KMC CONTROLS 925-019-05C Airflow Measurement System Installation Guide

June 15, 2024
KMC CONTROLS

KMC CONTROLS 925-019-05C Airflow Measurement System
KMC CONTROLS 925-019-05C Airflow Measurement System

Example Diagrams

Standard Application

Example Diagrams

Outdoor Air Damper Pressure Assist Application

Example Diagrams

Return Air Damper Pressure Assist Application

Example Diagrams

Mounting the System Components

Mounting the Controller

NOTE: Mount the controller inside a metal enclosure for RF shielding and physical protection.
NOTE: To mount the controller with screws on a flat surface, complete the steps in On a Flat Surface Or to mount the controller on a 35 mm DIN rail (such as integrated in an HCO-1103 enclosure), complete the steps in On a DIN Rail.

On a Flat Surface

  1. Position the controller on a flat surface so that the color-coded terminal blocks 1 are easy to access for wiring after the controller is mounted.
    NOTE: The black terminals are for power. The green terminals are for inputs and outputs. The grey terminals are for communication.

  2. Screw a #6 sheet metal screw through each corner 2 of the controller
    On a Flat Surface

On a DIN Rail

  1. Position the DIN rail 3 so that the color-coded terminal blocks are easy to access for wiring after the controller is mounted.

  2. Pull out the DIN latch 4 until it clicks once.

  3. Position the controller so that the top four tabs 5 of the back channel rest on the DIN rail.

  4. Lower the controller against the DIN rail.

  5. Push in the DIN latch 6 to engage the rail.
    NOTE: To remove the controller, pull the DIN latch until it clicks once and lift the controller off the DIN rail.

Mounting the Inclinometer

NOTE: If the outside air damper has vertical-axis damper blades, you will first need to install an HLO-1050 Linkage Kit on the outside air damper. (See the HLO-1050 Linkage Kit Installation Guide.) Then continue below.

  1. Position the inclinometer on a horizontal-axis outside air damper blade so that the wire is parallel with the blades and the arrow on the inclinometer sticker points up.

NOTE: If the unit has more than one outside air damper, mount the inclinometer on a horizontal-axis return air damper blade. (However, if the unit also has more than one return air damper, an AFMS cannot be installed.)

  1. Attach the inclinometer to the damper blade with two #8 sheet metal screws.
  2. Route the cord away from the damper so that it will not bind the damper.
  3. Route the cord to the controller.
    NOTE: Attach adequate strain relief (e.g. with wire ties) if needed to prevent the inclinometer from accidentally being pulled off of the damper blade during equipment maintenance.

Mounting the Supply Airflow Pickup Tubes

There must be enough pressure flow pickup tubes must installed, for the size of the opening, to get an accurate average value for the air-stream. Multiple pickup tubes (at least 2) connected in a parallel pitot array are recommended.

The supply air pressure flow pickup tubes can be installed in one of three ways:

  • On the Supply Air Fan Bell (using SSS-1112/3/4).
  • On the Supply Air Fan Bell (using SSS-1115/6/7).
  • In the Supply Air Duct (using SSS-101x).

On the Supply Air Fan Bell (using SSS-1112/3/4)

  1. Position the pickup tubes’ mounting foot on the edge of the fan bell so that the ends of the tubes are pointing toward the center of the fan inlet.
    NOTE: All pickup points must be within the air-stream for accurate averaging of the differential pressure flow. If the pickup tubes are too long, use a shorter model.

  2. Attach the tubes to the fan bell using two self-tapping screws inserted through the 3/16” mounting holes.

  3. Repeat steps 1 to 2 to mount the remaining pickup tubes.

On the Supply Air Fan Bell (using SSS-1115/6/7)

  1. Position the pickup tubes so that the mounting feet span the fan inlet and all pickup points are within the air-stream.
    NOTE: All pickup points must be within the air-stream for accurate averaging of the differential pressure flow. If the pickup tubes are too long, use a shorter model.

  2. Attach the first mounting foot to the fan bell using two self-tapping screws inserted through the 3/16” mounting holes.

  3. Attach the second mounting foot to the opposite edge of the fan bell (or the strut) using two self-tapping screws inserted through the 3/16” mounting cutouts.

