Product Overview
Table Of Contents
- Contents
- General Information (All Output Configurations)
- Overview and General Installation
- Mounting Considerations
- Wiring Considerations
- Inputs and Outputs
- Network Wiring
- Configuration Screens
- Custom Programming
- Sample Custom Applications
- CO2 Sensors and DCV
- Custom Web Graphics
- Hospitality and Locked User Interface Modes
- Motion/Occupancy Sensor
- Support
- Important Notices
- BAC-1xx63/1xxx63 Series (6 Relays and 3 Analog Outputs)
- Bills of Materials (BAC-1xx63/1xxx63)
- Sequence of Operation (BAC-1xx63/1xxx63)
- FlexStat (All Models) Common Features
- Space Temperature Setpoints and Modes
- Occupancy Modes
- Optimum Start
- Standby Mode
- Fan Control
- Sensor 2 (Fan Status or Discharge Air Temp)
- Economizer
- DCV (Demand Controlled Ventilation)—General Information
- DCV—Basic Configuration
- DCV—Standard Configuration
- DCV—Advanced Configuration
- Dehumidification
- Humidification (BAC-1x136 and BAC-1xx136 Only)
- Staged Heating and Cooling Parameters
- User Interface Display Backlight
- BAC-1xx63/1xxx63 Applications
- FlexStat (All Models) Common Features
- BAC-1xx36/1xxx36 Series (3 Relays and 6 Analog Outputs)
- BAC-1xx30 Series (3 Relays and 0 Analog Outputs)
- BAC-1xxx53 (5 Relays, 1 Triac, & 3 Analog Outputs)
- Index
BAC-1xx63/1xxx63 Series (6 Relays and 3 Analog Outputs) Section 45 Application Guide S
Fan Control
The following is the base sequence for fan operation.
The occupied and the unoccupied modes have separate congurations
for fan control. Each scheduled mode can be congured to operate the
fan in either continuous or automatic mode.
If the conguration for a particular occupancy mode is set to “On,”
there will be a continuous call for fan during that scheduled state. If the
fan is set to “Auto,” the fan will cycle only on a call for heating or cool-
ing. Because PI control is used in heating and cooling, values may be
slightly skewed, but generally a call for heating turns on at active heat-
ing setpoint (minus heating proportional band) and o at active heating
setpoint. Generally, a call for cooling turns on at active cooling setpoint
(plus cooling proportional band) and o at active cooling setpoint.
There are certain application-specic variations of how the fan control
functions that are detailed in the specic application sections below.
The FlexStat has two options concerning fan status:
• If the Sensor 2 option is set to either “not used” or “discharge air
temp,” the unit is congured to not have fan status. The fan mo-
tor is then assumed to always respond when commanded to run.
• If the unit is congured to have fan status, and if the fan is com-
manded to run and the FlexStat does not see a response on the
fan status input within 5 seconds, a fan alarm is generated. Upon
fan alarm, all outputs other than the fan are de-energized.
There is a fan status icon on the user interface that indicates the fan run
command status. This is controllable through Control Basic.
For heating applications, Heating Fan is set to Auto by default but can
be disabled in the fan conguration menu if needed (such as for an FCU
that is factory wired to run at a xed speed or for a baseboard heater
without a fan). The Heating Fan selection is only available when the ap-
plication supports heating and either Occupied fan or Unoccupied fan is
set to Auto.
If a low limit alarm is present, all fan outputs are de-energized.
Sensor 2 (Fan Status or Discharge Air Temp)
An option, Sensor 2, determines the use of analog input #2. If sensor 2 is
congured for fan status, the FlexStat performs the fan control sequence
as described above. If sensor 2 is congured for discharge air temp, the
FlexStat congures analog input #2 for a 10K type III thermistor. This
selection is intended for monitoring discharge air temperature of the
HVAC unit.
Note: This selection is for monitoring only—there is no HVAC con-
trol associated when selecting discharge air temp. Additionally,
a trend log is set up for discharge air temp with a 10 minute
interval. Lastly, sensor 2 may be congured for “not used.”
Economizer
Certain applications can be congured for an economizer option. If the
economizer option is enabled, the economizer mode is determined by
comparing outside air temperature (OAT) to the economizer enable
temperature. The economizer mode is enabled if the OAT is 1.0° F (0.56°
C) below the economizer enable temperature and disabled if the OAT is
1.0° F (0.56° C) above the econ enable temp.
During occupied mode, if the economizer mode is enabled, the outside
air damper will open to the greater of the minimum damper position
seing (adjustable, for ventilation) or the mixed air temperature PI loop.
The mixed air temp loop will modulate from 0 to 100% as the mixed air
temp rises above the mixed air temp setpoint.
The PI loop “P” component is calculated and reset based on an OAT
reset schedule. “P” increases as OAT gets colder, adding loop stability
at colder OA temperatures. When the OAT is at or above 3° F (1.67° C)
below MAT Min Temp (53° F or 11.7° C), the Econ Loop (LOOP4) “P”
factor is set to OAD Warm Temp (15° F or 8.3° C). The Econ Loop “P”
factor is set to OAD Cold Temp (30° F or 16.7° C) when the OAT is at or
below twice the dierence between the above calculated temperature (3°
F below MAT Min Temp) and MAT Low Limit (45° F or 7.2° C). The “P”
factor resets linearly in between the above values. The following table il-
lustrates various “P” factor values using the default Fahrenheit seings: