LG Electronics Furnace 395CAV User Manual

installation instructions

395CAV

Series G

and operating instructions

UPFLOW GAS-FIRED

INDUCED-COMBUSTION FURNACES

Cancels: II 395C-40-9

II 395C-40-10

1-96

NOTE: Read the entire instruction manual before starting the

installation.

This symbol → indicates a change since the last issue.

CANADIAN GAS ASSOCIATION

Index

Page

ama

A PPROVED

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

Clearances From Combustible Materials.................................1

Dimensional Drawing...............................................................2

ELECTROSTATIC DISCHARGE (ESD) PRECAUTIONS

PROCEDURE........................................................................2-3

INTRODUCTION..........................................................................3

LOCATION....................................................................................3

General ......................................................................................3

Location Relative to Cooling Equipment ................................3

Hazardous Locations.................................................................3

AIR FOR COMBUSTION AND VENTILATION...................3-5

Unconfined Space.....................................................................4

Confined Space......................................................................4-5

FILTER ARRANGEMENT .......................................................5-6

LEVELING LEGS (IF REQUIRED).........................................5-6

GAS PIPING...............................................................................6-7

ELECTRICAL CONNECTIONS ..................................................7

115-v Wiring.............................................................................7

24-v Wiring...............................................................................7

Accessories................................................................................7

VENTING ......................................................................................7

START-UP, ADJUSTMENT, AND SAFETY CHECK.........7-14

General...................................................................................7-8

Sequence Of Operation .......................................................8-11

Heating Mode............................................................................9

Cooling Mode......................................................................9-11

Continuous Blower Mode.......................................................11

Heat Pump Mode....................................................................11

Start-Up Procedures................................................................11

Adjustments .......................................................................11-14

Set Gas Input Rate ............................................................11-13

Set Temperature Rise..............................................................13

Set Thermostat Heat Anticipator............................................14

Check Safety Controls .................................................................14

Checklist.......................................................................................14

and .2-M95 Natural Gas and Propane Installation Codes (NSC-

NGPIC). Wear safety glasses and work gloves. Have fire extin-

guisher available during start-up and adjustment procedures and

service calls.

Recognize safety information. This is the safety-alert symbol

When you see this symbol on the furnace and in instructions or

manuals, be alert to the potential for personal injury.

Understand the signal words DANGER, WARNING, and CAU-

TION. These words are used with the safety-alert symbol. DAN-

GER identifies the most serious hazards which will result in severe

personal injury or death. WARNING signifies a hazard which

could result in personal injury or death. CAUTION is used to

identify unsafe practices which would result in minor personal

injury or product and property damage.

These instructions cover minimum requirements and conform to

existing national standards and safety codes. In some instances,

these instructions exceed certain local codes and ordinances,

especially those that may not have kept up with changing residen-

tial construction practices. We require these instructions as a

minimum for a safe installation.

TABLE 1—MINIMUM CLEARANCES FROM

COMBUSTIBLE MATERIALS (IN.)

UNIT SIZE

045 AND 070 091-155

Sides

Single-Wall Vent

Type B-1 Double-Wall Vent

Back

Plenum Top

Vent

Single-Wall Vent

Type B-1 Double-Wall Vent

Single-Wall Vent

Front

Type B-1 Double-Wall Vent

Service

SAFETY CONSIDERATIONS

NOTES:

Installing and servicing heating equipment can be hazardous due to

gas and electrical components. Only trained and qualified person-

nel should install, repair, or service heating equipment.

1. Provide 30-in. front clearance for servicing. An open door in front of the unit

can meet this requirement.

2. A minimum clearance of 3 in. must be provided in front of the unit for

combustion air and proper operation.

Untrained personnel can perform basic maintenance functions

such as cleaning and replacing air filters. All other operations must

be performed by trained service personnel. When working on

heating equipment, observe precautions in the literature, on tags,

and on labels attached to or shipped with the unit and other safety

precautions that may apply.

→ ^{Follow all safety codes. In the United States, follow all safety}

codes including the National Fuel Gas Code (NFGC) NFPA No.

54-1992/ANSI Z223.1-1992. In Canada, refer to the current

edition of the National Standard of Canada CAN/CGA-B149.1-

—1—

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4. If you touch ungrounded objects (recharge your body with

static electricity), firmly touch furnace again before touch-

ing control or wires.

I. LOCATION

A. General

5. Use this procedure for installed and uninstalled (un-

grounded) furnaces.

CAUTION: Do not install furnace in a corrosive or

contaminated atmosphere. Make sure all combustion and

circulating air requirements are met, in addition to all

local codes and ordinances.

6. Before removing a new control from its container, dis-

charge your body’s electrostatic charge to ground to protect

the control from damage. If the control is to be installed in

a furnace, follow items 1 through 5 before bringing the

control or yourself into contact with the furnace. Put all

used AND new controls into containers before touching

ungrounded objects.

→

CAUTION: Do not use this furnace during construction

when adhesives, sealers, and/or new carpets are being

installed. If the furnace is required during construction,

use clean outside air for combustion and ventilation.

Compounds of chlorine and fluorine when burned with

combustion air form acids which cause corrosion of the

heat exchangers and metal vent system. Some of these

compounds are found in paneling and dry wall adhesives,

paints, thinners, masonry cleaning materials, and many

other solvents commonly used in the construction pro-

cess.

7. An ESD service kit (available from commercial sources)

may also be used to prevent ESD damage.

INTRODUCTION

→ ^{The Model 395CAV, Series G Furnace is available in sizes 45,000}

through 155,000 Btuh input capacities.

The design of the upflow gas-fired furnace is A.G.A./C.G.A.

certified for natural and propane gas and for installation on

combustible flooring, in alcoves, attics, basements, closets, or

utility rooms. The design of this furnace line is not A.G.A./C.G.A.

certified for installation in mobile homes, recreation vehicles, or

outdoors.

Before installing the furnace, refer to the current edition of the

NFGC. Canadian installations must be installed in accordance with

NSCNGPIC and all authorities having jurisdiction. For further

information, the NFGC is available from National Fire Protection

Association Inc., Batterymarch Park, Quincy, MA 02269; Ameri-

can Gas Association, 1515 Wilson Boulevard, Arlington, VA

22209; or from Literature Distribution.

Excessive exposure to contaminated combustion air will

result in safety and performance related problems.

