor  
Boiler Voltage  
Modulation Output  
CONNECTING TO THE BMC-6X PANELS  
The BMC is equipped with a 6-pin phone socket (RS485) to connect to extension panels. The BMC-6X is equipped with two  
6-pin phone sockets to connect to BMC and an additional BMC-6X.  
Configure the Output Types (see page 11) after connecting the Extension panels to be able to configure their outputs.  
Only 6-wire phone cable must be used for proper operation.  
Connection cable is provided as part of the BMC-6X package.  
Phone cables must be of a 6-wire with 6-pin terminals. Phone cables can extend up to 100'.  
BMC  
BMC-6X A  
BMC  
BMC-6X  
Full Modulation Sequencing Control  
Full Modulation Sequencing Extension  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
B
C
D
E K  
G M  
F L  
C
US  
INPUT RATINGS:  
115VAC 60Hz 30VA MAX  
H N  
ENCLOSED  
ENERGY  
,
---  
---  
INPUT RATINGS:  
115VAC 60Hz, 12VA MAX  
MANAGEMENT  
EQUIPMENT  
USE COPPER WIRE,  
I
O
J
P
CLASS  
1
WIRE ONLY.  
LISTED  
99RA  
Use Copper Conductors Only.  
Comm  
Power  
C
US  
ENCLOSED  
ENERGY  
CAUTION: Risk of Electric Shock.  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
RUN  
C
Ext  
A
Ext  
B
SHUTDOWN  
EXTENSION  
MODULE  
OUTDOOR SYSTEM  
TEMP TEMP  
PROVE  
/DHW  
A
CUR  
B
D
VLT  
EXTENSION  
MODULE  
PWR  
SYS  
A
B
C
D
/TSAT  
I
O
J
P
/
PWR  
E
3
K
4
F
5
L
G
7
M
8
H
9
N
I
O
J
P
/
VLT CUR  
/
VLT CUR  
/
VLT CUR  
/
/SETBACK  
CUR  
/
VLT CUR  
VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
L
1
N
2
T
O
T
O
O
O
RS-485  
GND GND GND mA VLT mA VLT  
GND  
GND  
GND  
L
1
N
2
RS-485  
-
-
-
-
+
+
+
+
+
+
+
+
3
4
5
6
7
8
9
10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
6
10 11 12 11 12  
13 14 15  
17 18 19 20 21  
23 24 25 26 27 29 30  
28  
16  
22  
BMC-6X B  
BMC-6X  
Full Modulation Sequencing Extension  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
E K  
G M  
F L  
Connecting BMC to  
Two Extension Panels  
using RS485  
C
US  
H N  
ENCLOSED  
ENERGY  
INPUT RATINGS:  
115VAC 60Hz, 12VA MAX  
MANAGEMENT  
EQUIPMENT  
I
O
J
P
LISTED  
99RA  
Use Copper Conductors Only.  
Comm  
Power  
CAUTION: Risk of Electric Shock.  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
Ext  
A
Ext  
B
EXTENSION  
MODULE  
I
O
J
P
/
PWR  
E
3
K
4
F
5
L
G
7
M
8
H
9
N
I
O
J
P
CUR  
/
VLT CUR  
VLT  
GND GND GND mA VLT GND mA VLT  
GND  
GND  
GND  
L
1
N
2
RS-485  
6
10 11 12 11 12  
13 14 15  
17 18 19 20 21  
23 24 25 26 27 29 30  
28  
16  
22  
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BMC and BMC-6X Installation and Operation Manual  
MENU SEQUENCE  
----------- SETTINGS ------------  
------------- SEASON --------------  
Winter  
Summer  
------- OUTDOOR CUTOFF -------  
Season  
Winter  
70 F  
Set Point  
<System Settings>  
<Maintenance>  
<Histories>  
65  
F
[]  
<System Startup>  
BACK  
SAVE  
BACK  
SAVE  
BACK  
SELECT  
Reset Ratio  
------------ SET POINT ----------  
--- MINIMUM WATER TEMP ----  
70  
F
[]  
70  
F
STARTUP  
[]  
BACK  
SAVE  
-------- SYSTEM STARTUP ------  
--------- RESET RATIO ----------  
1.00 OD=4.00 Sys  
1.00 OD=3.00 Sys  
1.00 OD=2.00 Sys  
1.00 OD=1.50 Sys  
1.00 OD=1.25 Sys  
1.00 OD=1.00 Sys  
1.25 OD=1.00 Sys  
1.50 OD=1.00 Sys  
2.00 OD=1.00 Sys  
3.00 OD=1.00 Sys  
4.00 OD=1.00 Sys  
BACK  
SAVE  
(START)  
to continue  
--- MAXIMUM WATER TEMP ----  
240  
F
BACK  
START  
[]  
------------- WARNING ------------  
BACK  
SAVE  
THESE SETTINGS  
CHANGE PRIMARY  
BACK  
SAVE  
SYSTEM FUNCTIONS.  
-------------- OFFSET -------------  
--- SYS= 91 F, 10:57Am ---  
BACK  
CONTINUE  
+0  
F
[]  
-------- ARE YOU SURE? -------  
No  
Yes  
BACK  
SAVE  
BACK  
NEXT  
--- OD= 54 F, 11:36Am ---  
HISTORIES  
BACK  
SAVE  
Reset Options  
---------- SENSOR TYPE ---------  
Set Point F  
Set Point C  
Reset F  
----- EMS 20ma SETPOINT-----  
BACK  
EXIT  
220  
F
Reset C  
[
]
BACK  
SAVE  
BACK  
SAVE  
Set Point  
------ EMS INPUT MODE -------  
Disable  
Enable  
------ EMS 4ma SETPOINT------  
------- OUTPUT A TYPE --------  
4-20ma  
0-10v  
0-5v  
2-10v  
1-5v  
120  
F
[
]
BACK  
SAVE  
BACK  
SAVE  
BACK  
SAVE  
------ MODULATION MODE ------  
Normal  
Parallel  
----- PROVE/DHW SHARING ----  
Prove  
DHW Without Priority  
DHW With Priority  
------- OUTPUT D TYPE --------  
4-20ma  
0-10v  
0-5v  
2-10v  
1-5v  
BACK  
SAVE  
BACK  
SAVE  
BACK  
SAVE  
Setback Input  
---------- BOOST MODE ---------  
30 Minutes  
Disabled  
--------- SENSOR FAULT --------  
All Off  
All On  
----- SETBACK/SHUTDOWN -----  
Shutdown Input  
Tstat Input  
Setback Input  
BACK  
SAVE  
BACK  
SAVE  
BACK  
SAVE  
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BMC and BMC-6X Installation and Operation Manual  
---------------- GAIN --------------  
----------- SETTINGS ------------  
Season  
Set Point  
Winter  
70 F  
+0  
F
[]  
<System Settings>  
<Maintenance>  
<Histories>  
SYSTEM SETTINGS1  
BACK  
SAVE  
---------- SETTINGS 1 ----------  
<System Startup>  
Gain  
+0  
Time  
0.0min  
0min  
BACK  
SELECT  
Lead Rotation  
Purge Delay  
Lag Delay  
-------- LEAD ROTATION -------  
Manual  
Time  
<More Settings>  
Last-On  
BACK  
SELECT  
MAINTENANCE  
BACK  
SAVE  
---------- MAINTENANCE ---------  
--- AUTO ROTATE PERIOD ---  
System Trim  
+0 F  
+0 F  
45sec  
Outdoor Trim  
Soft-Off Delay  
<Output Trim>  
<Configuration>  
SYSTEM SETTINGS2  
24hrs  
[]  
---------- SETTINGS 2 ----------  
BACK  
SELECT  
Standby Time  
System Run-On  
Setback  
Last Stage Hold  
Set Time  
10min  
0min  
0 F  
0 F  
12:03Pm  
BACK  
SAVE  
---- MANUAL LEAD STAGE ----  
A
B
C
D
E
------- SOFT-OFF DELAY --------  
<Day/Night Schedules>  
BACK  
SELECT  
45sec  
[]  
BACK  
SAVE  
--- DAY/NIGHT SCHEDULES ---  
BACK  
SAVE  
Set Time  
Day Schedule  
Night Schedule  
**:**  
**:**  
**:**  
--------- PURGE DELAY ---------  
-- OUTDOOR SENSOR TRIM ----  
0.0min  
[]  
BACK  
SELECT  
+0  
F
[]  
BACK  
SAVE  
-------------- SETBACK -----------  
BACK  
SAVE  
----------- LAG DELAY -----------  
0
F
--- SYSTEM SENSOR TRIM ----  
[]  
0min  
[]  
BACK  
SAVE  
+0  
F
[]  
BACK  
SAVE  
-------- SYSTEM RUN-ON --------  
BACK  
SAVE  
0min  
[]  
------ CONFIGURATION 1 ------  
v1.00c  
------ LAST STAGE HOLD ------  
Reset F  
Normal  
Day/Night Schedules  
All Off  
BACK  
SAVE  
0
F
[]  
-------- STANDBY DELAY --------  
BACK  
NEXT  
BACK  
SAVE  
10min  
[]  
----- SET PRESENT TIME -----  
11:**Pm  
------ CONFIGURATION 2 ------  
A=4-20ma  
C=0-5v  
B=0-10v  
D=2-10v  
BACK  
SAVE  
BACK  
SAVE  
BACK  
EXIT  
-------- STAGE A TRIM --------  
Output Trim  
<Prev Stage>  
<Next Stage>  
+0.0  
ALERT  
To be able to change the BMC  
settings the Program/Run Switch  
must be set to Program. The switch  
is located under the Enclosure  
Wiring Cover for security. The  
Enclosure Wiring Cover can be  
securely closed using a lock.  
