Bryant 683B User Manual

NOTE: Read

the entire

instruction manual

before starting the

installation.

TABLE OF CONTENTS

SAFETY CONSIDERATIONS.....................................................1

INTRODUCTION..........................................................................2

RECEIVING AND INSTALLATION..........................................2

ICM FIOP PRE-START-UP..........................................................2

Electrical Connections..............................................................2

Control

Voltage Connections..............................................2

Standard

Connection............................................................2

Easy Select™—583B

..........................................................2

583B Sequence of Operation..............................................4

Easy Select™—683B

..........................................................5

683B

Sequence of Operation..............................................7

Easy Select™—702B & 602B............................................7

702B & 602B Sequence Of Operation...............................9

ICM FIOP START-UP................................................................10

583B Start-Up (ICM FIOP)....................................................10

683B Start-Up (ICM FIOP)....................................................10

702B:

Start-Up (ICM

FIOP) ..................................................11

602B:

Start-Up (ICM FIOP) ..................................................11

ELECTRICAL DATA & SCHEMATICS—ICM FIOP.............12

Physical Data & Electrical Schematics..................................12

Tables For

System Set-Up......................................................12

CARE AND MAINTENANCE...................................................12

TROUBLESHOOTING ...............................................................13

START-UP CHECKLIST............................................................13

NOTE TO INSTALLER — READ THESE INSTRUCTIONS
CAREFULLY AND COMPLETELY before installing this unit.
Also, make

sure the Owner’s Manual and Service Instructions are

left with the unit after installation.

SAFETY CONSIDERATIONS

Installation and servicing of air-conditioning equipment can be
hazardous due to system pressure and electrical components. Only
trained and qualified personnel should install, repair, or service
air-conditioning equipment.

Untrained personnel can perform basic maintenance functions of
cleaning coils and filters. All other operations should be performed
by trained service personnel. When working on air-conditioning
equipment, observe precautions in the

literature, tags, and labels

attached to the unit, and other safety precautions that may apply.
Follow all safety codes. Wear safety glasses and work gloves. Use

quenching cloth for unbrazing operations. Have fire extinguisher
available for all brazing operations.

WARNING: Improper installation, adjustment, alter­ation, service, maintenance, or use can cause explosion,
fire, electric shock, or other occurrences, which could
cause serious injury

or death or

damage your

property.
Consult a qualified installer or service agency for infor­mation or assistance. The qualified installer or agency
must use only factory-authorized kits or accessories when
modifying this product.

Recognize safety information. This is the safety-alert symbol .
When you see this symbol on the product or in instructions or
manuals, be alert to the potential for personal injury.

Understand the signal words — DANGER, WARNING, CAU­TION, and NOTE. Danger identifies the most serious hazards,
which will result in severe personal injury or death. Warning
indicates a condition that could cause serious personal injury or
death. Caution is used to

identify unsafe practices, which

would

result in minor personal injury or product and property damage.
NOTE is used to highlight suggestions which will result in
enhanced installation, reliability, or operation.

The power supply (volts, phase, and hertz) must correspond to that
specified on unit rating plate.
The electrical supply provided by the utility must be sufficient to
handle load imposed by this unit. Electrical supply must match the
voltage requirements listed on unit rating plate.
This installation must conform with local building codes and with
NEC (National Electrical Code). Refer to provincial and local
plumbing or waste water codes and other applicable local codes.
Approved for outdoor installation on wood flooring or on class A,
B or C roof covering materials.

Fig. 1—Puron® Unit (583B Shown)

C99087

ICM FIOP

INSTALLATION INSTRUCTIONS

installation, start-up,

—1—

and operating instructions

583B

683B
602B
702B

Cancels:II583B-24-2II583B-24-3

11-01

WARNING: Before performing service or maintenance
operations on system, turn off main power to unit and
install lock-out tag. Turn off accessory heater power
switch if applicable. Electrical shock could cause severe
injury or death.

WARNING: Make sure that the power supply to the unit
is switched OFF before making any wiring changes. With
disconnect switch open, move yellow wire from trans­former (3/16 in.) terminal marked 230 to terminal marked

200. This retaps transformer to primary voltage of 208-v.
Electrical shock could cause serious injury or death.

CAUTION: Puron® (R-410A) systems operate at higher
pressures than standard R-22 systems. Do not use R-22
service equipment or components on Puron® (R-410A)
equipment. Ensure service equipment is rated for Puron®
(R-410A)

INTRODUCTION

NOTE: The minimum outdoor cooling operating temperature for

units using this ICM motor option is 55°F. To operate in cooling
at lower ambients the Motor Master™ II low ambient kit is
required.

These instructions cover the installation of a Bryant Small Pack­aged Product with ICM motor-factory installed option (FIOP).
This option can be selected as a FIOP on gas heating/electric
cooling (583B), dual fuel–electric heat pump with gas heat
back-up (683B), electric cooling (702B) or electric heat pump
(602B) units with Puron®.

RECEIVING AND INSTALLATION

Refer to unit Installation Instructions.

ICM FIOP PRE-START-UP

C. Easy Select™—583B

HIGH VOLT AGE
POWER LEADS
(SEE UNIT WIRING
LABEL)

GND

CONTROL BOX

LOW-VOLTAGE
POWER LEADS
(SEE UNIT
WIRING LABEL)

SPLICE BOX

LEGEND

Field Control-Voltage Wiring
Field High-Voltage Wiring

Fig. 2—583B High- and Control-Voltage

Connections

FIELD-SUPPLIED
FUSED DISCONNECT

BLK(DH)
YEL(Y)

GRN(G)
RED(R)

BRN(C)

WHI(W1)

DHUM

Y
G
R
C

W1

POWER
SUPPLY

THERMOSTAT
(TYPICAL)

C01026

I. ELECTRICAL CONNECTIONS
A. Control Voltage Connections

NOTE: Do not use any type of power-stealing thermostat, with-

out connecting the C (Common) terminal. Failure to follow this
note could result in unit control problems.