This furnace must be installed so the electrical components are

protected from water. This furnace shall not be installed directly on

carpeting, tile, or any combustible material other than wood

flooring.

Locate furnace as close to the chimney/vent and as near the center

of the air distribution system as possible. The furnace should be

installed as level as possible.

When a furnace is installed so that the supply ducts carry air to

areas outside the space containing the furnace, the return air must

also be handled by a duct(s) sealed to the furnace casing and

terminating outside the space containing the furnace.

Installation must conform to the regulations of the serving gas

supplier and the local building, heating, and plumbing codes in

effect in the area in which the installation is made, or in the

absence of local codes with the requirements of the NFGC.

Provide ample space for servicing and cleaning. Always comply

with the minimum fire protection clearances shown on the unit

rating plate.

CAUTION: Application of this furnace should be in-

doors with special attention given to vent sizing and

material, gas input rate, air temperature rise, and unit

sizing. Improper installation or misapplication of the

furnace can require excessive servicing or cause prema-

ture component failure.

B. Location Relative to Cooling Equipment

The cooling coil must be installed parallel with or on the

downstream side of the unit to avoid condensation in the heat

exchangers. When installed parallel with a furnace, dampers or

other means used to control the flow of air must prevent chilled air

from entering the unit. If the dampers are manually operated, they

must be equipped with means to prevent operation of either unit

unless the damper is in the full-heat or full-cool position.

This furnace is designed for a minimum continuous return-air

temperature of 60°F db or an intermittent operation down to 55°F

db such as when used with a night setback thermostat. Return-air

temperature must not exceed a maximum of 85°F db.

C. Hazardous Locations

WARNING: Improper installation, adjustment, alter-

ation, service, maintenance, or use can cause carbon

monoxide poisoning, explosion, fire, electrical shock, or

other conditions which may cause personal injury or

property damage. Consult a qualified installer, service

agency, local gas supplier, or your distributor or branch

for information or assistance. The qualified installer or

agency must use only factory-authorized and listed kits or

accessories when modifying this product. Failure to

follow this warning can cause electrical shock, fire,

personal injury, or death.

When the furnace is installed in a residential garage, it must be

installed so that the burners and ignition source are located at least

18 in. above the floor. The furnace should be protected from

physical damage by vehicles. When a furnace is installed in public

garages, airplane hangars, or other buildings having hazardous

atmospheres, the unit must be installed in accordance with the

recommended good practice requirements of the National Fire

Protection Association, Inc.

II. AIR FOR COMBUSTION AND VENTILATION

Provisions for adequate combustion and ventilation air must be

provided in accordance with Section 5.3 of the NFGC, Air for

Combustion and Ventilation, or applicable provisions of the local

building codes.

For accessory installation details, refer to the applicable instruction

literature.

NOTE: Remove all shipping brackets and materials before

operating the furnace.

Canadian installations must be installed in accordance with NSC-

NGPIC and all authorities having jurisdiction.

—3—

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CAUTION: Air for combustion must not be contami-

nated by halogen compounds, which include fluoride,

chloride, bromide, and iodide. These elements are found

in aerosol sprays, detergents, bleaches, cleaning solvents,

salts, air fresheners, and other household products.

SUPPLY

AIR

VENT THROUGH ROOF

All fuel-burning equipment must be supplied with air for combus-

tion of the fuel. Sufficient air MUST be provided to ensure there

will not be a negative pressure in the equipment room or space. In

addition, a positive seal MUST be made between the furnace

cabinet and the return-air duct to prevent pulling air from the

burner area and draft safeguard opening.

12″ MAX

1 SQ IN.

PER 1000

BTUH IN DOOR

OR WALL

CAUTION: The operation of exhaust fans, kitchen ven-

tilation fans, clothes dryers, or fireplaces could create a

NEGATIVE PRESSURE CONDITION at the furnace.

Make-up air MUST BE PROVIDED for the ventilation

devices, in addition to that required by the furnace.

UNCONFINED

SPACE

INTERIOR

HEATED

SPACE

6″ MIN

(FRONT) ^†

1 SQ IN.

PER 1000

The requirements for combustion and ventilation air depend upon

whether the furnace is located in an unconfined or confined space.

BTUH IN DOOR

OR WALL

A. Unconfined Space

An unconfined space must have at least 50 cubic ft for each 1000

Btuh of input for all the appliances (such as furnaces, clothes

dryer, water heaters, etc.) in the space.

12″ MAX

RETURN AIR

For Example:

395CAV FURNACE

INPUT BTUH

MINIMUM SQ FT WITH

7-1/2 FT CEILING

* Minimum opening size is 100 square in. with

minimum dimensions of 3-In.

^†Minimum of 3-In. when type-B1 vent is used.

44,000

66,000

293

440

587

733

880

1026

88,000

A89012

110,000

132,000

154,000

Fig. 2—Air For Combustion and Ventilation (Inside Air)

For Example:

395CAV FURNACE

INPUT BTUH

FREE AREA PER OPENING

(SQ IN.)

If the unconfined space is constructed unusually tight, air for

combustion and ventilation MUST come from either the outdoors

or spaces freely communicating with the outdoors. Combustion

and ventilation openings must be sized the same as for a confined

space. A minimum opening with a total of at least 1 sq in. per 5000

Btuh of total input rating for all equipment must be provided.

Return air must not be taken from the room unless an equal or

greater amount of air is supplied to the room.

44,000

66,000

100

110

132

154

88,000

110,000

132,000

154,000

B. Confined Space

b. If the building is constructed unusually tight, a perma-

nent opening directly communicating with the outdoors

should be provided. This opening shall have a minimum

free area of 1 sq in. per 5000 Btuh of total input rating

for all equipment in the enclosure.

A confined space has volume less than 50 cu ft per 1000 Btuh of

the total input rating for all appliances installed in that space. A

confined space MUST have 2 permanent openings, 1 within 12 in.

of the ceiling and the other within 12 in. of the floor. (See Fig. 2.)

NOTE: In determining the free area of an opening, the blocking

effect of the louvers, grilles, and screens must be considered. If the

free area of a louver or grille design is unknown, it may be

assumed that wood louvers have a 20 percent free area, and metal

louvers or grilles have a 60 percent free area. Screens, when used,

must not be smaller than 1/4-in. mesh. Louvers and grilles must be

constructed so they cannot be closed.

c. If the furnace is installed on a raised platform to provide

a return-air plenum, and return air is taken directly from

the hallway or space adjacent to the furnace, all air for

combustion must come from outdoors.