BACK  
SELECT  
-------------- STAGE A -----------  
OUTPUT TRIM  
+0.0  
[]  
BACK  
SAVE  
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BMC and BMC-6X Installation and Operation Manual  
STARTUP SETTINGS  
ALERT  
A good practice after performing any Startup menu modifications is to  
check all operating settings and adjustments to match the new settings.  
PROGRAM CHANGE SETTINGS  
To be able to change the BMC settings the Program/Run Switch must be set to Program. The  
switch is located under the Enclosure Wiring Cover for security. The Enclosure Wiring Cover  
can be securely closed using a lock.  
PROGRAM  
RUN  
STARTUP SEQUENCE  
-------- SYSTEM STARTUP ------  
Button: MENU/<System Startup>  
(START)  
to continue  
When powered, the BMC performs a self diagnostics-test on its components.  
On the first power up, the System Startup screen will appear after the initialization is  
complete. If it doesn’t, the BMC has already been configured.  
The System Startup menu sets the main parameters like the type of sensor, the type of  
output, and the modulating mode.  
BACK  
START  
SENSOR TYPE  
---------- SENSOR TYPE ---------  
Set Point F  
Set Point C  
Reset F  
Set Point °F, Set Point °C, Reset °F, Reset °C  
Button: MENU/<System Startup>/..../Sensor type  
Default: Set Point °F  
Reset mode is only available if an outdoor sensor is connected to terminals 25 and 26.  
DO NOT select Reset without an outdoor sensor.  
Reset C  
The same Weil McLain temperature sensor can display in either °F or °C.  
If °F is selected, all temperatures and settings will be displayed in degrees Fahrenheit and  
the BMC will operate as a Set Point Control in degrees Fahrenheit.  
If °C is selected, all temperatures and settings will be displayed in degrees Celsius and  
the BMC will operate as a Set Point Control in degrees Celsius.  
Set point mode does not require an outdoor sensor. If an outdoor sensor is connected in  
Set Point mode it will be used only as an outdoor cutoff point. That is, to turn the boilers  
and system pump off.  
BACK  
SAVE  
------ EMS INPUT MODE -------  
Disable  
Enable  
EMS INPUT MODE (AVAILABLE IN SET POINT ONLY)  
Disable, Enable  
Default: Disable  
BACK  
SAVE  
4mAAdjustable from 70ºF/21ºC to 200ºF/93ºC  
20mAAdjustable from 90ºF/32ºC to 240ºF/116ºC  
Button: MENU/<System Startup>/..../EMS Input Mode  
Default: 140ºF/ 60ºC  
Default: 200ºF/ 93ºC  
------ EMS 4ma SETPOINT------  
120 F  
This allows the BMC to receive an external set point from an EMS/BMS system.  
[
]
You must select the 4mA (min) and 20 mA (max) Set Points in the following screen.  
The 4mA can be set to any temperature between 70ºF to 200ºF.  
The 20mA can be set to any temperature between 90ºF to 240ºF. However, the minimum  
must be 20ºF higher than the 4mA setting.  
BACK  
SAVE  
Connect the 4-20mA EMS Control Interface to the BMC RS485 connection.  
------- OUTPUT A TYPE --------  
SELECTING THE OUTPUT TYPE  
4-20ma  
0-10v  
0-5v  
2-10v  
1-5v  
4-20mA, 0-5V, 0-10V, 1-5V, or 2-10V Outputs  
Default: 0-10V  
Button: MENU/<System Startup>/..../Output A type/Output B type  
Outputs can be configured for 4-20mA operation (current) or the voltage range can be  
BACK  
SAVE  
selected (0-5V, 0-10V, 1-5V, 2-10V).  
Check the modulating motor to determine its control requirements.  
When using Extension panels, connect them prior to configuring the Output Type. Otherwise, the BMC will not configure them  
properly.  
Select the appropriate Output Type for each of the boilers. The BMC can have a different Output type for each boiler.  
14  
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BMC and BMC-6X Installation and Operation Manual  
SELECTING THE MODULATING MODE  
------ MODULATION MODE ------  
Normal  
Parallel  
Normal, Parallel  
Default: Normal  
Button: MENU/<System Startup>/..../Modulating Mode  
Some modulating boilers perform better as their modulation increases. For these  
units, it is advantageous to run one unit at high modulation than several units at lower  
modulation. If the units used are of this type, select Normal. This is the recommended  
setting for typical steel and cast iron boilers or boilers with low turndown ratios.  
BACK  
SAVE  
There are many condensing boilers that run more efficiently at lower modulation. If it is more energy efficient to run several  
units at lower modulation than one at high, select Parallel. This is typically used on water-tube boilers, low mass boilers, or  
burners with high turndown ratios.  
----- PROVE/DHW SHARING ----  
PROVE/DOMESTIC HOT WATER (DHW)  
Prove, DHW Without Priority, DHW With Priority  
Button: MENU/<System Startup>/..../Prove-DHW Sharing  
Prove  
DHW Without Priority  
DHW With Priority  
Default: Prove  
Input Terminals 29 and 30 can be used with either of the above features.  
BACK  
SAVE  
When Prove is selected, the BMC will not start any boiler stage unless Prove terminals  
are connected.  
Using those terminals to connect to an aquastat for a Domestic Hot Water call and selecting either of the DHW options will  
raise the calculated water temperature to the lower of 200°F or Max Water Temperature.  
Domestic Hot Water Without Priority allows the SYS relay, mostly controlling a primary system pump, to remain energized  
during a domestic hot water call (aquastat call on terminals 29 and 30). In Summer, Shutdown, No Tstat call for heat, or when  
outdoor temperature is above Outdoor Cutoff, a DHW call will energize the SYS relay. After the DHW call termination, the  
SYS relay will continue to run for the System Run-On period before turning off.  
However, Domestic Hot Water With Priority de-energizes the SYS relay during a domestic hot water call (aquastat call on  
terminals 29 and 30) for a period of one hour. If after the hour period the DHW call still exist, the SYS relay will energize and  
the BMC will continue in the higher temperature setting until the domestic hot water call has terminated.  
----- SETBACK/SHUTDOWN -----  
Shutdown Input  
Tstat Input  
SHUTDOWN/TSTAT/SETBACK MODE  
Shutdown Input, Tstate Input, Setback Input  
Button: MENU/<System Startup>/..../Setback\Shutdown  
Default: Shutdown Input  
Setback Input  
The BMC has two levels of heat, a Normal/Day and a Setback/Night. The Normal is  
BACK  
SAVE  
good for when buildings are occupied and people are active. The Setback/Night holds a  
lower system temperature and is for when buildings are unoccupied or inactive.  
