Sequence of furnace operation – Carrier 58SSB User Manual

GND,

rh

WHT cnsv)

YEL C208.230)

WHT Cl 15V) BLUC208V) RED C230V)

,

PR1-2

L2

PIN 6 FOR 115 VAC
PIN 9 FOR 208,230 VAC

BCR
Dl-4
GND

ILK

MTRl
ONR
PCBl
PCB2
PLl
PL2
PL3
PL4
PL5
RES
TB3
TB4
TRAN

^ >-

0

Hi

BLOWER CTRL RELAY DPST
DIODE BRIDGE
GROUND
SWITCH, BLOWER DOOR INTERLOCK
SPST-N.O. CGA5 FURNACE ONLY)
MOTOR CECM) BLOWER
ON/OFF RELAY DPST
P.C. BOARD CECM BLOWER CTRL)
P.C. BOARD CINTERFACE)
CONNECTOR CECM BLOWER CTRL)
CONNECTOR CECM BLOWER MTR)
CONNECTOR CFURN./HEATPACK CTRL.)
CONNECTOR (OUTDOOR SECTION)
CONNECTOR (EXPANSION VALVE)
RESISTOR CADJ: TEMP. RISE)
TERMINAL BLOCK (FURNACE CTRL)

TERMINAL BLOCK (THERMOSTAT)
TRANSFORMER, 120, 208-230VAC
PRI/24VAC SEC

LE6END

FIELD SPLICE
PLUG RECEPTACLE
JUNCTION

TERMINAL PCB FACTORY CONN.
TERMINAL FIELD CONN.

FACTORY WIRING C120V AC)
FACTORY WIRING CLOW VOLTAGE)
FIELD WIRING
CONDUCTOR ON PCB2 (INTERFACE)

SCREW TERMINAL FOR FIELD CONN.

D.C. GROUND

EQUIP. GROUND

5.

NOTES:

T2 INTERNALLY CONNECTED TO EQUIP­
MENT GROUND.
REPLACED DAMAGE WIRE WITH AWH

C105"C) WIRE OR ITS EQUIVALENT.

BLOWER MTR CMTRl) HAS THERMAL
OVERLOAD SWITCH.
SYMBOLS ARE ELECTRICAL REPRESENTA­
TION ONLY.
SOLID LINES INSIDE PCB2 ARE P.C.
BOARD CONDUCTORS.

303892-301 REV. B

Fig. 7 — ECM Blower Kit Line-to-Line Wiring Diagram

SEQUENCE OF FURNACE OPERATION

Heating Cycle — The control circuit of furnace

shown in schematic wiring diagrams, Fig. 6 and 7, results
in the following sequence of operation for the heating
cycle when used with ECM blower kit:
1. When blower door is in place, 120 volts is supplied

through blower door interlock 9G. Both transformers

lA and TRAN are energized supplying 24 volts to

heating blower relay coil 2E, interface circuit board
PCB2, and outdoor section. When heating blower
relay coil 2E is energized its normally closed contact
is opened.

2. The wall thermostat calls for heat which in turn

transmits necessary signal to CPU in outdoor section
which energizes R and W circuit. This closed circuit

supplies power to 24-volt safety circuit containing
limit switch 7H1, fusible link 11C, manual reset draft-
safeguard switch 7H2, manual reset auxiliary switch

7H3 (when used), and energizes ECM blower motor
MTRl at a low blower speed.

3. Simultaneously, the pick coil of gas'valve 5F, spark

generator 6F, and inducer-motor relay coil 2D are

energized. Inducer-motor relay contacts 2D close
supplying 120 volts to start inducer blower motor 3A.
Also, another set of contacts in inducer-motor relay

2D close in 24-volt circuit, and lock in inducer-motor
relay coil 2D. The coil is locked in until R and W
circuit or safety circuit opens.

4. When pick coil of gas valve 5F is energized, gas flows

to pilot. Pilot gas is ignited by a spark produced by
spark generator 6F. Simultaneously, inducer motor

3A comes up to speed, actuating flow sensing switch

7V, energizing hold coil of gas valve 5F. Pick coil of
gas valve 5F and spark generator 6F are de-energized
when contacts of pilot-flame sensing switch 6H move
from normally closed position, breaking circuit to
pick coil and spark generator. In approximately 50 to

60 seconds, normally open contacts of pilot-flame
sensing switch 6H close, making circuit to MGV (main
gas valve) of gas valve 5F. Gas valve 5F opens in
approximately 10 seconds, allowing gas flow to main
burners, which are ignited by pilot 6H. Simul­
taneously, time-delay circuit in furnace control board
is energized. Approximately 60 seconds after gas

valve 5F opens, heating relay coil 2E is de-energized,

which closes 120-volt contacts of heating relay 2E,
energizing blower control relay BCR and on/off relay
ONR on interface circuit board PCB2. This in turn
steps up ECM blower motor MTR 1 to its heating speed.

5. When thermostat is satisfied, the appropriate signal

is transmitted to CPU in outdoor section which de­
energizes R and W circuit. This in turn de-energizes
gas valve 5F, inducer motor relay 2D, and solid-state
time-delay circuit on furnace control board. Gas flow
stops immediately to pilot and main burners. After
approximately 105 seconds, heating relay 2E is ener­

gized, which opens heating relay contacts 2E supplying

120 volts to interface circuit board PCB2. This causes

blower control relay BCR and on/ off relay ONR to
de-energize allowing ECM blower motor MTRl
to stop.

NOTE: After a brief interruption of either electric or gas
supply, furnace will not resume operation until contacts
of pilot-flame sensing switch 6H move from normally
open to normally closed position.