2. All air from outside the structure:

a. If combustion air is taken from outdoors through vertical

ducts, the openings and ducts MUST have at least 1 sq

in. of free area per 4000 Btuh of the total input for all

equipment within the confined space. (See Fig. 3.)

The size of the openings depends upon whether the air comes from

inside or outside of the structure.

1. All air from inside the structure:

b. If combustion air is taken from the outdoors through

horizontal ducts, the openings and ducts MUST have at

least 1 sq in. of free area per 2000 Btuh of the total input

for all equipment within the confined space.

a. Each opening MUST have at least 1 sq in. of free area

per 1000 Btuh of the total input for all equipment within

the confined space, but not less than 100 sq in. per

opening. (See Fig. 2.)

—4—

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For Example:

WARNING: Do not install the furnace on its back;

safety control operation will be adversely affected. Never

connect return-air ducts to the back of the furnace. A

failure to follow this warning can cause a fire, personal

injury, or death.

395CAV FURNACE FREE AREA PER OPENING ROUND PIPE

INPUT BTUH

(SQ IN.)

(IN. DIA)

44,000

11.0

66,000

16.5

88,000

22.0

110,000

132,000

154,000

27.5

33.0

III. FILTER ARRANGEMENT

38.5

The factory-supplied filter(s) is shipped in the blower compart-

ment. Determine location for the filter and relocate filter retaining

wire if necessary. See Fig. 4 for side return application and Fig. 5

for bottom return application. See Table 3 to determine correct

filter size for desired filter location. Table 3 indicates filter size,

location, and quantity shipped with the furnace.

For Example:

395CAV FURNACE FREE AREA PER OPENING ROUND PIPE

INPUT BTUH

(SQ IN.)

(IN. DIA)

44,000

22.0

WASHABLE

FILTER

66,000

33.0

88,000

44.0

110,000

132,000

154,000

55.0

66.0

FILTER

RETAINER

77.0

c. When ducts are used, they must be of the same cross-

sectional area as the free area of the openings to which

they connect. The minimum dimension of rectangular

ducts must not be less than 3 in. (See Fig. 3.)

1 SQ IN.

PER 4000

DUCTS

BTUH*

OUTDOORS

A93045

Fig. 4—Side Filter Arrangement

(Control Removed for Clarity)

For bottom air-return applications, filter may need to be cut to fit

some furnace casing widths. A bottom closure panel is factory

installed in the bottom of the furnace. When bottom return inlet is

desired, remove and discard the bottom closure panel. Remove

side clip(s) and install in hole. Two sets of hardware are needed for

furnaces in 24-1/2-in. wide casings using 2 filters for bottom

return. All hardware is provided for filter installation.

12″ MAX

1 SQ IN.

PER 2000

BTUH*

12″

MAX

VENT

THROUGH

ROOF

SUPPLY

AIR

1 SQ IN.

PER

4000

BTUH*

NOTE: Furnaces with a 17-1/2-in. wide casing require an addi-

tional procedure when locating the filter for bottom return-air

application. Field fabricate a sheet metal filler strip 1 X 3 X 24-1/2

in. and install it along side of the filter as shown in Fig. 5. Drive

2 screws through the casing side and into the filler strip to secure

it in place. Filter should rest on the top of the filler strip when

installed.

DUCTS

OUTDOORS

1 SQ IN.

PER

4000

BTUH*

1 SQ IN.

PER 2000

BTUH*

WARNING: Never operate unit without a filter or with

filter access door removed. Failure to follow this warning

can cause fire, personal injury, or death.

12″

MAX

12″ MAX

IV. LEVELING LEGS (IF REQUIRED)

When the furnace is used with side inlet(s) and leveling legs are

required, refer to Fig. 6, and install field-supplied, corrosion-

resistant 5/16-in. machine bolts and nuts.

RETURN AIR

DUCT

OUTDOORS

1 SQ IN.

PER 4000

BTUH*

NOTE: The maximum length of the bolt should not exceed 1-1/2

in.

*Minimum dimensions of 3-In.

NOTE: Use any of the following

1. Lay furnace on its back. Locate and drill 5/16-in. diameter

hole in each bottom corner of furnace as shown in Fig. 6.

combinations of openings:

A & B C & D D & E F & G

2. Install nut on bolt and install bolt and nut in hole. (Install

flat washer if desired.)

A89013

Fig. 3—Air For Combustion and Ventilation

(Outside Air)

3. Install another nut on other side of furnace base. (Install flat

washer if desired.)

—5—

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24¹⁄2-IN. WIDE

⁵⁄16″

17¹⁄2-IN. WIDE

CASINGS ONLY:

CUT AND FOLD

CASINGS ONLY:

INSTALL FIELD-SUPPLIED

FILTER FILLER STRIP

UNDER FILTER.

FACTORY-PROVIDED

FILTERS AS SHOWN

TO DESIRED SIZE.

⁵⁄16″

1 ³⁄4″

3″

24 / ″

1 ³⁄4″

1″

⁵⁄16″

1 ³⁄4″

A89014

Fig. 6—Leveling Leg Installation

TABLE 4—MAXIMUM CAPACITY OF PIPE*

NOMINAL IRON INTERNAL

LENGTH OF PIPE (FT)

PIPE SIZE

(IN.)

DIAMETER

(IN.)

WASHABLE

FILTER

1/2

3/4

0.622

0.824

1.049

1.380

1.610

175

360

680

120

250

465

200 170 151

375 320 285

770 660 580

1-1/4

1-1/2

1400 950

2100 1460 1180 990 900

* Cubic ft of gas per hr for gas pressures of 0.5 psig (14-in. wc) or less, and a

pressure drop of 0.5-in. wc (based on a 0.60 specific gravity gas). Ref: Table

10-2 NFPA 54-1992.

CAUTION: If a flexible connector is required or al-

lowed by the authority having jurisdiction, black iron

pipe shall be installed at the gas valve and extend a

minimum of 2 in. outside the furnace casing.