When Shutdown or Tstat are selected, the Day/Night Schedules (see page 21) will be available in the operating menu.  
Terminals 31 and 32 will function as a Shutdown (Turn off boilers when shorted) or Tstat (Turn off boilers when opened) of the  
heat functions. However, a call for DHW will bring the boilers on.  
When Setback is selected, the External Signal option will switch the BMC to Setback mode when shorted on terminals 31 and  
32. This allows the BMC to be managed by an external device or control to provide setback. No scheduling or boost menu  
options will be available with Setback.  
---------- BOOST MODE ---------  
30 Minutes  
Disabled  
BOOST MODE (NOT AVAILABLE WITH SETBACK)  
30 Minutes, Disabled  
Default: 30 Minutes  
Button: MENU/<System Startup>/..../Boost Mode  
If you do not want a Boost simply select Disabled from the Boost Menu.  
Boost is only available if Shutdown or Tstat is selected as a previous option.  
BACK  
SAVE  
The morning Boost is designed to return the building to comfortable ambient temperatures after the cooler Night (Setback)  
period. The BMC will accomplish this by running elevated water temperatures (will add Setback setting to calculated water  
temperature) for 30 minutes before the start of the Day schedule setting. That is, if the normal day set point at a specific outdoor  
was 145˚F and the Setback setting was 20˚F, the boost will raise the system calculated temperature to 165˚F for 30 minutes  
before the start of the Day Schedule setting.  
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BMC and BMC-6X Installation and Operation Manual  
SENSOR FAULT  
--------- SENSOR FAULT --------  
All Off  
All On  
All Off, All On  
Default: All On  
Button: MENU/<System Startup>/..../Sensor Fault  
The Sensor Fault will determine the operating status of all output stages that are set to Auto  
when a sensor reads Short or Open.  
BACK  
SAVE  
RESET MODE  
When All-On is selected, the BMC will turn all boilers On to a 100% when System reads Short or Open and Outdoor is below  
Outdoor Cutoff. When Outdoor reads Short or Open, the BMC will turn all boilers On to a 100%.  
When All-Off is selected, the BMC will turn all boilers Off when either System or Outdoor sensor reads Short or Open.  
SET POINT MODE  
When All-On is selected, the BMC will turn all boilers On to a 100% when the System sensor reads Short or Open.  
When All-Off is selected, the BMC will turn all boilers Off when the System sensor reads Short or Open.  
The Outdoor Sensor Short or Open status will not affect the control operation in Set Point mode.  
SETTING THE CONTROL TO FACTORY DEFAULTS  
To Reset the BMC control to its original factory defaults, power down the control. Hold  
TOTAL CLEAR STARTED  
down the two right most buttons while powering the control back up until the Total  
Clear Startedscreen appears. The Display will direct you to the Startup menu to  
program the control after the defaults are loaded.  
Release buttons  
and  
Please Wait  
NOTE: When resetting the control to original factory defaults all control settings will be overwritten and will no longer exist.  
ALERT  
Do not turn off power to control until all Startup settings have been made. Otherwise, the next  
power-up will be set to many Startup factory settings that might not fit your application.  
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BMC and BMC-6X Installation and Operation Manual  
OPERATING SETTINGS  
PROGRAM CHANGE SETTINGS  
PROGRAM  
RUN  
To be able to change the BMC settings the Program/Run Switch must be set to Program. The  
switch is located under the Enclosure Wiring Cover for security. The Enclosure Wiring Cover  
can be securely closed using a lock.  
------------- SEASON --------------  
Winter  
Summer  
SEASON  
Winter, Summer  
Default: Winter  
Button: MENU/Season  
The BMC will turn all boiler relays off when it is in Summer setting. However, a DHW  
call will bring boilers back on if needed. The Message Display Line will display Summer  
to show status.  
When in Winter, the BMC will activate the Sys relay whenever the Outdoor temperature  
(OD) falls to or below the Outdoor Cutoff setting. In addition, it will begin heating  
whenever the System temperature (SYS) falls below the Set Point Temperature. The  
Message Display Line will not display any season information when in Winter.  
When the heating season is over, it is a good practice to switch the BMC to Summer  
setting. This will allow DHW calls to operate the boilers when needed.  
BACK  
SAVE  
ALERT  
DO NOT turn power off to the  
BMC when heating season is  
over. If you do so, the battery  
will run down and will have to  
be replaced. Instead, switch to  
Summer.  
SET POINT (NOT ADJUSTABLE IN EMS MODE)  
Adjustable from 70ºF/ 21ºC to 250ºF/ 121ºC  
Button: MENU/Set Point  
------------ SET POINT ----------  
Default: 140ºF/ 60ºC  
70 F  
The Set point is the temperature value the BMC will use to control the system.  
[]  
It only be available when Set Point is selected as the Sensor Type. See page 14.  
The BMC will increase, decrease or hold the modulation of the boilers to maintain the  
system temperature around the Set point. The amount of fluctuate around the set point  
depends on the Modulation Mode, System Settings, and Stage Settings.  
If the EMS Mode was Enabled, the Set Point will be set by the EMS/BMS system and  
will be available to be read but not changed on the display.  
BACK  
SAVE  
RESET RATIO  
--------- RESET RATIO ----------  
1.00 OD=4.00 Sys  
1.00 OD=3.00 Sys  
1.00 OD=2.00 Sys  
1.00 OD=1.50 Sys  
1.00 OD=1.25 Sys  
1.00 OD=1.00 Sys  
1.25 OD=1.00 Sys  
1.50 OD=1.00 Sys  
2.00 OD=1.00 Sys  
3.00 OD=1.00 Sys  
4.00 OD=1.00 Sys  
Adjustable 1.00ºOD : 4.00ºSys to 4.00ºOD : 1.00ºSys  
Button: MENU/Set Point  
Default: 1.00ºOD : 1.00ºSys  
It's only be available when Reset is selected as the Sensor Type. See page 14.  
The Reset Ratio determines how the System water temperature (SYS) will vary with  
Outside temperature (OD). With any of the ratios, the colder it becomes outside,  
the hotter the temperature of the system water. The ratios are adjustable from 1.00  
(OD):4.00 (SYS) to 4.00 (OD):1.00 (SYS). (See Understanding Operation Concept on  
page 5)  
With a 1.00 (OD):4.00 (SYS) ratio, the System water temperature (SYS) will increase  
rapidly as the outside temperature falls, hitting the maximum of 240°F at 24°F outside  
temperature. With a 4.00 (OD):1.00 (SYS) ratio, the System water temperature (SYS)  
will increase slowly as the outside temperature falls. Even at -30°F, the system water  
will only be 125°F, and at 24°F outside, the system water will be 112°F. Such a low  
BACK  
SAVE  
Reset Ratio might be used with radiant floor heating applications.  
1:4  
1:1  
With most baseboard heating applications, a 1.00 (OD):1.00 (SYS) setting is a good  
130  
120  
Warmer  
place to start. With a 1.00 (OD):1.00 (SYS) ratio, for every degree the outside  
temperature falls, the system water temperature is increased one degree.  
If required: Adjust the RESET RATIO in cold weather. If the ambient building  
temperatures are too cold in cold weather, move the ratio to a higher selection. That is,  
if 1.00 (OD):1.00 (SYS) was initially selected, change the selection to 1.00 (OD):1.25  
(SYS). If the building temperatures are too warm in cold weather, move the ratio to  
a lower selection. That is, if 1.00 (OD):1.00 (SYS) was initially selected, change the  
selection to 1.25 (OD):1.00 (SYS).  
Colder  
110  
4:1  
100  
70  
60  
50  
40  
Outdoor Temperature  
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OUTDOOR CUTOFF TEMPERATURE  
------- OUTDOOR CUTOFF -------  
Adjustable Off, from 20ºF/ to70ºC - 100ºF, On  
Button: MENU/Set Point/Outdoor Cutoff  
Default: 60ºF/ 16ºC  
in Set Point  
65 F  
Button: MENU/Set Point/Offset/Outdoor Cutoff  
in Reset  
[]  
If the outdoor sensor is installed, the Outdoor Cutoff screen will automatically appear  
after the temperature Set Point has been selected.  
