•If SAT > SASP + 5 and economizer position >80%, economizer will go to minimum position for 3 minutes or until SAT > 68 F.
•If compressor no. 1 is on then second stage of mechani- cal cooling will be energized. Otherwise the first stage will be energized.
•Integrator resets.
•Economizer opens again and controls to SASP after stage one on for 90 seconds.
Routine 3 — (OAT > 68)
•Economizer is opened 100%.
•Compressors 1 and 2 are cycled based on Y1 and Y2 using minimum on and off times and watching the sup- ply air temperature as compared to SATLO1 and SATLO2 set points.
If optional power exhaust is installed, as the
If
HEATING, UNITS WITH ECONOMI$ER2, PREMIER- LINK CONTROL AND A THERMOSTAT — When the thermostat calls for heating, terminal W1 is energized. The PremierLink control will move the economizer damper to the minimum position if there is a call for G and closed if there is a call for W1 without G. In order to prevent thermostat from short cycling, the unit is locked into the heating mode for at least 10 minutes when W1 is energized.
COOLING, UNITS WITH ECONOMI$ER2, PREMIER- LINK CONTROL AND A ROOM SENSOR — When free cooling is not available, the compressors will be controlled by the PremierLink controller using a PID (proportional integral) Error reduction calculation as indicated by Fig. 41.
The PremierLink controller will use the following informa- tion to determine if free cooling is available:
•Indoor fan has been on for at least 30 seconds.
•The SPT, SAT, and OAT inputs must have valid readings.
•OAT must be less than 75 F.
•OAT must be less than SPT.
•Enthalpy must be LOW (may be jumpered if and enthalpy sensor is not available).
•Economizer position is NOT forced.
When free cooling is available, the
The PremierLink control will integrate the compressor stages with the economizer based on similar logic as the three routines listed in the previous section. The SASP will float up and down based on the error reduction calculations that com- pare space temperature and space set point.
When
The high space set point is used for DX (direct expansion) cooling control, while the economizer space set point is a calculated value between the heating and cooling set points.
The economizer set point will always be at least one degree below the cooling set point, allowing for a smooth transition from mechanical cooling with economizer assist, back to economizer cooling as the cooling set point is achieved. The compressors may be used for initial cooling then the PremierLink controller will modulate the economizer using an error reduction calculation to hold the space temperature between the heating and cooling set points. See Fig. 42.
The controller uses the following conditions to determine economizer cooling:
•Enthalpy is Low
•SAT reading is available
•OAT reading is available
•SPT reading is available
•OAT ≤SPT
•Economizer Position is NOT forced
If any of the above conditions are not met, the economizer submaster reference (ECSR) is set to maximum limit and the damper moves to minimum position. The operating sequence is complete. The ECSR is recalculated every 30 seconds.
If an optional power exhaust is installed, as the
If
|
| TEMPERATURE CONTROL |
TEMPERATURE | 75 |
|
74 |
| |
73 |
| |
72 | SET POINT | |
71 | TEMPERATURE | |
70 |
| |
SPACE |
| |
69 |
| |
68 |
| |
|
| |
|
| TIME |
NOTE: PremierLink control performs smart staging of 2 stages of DX cooling and up to 3 stages of heat.
Fig. 41 — DX Cooling Temperature
Control Example
|
| TEMPERATURE CONTROL | |
TEMPERATURE | 75 |
| |
74 |
| ||
73 |
| ||
72 | COOL SETPOINT | ||
71 | TEMPERATURE | ||
70 | HEAT SETPOINT | ||
SPACE | |||
69 |
| ||
68 |
| ||
|
| ||
|
| TIME |
Fig. 42 — Economizer Temperature
Control Example
46