FILTER

RETAINER

FILTER

SUPPORT

A96030

Fig. 5—Bottom Filter Arrangement

(Control Removed for Clarity)

→ Piping should be pressure tested in accordance with local and

national plumbing and gas codes before the furnace has been

attached. If the pressure exceeds 0.5 psig (14-in. wc), the gas

supply pipe must be disconnected from the furnace and capped

before the pressure test. If the test pressure is equal to or less than

0.5 psig (14-in. wc), turn off electric shutoff switch located on the

gas valve before the test. It is recommended that the ground joint

union be loosened before pressure testing. After all connections

have been made, purge the lines and check for leakage with

regulated gas supply pressure.

TABLE 3—FILTER INFORMATION (IN.)

FILTER SIZE*

Side Return Bottom Return

FURNACE

CASING WIDTH

FILTER TYPE

14-3/16

17-1/2

(1) 16 X 25 X 1† (1) 14 X 25 X 1

(1) 16 X 25 X 1† (1) 16 X 25 X 1

(1) 16 X 25 X 1 (1) 20 X 25 X 1†

(2) 16 X 25 X 1† (1) 24 X 25 X 1

Cleanable

24-1/2

* Filters can be field modified by cutting the frame as marked and folding to the

desired size. Alternate sizes can be ordered from your distributor or dealer.

† Factory-provided with the furnace.

Install a sediment trap in the riser leading to the furnace. The trap

can be installed by connecting a tee to the riser leading from the

furnace. Connect a capped nipple into the lower end of the tee. The

capped nipple should extend below the level of the gas controls.

(See Fig. 7.)

Apply joint compound (pipe dope) sparingly and only to the male

threads of each joint. The compound must be resistant to the action

of propane gas.

4. Adjust outside nut to provide desired height, and tighten

inside nut to secure arrangement.

V. GAS PIPING

→ ^{An accessible manual shutoff valve MUST be installed upstream}

of the furnace gas controls and within 72 in. of the furnace. A

1/8-in. NPT plugged tapping, accessible for test gage connection,

MUST be installed immediately upstream of the gas supply

connection to the furnace and downstream of the manual shutoff

valve. Place ground joint union between the gas control manifold

and the manual shutoff valve.

Gas piping must be installed in accordance with national and local

codes. Refer to the current edition of the NFGC. Canadian

installations must be installed in accordance with NSCNGPIC and

all authorities having jurisdiction.

Refer to Table 4 for the recommended gas pipe size. Risers must

be used to connect to the furnace and the meter.

—6—

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GAS

→

WARNING: The cabinet MUST have an uninterrupted

or unbroken ground according to NEC, ANSI/NFPA

70-1996 and Canadian Electrical Code, CSA C22.1 or

local codes to minimize personal injury if an electrical

fault should occur. This may consist of electrical wire or

conduit approved for electrical ground when installed in

accordance with existing electrical codes. Do not use gas

piping as an electrical ground. Failure to follow this

warning could result in electrical shock, fire, or death.

SUPPLY

MANUAL

SHUTOFF

VALVE

(REQUIRED)

The auxiliary junction box (J-box) can be moved to the left-hand

side of the furnace when a left-side power supply is desired.

Remove the 2 screws holding the auxiliary J-box. Mount the J-box

on the left-hand side of the furnace (holes have been pre-drilled in

casing). When moved, tuck the wiring harness behind the clip

provided to keep extra wire lengths out of the way.

SEDIMENT

TRAP

UNION

NOTE: Proper polarity must be maintained for 115-v wiring. If

polarity is incorrect, control board fault code indicator light will

flash rapidly and the furnace will not operate.

B. 24-v Wiring

Make field 24-v connections at the 24-v terminal strip. (See Fig.

9.) Connect terminal Y as shown in Fig. 8 for proper cooling

operation. Use only AWG No. 18, color-coded, copper thermostat

wire.

A89417

→

Fig. 7—Typical Gas Pipe Arrangement

The 24-v circuit contains an automotive-type, 3-amp fuse located

on the main control board. Any direct shorts during installation,

service, or maintenance could cause this fuse to blow. If fuse

replacement is required, use ONLY a 3-amp fuse of identical size.

WARNING: Use the proper length of pipes to avoid

stress on the gas control manifold. Failure to follow this

warning can result in a gas leak, causing fire, explosion,

personal injury, or death.

C. Accessories

1. Electronic Air Cleaner (EAC)

Two spring clamp terminals (for 12 gage maximum, solid

or stranded wire), marked EAC-1 and EAC-2 are provided

for EAC connection. (See Fig. 9.) These terminals are

energized with 115-v, (1-amp maximum) during blower

motor operation. To connect EAC power leads to furnace

control center, strip approximately 1/8 in. of insulation from

wire. Open terminal by depressing switch arm with a

screwdriver or finger, and insert wire as shown in Fig. 10.

CAUTION: Connect the gas pipe to the furnace using a

backup wrench to avoid damaging gas controls.

WARNING: Never purge a line into a combustion

chamber. Never use matches, candles, flame, or other

sources of ignition for the purpose of checking leakage.

Use a soap-and-water solution to check for leakage.

Failure to follow this warning can cause a fire, explosion,

personal injury, or death.

2. Humidifier (HUM)

Screw terminals (HUM and Com) are provided for 24-v

humidifier connection. The terminals are energized with

24-v 0.5-amp maximum after inducer motor prepurge

period.

NOTE: A field-supplied, 115-v controlled relay connected to

EAC terminals may be added if humidifier operation is desired

during blower operation.

VI. ELECTRICAL CONNECTIONS

A. 115-v Wiring

VII. VENTING

→ ^{Refer to the National or Local Installation Code such as; National}

Fuel Gas Code Z223.1-1992, or the Canadian Installation Code,

CAN B149.1- and .2-M95, for proper vent sizing and installation

requirements. Use the enclosed Venting Tables for Category I

Fan-Assisted Furnaces for a quick, easy reference. The horizontal

portion of the venting system shall maintain a minimum of 1/4-in.

upward slope per linear ft and it shall be rigidly supported every 5

ft or less with hangers or straps to ensure that there will be no

movement after installation.

Refer to the unit rating plate or Table 5 for equipment electrical

requirements. The control system requires an earth ground for

proper operation.

CAUTION: Do not connect aluminum wire between

disconnect switch and furnace. Use only copper wire.

