Start Value: | Units | F (C) |
| Range | 40 to 125 |
| Default Value | 80 |
Ducted Heat — The Ducted Heat configuration is used to con- figure the terminal for ducted heat. If a local heat source is in the duct and requires airflow to provide heat, set the Ducted Heat configuration for yes.
Ducted Heat | Range | No/Yes |
| Default Value | Yes |
Maximum Duct Temperature — This configuration is used to configure the maximum
Maximum Duct |
|
|
Temperature: | Units | F (C) |
| Range | 40 to 200 |
| Default Value | 110 |
Number of Electric Stages — This configuration is used to define the number of stages of electric heat controlled by the zone controller.
Number of |
|
Electric Stages: Range | 1 to 3 |
Default Value | 1 |
Heat On Delay — The Heat On Delay configuration is used to define a delay from the time a parallel terminal fan is started until the heat is activated.
Heat On Delay: Units | minutes |
Range | 1 to 60 |
Default Value | 2 |
Fan Off Delay — The Fan Off Delay configuration is used to define a delay time. The delay time is from when the heat is de- activated (in a parallel terminal) until the parallel fan is deacti- vated. This allows the fan to circulate air and remove the resid- ual heat from the heat source.
Fan Off Delay: Units | minutes |
Range | 1 to 15 |
Default Value | 2 |
Two Position |
|
|
Heat Logic: | Range | Normal/Invert |
| Default Value | Normal |
Space Temperature Trim — This configuration is used to trim a space sensor which might need calibration. For example, if the temperature displayed is two degrees above the value mea- sured with calibrated test equipment, input a value of
Space Temperature |
| |
Trim: | Units | delta F (delta C) |
| Range | |
| Default Value | 0.0 |
Supply Air Temperature Trim — This configuration is used to trim a supply air sensor which might need calibration. For example, if the temperature displayed is two degrees above the value measured with calibrated test equipment, input a value of
Supply Air Temperature |
| |
Trim: | Units | delta F (delta C) |
| Range | |
| Default Value | 0.0 |
→Remote Contact Config — The remote timeclock contact in- put can be configured as a normally open or normally closed contact. When the timeclock input is ‘On’ the zone will follow it’s local occupancy schedule. When the timeclock input is ‘Off’ the zone will be forced into unoccupied state.
Remote Contact |
|
|
Config: | Range | Close/Open |
| Default Value | Close |
OPTIONS SERVICE CONFIGURATION SCREEN — The Options Service Configuration screen is used to configure the service options of the air terminal controller. See Table 11.
Occupancy Schedule Number — The Occupancy Schedule Number defines what Occupancy schedule the zone controller will use. Occupancy Schedule 64 is a local schedule. Occupan- cy Schedules 65 to 99 are global schedules.
Occupancy Schedule |
| |
Number: | Range | 64 to 99 |
| Default Value | 64 |
Global Schedule Master — The Global Schedule Master con- figuration allows the Occupancy Schedule to be used as a Glo- bal Schedule Master (Occupancy Schedules
Global Schedule |
|
|
Master: | Range | No/Yes |
| Default Value | No |
Table 11 — Options Service Configuration Screen
DESCRIPTION | DEFAULT | POINT NAME |
Occupancy Schedule Number | 64 | SCH |
Global Schedule Master | No | GSM |
Override | 00:00 | OVR |
Broadcast Acknowledge | No | BCACK |
Set Point Group Number | 0 | SETT |
Global Set Point Master | No | GSTM |
Maximum Offset Adjust | 2 F | LIMT |
Control Options | 0 | CTLOPT |
Humidity |
|
|
Proportional Gain | 1.5 | KP |
Integral Gain | 0.30 | KI |
Maximum Output Value | 100.0 cfm | MAXOUT |
Air Quality |
|
|
Proportional Gain | 0.10 | KP |
Integral Gain | 0.03 | KI |
Maximum Output Value | 100.0 cfm | MAXOUT |
AQ Low Voltage | 0.0 | AQINLO |
AQ High Voltage | 10.0 | AQINHI |
AQ Low Reference | 0 ppm | AQLO |
AQ High Reference | 2000 ppm | AQHI |
41 | 801 |