  4. Repeat steps 1 to 3 to mount the remaining pickup tubes.

In the Supply Air Duct (using SSS-101x)

NOTE: The pressure flow pickup tubes should be mounted in filtered air in the location of laminar flow, which is about 6 straight duct diameters down the air duct.

  1. Determine the duct’s flow direction and install the pickup tubes based on the flow arrow imprint.
    NOTE: The pickup tubes must be mounted with the arrow pointing in the direction of the airflow.

  2. Cut a 7/8” hole in the duct to accept the pickup tubes.

  3. Attach the pickup tubes to the duct using two self-tapping screws inserted through the 3/16” mounting holes.

  4. Repeat steps 1 to 3 to mount the remaining pickup tubes

Mounting Pickup Tubes for Pressure Assist

Mounting for OAD Pressure Assist

Complete these additional steps only if installing a BAC-5901C-AFMS or BAC 5901CE-AFMS for an OAD pressure assist application. (See the KMC AFMS Selection Guide for details.)

Mounting the First Airflow Pickup Tube

  1. Find a location for the first pickup tube outside of the outside air damper, in a location without turbulent flow from the incoming outside air-stream.
    NOTE: For example, in a corner under the outside air intake hood. (See the drawing above.)

  2. Determine the airflow direction in order to install the pickup tube so that the FLOW arrow imprint is perpendicular to the direction of the airflow (for static pressure measurement).
    NOTE: In this case, the FLOW arrow imprint can point either up or down. Mark the SSS-10xx to assure others that this perpendicular orientation is indeed the intended orientation.

  3. Cut a 7/8” (22 mm) hole in the duct to accept the pickup tube.

  4. Attach the pickup tube to the sheet metal using two self-tapping screws inserted through the 3/16” (5 mm) mounting holes.

Mounting the Second Airflow Pickup Tube

  1. Find a location for the second pickup tube in the mixed air chamber, in a location without turbulent air flow.
    NOTE: For example, in a corner of the mixed air chamber just inside of the outside air damper. (See the drawing above.)

  2. Determine the airflow direction in order to install the pickup tube so that the FLOW arrow imprint is perpendicular to the direction of the airflow (for static pressure measurement).
    NOTE: In this case, the FLOW arrow imprint can point either up or down. Mark the SSS-10xx to assure others that this perpendicular orientation is indeed the intended orientation.

  3. Cut a 7/8” (22 mm) hole in the duct to accept the pickup tube.

  4. Attach the pickup tube to the sheet metal using two self-tapping screws inserted through the 3/16” (5 mm) mounting holes.

Mounting for RAD Pressure Assist

Complete these steps only if installing a BAC-5901C-AFMS or BAC-5901CE-AFMS for a RAD pressure assist application. (See the KMC AFMS Selection Guide for details.)

Mounting the First Airflow Pickup Tube

  1. Find a location for the first pickup tube near the return air damper, on the damper’s upstream side.

  2. Determine the airflow direction in order to install the pickup tube so that the FLOW arrow imprint is perpendicular to the direction of the airflow (for static pressure measurement).
    NOTE: In this case, the FLOW arrow imprint can point either up or down (in a horizontal duct), or either left or right (in a vertical duct).
    NOTE: It is recommended that a marking be applied to the SSS-10xx to assure others that this perpendicular orientation is indeed the intended orientation.

  3. Cut a 7/8” (22 mm) hole in the duct to accept the pickup tube.

  4. Attach the pickup tube to the sheet metal using two self-tapping screws inserted through the 3/16” (5 mm) mounting holes

Mounting the Second Airflow Pickup Tube

  1. Find a location for the second pickup tube near the return air damper, on the damper’s downstream (i.e. mixed air) side.

  2. Determine the airflow direction in order to install the pickup tube so that the FLOW arrow imprint is perpendicular to the direction of the airflow (for static pressure measurement).
    NOTE: In this case, the FLOW arrow imprint can point either up or down (in a horizontal duct), or either left or right (in a vertical duct).
    NOTE: It is recommended that a marking be applied to the SSS-10xx to assure others that this perpendicular orientation is indeed the intended orientation.

  3. Cut a 7/8” (22 mm) hole in the duct to accept the pickup tube.

  4. Attach the pickup tube to the sheet metal using two self-tapping screws inserted through the 3/16” (5 mm) mounting holes.

