Bryant 602B, 583B For Gas Heat/Electric Cool Unit±AC must be selected, dehumidify are not needed

Page 3

HIGH VOLTAGE

 

POWER LEADS

POWER

(SEE UNIT WIRING

SUPPLY

LABEL)

 

GND

FIELD-SUPPLIED

FUSED DISCONNECT

Factory selected gas heat size should correspond to unit label.

b. AC/HP SIZEÐSELECT 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 TYPEÐSELECT SYSTEM TYPE INSTALLED

Factory selected on 583B for AC-Air conditioner.

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

CONTROL BOX

 

BLK(DH)

 

YEL(Y)

 

GRN(G)

LOW-VOLTAGE

RED(R)

POWER LEADS

(SEE UNIT

BRN(C)

WIRING LABEL)

 

WHI(W1)

 

GRA(W2)

DHUM

Y

G

R

C

W1

W2

THERMOSTAT (TYPICAL)

d. AC/HP CFM ADJUSTÐSELECT 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 indi-

vidual installation needs for such things as noise, comfort, and

humidity removal (See Fig. 8, D as indicated).

SPLICE BOX

LEGEND

Field Control-Voltage Wiring

Field High-Voltage Wiring

C01027

Fig. 4Ð702B High- and Control-Voltage

Connections

HIGH VOLTAGE

 

POWER LEADS

POWER

(SEE UNIT WIRING

SUPPLY

LABEL)

 

GND

FIELD-SUPPLIED

FUSED DISCONNECT

e. ON/OFF DELAYÐSELECT 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.

CONTROL BOX

 

BLK(DH)

 

YEL(Y)

 

GRN(G)

LOW-VOLTAGE

RED(R)

POWER LEADS

(SEE UNIT

BRN(C)

WIRING LABEL)

 

WHI(W1)

 

GRA(W2)

 

ORN(0)

DHUM

Y

G

R

C

W1

W2

O

THERMOSTAT (TYPICAL)

(4.) Not recommended for 583B

f. CONTINUOUS FANÐSELECT DESIRED FAN SPEED

WHEN THERMOSTAT IS SET ON CONTINUOUS FAN

(1.)

LO speedÐFactory setting, 50 percent cooling mode

 

airflow.

(2.)

MED speedÐMove connector to MED, 65 percent cooling

 

mode airflow.

(3.)

HI speedÐMove connector to HI, 100 percent cooling

 

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

g. LOW-VOLTAGE CIRCUIT FUSING AND REFERENCE

SPLICE BOX

LEGEND

Field Control-Voltage Wiring

Field High-Voltage Wiring

C01028

Fig. 5Ð602B 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/CFMÐSELECT GAS HEAT INPUT SIZE

Ð3Ð

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 perfor-

mance 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.