→ Make all electrical connections in accordance with the National

Electrical Code (NEC) ANSI/NFPA 70-1996 and local codes or

ordinances that might apply. For Canadian installations, all elec-

trical connections must be made in accordance with CSA C22.1

Canadian Electrical Code, or authorities having jurisdiction.

VIII. START-UP, ADJUSTMENT, AND SAFETY CHECK

A. General

NOTE: Proper polarity must be maintained for 115-v wiring. If

polarity is incorrect, control board fault indicator light will flash

rapidly and furnace will not operate.

—7—

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FIELD 24-VOLT WIRING

FIELD 115-, 208/230-, 460-VOLT WIRING

FACTORY 24-VOLT WIRING

FACTORY 115-VOLT WIRING

NOTE 2

THERMOSTAT

TERMINALS

FIVE

WIRE

FIELD-SUPPLIED

FUSED DISCONNECT

THREE-WIRE

HEATING-

ONLY

208/230- OR

460-VOLT

THREE

PHASE

BLK

WHT

208/230-

VOLT

SINGLE

PHASE

GND

AUXILIARY

J-BOX

115-VOLT FIELD-

SUPPLIED

FUSED

DISCONNECT

GND

NOTE 1

CONTROL

CONDENSING

UNIT

BOX

TWO

WIRE

24-VOLT

TERMINAL

BLOCK

NOTES: 1. Connect Y-terminal as shown for proper operation.

2. Some thermostats require a "C" terminal connection as shown.

3. If any of the original wire, as supplied, must be replaced, use

same type or equivalent wire.

FURNACE

A95241

Fig. 8—Heating and Cooling Application Wiring Diagram

TABLE 5—ELECTRICAL DATA

OPERATING

MAXIMUM

VOLTS—

HERTZ—

PHASE

MAXIMUM

MINIMUM

MAXIMUM

WIRE LENGTH (FT)‡

FUSE OR

HACR-TYPE CKT

BKR AMPS†

VOLTAGE RANGE

Maximum* Minimum*

127 104

UNIT SIZE

UNIT AMPS

WIRE GAGE

024045

036045

024070

036070

042091

048091

036110

048111

060111

048135

060135

060155

115—60—1

6.0

8.3

127

104

5.9

8.7

9.0

10.4

8.0

10.1

14.4

10.1

13.3

14.0

* Permissible limits of the voltage range at which the unit operates satisfactorily.

† Time-delay fuse is recommended.

‡ Length shown is as measured 1 way along wire path between unit and service panel for maximum 2 percent voltage drop.

The furnace must have a 115-v power supply properly connected

and grounded. Proper polarity must be maintained for correct

operation. Thermostat wire connections at R, W, C, and Y must be

made at the 24-v terminal block on the control board. The gas

service pressure must not exceed 0.5 psig (14-in. wc), but must be

no less than 0.16 psig (4.5-in. wc).

The blower compartment door must be in place to complete the

115-v circuit to the furnace.

B. Sequence of Operation

CAUTION: Furnace control must be grounded for

proper operation, or control will lockout. Control is

grounded through green wire routed to gas valve and

burner bracket screw.

CAUTION: This furnace is equipped with a manual

reset limit switch or fuse link in the gas control area. The

switch or fuse link opens and shuts off power to the gas

valve if a flame rollout or overheating condition occurs in

the gas control area. DO NOT bypass the switch. Correct

inadequate combustion air supply problem and reset the

switch or replace the fuse link.

Using the schematic diagram shown in Fig. 11, follow the

sequence of operation through the different modes. Read and

follow the wiring diagram very carefully.

NOTE: If there is a power interruption and any thermostat call,

the control initiates a 90-sec blower only on period before starting

another cycle.

Before operating the furnace, check each manual reset switch for

continuity. If necessary, press the button to reset the switch.

—8—

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BLOWER OFF DELAY

ADJUSTMENT SWITCH

24V THERMOSTAT

TERMINALS

Com

24V

TEST/TWIN

HUMIDIFIER TERMINAL

(24-VAC 0.5 AMP MAX)

HUM

LED OPERATION &

DIAGNOSTIC LIGHT

HARNESS CONNECTOR

SEC-1

24V TRANSFORMER SEC-2

SPARE 1

3-AMP FUSE

COOL

HEAT

BLOWER SPEED

SELECTION TERMINALS

SPARE 2

EAC 1 (BLACK)

EAC-ELECTRONIC AIR CLEANER

TERMINALS (115-VAC 1.5 AMP MAX)

115-VAC (L1)

POWER

EAC 2 (WHITE)

115-VAC (L2) NEUTRAL

CONNECTION

SUPPLY

HOT SURFACE

INDUCER MOTOR

CONNECTOR

IGNITOR

CONNECTOR

A93052

Fig. 9—Control Board

d. HUM terminal is energized with the gas valve. See

accessories in the Electrical Connections section.

e. Flame-sensing—When burner flame is sensed, the con-

trol begins the blower on delay period and continues

holding the gas valve open. If burner flame is not sensed,

the control closes the gas valve and repeats ignition

cycle.

NOTE: Ignition sequence will repeat 3 additional time before a

lockout occurs. Lockout automatically resets after 3 hrs, or can be

manually reset by turning 115v off (not at thermostat) for 3 sec

minimum, then on again.

f. Blower on delay—Forty sec after burner flame is proven,

the blower motor is energized on heating speed. Simul-

taneously, the humidifier and electronic air cleaner

terminals (HUM and Com for humidifier, EAC-1 and

EAC-2 for electronic air cleaner) are energized. If jumper

is on pin 6 and pin 9, blower on delay is 60 sec.

A93053

Fig. 10—EAC Terminals on Control Board

1. Heating mode

g. Blower off delay—When the thermostat is satisfied, the

circuit between R-W is broken, de-energizing the gas

valve stopping gas flow to the burners. The blower

motor and EAC remain energized 90, 135, 180, or 225

sec (depending on the blower off-time selection). The

furnace is factory set for a 135-sec blower off delay.

When the wall thermostat "calls for heat," the R-W circuit

closes. The furnace control performs a self-check, verifies

the pressure switch contacts are open, and starts inducer

motor.

a. Prepurge period—As the inducer motor comes up to

speed, the pressure switch contacts close to begin a

15-sec prepurge period.

h. Post-purge—The inducer motor remains energized 5 sec

after the burners are extinguished. If jumper is on pin 6

and pin 9, the post-purge period is 15 sec.

b. Ignitor warm-up—At the end of the prepurge period, the

ignitor is energized for a 17-sec ignitor warm-up period.

c. Ignition sequence—When the ignitor warm-up period is

completed, the gas valve opens, permitting gas flow to

the burners where it is ignited. After 5 sec, the ignitor is

de-energized and a 2-sec flame-sensing period begins.