Use no. 18 American Wire Gage (AWG) color-coded, insulated
(35 C minimum) wires to make the control voltage connections
between the thermostat and the unit. If the thermostat is located
more than 100 ft from the unit (as measured along the control
voltage wires), use no. 16 AWG color-coded, insulated (35 C
minimum) wires.

B. Standard Connection

Remove knockout hole located in the heat section panel adjacent to
the service access panel (See unit installation package). Remove
the rubber grommet from the installer’s packet (included with unit)
and install grommet in the knockout opening. Provide a drip loop
before running wire through panel. Run the low-voltage leads from
the thermostat, through the inlet hole, and into unit low-voltage
splice box. Locate 18-gage wires leaving control box. These
low-voltage connection leads can be identified by colors (See Fig.
2, 3, 4 or 5). Ensure the leads are long enough to be routed into the
low-voltage splice box (located below right side of control box).
Route leads through hole in bottom of control box and make
low-voltage connections (See Fig. 2, 3, 4 or 5). Secure all cut
wires, so that they do not interfere with operation of unit.

SPECIAL PROCEDURES FOR 208–V OPERATION

HIGH VOLTA GE
POWER LEADS
(SEE UNIT WIRING
LABEL)

CONTROL BOX

LOW-VOLTAGE
POWER LEADS
(SEE UNIT
WIRING LABEL)

FIELD CONTROL - VOLTAGE WIRING
FIELD HIGH - VOLTAGE WIRING

GND

SPLICE BOX

FIELD-SUPPLIED
FUSED DISCONNECT

BLK (DH)
WHT(W1)

YEL(Y)

GRN(G)
RED(R)

BRN(C)
ORN(O)

DHUM

W/W1

Y/Y2

G
R
C

O/W2

POWER
SUPPLY

THERMOSTAT

(THERMIDISTAT ™ )

C01107

Fig. 3—683B High- and Control-Voltage

Connections

EASY SELECT™ CONFIGURATION TAPS FOR 583B

Easy Select™ taps are used by the installer to configure a system.
The ICM motor uses the selected taps to modify its operation to a

—2—

HIGH VOLT AGE
POWER LEADS
(SEE UNIT WIRING
LABEL)

CONTROL BOX

LOW-VOLTAGE
POWER LEADS
(SEE UNIT
WIRING LABEL)

Field Control-Voltage Wiring
Field High-Voltage Wiring

SPLICE BOX

LEGEND

GND

FIELD-SUPPLIED
FUSED DISCONNECT

BLK(DH)
YEL(Y)

GRN(G)
RED(R)

BRN(C)

WHI(W1)
GRA(W2)

DHUM

Y
G
R
C

W1
W2

POWER
SUPPLY

THERMOSTAT
(TYPICAL)

C01027

Fig. 4—702B High- and Control-Voltage

Connections

HIGH VOLT AGE
POWER LEADS
(SEE UNIT WIRING
LABEL)

CONTROL BOX

LOW-VOLTAGE
POWER LEADS
(SEE UNIT
WIRING LABEL)

Field Control-Voltage Wiring
Field High-Voltage Wiring

SPLICE BOX

LEGEND

GND

FIELD-SUPPLIED
FUSED DISCONNECT

BLK(DH)
YEL(Y)

GRN(G)
RED(R)

BRN(C)

WHI(W1)
GRA(W2)
ORN(0)

DHUM

Y
G
R
C

W1
W2

O

POWER
SUPPLY

THERMOSTAT
(TYPICAL)

C01028

Fig. 5—602B High- and Control-Voltage

Connections

pre-programmed table of airflows.
The unit must be configured to operate properly with system
components with which it is installed. To successfully configure a
basic system (see information printed on circuit board label located
next to select pins), move the 6 select wires to the pins which
match the components used (See Fig. 8).

a. GAS HEAT/CFM—SELECT GAS HEAT INPUT SIZE

Factory selected gas heat size should correspond to unit label.

b. AC/HP SIZE—SELECT SYSTEM SIZE INSTALLED

Factory selected air conditioner size should correspond to
capacity of unit installed. Installer should verify air conditioner
size to ensure that airflow delivered falls within proper range
for the size unit installed. This applies to all operational modes.

c. SYSTEM TYPE—SELECT SYSTEM TYPE INSTALLED

Factory selected on 583B for AC-Air conditioner.

For Gas Heat/Electric Cool Unit–AC must be selected.

d. AC/HP CFM ADJUST—SELECT NOMINAL, LOW, OR

HIGH AIRFLOW
The AC/HP CFM Adjust select is factory set to the High-HI

(NOM for 060) tap. The CFM Adjust selections NOM/LO will
regulate airflow supplied for all operational modes, except
non-heat pump heating modes. HI provides 15 percent airflow
over nominal unit size selected and LO provides 10 percent
airflow below nominal unit size selected. Adjust selection
options are provided to adjust airflow supplied to meet indi­vidual installation needs for such things as noise, comfort, and
humidity removal (See Fig. 8, D as indicated).

e. ON/OFF DELAY—SELECT DESIRED

TIME DELAY PROFILE
Four motor operation delay profiles are provided to customize

and enhance system operation (See Fig. 8, E as indicated).
Selection options are:

(1.) The standard 90 sec off delay (Factory Setting) at 100

percent airflow in cooling mode. In heating mode, IGC
will control 45 sec on delay with no airflow and 45 sec off
delay.

(2.) A 30 sec cooling delay with no airflow/ 90 sec off delay at

100 percent airflow profile is used when it is desirable to
allow system coils time to cool-down in conjunction with
the airflow in heating mode.