Mounting the Pressure Transducer(s)

NOTE: Complete these steps only if using a BAC-5901C(E)-AFMS controller.

NOTE: Avoid locations with severe vibrations or excessive moisture. The enclosure has a standard 1/2-inch conduit opening and may be installed with either a conduit coupler or a cable gland-type fitting.

Do not use in explosive or hazardous environments, with combustible or flammable gasses, as a safety or emergency stop device, or in any other application where failure of the product could result in personal injury.

  1. Ensure there is enough space around the unit to make the pressure and electrical connections.
  2. Use screws threaded through the case’s mounting holes to fasten the assembly to a location near the array of pressure flow pickup tubes. Do not over-tighten.
  3. If additional pressure flow pickup tubes were installed at the outside air damper or return air damper location for pressure assist measurements, repeat steps 1 and 2 for a second pressure transducer located near those pickup tubes.

Mounting the OAT, RAT, and MAT Sensors

STE-1411/12/13/14 Bendable Copper Sensor

Use a bendable copper sensor for easily-accessible mixed air sections and outside air hoods. If the mixed air section is not easily accessible, a flexible cable sensor may be used. If the unit does not have an easily- accessible outside air hood, a rigid steel probe may be used.

Mounting

  1. Cut a hole in the mixed air chamber of the unit large enough to feed the copper probe from the back of the enclosure.

  2. Insert the sensor probe into the mixed air chamber, bend the probe tubing to cover the air path, and secure as needed.
    NOTE: Maintain a minimum bend radius of six inches to prevent damage to the wires or sensors.

  3. Fasten the enclosure to the unit by drilling holes in the side of the unit and threading screws through the mounting holes in the case.

  4. For the cable leading to the AFMS controller, attach conduit to the 1/2” NPT threaded connection hole at the bottom of the enclosure as needed.

  5. Open the cover by pulling slightly on the latch on the right side of the enclosure while pulling on the cover.

STE-1415/6/7 Flexible Cable Sensor

A flexible cable sensor may be used if the mixed air section is not easily accessible.

Flexible Cable Sensor

  1. Cut a hole in the mixed air chamber of the unit large enough to feed the sensor cable from the back of the sensor enclosure.

  2. Insert the sensor cable into the mixed air chamber, stringing the cable to cover the air path, and secure as needed.
    NOTE: The flexible cable can be easily shaped to fit any duct size but observe a minimum bend radius of two inches to prevent damage to wires or sensors.

  3. Fasten the enclosure to the unit by drilling holes in the side of the unit and threading screws through the mounting holes in the case.

  4. For the cable leading to the AFMS controller, attach conduit to the 1/2” NPT threaded connection hole at the bottom of the enclosure as needed.

  5. Open the cover by pulling slightly on the latch on the right side of the enclosure while pulling on the cover.

STE-1404/05 Rigid Steel Probe

Use a rigid probe for the return air duct. A rigid probe may also be used for the outside air duct, but only if the unit does not have an easily-accessible outside air hood.

Rigid Steel Probe

  1. Locate the sensor in a straight section of duct, away from heating, cooling, or humidifier sources.
  2. Cut a 1/4-inch hole for the probe in the side of the duct as well as smaller holes for screws at the appropriate locations.
  3. Insert the probe and fasten the assembly to the duct using screws threaded through the mounting holes in the housing.
  4. Open the sensor cover (STE-1404 only) by pulling slightly on the latch on the right side of the enclosure while pulling on the cover.
  5. For the cable leading to the AFMS controller, attach conduit to the 1/2” NPT threaded connection hole at the bottom of the enclosure as needed.

Mounting a Proportional Actuator

Complete these steps only if there is not a proportional actuator already mounted on the correct damper for the application needed:

  • For standard or OAD applications, mount the proportional actuator on the outside air damper (or, alternatively, on the return air damper, if it moves together with the outside air damper).
  • For RAD pressure assist applications, mount the proportional actuator on the return air damper (or, alternatively, on an outside air damper that moves together with the return air damper).