BACK  
SAVE  
When the outdoor temperature falls to the adjustable Outdoor Cutoff temperature, the  
BMC will control and modulate boilers to hold the calculated temperature.  
When the outdoor temperature rises to the Outdoor Cutoff plus a 2°F differential, the BMC will turn all boilers off. The System  
relay will remain energized for the Run-On delay then de-energize.  
The Outdoor Cutoff can be set from 20°F to 100°F. In addition, the Setting can be set to ON or OFF. In the ON position, the  
System Relay will run regardless of the Outdoor temperature (OD) and the burner stages will be active to hold the calculated  
water temperature. (Note: The lowest water temperature the BMC will circulate is 70°F. If the Outdoor Cutoff is turned ON  
and the Season is set to Winter, the BMC will circulate at least 70°F water even in the hottest of weather.) In the OFF position,  
the system pump will always be off and all burner stages will be off.  
OFFSET  
-------------- OFFSET -------------  
Adjustable from 50Fº/28Cº to (-50Fº/-28Cº)  
Button: MENU/Set Point/Offset  
Default: 0Fº/0Cº  
in Reset only  
+0 F  
The Offset setting lets you adjust the starting points of the Reset Ratio curves. This  
[]  
means that, regardless of the Outdoor temperature (OD), or the Reset Ratio that has  
been selected, when the Offset setting is changed, that change is directly added to or  
subtracted from the calculated temperature. For example, if the Set Point temperature  
was 130°F and the Offset was changed from 0° to 10° (an increase of 10°), then the Set  
Point temperature would increase to 140°F  
BACK  
SAVE  
The Offset setting does not change the ratio selection. For instance, with 1.00 (OD):1.00 (SYS) Reset Ratio, the System water  
temperature (SYS) will always increase one degree for each degree change in the Outdoor temperature (OD). What the Offset  
does is add or subtract a constant temperature value. (See Understanding Operation Concept on page 5)  
If required: Adjust the Water Offset in mild weather. If the ambient building temperatures are too warm in the mild weather,  
decrease the Water Offset. If the ambient building temperatures are too cold in the mild weather, increase the Water Offset. The  
rule of thumb for baseboard radiation is to change the Offset 4°F for every 1°F you wish to change the building temperatures.  
In radiant heat applications, change the Offset 1°F or 2°F for every 1°F you wish to change the building temperature.  
--- MINIMUM WATER TEMP ----  
MINIMUM WATER TEMP  
Adjustable from 70ºF/21ºC to 180ºF/82ºC  
Default: 140ºF/ 60ºC  
in Reset only  
70 F  
[]  
Button: MENU/Set Point/Offset/Outdoor Cutoff/Minimum Water Temp  
The Minimum Water Temperature must be set to the boiler manufacturer’s specification.  
BACK  
SAVE  
The BMC will calculate the Set Point based on the Outdoor temperature (OD), the Reset  
Ratio, and the Offset value. The BMC will control all boilers modulation to  
hold either the Set Point temperature, or the Minimum Water Temperature, whichever is higher.  
The Minimum Water Temperature must be at least 20°F lower than the Maximum Temperature (See next setting).  
MAXIMUM WATER TEMP  
--- MAXIMUM WATER TEMP ----  
Adjustable 90ºF/21ºC - 240ºF/116ºC  
Default: 200ºF/93ºC  
Button: MENU/Set Point/Offset/..../Maximum Water Temperature  
in Reset only  
240 F  
This is the highest temperature heating water the BMC will circulate through the heating  
[]  
system. It is available in Reset mode only.  
When using a radiation system, it should be set according to the tubing or floor  
manufacturer’s specification.  
The Maximum Temperature must be at least 20°F higher than the Minimum Temperature  
(See previous setting).  
BACK  
SAVE  
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---------- SETTINGS 1 ----------  
SYSTEM SETTINGS  
The Settings 1 and Settings 2 menus provide access to adjusting and fine-tuning the system for  
enhanced comfort and more fuel savings. The BMC behaves differently based on the selected  
Control Modes (see Startup Settings).  
Gain  
+0  
Time  
0.0min  
0min  
Button: MENU/<System Settings>  
Lead Rotation  
Purge Delay  
Lag Delay  
<More Settings>  
BACK  
SELECT  
Gain  
System Run-On  
Setback  
Last Stage Hold  
Day/Night Schedules  
---------- SETTINGS 2 ----------  
Lead Rotation  
Purge Delay  
Lag Delay  
Standby Time  
Standby Time  
System Run-On  
Setback  
10min  
0min  
0 F  
Last Stage Hold  
Set Time  
0 F  
12:03Pm  
<Day/Night Schedules>  
ALERT  
BACK SELECT  
To be able to change the BMC settings the Program/Run Switch must be set to  
Program. The switch is located under the Enclosure Wiring Cover for security.  
The Enclosure Wiring Cover can be securely closed using a lock.  
PROGRAM  
RUN  
GAIN  
---------------- GAIN --------------  
Adjustable from -10 to +10  
Button: MENU/<System Settings>/Gain  
Default: 0  
+0  
F
The Gain adjusts the aggressiveness of the BMC PID logic to control how much  
[]  
modulation is changed when the system temperature is different from the Set Point.  
A Gain of 0 is a good starting point for all systems.  
If during normal load conditions, the system temperature tends to oscillate significantly,  
decrease the Gain by two numbers (for example, from 0 to -2). Wait for at least 15  
minutes before evaluating how the change has affected the system.  
If during normal load conditions the system temperature tends to remain consistently  
below the Set Point (or consistently above the Set Point), increase the Gain by two  
numbers (for example, from 0 to 2). Wait for at least 15 minutes before evaluating how  
the change has affected the system.  
BACK  
SAVE  
-------- LEAD ROTATION -------  
Manual  
Time  
Last-On  
BACK  
SAVE  
--- AUTO ROTATE PERIOD ---  
LEAD BOILER ROTATION  
24hrs  
[]  
Adjustable Manual, Time (1 hr to 60 Days), Last-On  
Button: MENU/<System Settings>/Lead Rotation  
Default: Time (24Hours)  
The Lead Boiler is the first boiler brought on when output is required.  
The Lead Boiler can be rotated automatically, manually or based on Last-On. The  
automatic rotation is recommended.  
BACK  
SAVE  
---- MANUAL LEAD STAGE ----  
A
B
C
D
E
The current Lead Boiler is shown in brackets on the main display.  
Only boilers which are set to Auto Mode can be Lead. Therefore, not all the boilers may  
be available when manually selecting a new Lead Boiler.  
BACK  
SAVE  
PURGE DELAY  
--------- PURGE DELAY ---------  
Adjustable from 0.0min to 10.0min  
Button: MENU/<System Settings>/Purge Delay  
Default: 1.0min  
0.0min  
Many boilers go through a purge cycle before they are brought on line.  
[]  
When the BMC activates a boiler, it does not start to calculate its output until the Purge  
Delay is over. This allows the boiler to fully come online and begin producing output.  
The Purge Delay helps prevent short cycling of a newly activated burner. Once the  
burner is activated, it MUST run through the entire Purge Delay period.  
The minimum Purge Delay setting MUST be set to the time required by the boiler  
manufacturer. Time entry is in 0.1 of a minute (i.e. 1.5min will equal 90 seconds.)  
The Message Display Line will display Purge Delay and the amount of time remaining  
in the purge.  
BACK  
SAVE  
ALERT  
Set Purge Delay as per boiler  
manufacturer recommendation.  
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LAG DELAY  
----------- LAG DELAY -----------  
Adjustable from 0min to 60min  
Default: 0min  
Button: MENU/<System Settings>/Lag Delay  
0min  
[]  
The Lag Delay requires the previous stage to remain at 100% modulation for the full  
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  
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.  