(3.) A no delay option used for servicing unit or when a

thermostat is utilized to perform delay functions in cooling
mode. In heating mode IGC will control 45 sec on delay
with no airflow and 45 sec off delay.

(4.) Not recommended for 583B

f. CONTINUOUS FAN—SELECT DESIRED FAN SPEED

WHEN THERMOSTAT IS SET ON CONTINUOUS FAN
(1.) LO speed—Factory setting, 50 percent cooling mode

airflow.

(2.) MED speed—Move connector to MED, 65 percent cooling

mode airflow.

(3.) HI speed—Move connector to HI, 100 percent cooling

mode airflow (See Fig. 8, F as indicated).

g. LOW-VOLTAGE CIRCUIT FUSING AND REFERENCE

The low-voltage circuit is fused by a board-mounted 5–amp
automotive fuse placed in series with the transformer SEC2 and
the R circuit. The C circuit of the transformer is referenced to
chassis ground through a printed circuit run at SEC1 connected
to metal standoff marked with ground symbol.

h. BASIC UNIT CONFIGURATION

The following basic configuration of the indoor motor will
provide ARI rated performance of the 583B. This BASIC

CONFIGURATION should be used when the rated ARI perfor­mance is required, or if system enhancements such as super
dehumidify are not needed.

(1.) HEAT-Factory selected to match heat input size.
(2.) AC/HP Size-Factory selected to match system size, please

verify.

—3—

(3.) SYSTEM TYPE-Factory selected on 583B system AC-

AIR CONDITIONER.

(4.) AC/HP CFM ADJUST-Select HIGH for 042 & 048, NOM

for 036 & 060, and LO for 024 & 030..
(5.) ON/OFF DELAY-Factory selected 0/90 profile.
(6.) CONTINUOUS FAN-Select desired fan speed when ther-

mostat is set to continuous fan.

i. COMFORT OPTIONS—SUPER DEHUMIDIFY (See Quick

Reference Guide)
The Super Dehumidify option is possible when this unit is

installed with a field supplied Thermidistat™ control (Super­Dehumidify does not require an outdoor temperature sensor).
The following configuration is recommended for maximum
cooling/dehumidifying comfort. This configuration will im­prove the comfort provided by the air conditioning system if
more humidity removal is desired. While providing this im­proved comfort, the system will operate efficiently, but not at
the published ARI SEER efficiency. During cool-to-dehumidify
call, it provides maximum dehumidification by reducing airflow
to a minimum. The actual super dehumidify command from
Thermidistat™ control to the indoor unit is a “Y” signal without
a “G” signal in addition to dehumidify signal. The indoor unit
responds to this combination by reducing the airflow to a
minimum. All other characteristics of cool to dehumidify are the
same.
The following system configuration is recommended for maxi­mum cooling/dehumidifying comfort (See Fig. 8).

(1.) HEAT-Factory selected to match gas heat size of unit

installed.

(2.) AC/HP Size-Factory selected to match system size, please

verify.

(3.) SYSTEM TYPE-Factory selected on 583B system AC-

AIR CONDITIONER.
(4.) AC/HP CFM ADJUST-Select NOM (Lo for 060).
(5.) ON/OFF DELAY-Select ENH profile.
(6.) CONTINUOUS FAN-Select desired fan speed when ther-

mostat is set to continuous fan.
(7.) DEHUMIDIFY MODE-Remove J1 jumper to activate.

NOTE: J1 jumper should only be removed when a Thermidis­tat™, humidistat or capable zoning control is installed.

(8.) LOW VOLTAGE CONNECTIONS-Make connections as

shown in ELECTRICAL CONNECTIONS section.
(9.) CONFIGURE THERMIDISTAT™-Follow Thermidis-

tat™ (or capable zoning system) installation instructions

for Super Dehumidify operation.

ACCESSORY INSTALLATION
a. AUXILIARY TERMINALS

The AUX and HUM terminals on the Easy Select™ Board are
tied directly to the G terminal, and provide a 24-v. signal
whenever the G terminal is energized (See Fig. 6). During
Super dehumidify mode, the G signal is not present and the
auxiliary terminals are not energized. If the installation includes
the use of this operating mode, do not use these terminals to
control accessories. See Electronic Air Cleaner and Humidifier
sections for further information.

b. ELECTRONIC AIR CLEANER CONNECTIONS

The AUX1 and AUX2 terminals are not always energized
during blower operations, as described above. When using an
electronic air cleaner with the unit, use Airflow Sensor P/N.

KEAAC0101AAA. The airflow sensor turns on electronic air
cleaner when the blower is operating.

c. HUMIDIFIER/HUMIDISTAT CONNECTIONS

Easy Select™ Board terminals HUM1 and HUM2 are provided
for direct connection to the low-voltage control of a humidifier
through a standard humidistat (See Fig. 6). These terminals are
energized with 24-v. when G thermostat signal is present (See
Fig. 6 & 7). Alternately, the 24-v. signal may be sourced from
the W and C on the 9 pin connector. When using a Thermidis­tat™ Control, Zone Perfect Plus or Comfort Zone II, the 24-v.
signal may be sourced directly from the Thermidistat™ HUM
terminal (See Fig. 6,7&8).

