Bryant 548J User Manual

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position. Compressor 2 contactor (C2) is energized;

Compressor 2 starts and Circuit 2 operates in Cooling

mode.

When Cooling Stage 2 is satisfied, thermostat Y2 opens.

Compressor 2 contactor (C2) is de--energized; Compressor

2 stops. RVS2 remains energized.

When Cooling Stage 1 is satisfied, thermostat Y1 opens.

Compressor 1 contactor (C1) is de--energized; Compressor

1 stops. Outdoor fan relay OFR is de--energized; outdoor

fans stop. After the Fan Delay period, the Indoor fan

contactor IFC is de--energized; indoor fan stops (unless

Continuous Fan operation has been selected). RVS1

remains energized.

Reversing valve solenoids are energized in Cooling

modes. Each solenoid will remain energized until the

next Heating mode is initiated for this circuit.

Heating, Units Without Economizer

04A--07A (single compressor model): When the

thermostat calls for heating, terminal W1 is energized.

DFB receives this input at P2–7. The DFB removes the

output at P3–7 (RVS1)

reversing valve solenoid is

de--energized and reversing valve moves to Heating

position. DFB issues outputs at P3–9 (IFO), OF, and

P3–10 (COMP1). The indoor fan motor or contactor (IFC)

is energized; indoor fan motor starts. Outdoor fan relay

OFR is energized; outdoor fan motor runs. Compressor

contactor C1 is energized; refrigeration circuit operates in

Heating mode.

08D--09D (two compressor model): When the thermostat

calls for heating, terminal W1 is energized. DFB receives

this input at P2–7. The DFB removes the outputs at P3–7

(RVS1) and P3–6 (RVS2)); both reversing valve solenoids

are de--energized and reversing valves move to Heating

position. DFB issues outputs at P3–9 (IFO), OF, P3–10

(COMP1) and P3–8 (COMP2)). The indoor fan contactor

(IFC) is energized; indoor fan motor starts. Outdoor fan

relay OFR is energized; both outdoor fan motors run.

Compressor contactors C1 and C2 are energized; both

refrigeration circuits operate in Heating mode.

If Stage 1 heating does not satisfy the space load, the

space temperature will fall until thermostat calls for Stage

2 heating (W2 closes). Terminal W2 is energized. DFB

receives input at P2--6. DFB issues an output at EHEAT.

Heater contactor 1 (HC1) and heater contactor 2 (HC2) (if

installed) are energized; all electric heaters are energized.

When space heating load is partially satisfied, thermostat

terminal W2 is de--energized; this signal is removed at

DFB P2--6. DFB output at EHEAT is removed; heater

contactors HC1 and HC2 are de--energized and all electric

heat is terminated. Stage 1 heating continues.

When the space heating load is fully satisfied, thermostat

terminal W1 is also de--energized. DFB removes outputs

at P3--10 (COMP1), P3--8 (COMP2) and OF. All

compressor and outdoor fan operations cease. After the

Fan Delay period, output P3--9 is removed and IFM

operations cease (unless Continuous Fan operation has

been selected).

Reversing valve solenoids remain de--energized until the

next call for Cooling mode is initiated.

Cooling, Unit With EconoMi$er IV

For Occupied mode operation of EconoMi$er IV, there

must be a 24--v signal at terminal N (provided through

harness plug PL6--3 from the unit’s IFC coil). Removing

the signal at N places the EconoMi$er IV control in

Unoccupied mode. During Occupied mode operation,

indoor fan operation will be accompanied by economizer

dampers moving to Minimum Position setpoint for

ventilation. If indoor fan is off, dampers will close. During

Unoccupied mode operation, dampers will remain closed

unless a Cooling (by free cooling) or DCV demand is

received.

When free cooling using outside air is not available, the

unit cooling sequence will be controlled directly by the

space thermostat as described above in Cooling, Unit

Without Economizer. Outside air damper position will be

closed or Minimum Position as determined by occupancy

mode and fan signal.

When free cooling is available as determined by the

appropriate changeover command (dry bulb, outdoor

enthalpy, differential dry bulb or differential enthalpy), a

call for cooling (Y1 closes at the thermostat, signal

through PL6--2 to Econo--1) will cause the economizer

control to modulate the dampers open and closed to

maintain the unit supply air temperature at 50_F to 55_F

(10_C to 12.8_C). Compressor will not run.

During free cooling operation, a supply air temperature

(SAT) above 50_F (10_C) will cause the dampers to

modulate between Minimum Position setpoint and 100%

open. With SAT from 50_F to 45_F (10_C to 7.2_C), the

dampers will maintain at the Minimum Position setting.

With SAT below 45_F (7.2_C), the outside air dampers

will be closed. When SAT rises to 48_F (8.9_C), the

dampers will re--open to Minimum Position setting.

Should 100% outside air not be capable of satisfying the

space temperature, space temperature will rise until Y2 is

closed. The economizer control will call for compressor

operation. Y2 signal is transferred to the DFB’s Y1 input

(P2--5). Stage 1 Cooling is initiated as described above in

Cooling, Unit Without Economizer. Dampers will

modulate to maintain SAT at 50_F to 55_F (10_C to

12.8_C) concurrent with Compressor 1 operation. When

thermostat Stage 2 cooling is satisfied, DFB outputs for

COMP1 and OF will be removed and mechanical cooling

sequence will terminate.

The Low Ambient Lockout Thermostat will block

compressor operation with economizer operation below

42_F (5.6_C ) outside air temperature.

When space temperature demand is satisfied (thermostat

Y1 opens), the dampers will return to Minimum Damper

position if indoor fan is running or fully closed if fan is

off.

If accessory power exhaust is installed, the power exhaust

fan motors will be energized by the economizer control as

the dampers open above the PE--On setpoint and will be

548J