2. Cooling mode

When the thermostat "calls for cooling," R-G and R-Y

circuits close. The R-Y circuit starts the outdoor condensing

—9—

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A N T R

P M 5 A 1 .

W H T

B L

—10—

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unit and the combined R-Y and R-G circuits start the

furnace blower motor on cooling speed. The EAC-1 termi-

nal is energized with 115v when the blower is operating on

cooling speed.

This feature helps diagnose a system problem in case of a

component failure. To initiate component test procedure,

short (jumper) the TEST 1/4-in. quick connect terminal on

control board (adjacent to diagnostic light) and the Com

terminal on thermostat connection block for approximately

2 sec. (See Fig. 9.)

When the thermostat is satisfied, R-G and R-Y circuits are

broken. The furnace blower and EAC continue operating on

cooling speed for an additional 90 sec.

NOTE: Component test feature will not operate if any thermostat

signal is present at control board.

3. Continuous blower mode

Component test sequence is as follows.

NOTE: EAC-1 terminal is energized with 115v whenever blower

operates.

a. Momentarily jumper TEST and Com terminals until

LED goes off.

When the R-G circuit is made, the blower motor operates on

heating speed. During a call for heat, the blower stops,

allowing the furnace heat exchangers to heat up more

quickly, then restarts at the end of the 40-sec blower on

delay period. If jumper is on pin 6 and pin 9, the blower on

delay is 60 sec.

b. LED will display previous fault 4 times.

c. Inducer motor operates for 10 sec, then stops.

d. Hot surface ignitor is energized for 15 sec, then de-

energized.

e. Blower motor operates on cooling speed for 10 sec, then

stops.

The blower reverts to continuous operation after the heating

cycle is completed.

f. Blower motor operates on heating speed for 10 sec, then

stops.

When the thermostat "calls for cooling," the blower oper-

ates on cooling speed. When the thermostat is satisfied, the

blower operates an additional 90 sec before reverting back

to continuous operation on heating speed.

3. To operate furnace, follow procedures on operating instruc-

tions label attached to furnace.

4. Heat pump mode

4. With furnace operating, set thermostat below room tem-

perature and observe that furnace goes off. Set thermostat

above room temperature and observe that furnace restarts.

When installed with a heat pump, the furnace control

automatically changes the timing sequence to avoid long

blower off time during demand defrost cycles. When the

W-Y or W-Y-G thermostat inputs are received at the same

time, the control changes the blower to heating speed or

starts the blower if it was off, and begins a heating cycle.

The blower remains on until the end of the prepurge period,

then shuts off until the end of the ignition warm-up and trial

for ignition periods (a total of 24 sec). The blower then

comes back on at heating speed.

D. Adjustments

1. Set gas input rate.

There are 2 methods of adjusting the gas input rate. The

preferred method is by using Table 6 and following the

instructions in item a. The second method is by clocking the

gas meter and using the instructions in item b.

The gas valve regulator has been nominally set at 3.5-in. wc

for natural gas. When adjusting input rate, do not set

manifold pressure above 3.8-in. wc or below 3.2-in. wc.

When the W input signal disappears, the control begins the

normal inducer post-purge period and the blower changes to

cooling speed after a 1-sec delay. If the W-Y-G signals

disappear at the same time, the blower remains on for the

selected heating blower off delay period and the inducer

goes through its normal post-purge period. If the W-Y

inputs should disappear, leaving the G signal input, the

control goes into continuous blower and the inducer re-

mains on for the normal post-purge period.

a. Check gas input rate using Table 6.

(1.) Obtain average yearly heat value for local gas

supply.

(2.) Obtain average yearly specific gravity for local gas

supply.

(3.) Verify furnace model. Table 6 can only be used for

model 395CAV Furnaces.

Anytime the control senses false flame, the control locks

out of the heating mode. This occurs because the control

cannot sense the W input due to the false flame signal, and

as a result, sees only the Y input and goes into cooling

mode, blower off delay. All other control functions remain

in standard format.

(4.) Check and verify orifice size in furnace. NEVER

ASSUME THE ORIFICE SIZE. ALWAYS

CHECK AND VERIFY.

(5.) Find natural gas heat value and specific gravity in

Table 6.

NOTE: EAC-1 terminal is energized whenever blower operates.

HUM terminal is only energized when gas valve is energized

(6.) Follow heat value and specific gravity lines to point

of intersection. Find orifice size and manifold pres-

sure settings for proper operation at given natural

gas conditions.

C. Start-up Procedures

1. Purge gas lines—After all connections have been made,

purge the lines and check for leaks.

EXAMPLE:

Heat value 1070

Btu/cu ft specific gravity 0.58

Therefore; Orifice No. 44*

WARNING: Never purge a line into a combustion

chamber. Never use matches, candles, flame, or other

sources of ignition for the purpose of checking leakage.

Use a soap-and-water solution to check for leakage.

Failure to follow this warning can cause fire, explosion,

personal injury, or death.

Manifold pressure 3.3-in. wc

*The furnace is shipped with No. 43 orifices.

Therefore, in this example all main burner orifices must be

changed and manifold pressure must be adjusted.

2. Component test—The furnace control board allows all

components, except gas valve, to be run for a short period

of time.

(7.) Proceed to item c to adjust manifold pressure.

—11—

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TABLE 6—MODEL 395CAV ORIFICE SIZE AND MANIFOLD PRESSURE FOR CORRECT INPUT RATE

(Tabulated Data Based on Altitude Up to 2000 Ft and 22,000 Btuh Per Burner)

SPECIFIC GRAVITY OF NATURAL GAS

GAS

HEAT

0.56

0.58

0.60

0.62

0.64

0.66

0.68

0.70

0.72

VALUE

(BTU/CU FT)

Orf Mnfld Orf Mnfld Orf Mnfld Orf Mnfld Orf Mnfld Orf Mnfld Orf Mnfld Orf Mnfld Orf Mnfld

No. Press. No. Press. No. Press. No. Press. No. Press. No. Press. No. Press. No. Press. No. Press.