For instructions on how to mount your particular model of MEP-series proportional actuator:

  1. Select the appropriate link from the list, or search for it on the KMC Controls website:
    • MEP-4552
    • MEP-4952
    • MEP-7552
  2. Access the installation guide found on that model’s product page.
  3. Follow the instructions for mounting, on the appropriate damper for the application needed:
    • For standard or OAD pressure assist applications, mount the proportional actuator on the outside air damper (or, alternatively, on the return air damper, if it moves together with the outside air damper).
    • For RAD pressure assist applications, mount the proportional actuator on the return air damper (or, alternatively, on an outside air damper that moves together with the return air damper).

Connecting System Components to the Controller

Connecting the Airflow Pickup Tubes

For a BAC-5901C(E)-AFMS

Use appropriately sized polyethylene tubing for the pressure connections. The length of the tubing should not be longer than necessary. Arrange the tubing to minimize stress on the connections and prevent kinking.

Connecting the Supply Airflow Pickup Tubes to the Pressure Transducer

  1. With tubing, connect the Port Hs of all the pickup tubes in parallel in a loop, then connect to the High input on the supply air pressure transducer.
  2. With tubing, connect the Port Ls of all the pickup tubes in parallel in a loop, then connect to the Low input on the supply air pressure transducer.

Connecting the Airflow Pickup Tubes for OAD Pressure Assist Applications

Complete these steps if two additional SSS-1000 series pickup tubes were installed at the location of the outside air damper for pressure assist

  1. For the pickup tube mounted outside of the outside air damper, connect one of its ports, with tubing, to the High input on the transducer used for pressure assist.
    NOTE: It does not matter, in this application, which pickup tube port (H or L) is connected to the transducer’s High input.

  2. For the pickup tube mounted inside of the outside air damper, connect one of its ports, with tubing, to the Low input on the transducer used for pressure assist.
    NOTE: It does not matter, in this application, which pickup tube port (H or L) is connected to the transducer’s Low input.
    NOTE: The other ports of the two pickup tubes are left unconnected and open to air.

Connecting the Airflow Pickup Tubes for RAD Pressure Assist Applications

Complete these steps if two additional SSS-1000 series pickup tubes were installed at the location of the return air damper for pressure assist.

  1. For the pickup tube mounted on the upstream side of the return air damper, connect one of its ports, with tubing, to the High input on the transducer used for pressure assist.
    NOTE: It does not matter, in this application, which pickup tube port (H or L) is connected to the transducer’s High input.

  2. For the pickup tube mounted on the downstream (i.e. mixed air) side of the return air damper, connect one of its ports, with tubing, to the Low input on the transducer used for pressure assist.
    NOTE: It does not matter, in this application, which pickup tube port (H or L) is connected to the transducer’s Low input.
    NOTE: The other ports of the two pickup tubes are left unconnected and open to air.

Connecting the Pressure Transducer(s) to the Controller

  1. Connect the signal wire from OUT on the supply air pressure transducer to UI9 on the controller.
  2. If installing a second transducer for (OAD or RAD) pressure assist applications, connect the signal wire from OUT on the second transducer to UI10 on the controller.

For a BAC-9311C(E)-AFMS

NOTE: Use 1/4 inch (6.35 mm) FR tubing. Tubing should not be longer than 20 feet (6 meters).

  1. Remove the black shipping plugs from the PRESSURE SENSOR ports.
  2. With tubing, connect the Port Hs of all the pickup tubes in parallel in a loop, then connect to the HIGH 7 port on the controller. (See Wiring Diagrams.)
  3. With tubing, connect the Port Ls of all the pickup tubes in parallel in a loop, then connect to the LOW 8 port on the controller. (See Wiring Diagrams.)

Connecting the Inclinometer

  1. Connect the inclinometer’s yellow signal wire to UI7 on the controller.
  2. Connect the inclinometer’s green signal wire to UI8 on the controller.
  3. Connect the inclinometer’s blue ground wire to GND (between UI7 and UI8) on the controller.
  4. Connect the inclinometer’s red power wire to either UO8 (for a BAC-5901C[E] AFMS) or U10 (for a BAC9311C[E]-AFMS).

Connecting the Outside Air Temperature Sensor

NOTE: Use 18 to 24 AWG shielded wiring for all connections. Do not locate the device wires in the same conduit with wiring used to supply inductive loads such as motors.

