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 44 Application Guide S
Optimum Start
NOTE: Optimum Start was added in rmware ver. R2.0.0.9.
Optimum Start uses historical performance data, outside temperature,
and length of the unoccupied period to calculate a pre-start time needed
to arrive near occupied space temperature setpoints at a scheduled time.
Optimum Start is enabled by seing OS Enable to ENABLE.
At midnight, Optimum Start reads and uses only the rst scheduled
ON time for that day, and uses the following factors in calculating the
optimal start time:
• Three hours before scheduled occupancy, the pre-start time is calcu-
lated based on current space temperature and historical warm-up/
cool-down performance data.
• IF an outdoor air temperature sensor is installed (wired to AI4),
and IF today’s OAT is 15° F (8.3° C) more conducive to warm-up/
cool-down than yesterday’s (i.e., if in cooling mode and it’s 15° F
cooler today than yesterday or if in heating mode and it’s 15° F
warmer), the pre-start time is decreased by 10%. If today’s OAT is
15° F (8.3° C) less conducive than yesterday’s, the pre-start time is
increased by 10%.
• IF the schedule has been unoccupied for more than 24 hours, the pre-
start time is increased by 15%.
• The nal calculated pre-start time is limited to between 15 minutes
minimum and 3 hours maximum.
Optimum Start is considered satised when the space temperature is
within 0.5 times the currently active setpoint span of the occupied set-
point. The length of time to reach Optimum Start being satised is then
used to calculate today’s performance. This in turn is used to calculate
the historical performance rate for tomorrow’s use. The last three days
performance are used to calculate the performance rate giving 3 times
weight to today’s rate, 2 times weight to yesterdays and 1 times weight
to 2 days ago performance.
During Optimum Start mode, Occupied Mode is turned on and the unit
controls accordingly with the exception of Economizer Minimum Posi-
tion. If the unit is congured for economizer, during Optimum Start,
Econ Minimum Position is held to zero as ventilation is not needed until
scheduled occupancy begins.
Optimum Stop calculates the time before the scheduled o time that
the space temperature (without heating or cooling) may be allowed to
“drift” without exceeding the setpoint proportional band or span. (Nor-
mal ventilation will continue until the scheduled o time.)
NOTE: For maximum eciency, if Optimum Start is enabled, set times
in schedules for when the room temperature should reach
the setpoint, not when heating/cooling equipment should
start (which would be earlier). Likewise, if Optimum Stop is
enabled, set O times for when room temperature no longer
needs to be maintained at the occupied setpoint, not when
equipment should stop.
Standby Mode
NOTE: Standby Mode was added in rmware ver. R2.0.0.9.
On units equipped with a motion/occupancy sensor, Standby Mode is
available. Standby capability is enabled by seing Standby to Enable.
Standby Mode can only be entered into during the Occupied mode. If
Standby is enabled, Standby Mode is active if no motion is sensed for
the duration of the Standby Timer (30 minutes default). Once Standby
Mode is active, the active heating setpoint is set to the occupied heating
setpoint minus the Standby Oset (default 3° F or 1.6° C) and the active
cooling setpoint is set to the occupied cooling setpoint plus the Standby
Oset.
Upon detecting motion two times in three minutes, Standby Mode stops.
Although occupancy mode returns immediately to normal Occupied
Mode, the active setpoints transition from standby setpoints to normal
occupied setpoints over time. The active setpoints move 1° F (0.55° C)
closer to the occupied setpoints every fteen minutes beginning immedi-
ately when Standby Mode stops. This continues until the active setpoints
reach their normal occupied setpoint values.
During Standby Mode, economizer minimum position is held to zero.
If a building automation system is present, the unit can manually be put
into Standby Mode by overriding BV36 (Standby Mode) to ON at prior-
ity 8. To return the unit to normal function, relinquish BV36@P8.