HUMIDISTAT

HUM 1

(C)

HUM 2

(G)

24-VAC

HUMIDIFIER WIRING

TO HUMIDIFIER

Fig. 6—Humidifier Wiring-583B

EASY SELECT

BOARD TERMINAL

BLOCK

D

J1

REMOVE

JUMPER

H

HUMIDISTAT

R

Fig. 7—Humidistat Wiring for

De-Humidify Mode-583B

d. DEHUMIDIFY CAPABILITY WITH STANDARD

HUMIDISTAT CONNECTION
Latent capacities for this unit are better than average systems. If
increased latent capacity is an application requirement, the ICM
board provides connection terminals for use of a standard
humidistat. The unit will detect the humidistat contacts opening
on increasing humidity and reduce its airflow to approximately
80 percent of nominal cooling mode airflow. This reduction
will increase the system latent capacity until the humidity falls
to a level which causes the humidistat to close its contacts.
When the contacts close, the airflow will return to 100 percent
of selected cooling airflow. To activate this mode, remove
jumper J1 and wire in a standard humidistat (See Fig. 7).

e. DEHUMIDIFY AND SUPER DEHUMIDIFY

CAPABILITIES
This model unit is capable of responding to a signal from indoor
system control (Thermidistat™ or capable zoning control) to
operate in comfort control modes such as Super Dehumidify
Mode. Consult literature provided with indoor system control to
determine if these operating modes are available, and to see
control set up instructions. No special setup or wiring of unit is
required.

D. 583B Sequence of Operation

a. CONTINUOUS FAN

(1.) Thermostat closes circuit R to G—The Blower runs at

continuous fan airflow

b. COOLING MODE

A95317

A95316

—4—

(1.) If indoor temperature is above temperature set point and

humidity is below humidity set point, thermostat closes
circuits R to G, R to Y/Y2 and R to O—The unit delivers
single speed cooling airflow.

c. COOLING MODE-DEHUMIDIFICATION

(1.) If indoor temperature is above temperature set point and

humidity is above humidity set point, thermostat or Ther­midistat™ closes circuits R to G, R to Y/Y2, R to O and
humidistat or Thermidistat™ opens R to DH—The unit
delivers airflow which is approximately 80 percent of the
nominal cooling airflow to increase the latent capacity of
the system.

d. COOLING MODE-SUPER DEHUMIDIFY OPERATION

(SEE QUICK REFERENCE GUIDE)

NOTE: The indoor control used, such as a Thermidistat™, must
be capable of providing Super Dehumidify operation mode and
control must be configured as outlined in its installation instruc­tions. Consult indoor control literature to determine if control is
capable of providing Super Dehumidify inputs and for configura­tion instruction.

(1.) If the indoor temperature is below the temperature set

point and the humidity is above the humidity set point, the
Thermidistat™ closes circuit R to O, opens circuits R to
DH and R to G, and closes circuit R to Y/Y2. If circuit R
to G is closed (24-v.), the motor will deliver airflow at the
full cooling or cooling plus dehumidify mode requested
value. If circuit R to G is open (0–v.) for Super Dehu­midify mode, the motor delivers reduced airflow to maxi­mize the humidity removal of the system while minimizing
over cooling.

e. GAS HEATING MODE

(1.) Thermostat closes circuit R to W/W1—The unit delivers

the selected gas heat airflow. The IGC will control a 45
sec. blower “On” delay and a 45 sec. “Off” delay.

E. Easy Select™—683B
NOTE: Either the Bryant Thermidistat™ or Dual Fuel ther-

mostat is required for operation of the dual-fuel (683B) units.
Be sure to follow the installation instructions supplied with the
Thermidistat™. Either indoor temperature control must use
an outdoor air sensor to properly control heating operation.

EASY SELECT™ CONFIGURATION TAPS FOR 683B

Easy Select™ taps are used by the installer to configure a system.
The ICM motor uses the selected taps to modify its operation to a
pre-programmed table of airflows.
The unit must be configured to operate properly with system
components with which it is installed. To successfully configure a
basic system (see information printed on circuit board label located
next to select pins), move the 6 select wires to the pins which
match the components used (See Fig. 8).

a. GAS HEAT/CFM—SELECT GAS HEAT INPUT SIZE

Factory selected gas heat size should correspond to unit label.

b. AC/HP SIZE—SELECT SYSTEM SIZE INSTALLED

Factory selected air conditioner size should correspond to
capacity of unit installed. Installer should verify air conditioner
size to ensure that airflow delivered falls within proper range
for the size unit installed. This applies to all operational modes.

c. SYSTEM TYPE—SELECT SYSTEM TYPE INSTALLED

Factory selected on 683B for HP-EFF.
SELECT OPTIONS

1. HP-COMFORT provides approximately 315 CFM/ton for
higher normal heating air temperature and provides approxi­mately 350 CFM/ton cooling airflow for good humidity re-

9 PIN CONNECTOR

ICM PRINTED CIRCUIT BOARD

SEC1 SEC2

EASY SELECT

GAS HEAT/CFM

090

060

1250

A

B

C

D

E

F

VIO

BLU

ORN

BLK

WHT

YEL

1100

AC/HP SIZE

036 030 024 018

SYSTEM TYPE

AC

AC/HP CFM ADJUST

NOM HI

ON/OFF DELAY

09030900

CONTINUOUS FAN

MED HI YELLO

TM

040
800

HP-COMFORT

HP-EFF

LO

0

HEATER/MOTOR

N/A

ENH

12 PIN CONNECTOR

J2

J1

AUX1 HUM1

AUX2

24VAC

GRY

D
R

W
W
Y
Y/Y
G
O

C

HUM2

H

1
2

1

2

C01039

Fig. 8—Detail of SPP Printed-Circuit Board

moval

2. HP-EFF (factory selected) Provides equal airflow for heating
and cooling modes to increase overall heat pump efficiency.
Provides approximately 400 CFM/ton.

d. AC/HP CFM ADJUST—SELECT NOMINAL, LOW, OR

HIGH AIRFLOW
The AC/HP CFM Adjust select is factory set to the High-HI

(NOM for 036, 060) tap. The CFM Adjust selections NOM/LO
will regulate airflow supplied for all operational modes, except
non-heat pump heating modes. HI provides 15 percent airflow
over nominal unit size selected and LO provides 10 percent
airflow below nominal unit size selected. Adjust selection
options are provided to adjust airflow supplied to meet indi­vidual installation needs for such things as noise, comfort, and
humidity removal (See Fig. 8, D as indicated).

e. ON/OFF DELAY—SELECT DESIRED

TIME DELAY PROFILE
Four motor operation delay profiles are provided to customize

and enhance system operation (See Fig. 8, E as indicated).
Selection options are:

(1.) The standard 90 sec off delay (Factory Setting) at 100

percent airflow in cooling or heat pump heating mode. In
gas heating mode, IGC will control a 45 sec “On” delay
and a 45 sec “Off” delay.