  1. Bring the cable that will go to the AFMS controller through the bottom hole.

  2. Make connections to the two wire leads with either butt-splices or solder. (Using wire nuts is not recommended.)
    NOTE: The two-wire sensor is not polarity sensitive.

  3. Plug the conduit with sealant to prevent air infiltration.

  4. Swing the door closed until securely latched.

  5. If desired for added security, install the two (provided) screws in the door’s integrated screw tabs.

  6. Connect the sensor’s signal wire to UI4 on the controller.

  7. Connect the sensor’s ground wire to GND (next to UI4) on the controller.

Connecting the Return Air Temperature Sensor

NOTE: Use 18 to 24 AWG shielded wiring for all connections. Do not locate the device wires in the same conduit with wiring used to supply inductive loads such as motors.

  1. Feed the wire that will go to the AFMS controller through the bottom hole (if applicable).

  2. Make connections to the two wire leads with either butt-splices or solder. (Using wire nuts is not recommended.)
    NOTE: The two-wire sensor is not polarity sensitive.

  3. Plug the conduit with sealant to prevent air infiltration.

  4. Swing the door (if applicable) closed until securely latched.

  5. If desired for added security (and if applicable), install the two (provided) screws in the door’s integrated screw tabs.

  6. Connect the sensor’s signal wire to UI5 on the controller.

  7. Connect the sensor’s ground wire to GND (next to UI5) on the controller.

Connecting the Mixed Air Temperature Sensor

NOTE: Use 18 to 24 AWG shielded wiring for all connections. Do not locate the device wires in the same conduit with wiring used to supply inductive loads such as motors.

  1. Feed the wire that will go to the AFMS controller through the bottom hole.

  2. Make connections to the two wire leads with either butt-splices or solder. (Using wire nuts is not recommended.)
    NOTE: The two-wire sensor is not polarity sensitive.

  3. Plug the conduit with sealant to prevent air infiltration.

  4. Swing the door closed until securely latched.
    NOTE: If desired for added security, install the two (provided) screws in the door’s integrated screw tabs.

  5. Connect the sensor’s signal wire to UI6 on the controller.

  6. Connect the sensor’s ground wire to GND (next to UI6) on the controller.

Connecting the Proportional Actuator

Using an Existing Proportional Actuator

NOTE: Follow the procedure in this section when installing the AFMS into a unit that already has a proportional actuator, which is controlled by another controller, mounted to the outdoor or return air damper.

Power off the actuator and the other controller before taking the following steps!

  1. Disconnect from the existing actuator the signal wire that comes from the output of the other controller.
  2. Disconnect from the existing actuator the ground wire that comes from the other controller.
  3. Connect the signal wire (coming from the other controller) to UI3 on the AFMS controller.
  4. Connect the ground wire (coming from the other controller) to the GND terminal (next to UI3) on the AFMS controller.
  5. Run a new signal wire – from UO7 on a BAC-5901-AFMS, or from UO9 on a BAC-9311-AFMS – to the signal terminal on the actuator.
  6. Connect the signal common wire of that new (twisted pair) wire to the GND terminal (next to UO7/UO9) on the AFMS controller

Using a New Proportional Actuator

For instructions on how to wire your particular model of actuator to the controller:

  1. Click on the appropriate model from the list, or search for it on the KMC Controls website:
    • MEP-4552
    • MEP-4952
    • MEP-7552
  2. Access the installation guide found on that model’s product page.
  3. Follow all instructions on wiring to the controller that apply to your model of actuator.
    NOTE: For information on which controller inputs and outputs to wire to, see Wiring Diagrams on page 24 and Input/Output Objects/Connections.
    NOTE: For information on which controller inputs and outputs to wire to, see Wiring Diagrams on page 24 and Input/Output Objects/Connections .

Connecting Networks

Connecting an Ethernet Network

For “E” models only, connect an Ethernet patch cable to the 10/100 ETHERNET port 9.

Do NOT plug a cable meant for Ethernet communications into the Room Sensor port! The Room Sensor port powers a NetSensor. The supplied voltage may damage an Ethernet switch or router.

NOTE: The Ethernet patch cable should be T568B Category 5 or better and a maximum of 328 feet (100 meters) between devices.

