Appendix A: VVT Zone Controller Points/Properties
58 VVT Zone Controller
– If
is set to
and
is set to
, this is the value that the CO2 level must exceed to begin the IAQ function to control the
damper to
D:
.
R:
1050ppm
0 to 9999 ppm
– If
is
and the zone does not require heating,
when the zon
e’s airflow control setpoint decreases below this value, the parallel fan turns on to
increase airflow, ventilation, and prevent cold air dumping into the zone. If the airflow control
setpoint rises above this value by more than 1 cfm, the parallel fan turns off. We recommend
this value be set to approximately 10% above the
D:
setpoint. Set to 0 to
disable this function.
R:
0 cfm
0 to 99999 cfm
Alarm Configuration
i-Vu / Field Assistant:
BACview:
>
>
>
>
>
Occupied Alarm Hysteresis
– This value is added to the effective cooling setpoints and
subtracted from the effective heating setpoints as output from the
D:
microblock. These values establish the occupied high and low limits that the space
temperature must exceed before an occupied SPT alarm is generated. The alarm
returns to normal when the space temperature drops below the high effective setpoint
or rises above the low effective setpoint.
R:
5°F
0 to 20°F
D: – Determines the amount of delay before an occupied space
temperature alarm is generated when the controller transitions to the occupied mode.
The delay time equals this value multiplied by the difference between the sensor
temperature and occupied alarm setpoint plus 15 minutes.
R:
10 minutes
0 to 30 minutes
Unoccupied Low SPT Alarm Limit
–The value that the space temperature must drop
below to generate a
D:
in the unoccupied mode. There is a
fixed hysteresis of 1° F for return to normal.
R:
45°F
35 to 90°F
Unoccupied High SPT Alarm Limit
– The value that the space temperature must
exceed to generate a
D:
in the unoccupied mode. There is a
fixed hysteresis of 1° F for return to normal.
R:
95°F
45 to 100°F
Supply Air Temperature Alarm
– The value that the supply air temperature must drop below to
generate a
D:
. There is a fixed hysteresis of 1° F for return to
normal.
R:
45°F
15 to 90°F
– The value that the supply air temperature must exceed to
generate a
D:
. There is a fixed hysteresis of 1° F for return to
normal.
R:
120°F
90 to 175°F
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