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Contents SAFETY CONSIDERATIONS installation, start-upICM FIOP INSTALLATION INSTRUCTIONS TABLE OF CONTENTSICM FIOP PRE-START-UP I. ELECTRICAL CONNECTIONS RECEIVING AND INSTALLATIONC. Easy SelectÐ583B INTRODUCTIONFig. 5Ð602B High- and Control-Voltage Connections CONFIGURATION should be used when the rated ARI perforFor Gas Heat/Electric Cool Unit±AC must be selected Fig. 4Ð702B High- and Control-Voltage ConnectionsFig. 6ÐHumidifier Wiring-583B Fig. 7ÐHumidistat Wiring for De-Humidify Mode-583BD. 583B Sequence of Operation Fig. 8ÐDetail of SPP Printed-Circuit Board E. Easy SelectÐ683BTHERMIDISTAT HUM G HUMIDIFIER WIRINGFig. 9ÐHumidifier Wiring-683B Fig. 10ÐThermidistat Wiring for De-Humidify Mode-683BEASY SELECT CONFIGURATION TAPS FOR 702B & 602B F. 683B Sequence of OperationFig. 11ÐDetail of SPP Printed-Circuit Board 3. SYSTEM TYPE-Factory selected AC 702B or HP-EFF 602B 1. LO speedÐFactory setting, 50 percent cooling mode airflow Ð8ÐThe type of system will be factory selected see below for details 1. AC-Air conditioner Factory Selected for 702BFig. 12ÐHumidifier Wiring for 702B & 602B Fig. 13ÐHumidistat Wiring for De-Humidify Mode-for 702B & 602BH. 702B & 602B Sequence Of Operation II. 683B START-UP ICM FIOP ICM FIOP START-UPICM General Start Up I. 583B START-UP ICM FIOPThermidistat or Thermostat and Humidistat III. 702B START-UP ICM FIOPIV. 602B START-UP ICM FIOP 2. ThermostatTABLE 1ÐICM FIOP PHYSICAL DATAÐUNIT 583B ELECTRICAL DATA & SCHEMATICSÐICM FIOPI. PHYSICAL DATA & ELECTRICAL SCHEMATICS CARE AND MAINTENANCETROUBLESHOOTING START-UP CHECKLIST TABLE 2ÐICM FIOP PHYSICAL DATAÐUNIT 583B CONTINUEDTABLE 3Ð583B WITH ICM FIOP ELECTRICAL DATA Ð14Ð Fig. 14ÐICM FIOP Electric SchematicÐUnit 583BÐ15Ð TABLE 4ÐICM FIOP PHYSICAL DATAÐUNIT 683BTABLE 5ÐICM FIOP PHYSICAL DATAÐUNIT 683B CONTINUED TABLE 6Ð683B WITH ICM FIOP ELECTRICAL DATAÐ16Ð Ð17Ð Fig. 15ÐICM FIOP Electric SchematicÐUnit 683BÐ18Ð TABLE 7ÐICM FIOP PHYSICAL DATAÐUNIT 702BÐ19Ð TABLE 8Ð702B WITH ICM FIOP ELECTRICAL DATAÐ20Ð Fig. 16ÐICM FIOP Electrical SchematicÐ702BÐ21Ð TABLE 9ÐICM FIOP PHYSICAL DATAÐUNIT 602BÐ22Ð TABLE 10Ð602B WITH ICM FIOP ELECTRICAL DATAÐ23Ð Fig. 17ÐICM FIOP Electrical SchematicÐ602BDRY COIL ICM AIRFLOW LARGE CABINET TABLE 11±583B & 683B COOLING AND HEAT PUMP HEATING-683B ONLYDRY COIL ICM AIRFLOW SMALL CABINET TABLE 12Ð583B & 683B COOLING AND HEAT PUMP HEATING-683B ONLYSMALL CABINET TABLE 14Ð583B & 683B GAS HEATING ICM AIRFLOW LARGE CABINETTABLE 15Ð583B & 683B ICM AIR FLOW VS. TEMPERATURE RISE CHART TABLE 16Ð702B/602B COOLING & HEATING DRY COIL ICM AIRFLOWTABLE 19ÐELECTRIC HEAT PRESSURE DROP TABLE IN. WG SMALL CABINET TABLE 17Ð702B/602B COOLING & HEATING DRY COIL ICM AIRFLOWLARGE CABINET TABLE 18ÐMINIMUM AIRFLOW FOR RELIABLE ELECTRIC HEATER OPERATION CFMÐ27Ð TABLE 21ÐICM FIOP WET COIL PRESSURE DROP IN. WGTABLE 22ÐFILTER PRESSURE DROP TABLE IN. WG TABLE 23ÐELECTRIC HEATER MULTIPLICATION FACTORSSET-UP INSTRUCTIONS FOR WARMER HEATING TEMPERATURES THERMIDISTAT CONTROL SETTINGSTABLE 24ÐTROUBLESHOOTING CHART QUICK REFERENCE GUIDEI. Preliminary Information START-UP CHECKLIST Remove and Store in Job FileIV. EASY SELECT SETTINGS EASY SELECTCatalog No Ð30ÐPrinted in U.S.A ii583b243
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602B, 683B, 702B, 583B specifications

The Bryant 583B is an advanced, high-efficiency gas furnace designed to provide exceptional heating performance and reliability. With a focus on comfort and energy efficiency, this model stands out in the residential heating market.

One of the main features of the Bryant 583B is its impressive Annual Fuel Utilization Efficiency (AFUE) rating of up to 95%. This means that the furnace converts up to 95% of the fuel it consumes into usable heat. As a result, homeowners can expect lower energy bills and reduced environmental impact due to decreased carbon emissions.

The Bryant 583B is equipped with a modulating gas valve that allows for precise control of the heating output. This technology enables the furnace to adjust its running capacity based on the heating demands of your home. Instead of operating at a single, high setting, the furnace runs at the required level to maintain the desired temperature, delivering consistent comfort while maximizing efficiency.

Another noteworthy characteristic of the 583B is its two-stage operation. This feature allows the furnace to operate at a lower stage for mild weather, which reduces energy consumption and minimizes noise levels. During colder conditions, it can switch to a high stage for increased heating capacity. This dual approach not only enhances comfort but also prolongs the lifespan of the unit by reducing wear and tear.

In terms of construction, the Bryant 583B is built with durable materials and a robust cabinet, which ensures longevity and resilience over time. It also comes with a quiet operation feature, minimizing disturbances while maintaining a comfortable indoor environment.

The unit is compatible with Bryant's advanced communication technology, enabling seamless integration with smart thermostats. This addition allows homeowners to monitor and control their furnace remotely, optimizing energy usage even further.

In summary, the Bryant 583B furnishes an outstanding combination of efficiency, reliability, and user-friendly technologies. Its modulating gas valve, two-stage operation, and high AFUE rating collectively ensure that customers enjoy a comfortable home environment while significantly reducing energy costs. As energy-conscious choices become increasingly crucial, the Bryant 583B stands ready to meet the challenges of modern heating needs.
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