(2.) A 30 sec cooling delay with no airflow/ 90 sec off delay at

100 percent airflow profile is used when it is desirable to
allow system coils time to cool-down/heat-up in conjunc­tion with the airflow in cooling or heat pump heating
mode.

(3.) A no delay option used for servicing unit or when a

thermostat is utilized to perform delay functions. In gas
heating mode IGC will control 45 sec on delay with no
airflow and 45 sec off delay.

—5—

(4.) ENH (enhanced) selection provides a 30 sec. cooling &

heat pump on delay with no airflow, plus 150 seconds at 70
percent airflow and no off delay for added comfort. This
will minimize cold blow in heat pump operation and could
enhance system efficiency.

f. CONTINUOUS FAN—SELECT DESIRED FAN SPEED

WHEN THERMOSTAT IS SET ON CONTINUOUS FAN
(1.) LO speed—Factory setting, 50 percent cooling mode

airflow.
(2.) MED speed—Move connector to MED, 65 percent cooling

mode airflow.
(3.) HI speed—Move connector to HI, 100 percent cooling

mode airflow (See Fig. 8, F as indicated).

g. LOW-VOLTAGE CIRCUIT FUSING AND REFERENCE

The low-voltage circuit is fused by a board-mounted 5–amp
automotive fuse placed in series with the transformer SEC2 and
the R circuit. The C circuit of the transformer is referenced to
chassis ground through a printed circuit run at SEC1 connected
to metal standoff marked with ground symbol.

h. BASIC UNIT CONFIGURATION

The following basic configuration of the indoor motor will
provide ARI rated performance of the 683B. This BASIC

CONFIGURATION should be used when the rated ARI perfor­mance is required.

(1.) HEAT-Factory selected to match heat input size.
(2.) AC/HP Size-Factory selected to match system size, please

verify.

(3.) SYSTEM TYPE-Factory selected on 683B system for

HP-EFF.

(4.) AC/HP CFM ADJUST-Select HIGH for 042 & 048, NOM

for 036 & 060, and LO for 024 & 030.
(5.) ON/OFF DELAY-Factory selected 0/90 profile.
(6.) CONTINUOUS FAN-Select desired fan speed when ther-

mostat is set to continuous fan.

i. COMFORT OPTIONS—SUPER DEHUMIDIFY (See Quick

Reference Guide)
The Super Dehumidify option is possible when this unit is

installed with a field supplied Thermidistat™ control (Super­Dehumidify does not require an outdoor temperature sensor).
The following configuration is recommended for maximum
cooling/dehumidifying comfort. This configuration will im­prove the comfort provided by the air conditioning system if
more humidity removal is desired. While providing this im­proved comfort, the system will operate efficiently, but not at
the published ARI SEER efficiency.
The following system configuration is recommended for maxi­mum cooling/dehumidifying comfort (See Fig. 8).

(1.) HEAT-Factory selected to match gas heat size of unit

installed.

(2.) AC/HP Size-Factory selected to match system size, please

verify.

(3.) SYSTEM TYPE-Factory selected on 683B system for

HP-EFF.
(4.) AC/HP CFM ADJUST-Select NOM (Lo for 060).
(5.) ON/OFF DELAY-Select ENH profile.
(6.) CONTINUOUS FAN-Select desired fan speed when ther-

mostat is set to continuous fan.
(7.) LOW VOLTAGE CONNECTIONS-Make connections as

shown in ELECTRICAL CONNECTIONS section.

(8.) CONFIGURE THERMIDISTAT™-Follow Thermidis-

tat™ installation instructions for Super Dehumidify opera-

tion.
ACCESSORY INSTALLATION
a. AUXILIARY TERMINALS

The AUX and HUM terminals on the Easy Select™ Board are
tied directly to the G terminal, and provide a 24-v. signal
whenever the G terminal is energized (See Fig. 9). During
Super dehumidify mode, the G signal is not present and the
auxiliary terminals are not energized. If the installation includes
the use of this operating mode, do not use these terminals to
control accessories. See Electronic Air Cleaner and Humidifier
sections for further information.

b. ELECTRONIC AIR CLEANER CONNECTIONS

The AUX1 and AUX2 terminals are not always energized
during blower operations, as described above. When using an
electronic air cleaner with the unit, use Airflow Sensor P/N.
KEAAC0101AAA. The airflow sensor turns on electronic air
cleaner when the blower is operating.

c. HUMIDIFIER / THERMIDISTAT™ CONNECTIONS

Easy Select™ Board terminals HUM1 and HUM2 are provided
for direct connection to the low-voltage control of a humidifier
through a standard Thermidistat™ (See Fig. 9). These terminals
are energized with 24-v. when G thermostat signal is present
(See Fig. 10). Alternately, the 24-v. signal may be sourced from
the W and C on the 9 pin connector. When using a Thermidis­tat™ Control the 24-v. signal may be sourced directly from the
Thermidistat™ HUM terminal (See Fig. 8, 9 & 10).