NOTE: Ethernet-enabled “E” models with the latest firmware can be configured with a web browser from pages served from within the controller. The controllers have the following default network address values:

  • IP address—192.168.1.251
  • Subnet mask—255.255.255.0
  • Gateway—192.168.1.1

Connecting an MS/TP Network

  1. For a BAC-5901C-AFMS or BAC-9311C-AFMS, connect the BACnet network to the gray BACnet MS/TP terminal block 10.

NOTE: Use 18 gauge AWG shielded twisted pair cable with maximum capacitance of 51 picofarads per foot (0.3 meters) for all network wiring (Belden cable #82760 or equivalent).
A. Connect the –A terminals in parallel with all other –A terminals on the network.
B. Connect the +B terminals in parallel with all other +B terminals on the network.
C. Connect the shields of the cable together at each device using a wire nut or the S terminal in KMC BACnet controllers.

  1. Connect the cable shield to a good earth ground at one end only.
    NOTE: For principles and good practices when connecting an MS/TP network, see Planning BACnet Networks (Application Note AN0404A).

  2. If the controller is at either end of a BACnet MS/TP network (only one wire under the terminals), turn the EOL switch to ON.
    NOTE: The EOL switch is shipped from the factory in the OFF position.

Connecting Power

Connecting Power to the Controller

To connect a 24 VAC, Class-2 transformer to the black power terminal block of the controller:

  1.  Connect the neutral side of the transformer to the controller’s common terminal ⊥ 1  .
  2. Connect the AC phase side of the transformer to the controller’s phase terminal ∼ 12.

NOTE: Connect only one controller to each 24 VAC, Class-2 transformer with 12–24 AWG copper wire.
NOTE: Use either shielded connecting cables or enclose all cables in conduit to maintain RF emissions specifications.
NOTE: To use DC power supply instead of AC, see the “Power (Controller) Connections” section of the KMC Conquest Controller Application Guide.

Connecting Power to the Inclinometer

  1. Connect the inclinometer’s red power wire to UO8 for a BAC-5901-AFMS, or UO10 for a BAC-9311-AFMS.
  2. Connect the inclinometer’s blue ground wire to GND/SC on the controller.

Connecting Power to the Pressure Transducer(s)

NOTE: Complete these steps only if using a BAC-5901C(E)-AFMS controller.
NOTE: Use at least 22 AWG, shielded, twisted-pair wiring for all connections. Do not locate device wires in the same conduit with wires supplying inductive loads.

When grounding the secondary of an AC transformer or when wiring multiple devices, ensure that the circuit ground point is the same on all devices and the controller.

  1. Connect the controller’s phase terminal ∼ to the transducer’s PWR terminal.
  2. Connect the controller’s common terminal ⊥ to the COM terminal on the transducer.
  3. If there is a second transducer for pressure assist applications, repeat steps 1 and 2 for that transducer.

Connecting Power to the Proportional Actuator

For instructions on how to wire to power and complete setup of your particular model of actuator:

  1. Select the appropriate model from the list, or search for it on the KMC Controls website:
    • MEP-4552
    • MEP-4952
    • MEP-7552
  2. Access the installation guide found on that model’s product page.
  3. Follow all instructions on wiring to power and remaining setup that apply to your model of actuator.

Controller Power and Communication Status

The status LEDs on a BAC-5901-AFMS and BAC-9311-AFMS indicate power connection and network communication. The descriptions below describe their activity during normal operation (at least 5 to 20 seconds after power- up/initialization or restart).

NOTE: If both the green READY LED and the amber COMM LED remain OFF, check the power and cable connections to the controller.

Green READY LED

After controller power-up or restart is complete, the READY LED 13 flashes steadily about once per second, indicating normal operation.

Amber (BACnet MS/TP) COMM LED

  • During normal operation, the COMM LED 14 flickers as the controller receives and passes the token over the BACnet MS/TP network.
  • When the network is not connected or communicating properly, the COMM LED flashes more slowly (about once a second).

Green ETHERNET LED

NOTE: The Ethernet status LEDs 15 indicate network connection and communication speed.

  • The green Ethernet LED stays ON when the controller is communicating with the network.
  • The green Ethernet LED is OFF when the (powered) controller is not communicating with the network.