BACK  
SAVE  
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  
-------- 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  
100% modulation for the full Standby Time.  
BACK  
SAVE  
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  
-------- 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  
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-  
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)  
BACK  
SAVE  
SETBACK  
-------------- SETBACK -----------  
Adjustable from 0F°/0C° to 75F°/42C°  
Button: MENU/<System Settings>/<More Settings>/Setback  
Default: 0F°/0C°  
0
F
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.  
BACK  
SAVE  
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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If Setback Input is selected as a Shutdown/Tstat/Setback Mode (See page 15), the Setback will not be activated unless a Short  
dry contact signal is received on the Shutdown/Tstat/Setback terminals (31 and 32) as a signal.  
If Shutdown Input or Tstat Input is selected as a Shutdown/Tstat/Setback Mode (See page 15), the Setback will be activated only  
when Night Schedule time has started.  
ALERT  
When using Soft-Off and Last Stage Hold, the last boiler stage will not turn off  
until both parameters have elapsed. In this case, Soft-Off will start after the Last  
Stage Hold.  
LAST STAGE HOLD  
------ LAST STAGE HOLD ------  
Adjustable from 0F°/0C° to 30F°/17C°  
Default: 0F°/0C°  
Button: MENU/<System Settings>/<More Settings>/Last Stg Hold  
0
F
The Last Stage Hold prevents short cycling of the Lead Stage during low load periods.  
[]  
In low load conditions, the system might require less output than the lowest fire on one  
Stage. When the BMC brings on the Lead Stage, the Set Point is quickly exceeded, and  
the BMC turns the Lead Stage off.  
BACK  
SAVE  
To prolong the run time during this type of condition, use the Last Stage Hold setting to  
let the system temperature exceed the Set Point by the number of degrees selected.  
For example, with a Set Point of 160°F and a Last Stage Hold setting of 10°F, the Lead  
Stage boiler will remain on, at low modulation, until the Set Point reaches 170°F.  
In many cases, it is better to overshoot slightly than to short cycle a boiler.  
When Soft-Off is set to other than 0 seconds, the Lead Boiler will need to remain at or  
exceed the Last Stage Hold for the Soft-Off period before turning off.  
WARNING  
AVOIDING CONFLICTING BOILER LIMITS  
The temperature limits set on  
the boilers must be higher than  
the BMC Set Point. Read the  
section at left for details that  
will prevent erratic system  
operation.  
The temperature limits set on the boilers MUST be set considerably higher than the  
BMC’s Set Point for the reasons detailed below.  
The BMC sensor is located in a common header some distance from the boilers.  
As the temperature rises in the header and before reaching the sensor location, energy is  
dissipated. Therefore, the temperature in the header could be lower than that registered  
by boiler sensors.  
In addition to the normal drop experienced between the boiler’s temperature and that  
read by the BMC sensor, the Last Stage Hold setting must be accounted for. The boiler limit must be set above the Set Point  
PLUS the Last Stage Hold PLUS the normal drop experienced in the piping.  
Using the previous example of a 10°F Last Stage Hold with a 160°F Set Point, the boilers’ limits must be set enough over 170°F  
to prevent the boilers’ internal limits being reached. In this situation, the boiler high limit should be set at approximately 180°F  
or higher to prevent the difference in boiler temperature vs. header temperature causing erratic operation.  
DAY/NIGHT SCHEDULES  
--- DAY/NIGHT SCHEDULES ---  
Set Time  
Day Schedule  
Night Schedule  
**:**  
**:**  
**:**  
(Available when "Shutdown or Tstat" is selected from the Shutdown/Tstat/  
Setback Startup menu option only)  
Button: MENU/<System Settings>/<More Settings>/Day/Night Schedules  
The BMC has two levels of heat. The Day level is used when a building is occupied and  
people are active.  
The Night (Setback) level is used when a building is not occupied, or when people are  
sleeping. This setting reduces the calculated temperature by the Setback setting (See  
page 20). If the Day calculated water temperature was 150˚F and the Setback was 20˚F,  
the Night Schedule will run at (150˚F - 20˚F) = 130˚F.  
If the Boost feature is being used, it uses the Day Schedule as a Boost ending point. That is, if the Day Schedule is set to start  
at 6:00AM, the Boost will start 30 minutes prior to the Day setting at 5:30AM. The BMC will then raise the calculated water  
temperature by the Setback amount. Using the previous example, at 5:30AM the BMC will raise the calculated water to 170˚F  
(150˚F + 20˚F) until 6:00AM.  
BACK  
SELECT  
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----- SET PRESENT TIME -----  
SET TIME  
Button: MENU/<System Settings>/<More Settings>/Set Time  
Button: MENU/<System Settings>/<More Settings>/<Day/Night Schedules>/Set Time  
11:**Pm  
Adjust the time by selecting Time from the menu and then scrolling through the hours  
then select Save. Then, scroll through the minutes then select Save. If the hours are to  
be set to PM, scroll through the AM hours to reach the PM hours.  
BACK  
SAVE  
ALERT  
Remember that the battery is the backup for the Time. If no power is supplied to the BMC and there  
was no battery or battery had no power, time values will be lost and will need to be reset.  
--- OD= 54 F, 11:36Am ---  
HISTORY  
Button: MENU/<Histories>  
The BMC provides users with a graphical history of the System and Outdoor temperatures for  
the previous 24 hours. The temperatures are sampled every 12 minutes. That is, readings of  
both System and Outdoor temperatures are recorded and stored every 12 minutes for the last  
24 hours.  
BACK  
EXIT  
To view the values of specific time period, use the two middle buttons to scroll to that  
time and read the upper left temperature.  
--- OD= 54 F, 11:36Am ---  
The first screen will be the System Temperature History. By clicking on the Next  
button, you'll be able to view the Outdoor Temperature History.  
BACK  
EXIT  
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---------- MAINTENANCE ---------  
MAINTENANCE  
The Maintenance menu gives access to sensor and outputs trimming and Soft-Off. In  
addition, you'll have access to view the Startup configuration settings.  
System Trim  
+0 F  
+0 F  
45sec  
Button: MENU/<Maintenance>  
Outdoor Trim  
Soft-Off Delay  
<Output Trim>  
<Configuration>  
BACK  
SELECT  
ALERT  
To be able to change the BMC settings the Program/Run Switch must be set to  
Program. The switch is located under the Enclosure Wiring Cover for security.  
The Enclosure Wiring Cover can be securely closed using a lock.  
PROGRAM  
RUN  
SYSTEM & OUTDOOR SENSOR TRIM  
--- SYSTEM SENSOR TRIM ----  
Adjustable from -5F°/-3C° to +5F°/+3C°  
Button: MENU/<Maintenance>/System Trim  
Button: MENU/<Maintenance>/Outdoor Trim  
Default: 0°F  
+0  
F
[]  
The Weil McLain thermistor type sensors are very accurate, and normally require no  
calibration. Sometimes it may be desirable to make small adjustments to the displayed  
value for either the Outdoor temperature (OD) or the System temperature (SYS). The  
Trim setting can adjust the displayed value by 5°F.  
Do not use the Trim setting to make the Outdoor temperature sensor match that reported  
on the radio or TV. Outdoor temperature can vary widely over a broadcast range. Only  
trim the outdoor sensor based on an accurate thermometer reading taken where the  
sensor is located.  
BACK  
SAVE  
-- OUTDOOR SENSOR TRIM ----  
+0  
F
[]  
BACK  
SAVE  
SOFT-OFF DELAY  
------- SOFT-OFF DELAY --------  
Adjustable from 0sec to 60sec  
Default: 45sec  
Button: MENU/<Maintenance>/Soft-Off Delay  
45sec  
[]  
When a stage is no longer needed, the Soft-Off keeps that stage burner in Low Fire prior  
to turning it off.  
The display will show a percent that is equal to the Ignition % for the stage in Soft-Off  
delay. That number will blink for the Soft-Off delay period.  
If during the Soft-Off delay period the BMC needed that stage to turn back on, the stage  
will be released from the Soft-Off delay and resume normal operation.  
