Detailed sequence - hw (w/utec 1097 board), Specifications magic-pak: hw/hwc, Refer to figure 2-2 – Armstrong World Industries HWC PREMIER 183 User Manual

SPECIFICATIONS

Magic-Pak: HW/HWC

2-12

SRM-HW/HWC 2/99

Detailed Sequence - HW (w/UTEC 1097 Board)

Refer to Figure 2-2

POWER

Line Voltage

With the unit at rest (no call from the

thermostat

), line

voltage will be present:

L1 Power

1.

Through the

L1

black lead to the

L1

terminal on the

ignition control

2.

At the

transformer

terminal marked

208-240V

L2 Power

1.

Through the

L2

black lead to the

induced draft

blower

2.

Transformer

common terminal

3.

At the

circulating air blower capacitor

terminal

Low Voltage (24 VAC)

With the unit at rest (no call from the

thermostat

), 24

volts A/C will be present:

1.

At the

transformer

24V terminal

2.

At the

24VAC

hot terminal on the

ignition control

3.

At pin 5 of the 5-pin thermostat harness (red wire
pin)

4.

At pin 6 of the 6-pin ignition wire harness

5.

Through the auto reset

limit switch

and the

manual reset

rollout switch

to pin 1 of the 6-pin

ignition wire harness

Note: While the unit is at rest, the green LED shows

consistent slow flash. This indicates normal
operation - system at rest (standby mode).

CALL FOR HEAT

Line Voltage

The

ignition control

receives a signal from the

R-W

circuit indicating a call for heat.

1.

The

combustion blower

relay energizes, sending

L1

power to

CMB BLWR

terminal on the

ignition

control

. This causes the

combustion blower

to

start.

2.

As the 24-volt signal is sent to pin 4 of the 6-pin
ignition wire harness by the i

gnition control

, a 30-

second

circulating air blower

“on” delay starts.

After the delay, the

ignition control

energizes the

heat speed blower relay. This sends

L1

power to

the

ACB HEAT

terminal on the

ignition control

.

3.

L1

power is then sent to the

circulating air blower

terminal block

where it is connected to the blower

motor, starting the

circulating air blower

.

4.

The

combustion blower

and the

circulating air

blower

continue to run until the

R-W

circuit is

interrupted. After a 5-second post-purge delay, the

CMB BLWR

terminal on the

ignition control

de-

energizes. This interrupts L1 power to the

combus-

tion blower

. After a 120-second

circulating air

blower

“off” delay, the

ACB HEAT

terminal de-

energizes. This interrupts L1 to the

circulating air

blower

. As L1 power is interrupted, the blowers

shut off.

Low Voltage

1.

A call for heat closes the

R-W

circuit, sending a 24-

volt signal to the low voltage white wire in the unit.

2.

The 24-volt signal is received at pin 3 of the 5-pin
thermostat harness on the

ignition control

.

3.

The 24-volt signal causes the

combustion blower

relay to close, causing the

combustion blower

to

run. At this time, a 24-volt signal is also sent out
through pin 2 of the 6-pin ignition wire harness.

4.

The 24-volt signal from pin 2 of the 6-pin ignition
wire harness energizes one side of the Normally
Open

pressure switch

. As the

induced draft

blower

reaches full speed, the

pressure switch

closes and a 24-volt signal is sent to pin 5 of the 6-
pin ignition wire harness.

5.

When the 24-volt signal is received at pin 5 of the 6-
pin ignition wire harness, the

ignition control

starts

a 30-second pre-purge delay.

6.

After the 30-second pre-purge, the

ignition control

initiates a trial for ignition. The

spark ignition

cable

terminal and pin 4 of the 6-pin ignition wire

harness energize simultaneously.

7.

When the 24-volt signal is present at pin 4 of the 6-
pin ignition wire harness, the

ignition control

starts

a 30-second

circulating air blower

“on” delay.

8.

The 24-volt signal from pin 4 of the 6-pin ignition
wire harness is received at the

gas valve

, causing

it to open and the burners to ignite.

9.

After 30-second “on” delay, the

circulating air

blower

relay energizes the heat terminal and the

circulating air blower

is energized.

10. The unit will continue to operate normally until the

R-W

circuit is interrupted.

11. When the heat call is satisfied, the

thermostat

will

interrupt the

R-W

circuit. This causes the 24-volt

signal to the white wire in the unit to be de-ener-
gized.