Amber ETHERNET LED

  • The amber Ethernet LED 16 flashes when the controller is communicating with a 100BaseT Ethernet network.
  • The amber Ethernet LED remains OFF when the (powered) controller is communicating with the network at only 10 Mbps (instead of 100 Mbps).

Controller MS/TP Network Isolation Bulbs

The two network isolation bulbs 17 serve three functions:

  • Removing the (HPO-0055) bulb assembly opens the MS/TP circuit and isolates the controller from the network.
  • If one or both bulbs are ON, the network is improperly phased. This means the ground potential of the controller is not the same as other controllers on the network. If this happens, fix the wiring.
  • If the voltage or current on the network exceeds safe levels, the bulbs blow, opening the circuit. If this happens, fix the problem and replace the bulb assembly.

Wiring Diagrams

Wiring Diagrams

Wiring Diagrams

Wiring Diagrams

Wiring Diagrams

Wiring Diagrams

Wiring Diagrams

Input/Output Objects/Connections

BAC-5901C(E)-AFMS


Inputs

AI1| Space Sensor (on Room Sensor port)
AI2| Space Setpoint Offset (on port)
AI3/UI3| Incoming Damper Signal
AI4/UI4| Outdoor Air Temp
AI5/UI5| Return Air Temp
AI6/UI6| Mixed Air Temp
AI7/UI7| Inclinometer V1
AI8/UI8| Inclinometer V2
AI9/UI9| Supply Air Pressure Transducer
AI10/UI10| Additional Transducer (if pressure assist is needed)

Outputs

AO6/UO6| 0-10 VDC CFM Output
AO7/UO7| Outdoor Air Damper
AO8/UO8| Inclinometer Power
BO1| Binary Output #1
BO2| Binary Output #2
BO3| Binary Output #3
BO4| Binary Output #4
BO5| Binary Output #5

BAC-9311C(E)-AFMS


Inputs

AI1| Space Sensor (on Room Sensor port)
AI2| Space Setpoint Offset (on port)
AI3/UI3| Incoming Damper Signal
AI4/UI4| Outdoor Air Temp
AI5/Ui5| Return Air Temp
AI6/UI6| Mixed Air Temp
AI7/UI7| Inclinometer V1
AI8/UI8| Inclinometer V2
AI9| Differential Pressure Sensor (integrated port)
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Outputs

AO7/UO7| Analog Output #7
AO8/UO8| 0-10 VDC CFM Output
AO9/UO9| Outdoor Air Damper
AO10/UO10| Inclinometer Power
BO1| Binary Output #1
BO2| Binary Output #2
BO3| Binary Output #3
BO4| Binary Output #4
BO5| Binary Output #5
BO6| Binary Output #6

Configuring and Operating

For each tool used to configure and operate the AFMS, see the documentation found on the tool’s product page.

PROCESSES|

CONFIGURATION TOOLS

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BAC- 5051(A)E
router| Ethernet controller 1 served web pages| Conquest™ NetSensor| KMC

Connect™ or TotalControl™

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Converge™ for Niagara
Workbench| KMC
Commander ® 2| KMC
Connect Lite™
(NFC) app 3
Selecting the application| |

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Configuring communication| |

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Setting AFMS parameters|

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Calibrating sensors|

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Starting Learning Mode|

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Controlling airflow|

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Monitoring operation & faults|

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  1. Ethernet (E) models with the latest firmware can be configured with a web browser from pages served within the controller.
  2. KMC Commander’s AFMS module currently supports the standard AFMS application only.
  3. Near Field Communication via enabled smart phone or tablet running the KMC Connect Lite app.

Important Notices

The material in this document is for information purposes only. The contents and the product it describes are subject to change without notice.

KMC Controls, Inc. makes no representations or warranties with respect to this document. In no event shall KMC Controls, Inc. be liable for any damages, direct, or incidental, arising out of or related to the use of this document.

The KMC logo is a registered trademark of KMC Controls, Inc. All rights reserved.

The KMC Connect Lite™ app for NFC configuration is protected under United States Patent Number 10,006,654.
Pat. https://www.kmccontrols.com/patents/

TEL: 574.831.5250
FAX: 574.831.5252
EMAIL: [email protected]

© 2023 KMC Controls, Inc.

Specifications and design subject to change without notice

References

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