On a Shutdown initiation or Tstat termination any stage that was on will go into Soft-Off  
delay before fully turning off.  
BACK  
SAVE  
ALERT  
When using Soft-Off and Last Stage Hold, the last boiler stage will not turn off until both parameters have  
elapsed. In this case, Soft-Off will start after the Last Stage Hold has been reached or exceeded.  
OUTPUT TRIM  
-------- STAGE A TRIM --------  
Adjustable from -5 to +5  
Default: 0  
Output Trim  
<Prev Stage>  
<Next Stage>  
+0.0  
Button: MENU/<Maintenance>/Output Trim  
Each of the stages controlled by the BMC has a separate Output Trim setting.  
Output Trim acts as an adjustment to a stage output percent to match the burner motor.  
After adjusting the Output Trim, test the operation to make sure the results match your  
expectation.  
BACK  
SELECT  
ALERT  
DO NOT use the Output Trim for a Stage unless it is absolutely necessary. Test  
burner operation and modulation output matching after adjusting the Output Trim.  
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CONFIGURATION  
------ CONFIGURATION 1 ------  
v1.00c  
Reset F  
Normal  
Button: MENU/<Maintenance>/<Configuration>  
This menu option provides a consolidated view of the BMC's Startup and Stage settings.  
Day/Night Schedules  
All Off  
BACK  
NEXT  
DISPLAY  
The BMC display layout provides a variety of information that gives an immediate picture of  
the operation status. The display shows four boilers at a time. When extensions are present,  
the two middle buttons scrolls the screen to view additional boilers. Moreover, all the  
information is brightly displayed. It can be viewed in brightly or dimly lit rooms.  
------ CONFIGURATION 2 ------  
A=4-20ma  
C=0-5v  
B=0-10v  
D=2-10v  
The buttons' functionality changes based on the screen and menu level. The buttons'  
functionality is displayed on a dark background on the screen bottom line.  
BACK  
EXIT  
Horizontal arrows are to scroll through the available stages.  
Outdoor Temp  
System Temp  
Vertical arrows are to scroll through the menu functions  
when in menus or to change values of settings when in its  
specific screen.  
OD=35  
F
SYS=98  
F
Message Display Line  
The Top line displays the available sensor values.  
The second line displays the Target set point. However,  
it will display any messages pertaining to the operation or  
status.  
The third line will list the boiler stages. Any additional  
stages can be scrolled to using the two middle buttons.  
The Lead boiler letter will be bracketed. See Lead Boiler  
Operation on page 19.  
Prepurge Delay:67  
Boilers and their  
A
B
C
D
Modulation Status  
50%  
15%  
---  
---  
STAGE  
MENU  
Button functions  
Button  
The fourth line lists each boiler modulation status. See  
Display Boiler Modulation Status for possible status.  
DISPLAY BOILER MODULATION STATUS  
The BMC boiler modulation status gives immediate access to each boiler status. The following list show all possible boiler status:  
---  
97%  
ON  
OFF  
m95%  
C/E  
Boiler is off due to no call for heat.  
Boiler is modulating at the indicated percentage.  
Boiler Stage Mode is set to ON and boiler is firing at 100% (boiler is in bypass). See Mode on page 25.  
Boiler Stage Mode is set to OFF and boiler stage is unavailable or boiler does not exist. See Mode on page 25.  
Boiler Stage Mode is set to Manual and set to the specified percent. See Mode on page 25.  
Boiler on Extension panel is NOT communicating back to the BMC. See connecting extensions on page 11.  
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DISPLAY MESSAGES  
The BMC normal display layout reserved the second line for message indications. The following is a list of the most common  
Message Display Line information:  
Summer  
The control is set to Summer. No heat is active. See Season on page 17.  
The Shutdown Terminals are Shorted. No boilers will be active. See Shutdown on pages 15 and 9.  
The EMS is below 2mA or above 22mA. See EMS input and External Set Point pages 14 and 31.  
The Tstat Terminals are Shorted. Boilers will be active.  
There is a DHW (Domestic Hot Water) call. The BMC will Raise system Set Point to the indicated  
temperature. DHW increases calculated temperature to 200˚F or Max Water Temperature, whichever  
is lower. See DHW setting on page 15.  
Shutdown Active  
Shutdown by EMS  
Tstat Call  
DHW Call (171˚F)  
Purge Delay: 23  
Lag Delay: 123  
The current boiler is in purge cycle and the remaining purge time in seconds is 23. See Purge Delay  
on page 19.  
The lead boiler is at 100% and the remaining purge time to start the lag boiler in seconds is 123. See  
Lag Delay on page 20.  
The Lead boiler is in Last Stage Hold. This example shows that the lead stage will turn off when  
system temperature reaches 150˚F. See Last Stage Hold on page 21.  
The System relay is ON for the System Run-On Delay. This example shows that it will remain in  
System Run-On for an additional 46 seconds before turning off. See System Run-On on page 20.  
The System relay is ON and the prove terminals are open before the lead boiler relay can energize.  
See Prove setting on page 15.  
Holding Until 150˚F  
System Run-On: 46  
Waiting for Prove  
Prove Failure  
After boilers have run for a while, Prove signal was opened. The boiler relays will de-energize.  
However, the System relay will remain energized. See Prove setting on page 15.  
----- STAGE A SETTINGS ----  
BOILER STAGE SETTINGS  
Button: STAGE/  
The Maintenance menu gives access to sensor and outputs trimming and Soft-Off. In  
addition, you'll have access to view the Startup configuration settings.  
Mode  
Off  
1%  
Ignition %  
Mode Start %  
<Prev Stage>  
<Next Stage>  
Copy Settings  
75%  
In most installations, all active boiler adjustments are the same, but each can be  
configured differently if desired.  
BACK  
SELECT  
If the boilers are not set up properly, the BMC operation may appear to be erratic.  
When the STAGEbutton is depressed, the Boiler A Settings menu will be shown.  
Make all the appropriate settings for Boiler A (See below).  
After completing all the settings for Boiler A (See below), you have the option of  
copying these settings to all other boilers. Everything but the Mode -- Auto/Standby/  
Manual/Off/On -- will be copied.  
Then select the Next Stage option from the menu to bring up the Boiler B Settings menu  
and make all the settings. Continue until all boilers have been set.  
If a BMC-6X is connected to the BMC, scrolling through stages using the Next and Prev  
Stage menu options will scroll through the BMC-6X stages as well.  
CAUTION  
Remember to set the Mode  
for each stage. For Stages  
that do not have a boiler,  
contractor must change their  
Mode to OFF. Otherwise the  
BMC will include them in the  
modulation calculation and  
rotation. That might have dire  
effects on system response.  
ALERT  
To be able to change the BMC settings, the Program/Run Switch must be set to  
Program. The switch is located under the Enclosure Wiring Cover for security.  
The Enclosure Wiring Cover can be securely closed using a lock.  
PROGRAM  
RUN  
MODE  
------- STAGE A MODE --------  
Auto  
Standby  
Manual  
Off  
Auto, Standby, Manual, Off, On  
Button: STAGE/Mode  
Default: Auto  
The BMC only controls the modulation of boilers set to Auto or (after a delay) those set  
to Standby. None of the other settings is recommended for output boilers connected to  
active units.  
On  
BACK  
SAVE  
Any boiler without an active unit connected must be set to Off.  
The following list describes the MODE options:  
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Auto -  
The BMC will control the boiler’s operation to maintain the desired Set Point. Only boilers set to Auto can be Lead  
boilers.  
Standby Standby boilers can only be activated when all boilers in Auto have been at 100% modulation for a selectable period of  
time. Standby is generally used when you want a specific boiler to be available in extreme load conditions. Note that a  
Standby boiler Cannot be a Lead boiler.  
Manual The Manual Mode should only be used when testing a boiler. Manual overrides the Prove input. The exact percent of  
modulation for a boiler can be set with the Manual mode. Once selected, the unit will immediately turn on and modulate to  
the selected percentage.  
Off  
Any output Boiler A through D not connected to a physical unit should be set to Off. The Off Mode can also be used to  
disable units that are being serviced.  