—

3.2

3.6

—

3.3

3.7

—

3.4

3.8

3.2

—

3.5

3.3

—

3.7

3.2

3.4

3.8

3.3

3.5

—

3.4

3.6

—

3.2

3.5

3.7

3.3

3.6

3.8

860

875

890

905

—

3.4

—

3.2

3.6

—

3.3

3.7

—

3.4

3.8

3.2

—

3.5

3.3

—

3.6

3.2

3.4

3.8

3.3

3.5

—

3.3

3.6

—

3.2

3.4

3.7

—

3.3

—

3.4

—

3.2

3.6

—

3.3

3.7

—

3.4

3.8

—

3.5

3.2

—

3.6

3.3

—

3.7

3.2

3.4

3.8

3.3

3.5

—

3.2

—

3.3

—

3.4

—

3.2

3.6

—

3.3

3.7

—

3.4

3.8

—

3.5

3.2

—

3.6

3.3

—

3.7

3.2

3.4

—

3.8

—

3.2

—

3.3

—

3.4

—

3.2

3.5

3.3

3.7

3.4

3.8

3.5

3.2

3.6

3.3

920

935

—

3.7

—

3.8

—

3.2

—

3.3

—

3.4

—

3.2

3.5

3.3

3.7

3.4

3.8

3.5

3.2

—

3.6

—

3.7

—

3.8

—

3.2

—

3.3

—

3.4

—

3.2

3.5

3.3

3.6

3.4

3.7

950

—

3.4

—

3.6

—

3.7

—

3.8

—

3.2

—

3.3

—

3.4

—

3.2

3.5

3.3

3.6

965

3.8

3.3

—

3.5

—

3.6

—

3.7

—

3.8

—

3.2

—

3.3

—

3.4

—

3.2

3.5

980

3.7

3.2

3.8

3.4

—

3.5

—

3.6

—

3.7

—

3.8

—

3.2

—

3.3

—

3.4

—

995

—

3.6

—

3.7

3.3

3.8

3.4

—

3.5

—

3.6

—

3.7

—

3.8

—

3.2

—

3.3

—

1010

1025

1040

1055

1070

1085

1100

—

3.5

—

3.6

3.2

3.7

3.3

—

3.4

—

3.5

—

3.6

—

3.7

—

3.8

—

3.2

—

3.4

—

3.5

—

3.6

3.2

3.7

3.3

—

3.4

—

3.5

—

3.6

—

3.7

—

3.8

—

3.3

—

3.4

—

3.5

—

3.6

3.2

3.8

3.3

—

3.4

—

3.5

—

3.6

—

3.7

—

3.2

—

3.3

—

3.4

—

3.5

—

3.7

3.2

3.8

3.3

—

3.4

—

3.5

—

3.6

—

3.8

—

3.2

—

3.3

—

3.4

—

3.6

—

3.7

2.3

3.8

3.3

—

3.4

—

3.5

—

3.7

—

3.8

3.4

—

3.2

—

3.4

—

3.5

—

3.6

—

3.7

3.2

3.8

3.3

—

3.4

—

b. Check gas input rate by clocking gas meter.

EXAMPLE:

(1.) Obtain average yearly heat value for local gas

supply.

Btu heating input = Btu/cu ft X cu ft/hr

Heating value of gas = 1070 Btu/cu ft

Time for 1 revolution of 2 cu ft dial = 72 sec

Gas rate = 100 X 1070 = 107,000 Btuh

(2.) Check and verify orifice size in furnace. NEVER

ASSUME THE ORIFICE SIZE. ALWAYS

CHECK AND VERIFY.

(8.) Measured gas input should not exceed gas input on

unit rating plate.

CAUTION: DO NOT redrill burner orifices. Improper

drilling (burrs, out of round, etc.) can cause excessive

burner operating noise and misdirection of burner flames.

This could result in flame impingement on burners and

heat exchanger surfaces, leading to potential failures.

(9.) Proceed to item c to adjust manifold pressure.

c. Adjust gas input.

(1.) Remove regulator adjustment seal cap. (See Fig.

12.)

(3.) Turn off all other gas appliances and pilots.

(4.) Start furnace and let run for 3 minutes.

(2.) Turn adjusting screw counterclockwise to decrease

input. Turn screw clockwise to increase input. DO

NOT set manifold pressure less than 3.2-in. wc or

more than 3.8-in. wc for natural gas. Make any

major adjustments by changing main burner ori-

fices.

(5.) Measure time (in sec) for gas meter to complete 1

revolution.

(6.) Refer to Table 7 for cu ft of gas per hr.

(7.) Multiply gas rate (cu ft/hr) by heating value (Btu/cu

ft).

—12—

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TABLE 7—GAS RATE CU FT/HR

BURNER FLAME

SIZE OF

TEST DIAL

SIZE OF

TEST DIAL

BURNER

SECONDS

FOR 1

REVOLUTION

SECONDS

FOR 1

REVOLUTION

cu ft cu ft cu ft

360 720 1800

327 655 1636

300 600 1500

277 555 1385

257 514 1286

240 480 1200

225 450 1125

212 424 1059

200 400 100

189 379 947

180 360 900

171 343 857

164 327 818

157 313 783

150 300 750

144 288 720

138 277 692

133 267 667

129 257 643

124 248 621

120 240 600

116 232 581

113 225 563

109 218 545

106 212 529

103 206 514

100 200 500

cu ft cu ft cu ft

100

102

104

106

108

144 360

141 355

138 346

136 340

133 333

131 327

129 321

126 316

124 310

122 305

120 300

116 290

112 281

109 273

106 265

103 257

100 250

MANIFOLD

Fig. 13—Burner Flame

A89020

243

237

231

225

220

214

209

205

200

196

192

188

184

180

178

173

170

167

e. Canadian installations only—The Canadian ratings are

approved for altitudes up to 2000 ft for natural and

propane gases. High-altitude ratings are from 2000 ft to

4500 ft above sea level. See Table 8 for nominal burner

orifice size. High-altitude rating includes a 10 percent

derate as required by Canadian standards.