THERMIDISTAT ™

HUM 1

(C)

HUM 2

(G)

24-VAC

TO HUMIDIFIER

HUMIDIFIER WIRING

Fig. 9—Humidifier Wiring-683B

EASY SELECT

BOARD TERMINAL

BLOCK

D

J1

JUMPER

H

THERMIDISTAT

R

Fig. 10—Thermidistat™ Wiring for

De-Humidify Mode-683B

d. DEHUMIDIFY CAPABILITY WITH STANDARD

THERMIDISTAT™ CONNECTION
Latent capacities for this unit are better than average systems. If

increased latent capacity is an application requirement, the ICM
board provides connection terminals for use of a Thermidis­tat™. The unit will detect the Thermidistat™ contacts opening
on increasing humidity and reduce its airflow to approximately
80 percent of nominal cooling mode airflow. This reduction
will increase the system latent capacity until the humidity falls

C01108

C01109

—6—

to a level which causes the Thermidistat™ to close its contacts.
When the contacts close, the airflow will return to 100 percent
of selected cooling airflow. To activate this mode wire in
Thermidistat™ see jumper in Fig. 10.

e. DEHUMIDIFY AND SUPER DEHUMIDIFY

CAPABILITIES

This model unit is capable of responding to a signal from
Thermidistat™ to operate in comfort control modes such as
Super Dehumidify Mode. Consult literature provided with
Thermidistat™ to determine if these operating modes are
available, and to see control set up instructions. No special
setup or wiring of unit is required.

F. 683B Sequence of Operation

a. CONTINUOUS FAN

(1.) Thermostat closes circuit R to G—The Blower runs at

continuous fan airflow

b. COOLING MODE

(1.) If indoor temperature is above temperature set point and

humidity is below humidity set point, thermostat closes
circuits R to G, R to Y/Y2 and R to O—The unit delivers
single speed cooling airflow.

c. COOLING MODE-DEHUMIDIFICATION

(1.) If indoor temperature is above temperature set point and

humidity is above humidity set point, Thermidistat™
closes circuits R to G, R to Y/Y2, R to O and Thermidis­tat™ opens R to DH—The unit delivers airflow which is
approximately 80 percent of the nominal cooling airflow to
increase the latent capacity of the system.

d. COOLING MODE-SUPER DEHUMIDIFY OPERATION

(SEE QUICK REFERENCE GUIDE)

NOTE: Thermidistat™ is capable of providing Super Dehu­midify operation mode and must be configured as outlined in its
installation instructions. Consult indoor control literature to deter­mine if control is capable of providing Super Dehumidify inputs
and for configuration instruction.

(1.) If the indoor temperature is below the temperature set

point and the humidity is above the humidity set point, the
Thermidistat™ closes circuit R to O, opens circuits R to
DH and R to G, and closes circuit R to Y/Y2. If circuit R
to G is closed (24-v.), the motor will deliver airflow at the
full cooling or cooling plus dehumidify mode requested
value. If circuit R to G is open (0–v.) for super dehumidify
mode, the motor delivers reduced airflow to maximize the
humidity removal of the system while minimizing over
cooling.

e. GAS HEATING MODE
(Occurs if outdoor temperature is below outdoor temperature

change over setpoint.)

(1.) Thermostat closes circuit R to W/W1—The unit delivers

the selected gas heat airflow. The IGC will control 45 sec.
on delay with no airflow and 45 sec. off delay.

f. HEAT PUMP HEATING MODE
(Occurs if outdoor temperature is above outdoor temperature

change over setpoint.)

(1.) Thermidistat™ closes circuit R to G and R to Y/Y2–The

unit delivers selected heat pump heating airflow.

g. HEATING MODE—SUPER COMFORT HEAT OPERA-

TION

NOTE: The Thermidistat™ is capable of providing Super Com­fort Heat operation mode and must be configured as outlined in its
installation instructions. The system must be installed with appro­priate outdoor temperature sensor. Consult Thermidistat™ litera­ture for configuration instructions. Consult sensor instructions for
sensor installation details.

If the outdoor temperature is in the range of 12° to 40° F, the
Thermidistat™ closes circuit R to Y/Y2 and opens circuit R to G.
If circuit R to G is closed (24-v.), the motor will deliver airflow at
the full heating requested value. If circuit R to G is open (0-v.) for
maximum heating comfort, the motor delivers reduced airflow to
maximize the temperature and minimize the draft effect of the
heated air leaving the unit.

G. Easy Select™—702B & 602B

9 PIN CONNECTOR

ICM PRINTED CIRCUIT BOARD

SEC1 SEC2

EASY SELECT

AUX HEAT KW/CFM

0-30

0-20

1075

A

B

C

D

E

F

VIO

BLU

ORN

BLK

WHT

YEL

875

AC/HP SIZE

036 030 024 018

SYSTEM TYPE

AC

AC/HP CFM ADJUST

NOM HI

ON/OFF DELAY

09030900

CONTINUOUS FAN

MED HI YELLO

TM

0-10
725

HP-COMFORT

HP-EFF

LO

0

HEATER/MOTOR

ENH

0-5
625

12 PIN CONNECTOR

J2

J1

AUX1 HUM1

AUX2

24VAC

GRY

HUM2

D
R

W
W
Y
Y/Y
G
O

C

H

1

2

1

2

C01033

Fig. 11—Detail of SPP Printed-Circuit Board

EASY SELECT™ CONFIGURATION TAPS FOR 702B &
602B

Easy Select™ taps are used by the installer to configure a system.
The ICM motor uses the selected taps to modify its operation to a
pre-programmed table of airflows.
The unit must be configured to operate properly with system
components with which it is installed. To successfully configure a
basic system (see information printed on circuit board label located
next to select pins), move the 6 select wires to the pins which
match the components used.

a. AUX HEAT kW/CFM—SELECT HEATER RANGE FOR

SIZE OF ELECTRIC HEATER INSTALLED
Installer must select the auxiliary heat airflow approved for

application with kW size heater installed. If no heater is
installed, this step can be skipped. Each select pin is marked
with a range of heaters for which airflow (also marked), is
approved. For increased comfort, select the narrowest kW range
matching the heater size, for example, 0–10 for 10–kW heater.
This airflow must be greater than the minimum for CFM for
electric heater application with the size system installed for safe
and continuous operation. (See Tables 16, 17 & 18 for airflow
delivery and minimum CFM.) Note that airflow marked is the