On  
The On Mode should only be used when testing a boiler. The On Mode overrides the PROVE input. Once set to On the  
boiler will immediately start firing and modulate to 100%.  
IGNITION %  
------------ STAGE A ------------  
IGNITION POINT  
Adjustable from 1% to 50%  
Button: STAGE/Ignition %  
Default: 1%  
1%  
The Ignition Point is the percent of modulation that must be attained before the unit can  
be activated.  
[
]
For most modern power draft units, the Ignition Point should be set at 1%.  
Older units or atmospheric units may require the modulating fuel valve to be open from  
20-50% before proper ignition can be attained. Check with the boiler manufacturer if  
you are in doubt about the minimum position of the fuel valve for ignition.  
BACK  
SAVE  
MODULATION START %  
Adjustable from 0% to 100%  
Button: STAGE/Mod Start %  
------------ STAGE A ------------  
MODULATION START  
Default: 75%  
75%  
The Modulation Start determines at what modulation percent the previous boiler should  
[
]
be for the current boiler to be activated.  
For example, if the Modulation Start for Boiler B is set to 75%, then when Boiler A  
reaches 75% modulation plus Ignition%, Boiler B (if Boiler B is in Auto Mode and is not  
already on) will be brought on at the Ignition % level.  
BACK  
SAVE  
When modulation is decreasing, the lag unit will remain on at the Ignition % modulation until the previous boiler reaches 40%  
of lag boiler's Modulation Start, or 2% above the Ignition Point, whichever is higher.  
Using the same example, as the load decreases, Boiler B would modulate down to its Ignition %. Boiler A would then modulate  
down to 30%. Only then would Boiler B turn off.  
If the Lag Delay is set to anything other than 0, a boiler must always go up to 100% modulation before the next boiler is  
activated. However, the Modulation Start % should still be set correctly, because it will be valid when modulation is decreasing.  
COPY SETTINGS - BOILER A ONLY  
-------- COPY SETTINGS -------  
Button: STAGE/Copy Settings  
From Stage A  
to all other stages  
If all the active boilers will have the same Ignition Start Point and Modulation Point,  
they can be set for Boiler A and then copied to the other boilers.  
It is still required to select the Mode for all other boilers as the Mode is NOT copied.  
BACK  
COPY  
ALERT  
The Mode MUST be set for each boiler. The Copy Settings command will not set the  
Mode for the remaining boilers. Only Ignition % and Modulation Start % are copied.  
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TROUBLESHOOTING  
SENSOR INPUTS  
Temperature Sensor Chart  
TEMPERATURE  
Display shows Sensor OPEN or SHORT  
Value  
(in Ohms)  
When OPEN, Check the sensor is connected and the wires are continuous to the BMC. Finally  
follow the procedure for Incorrect Temperature or Pressure Display. When SHORT Remove the  
wires from the sensor terminals. The display should change to read OPEN. If it does not, the  
BMC may be damaged.  
°F  
-30  
-20  
-10  
0
°C  
-34  
-29  
-23  
-18  
-12  
-7  
117720  
82823  
59076  
42683  
31215  
23089  
19939  
17264  
14985  
13040  
11374  
9944  
8714  
7653  
5941  
4649  
3667  
2914  
2332  
1879  
1524  
1243  
1021  
842  
Display shows an Incorrect Temperature  
10  
Remove the wires from the sensor terminals. The display should change to read OPEN. If it  
does not, the BMC may be damaged. Take an ohm reading across the detached sensor wires.  
The ohm reading should correspond to the Temperature sensor Table. If it does not, the sensor  
may be damaged.  
20  
25  
-4  
30  
-1  
35  
2
40  
4
CONTROL OPERATION  
No Heat  
45  
7
50  
10  
13  
16  
21  
27  
32  
38  
43  
49  
54  
60  
66  
71  
77  
82  
88  
93  
99  
104  
110  
116  
121  
Season - Make sure that the Season is set to Winter. Check Message Display Line on page 24.  
Prove - Even though, the system relay may be energized, the BMC will not energize and stage  
relays unless the Prove is shorted. Check Message Display Line on page 24.  
Shutdown - The BMC will activate stage outputs when the Shutdown terminals are short.  
Check Message Display Line on page 24.  
Tstat - The BMC will activate stage outputs when the Tstat terminals are open. Check Message  
Display Line on page 24.  
Sensor Fault - When the Sensor Fault is set to All Off in the startup menu (see page 16), the  
System sensor fault (in all Sensor Type modes) or the Outdoor sensor fault (in Reset mode) will  
de-energize all stage relays. Check the display for sensor values.  
System or Outdoor Sensor - If the System or Outdoor sensor reading was higher that the  
actual temperature, the BMC might not bring any stage on. Check "Display shows an Incorrect  
Temperature" section.  
55  
60  
70  
80  
90  
100  
110  
120  
130  
140  
150  
160  
170  
180  
190  
200  
210  
220  
230  
240  
250  
699  
Too Much Heat  
Check if the control has any of the following:  
583  
Domestic Hot Water call - The BMC will raise the temperature of the system to either 200˚F or  
Maximum Water Temperature on a DHW call, connected to terminals 29 and 30. Check to see  
if there is a call for DHW and the length of time it lasts.  
Reset Ratio and Offset - If excessive heat occurs only in certain weather conditions, adjust the  
Reset Ratio and Offset (See Understanding Operating Concept on page 5). If excessive heat  
occurs year round, reduce the Offset.  
489  
412  
349  
297  
253  
217  
Boiler Mode Settings - The BMC will only modulate boilers their mode is set to Auto or  
Standby. Check to if any boiler stage is set to Manual or On. See Mode on page 25.  
Control Settings - The Last Stage Hold will allow only the Lead boiler to stay on for an  
additional number of degrees. If the setting is too high, and only the Lead boiler is on, the  
system can over heat. Reduce the Last Stage Hold setting. See page 21.  
187  
Too Little Heat  
Check if the control has any of the following:  
Reset Ratio and Offset - If reduced heat occurs only in certain weather conditions, adjust the  
Reset Ratio and Offset (See Understanding Operating Concept on page 5). If reduced heat  
occurs year round, increase the Offset.  
Setback and Day/Night Schedule - If reduced heat occurs only during specific hours, check  
the Day/Night Schedule and the Setback values. Either reduce the Setback setting (See page  
20).  
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Boiler Mode Settings - The BMC will only modulate boilers their mode is set to Auto or Standby. Check if any boiler stage is set  
to Manual, Off, or Standby. See Mode on page 25.  
Boilers are Short-Cycling  
Lag Delay - Increase the Lag Delay only if all boilers tend to short-cycle.  
Last Stage Hold - Increase the Last Stage Hold only if the lead boiler tends to short-cycle.  
System is Overshooting or Undershooting  
Gain - If the system is overshooting reduce the Gain.  
Gain - If the system is undershooting increase the Gain.  
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MULTIPLE MODULATING BOILERS  
DIRECT HEATING PIPING DIAGRAM  
Outdoor  
Sensor  
BMC  
Full Modulation Sequencing Control  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
B
INPUT RATINGS:  
115VAC 60Hz 30VA MAX  
USE COPPER WIRE,  
CLASS WIRE ONLY.  
,
---  
---  
C
D
1
ENCLOSED  
ENERGY  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
A
RUN  
C
EXTENSION  
MODULE  
B
D
OUTDOOR SYSTEM  
TEMP TEMP  
PROVE  
/DHW  
SHUTDOWN  
/SETBACK  
PWR  
SYS  
A
B
C
D
CUR  
/
VLT CUR  
/
VLT CUR  
/
VLT CUR  
/
VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
L
1
N
2
T
O
T
O
O
O
RS-485  
-
+
+
-
+
+
-
+
+
-
+
+
3
4
5
6
7
8
9
10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
120VAC  
Boiler 1  
Boiler 2  
Boiler 3  
Boiler 4  
System  
Sensor  
Building Heating Loop  
System:  
The BMC provides 4 modulating boilers. The boilers are piped in Reverse Return on the primary loop. The System  
output is controlling the System Pump.  