195 486

189 474

185 462

180 450

176 439

172 429

167 419

164 409

160 400

157 391

153 383

150 375

147 367

TABLE 8—CANADIAN ORIFICE SIZE

SEA LEVEL

0—2000 FT

HIGH ALTITUDE

2000—4500 FT

GAS

Natural

Propane

110

112

116

120

164

161

155

150

2. Set temperature rise.

Furnace must operate within range of temperature rise

specified on the unit rating plate. Determine the air tem-

perature rise as follows.

(3.) When correct input is obtained, replace regulator

seal cap. Main burner flame should be clear blue,

almost transparent. (See Fig. 13.)

a. Place duct thermometers in return and supply ducts as

near furnace as possible. Be sure thermometers do not

"see" heat exchangers so that radiant heat will not affect

thermometer readings. This is particularly important

with straight-run ducts.

ON AND

OFF SWITCH

GAS

b. When thermometer readings stabilize, subtract return-air

temperature from supply-air temperature to determine

temperature rise.

PRESSURE

REGULATOR

ADJUSTMENT

c. Adjust air temperature rise by adjusting blower speed.

Increase blower speed to reduce temperature rise. De-

crease blower speed to increase temperature rise.

WARNING: Disconnect the electrical power before

changing the speed tap. A failure to follow this warning

can cause personal injury.

INLET

PRESSURE TAP

MANIFOLD

PRESSURE TAP

d. To change blower motor speed selections for heating

mode, remove blower motor lead from control board

HEAT terminal. (See Fig. 11.) Select desired blower

motor speed lead from 1 of the other terminals and

relocate it to HEAT terminal. See Table 9 for lead color

identification. Reconnect original lead on SPARE termi-

nal.

A95618

→

Fig. 12—Redundant Automatic Gas Control Valve

d. High altitude—In the United States gas input on rating

plate is for altitudes up to 2000 ft. Ratings for altitudes

over 2000 ft must be 4 percent less for each 1000 ft

above sea level. To obtain the adjusted altitude rating,

adjust the manifold pressure (see item c) and replace the

main burner orifices as needed. Refer to National Fuel

Gas Code Appendix F, Table F-4 for proper orifice

sizing at high altitudes.

CAUTION: Recheck temperature rise. It must be within

limits specified on unit rating plate. Recommended op-

eration is at midpoint of rise or above.

—13—

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TABLE 9—SPEED SELECTOR

The preferred method of checking the limit control is to

gradually block off the return air after the furnace has been

operating for a period of at least 5 minutes. As soon as the

limit has shut off the burners, the return-air opening should

be unblocked. By using this method to check the limit

control, it can be established that the limit is functioning

properly and operates if there is a motor failure.

FACTORY-

ATTACHED TO

COLOR

Black

SPEED

High

Cool

Yellow (When

present)

Medium-High

Spare

Blue

Red

Medium-Low

Low

Heat

Spare

COM

2. Check draft safeguard switch.

White

Common

The purpose of this control is to permit the safe shutdown

of the furnace during certain blocked vent conditions.

3. Set thermostat heat anticipator.

a. Disconnect power to furnace and remove vent connector

from furnace outlet collar. Be sure to allow time for vent

pipe to cool down before removing.

The thermostat heat anticipator must be set to match the

amp draw of the electrical components in the R-W circuit.

Accurate amp draw readings can be obtained at thermostat

subbase terminals R and W. Fig. 14 illustrates an easy

method of obtaining the actual amp draw. The amp reading

should be taken after the blower motor has started. See the

thermostat manufacturer’s instructions for adjusting the

heat anticipator and for varying the heating cycle length.

b. Restore power to furnace and set room thermostat above

room temperature.

c. After normal start-up, allow furnace to operate for 2

minutes, then block flue outlet 100 percent. Furnace

should cycle off within 2 minutes.

d. Remove blockage and reconnect vent pipe to furnace

outlet collar.

NOTE: When using an electronic thermostat, set the cycle rate for

3 cycles per hr.

e. Wait 5 minutes and then reset draft safeguard switch.

3. Check pressure switch.

THERMOSTAT SUBBASE

TERMINALS WITH

THERMOSTAT REMOVED

This control proves operation of draft inducer blower.

a. Turn off 115-v power to furnace.

HOOK-AROUND

VOLT/AMMETER

b. Remove control door and disconnect inducer motor lead

wires from wire harness.

c. Turn on 115-v power to furnace.

d. Set thermostat to "call for heat" and wait 1 minute. When

pressure switch is functioning properly, hot surface

ignitor should NOT glow and control center diagnostic

light flashes a 31 fault. If hot surface ignitor glows when

inducer motor is disconnected, shut down furnace im-

mediately. Determine reason pressure switch did not

function properly and correct condition.

10 TURNS

e. Turn off 115-v power to furnace.

f. Reconnect inducer motor wires, replace control door, and

turn on 115-v power.

FROM UNIT 24-VOLT

TERMINAL BLOCK

5.0 AMPS ON AMMETER

10 TURNS AROUND JAWS

F. Checklist

= 0.5 AMPS FOR THERMOSTAT SETTING

EXAMPLE:

1. Put away tools, instruments, and clean up debris.

2. Verify manual reset switches have continuity.

A80201

Fig. 14—Amp Draw Check With Ammeter

E. Check Safety Controls

3. Ensure blower and control access doors are properly in-

stalled.

The flame sensor, gas valve, and pressure switch were all checked

in the Start-up Procedures section as part of normal operation.

4. Cycle test furnace with room thermostat.

5. Check operation of accessories per manufacturer’s instruc-

tions.

1. Check primary limit control.

This control shuts off the combustion control system and

energizes the circulating-air blower motor if the furnace

overheats.

6. Review User’s Manual with owner.

7. Leave literature packet near furnace.,

—14—

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SERVICE TRAINING

Packaged Service Training programs are an excellent way to increase your

knowledge of the equipment discussed in this manual, including:

• Unit Familiarization

• Installation Overview

• Maintenance

• Operating Sequence

A large selection of product, theory, and skills programs is available, using popular

video-based formats and materials. All include video and/or slides, plus companion

book.

Classroom Service Training plus "hands-on" the products in our labs can mean

increased confidence that really pays dividends in faster troubleshooting, fewer

callbacks. Course descriptions and schedules are in our catalog.

CALL FOR FREE CATALOG 1-800-962-9212

[ ] Packaged Service Training

[ ] Classroom Service Training

A94328

—15—

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Printed in U.S.A.

395c4010

Catalog No. BDP-3339-518

—16—

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