—7—

airflow which will be supplied in emergency heat mode and
heating mode on air conditioners when electric heat is the
primary heating source. In heat pump heating mode when
electric heaters are energized, the ICM will run the higher of
heat pump heating airflow and electric heater airflow to ensure
safe heater operation. The factory selection is the largest heater
range approved (See Fig. 11, A as indicated).

b. AC/HP SIZE—SELECT SYSTEM SIZE INSTALLED

The factory setting for air conditioner or heat pump size is the
size which matches the model of packaged unit installed.
Installer should verify air conditioner or heat pump size to
ensure that airflow delivered falls within proper range for the
size unit installed. This applies to all operational modes with
the exception of electric heat modes (See Fig. 11, B as
indicated).

c. SYSTEM TYPE—SELECT SYSTEM TYPE INSTALLED

The type of system will be factory selected (see below for
details):

(1.) AC-Air conditioner (Factory Selected for 702B)
(2.) HP-COMFORT—Heat Pump Comfort provides approxi-

mately 315 CFM per ton for higher normal heating air
delivery temperature and provides approximately 350
CFM per ton cooling airflow for good humidity removal.

(3.) HP-EFF (Factory Selected for 602B)— Heat Pump Effi-

ciency provides same airflow for heating and cooling
modes to increase overall HP efficiency; approximately
350 CFM per ton.

d. AC/HP CFM ADJUST—SELECT NOMINAL, LOW, OR

HIGH AIRFLOW
The AC/HP CFM Adjust select is factory set to the High-Hi

(NOM for 060) tap. The CFM Adjust selections NOM/LO will
regulate airflow supplied for all operational modes, except
non-heat pump heating modes. HI provides 15 percent airflow
over nominal unit size selected and LO provides 10 percent
airflow below nominal unit size selected. CFM Adjust selection
options are provided to adjust airflow supplied to meet indi­vidual installation needs for such things as noise, comfort, and
humidity removal (See Fig. 11, D as indicated).

e. ON/OFF DELAY—SELECT DESIRED

TIME DELAY PROFILE
Four motor operation delay profiles are provided to customize

and enhance system operation (See Fig. 11, E as indicated).
Selection options are:

(1.) The standard 90 sec off delay (Factory Setting) at 100

percent airflow in cooling or heat pump heating mode.

(2.) A 30 sec cooling delay with no airflow/90 sec off delay at

100 percent airflow profile is used when it is desirable to
allow system coils time to heat-up/cool-down in conjunc­tion with the airflow in cooling or heat pump heating
mode.

(3.) A no delay option used for servicing unit or when a

thermostat is utilized to perform delay functions.

(4.) ENH, enhanced selection, provides a 30 sec cooling on

delay with no airflow/ plus 150 sec at 70 percent airflow/
no off delay for added comfort.
This will minimize cold blow in heat pump operation
(602B only) and could enhance system efficiency.

f. CONTINUOUS FAN—SELECT DESIRED FAN SPEED

WHEN THERMOSTAT IS SET ON CONTINUOUS FAN
(1.) LO speed—Factory setting, 50 percent cooling mode

airflow.

(2.) MED speed—Move connector to MED, 65 percent cooling

mode airflow.

(3.) HI speed—Move connector to HI, 100 percent cooling

mode airflow (See Fig. 11, F as indicated).
g. LOW-VOLTAGE CIRCUIT FUSING AND REFERENCE

The low-voltage circuit is fused by a board-mounted 5–amp
automotive fuse placed in series with the transformer SEC2 and
the R circuit. The C circuit of the transformer is referenced to
chassis ground through a printed circuit run at SEC1 connected
to metal standoff marked with ground symbol.

h. BASIC UNIT CONFIGURATION

The following basic configuration of the indoor motor will
provide ARI rated performance of the System. This BASIC

CONFIGURATION should be used when the rated ARI perfor­mance is required, or if system enhancements such as super
dehumidify are not needed.

(1.) AUX HEAT kW/CFM-Select the heater range for the size

of electric heater installed (skip this step if no heater is
installed).

(2.) AC/HP SIZE-Factory selected to match system size in-

stalled, please verify.

(3.) SYSTEM TYPE-Factory selected AC (702B) or HP-EFF

(602B).

(4.) AC/HP CFM ADJUST-Select HIGH for 042 & 048, NOM

for 036 & 060, and LO for 024 & 030.
(5.) ON/OFF DELAY-Select 0/90 profile.
(6.) CONTINUOUS FAN-Select desired fan speed when ther-

mostat is set to continuous fan.

i. COMFORT OPTIONS—SUPER DEHUMIDIFY (See Quick

Reference Guide)
The Super Dehumidify option is possible when this unit is

installed with a field supplied Thermidistat™ control (Super
Dehumidify does not require an outdoor temperature sensor).
The following configuration is recommended for maximum
cooling/dehumidifying comfort: This configuration will im­prove the comfort provided by the air conditioning system if
more humidity removal is desired. While providing this im­proved comfort, the system will operate efficiently, but not at
the published HSPF or ARI SEER efficiency.
The following system configuration is recommended for maxi­mum heating and cooling/dehumidifying comfort (See Fig. 11).

(1.) AUX HEAT kW/CFM-Select the narrowest heater range to

match size of electric heater installed (skip this step if no
heater is installed).

(2.) AC/HP Size-Factory selected to match system size in-

stalled, please verify.