Weil McLain is aware that each installation is unique. Thus, Weil McLain is not responsible for any installation related to  
any electrical or plumbing diagram generated by Weil McLain. The provided illustrations are to demonstrate Weil McLain’s  
control operating concept only.  
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MULTIPLE MODULATING BOILERS  
DIRECT HEATING WIRING DIAGRAM  
BMC  
Full Modulation Sequencing Control  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
4-20mA Modulating  
INPUT RATINGS:  
B
C
D
115VAC 60Hz , 30VA MAX  
---  
---  
USE COPPER WIRE,  
CLASS 1 WIRE ONLY.  
Outputs  
C
US  
ENCLOSED  
ENERGY  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
A
RUN  
C
SHUTDOWN  
EXTENSION  
MODULE  
SYSTEM  
PROVE  
OUTDOOR SYSTEM  
TEMP TEMP  
B
D
PWR  
SYS  
A
B
C
D
/TSTAT  
CUR / VLT CUR / VLT CUR / VLT CUR / VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
/SETBACK  
RS-485  
L
1
N
2
T
O
T
O
O
O
-
-
-
-
+
+
+
+
+
+
+
+
3
4
5
6
7
8
9
10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
4 - 20 mA  
Signal Outputs  
L
N
L
N
BMC  
Full Modulation Sequencing Control  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
B
C
D
Voltage Modulating  
Outputs  
INPUT RATINGS:  
115VAC 60Hz , 30VA MAX  
---  
---  
USE COPPER WIRE,  
CLASS 1 WIRE ONLY.  
C
US  
ENCLOSED  
ENERGY  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
RUN  
C
SHUTDOWN  
EXTENSION  
MODULE  
OUTDOOR SYSTEM SYSTEM  
A
B
D
PWR  
SYS  
A
B
C
D
/TSTAT  
TEMP  
TEMP  
PROVE  
CUR / VLT CUR / VLT CUR / VLT CUR / VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
/SETBACK  
RS-485  
L
1
N
2
T
O
T
O
O
O
-
-
-
-
+
+
+
+
+
+
+
+
3
4
5
6
7
8
9
10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
Voltage  
Signal Outputs  
L
N
L
N
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MULTIPLE MODULATING BOILERS  
EXTERNAL 4-20MA SET POINT  
USING 4-20MA EMS INTERFACE  
BMC  
Full Modulation Sequencing Control  
SYSTEM  
OUTPUT RATINGS:  
120VAC, 6A RESISTIVE  
1A PILOT DUTY, 15A TOTAL  
FOR ALL CIRCUITS  
A
INPUT RATINGS:  
115VAC 60Hz , 30VA MAX  
B
---  
---  
USE COPPER WIRE,  
CLASS 1 WIRE ONLY.  
C
D
C
US  
ENCLOSED  
ENERGY  
420MOD EMS Interface  
MANAGEMENT  
EQUIPMENT  
LISTED  
CAUTION: RISK OF ELECTRIC SHOCK  
More than one disconnect switch may be required  
to de-energize the equipment before servicing.  
99RA  
DO NOT APPLY ANY VOLTAGE  
TO INPUT TERMINALS  
PROGRAM  
A
RUN  
C
420MOD  
SHUTDOWN  
EXTENSION  
MODULE  
OUTDOOR SYSTEM  
B
D
SYSTEM  
PROVE  
4-20mA INPUT  
RS485  
PWR  
SYS  
A
B
C
D
/TSTAT  
TEMP  
TEMP  
CUR / VLT CUR / VLT CUR / VLT CUR / VLT  
GND mA VLT GND mA VLT GND mA VLT GND mA VLT  
Signal GND  
/SETBACK  
+
1
EXTENSION  
2
CONNECTORS  
3
RS-485  
L
1
N
2
T
O
T
O
O
O
-
-
-
-
+
+
+
+
+
+
+
+
3
4
5
6
7
8
9
10 11 12  
13 14 15 16 17 18 19 20 21 22 23 24  
25 26 27 28 29 30 31 32  
To EMS/BMS  
4-20mA Set Point  
4 - 20 mA  
Signal Outputs  
L
N
L
N
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SPECIFICATIONS  
Voltage Input: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120 VAC 60 Hz  
Power Consumption: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 VA Max  
Operating Temperature: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20°F/-7°C to 120°F/49°C  
Operating Humidity: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20% to 80%  
Dimensions: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11"W x 9" H x 3 ¾" D  
Weight: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5 pounds  
BMC SPECIFICATIONS  
Lead Stage Rotation: . . . . . . . . . . . . . . . . . . . . . . . . . . . . Time ( 1 to 1440 Hours (60 days)), Manual, Last-On  
Pump Output: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (1) N.O. S.P.S.T  
Boiler Modes: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Auto, Manual (0% - 100%), Standby, On, Off  
Standby Time: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 to 60 minutes  
Modulating Output Types: . . . Total of four outputs. Can be either Current (4-20mA) or VDC (0-5V, 0-10V, 1-5V, 2-10V)  
Output Relay Ratings: . . . . . . (5) 1 Amp inductive (1/8HP), 6Amp resistive at 120 VAC 60 Hz, 15A total for all circuits  
Add-On BMC-6X Panels: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .up to two BMC-6X Panels using RS485  
Ignition Point %: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 to 50%  
Modulation Start Point %: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 100%  
Modulation Modes: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Normal or Parallel  
Temperature Display: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Fahrenheit or Celsius.  
Display: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Graphical Alphanumeric (7 rows x 21 char. each)  
LED: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (1) System Output relay, (4) Boiler Output relays  
Sensor Ranges: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Outdoor temperature sensor -35°F/-37°C to 250°F/121°C  
Heating system sensor -35°F/-37°C to 250°F/121°C  
Outdoor Cutoff Range: . . . . . . . . . . . . . . . . . . . . . . . . . . . .20°F/-7°C to 100°F/38°C, ON and OFF  
Reset Ratio Range: . . . . . . . . . . . . . . . . . . . . . . . . (1.00 : 4.00) to (4.00 : 1.00) (Outdoor : System Water)  
Offset Adjustment: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40F°/-22C° to + 40F°/+22C  
Minimum Water Temperature: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70°F/21°C to 170°F/77°C  
Maximum Water Temperature (Reset Only): . . . . . . . . . . . . . . . . . . . .  
Set Point Temperature Range: . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
EMS Temperature Range: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
90°F/32°C to 240°F/116°C  
70°F/21°C to 250°F/121°C  
70°F/21°C to 240°F/116°C  
Domestic Hot Water: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . with Priority or without Priority  
Pump Run-On: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 360 minutes  
Purge Delay: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.0 to 10.0 minutes  
Lag Delay: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 60 minutes  
Last Stage Hold: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0F°/0°C to 30F°/17C°  
Schedules: . . . . . . . . . . . . . . . . . (1) Day and (1) Night (Setback) settings per day (Require Shutdown or Tstat mode)  
Night Setback: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0F°/0C° to 75F°/42C°  
Power Backup: . . . . . . . . Lithium coin battery, 100 days minimum 5 year replacement (Maintains Clock in power outages).  
External Inputs: . . . . . . . . . .Tstat Input/Shutdown Input/Setback Input, and Prove Input/DHW Input (Dry Contacts Only)  
Season: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Winter and Summer.  
BMC-6X SPECIFICATIONS  
(Each BMC-6X can add up to (6) additional modulating boilers. A maximum of two BMC-6Xs can be added to a single BMC.)  
Extension Numbering: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Toggle Switch A or B  
Boiler Outputs: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (6) N.O. S.P.S.T.  
Modulating Output Types: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (6) 4-20mA, 0-5V, 0-10V, 1-5V, 2-10V  
Output Relay Ratings: . . . . . . . . . . . 1 Amp inductive (1/8HP), 6Amp resistive at 120 VAC 60 Hz, 15A total for all circuits  
Connection to BMC and another extension: . . . . . . . . Two RS485 connections using 6 wire phone cable (Cable is provided)  
500 Blaine Street  
Michigan City, Indiana 46360  
219-879-6561  
Part Number 550-100-072/0408  
32  
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