(3.) SYSTEM TYPE-Select system type HP-COMFORT (for

heat pump system) or AC (for air conditioner system).
(4.) AC/HP CFM ADJUST-Select NOM (Lo for 060).
(5.) ON/OFF DELAY-Select ENH profile.
(6.) CONTINUOUS FAN-Select desired fan speed when ther-

mostat is set to continuous fan.
(7.) DEHUMIDIFY MODE-Remove J1 jumper to activate.
(8.) LOW VOLTAGE CONNECTIONS-Make connections as

shown in ELECTRICAL CONNECTIONS section.
(9.) CONFIGURE THERMIDISTAT™ (or capable zoning

system)-Following its installation instructions for Super

Dehumidify and Super Comfort Heat operation.

—8—

This configuration provides the following comfort enhance­ments:

(a.) A 30 sec blower on delay with 150 sec at 70 percent

airflow to allow the indoor coil to warm up or cool
down before the blower is asked to deliver 100 percent
airflow reducing the cold blow sensation at start up in
heating and allowing the indoor coil to more quickly
reach wet coil operating conditions in cooling.

(b.) A no blower off delay eliminates cold blow which may

be associated with running the blower after shut down
of the compressor and avoids re-evaporation of con­densed moisture after cooling/dehumidifying opera­tion.

(c.) Lower airflow while the compressor is running to

reduce draft effects and increase heating air tempera­ture and improved humidity control during cooling

operation.
ACCESSORY INSTALLATION
a. ACCESSORY ELECTRIC HEATERS

Electric heaters may be installed with the 702B & 602B units
per instructions supplied with electric heater package. See unit
rating plate for factory-approved electric heater kits.

b. AUXILIARY TERMINALS

The AUX and HUM terminals on the Easy Select™ Board are
tied directly to the G terminal, and provide a 24-v. signal
whenever the G terminal is energized (See Fig. 12). During
Super dehumidify mode, the G signal is not present and the
auxiliary terminals are not energized. If the installation includes
the use of the operating mode, do not use these terminals to
control accessories. See Electronic Air Cleaner and Humidifier
sections for further information.

c. ELECTRONIC AIR CLEANER CONNECTIONS

The AUX1 and AUX2 terminals are not always energized
during blower operations, as described above. When using an
electronic air cleaner with the unit, use Airflow Sensor P/N
KEAAC0101AAA. The airflow sensor turns on electronic air
cleaner when the blower is operating.

d. HUMIDIFIER/HUMIDISTAT CONNECTIONS

Easy Select™ Board terminals HUM1 and HUM2 are provided
for direct connection to the low-voltage control of a humidifier
through a standard humidistat (See Fig. 12). These terminals are
energized with 24-v. when G thermostat signal is present. (See
Fig. 11, 12 & 13). Alternately, the 24-v. signal may be sourced
from the W and C circuit board connections. When using a
Thermidistat™ Control, Zone Perfect Plus or Comfort Zone II,
the 24-v. signal may be sourced directly from the Thermidis­tat™ HUM terminal.

HUMIDISTAT

HUM 1

(C)

HUM 2

(G)

24-VAC

HUMIDIFIER WIRING

TO HUMIDIFIER

Fig. 12—Humidifier Wiring for 702B & 602B

e. DEHUMIDIFY CAPABILITY WITH STANDARD

HUMIDISTAT CONNECTION
Latent capacities for these units are better than average systems.

If increased latent capacity is an application requirement, the
circuit board provides connection terminals for use of a

A95317

EASY SELECT

BOARD TERMINAL

BLOCK

D

J1

REMOVE

JUMPER

H

HUMIDISTAT

R

A95316

Fig. 13—Humidistat Wiring for De-Humidify Mode-for

702B & 602B

standard humidistat. The unit will detect the humidistat contacts
opening on increasing humidity and reduce its airflow to
approximately 80 percent of nominal cooling mode airflow.
This reduction will increase the system latent capacity until the
humidity falls to a level which causes the humidistat to close its
contacts. When the contacts close, the airflow will return to 100
percent of selected cooling airflow. To activate this mode,
remove jumper J1 and wire in a standard humidistat ( See Fig.

13).

f. DEHUMIDIFY AND SUPER DEHUMIDIFY CAPABILITIES

these models are capable of responding to a signal from indoor
system control (thermostat, Thermidistat™, zoning control) to
operate in comfort control modes such as Super Dehumidify
Mode. Consult literature provided with indoor system control to
determine if these operating modes are available, and to see
control set up instructions. No special setup or wiring of unit is
required.

H. 702B & 602B Sequence Of Operation

a. CONTINUOUS FAN

(1.) Thermostat closes circuit R to G—The Blower runs at

continuous fan airflow.

b. COOLING MODE-LOW HUMIDITY

(1.) If indoor temperature is above temperature set point and

humidity is below humidity set point, thermostat closes
circuits R to G, R to Y/Y2 and R to O—The unit delivers
cooling airflow.

c. COOLING MODE-DEHUMIDIFICATION

(1.) If indoor temperature is above temperature set point and

humidity is above humidity set point, thermostat or Ther­midistat™ closes circuits R to G, R to O, and R to Y/Y2
and humidistat or Thermidistat™ opens R to DH—The
unit delivers airflow which is approximately 80 percent of
the nominal cooling airflow to increase the latent capacity
of the system.

d. COOLING MODE-SUPER DEHUMIDIFY OPERATION (see

quick reference guide)

NOTE: The indoor control used, such as a Thermidistat™, must
be capable of providing Super Dehumidify operation mode and
control must be configured as outlined in its installation instruc­tions. Consult indoor control literature to determine if control is
capable of providing Super Dehumidify inputs and for configura­tion instruction.

(1.) If the indoor temperature is below the temperature set

point and the humidity is above the humidity set point, the
Thermidistat™ closes circuit R to O, opens circuits R to
DH and R to G, and cycles circuit R to Y/Y2. If circuit R
to G is closed (24-v.), the motor will deliver airflow at the
full cooling or cooling plus dehumidify mode requested

—9—