Miller A-500 Owner's manual

Brand: Miller

Model: A-500

Category: Welding System

Type: Owner's manual

This manual is also suitable for

HK243705

March

1979

FORM:

OM-233

Effective

With

Serial

No.

HK243705

MODEL

A-500

OWNERS

MANUAL

fullER

MILLER

ELECTRIC

MFG.

CO.

718

BOUNDS

ST.

P.O.

Box

1079

APPLETON

54912

USA

ADDITIONAL

COPY

PRICE

CENTS

NWSA

CODE

NO.

4579

PRINTED

USA.

LIMITED

WARRANTY

EFFECTIVE:

JANUARY

1979

This

warranty

supersedes

all

MILLER

warranties

and

clusive

with

other

guarantees

warranties

expressed

implied.

LIMITED

WARRANTYSubject

the

terms

and

conditions

matter

general

policy

only,

Miller

may

honor

claims

hereof,

Miller

Electric

Mfg.

Co.,

Appleton,

Wisconsin

warrants

submitted

the

original

user

within

the

foregoing

periods.

its

Distributor/Dealer

that

all

new

and

unused

Equipment

furnished

Miller

free

from

defect

workmanship

and

material

the

case

Millers

breach

warranty

any

other

duty

time

and

place

delivery

Miller.

warranty

made

Miller

with

respect

the

quality

any

goods,

the

exclusive

remedies

therefor

shall

be,

Millers

option,

(1)

repair

(2)

replacement

or,

with

respect

engines,

trade

accessories

other

items

manu-

where

authorized

writing

Miller

appropriate

cases,

(3)

the

factured

others.

Such

engines,

trade

accessories

and

other

items

are

sold

subject

the

warranties

their

respective

manu-

reasonable

cost

repair

replacement

authorized

Miller

ser

facturers,

any.

the

present

time,

the

manufacturers

warranty

vice

station

(4)

payment

credit

for

the

purchase

price

(less

the

Mag-Diesel

engine

DEL-200

limited

six

months

and

reasonable

depreciation

based

upon

actual

use)

upon

return

the

all

other

engines

one

year.

goods

Customers

risk

and

expense.

Upon

receipt

notice

apparent

defect

failure,

Miller

shall

instruct

the

claimant

the

Except

specified

below,

Millers

warranty

does

not

apply

warranty

claim

procedures

followe

components

having

normal

useful

life

less

than

one

(I)

year,

such

ANY

EXPRESS

WARRANTY

NOT

PROVIDED

HEREIN

AND

spot

welder

tips,

relay

and

contactor

points,

MILLERMATIC

parts

ANY

IMPLIED

WARRANTY

GUARANTY

REPRESENTA

that

come

contact

with

the

welding

wire

including

nozzles

and

lION

PERFORMANCE,

AND

ANY

REMEDY

FOR

nozzle

insulators

where

failure

does

not

result

from

defect

BREACH

CONTRACT

WHICH,

BUT

FOR

THIS

PROVISION,

workmanship

material.

MIGHT

ARISE

IMPLICATION,

OPERATION

LAW,

CUS

TOM

TRADE

COURSE

DEALING

INCLUDING

ANY

Miller

shall

required

honor

warranty

claims

warranted

IMPLIED

WARRANTY

MERCHANTABILITY

FITNESS

Equipment

the

event

failure

resulting

from

defect

within

the

FOR

PARTICULAR

PURPOSE,

WITH

RESPECT

ANY

AND

following

periods

from

the

date

delivery

Equipment

the

ALL

EQUIPMENT

FURNISHED

MILLER

EXCLUDED

original

user:

AND

DISCLAIMED

MILLER.

Arc

welders,

power

sources

and

components

. .

year

EXCEPT

EXPRESSLY

PROVIDED

MILLER

WRIT-

(labor.

year

only)

PURCHASE

COMMERCIAL/INDUSTRIAL

USERS

AND

FOR

Original

main

power

rectifiers

years

ING

MILLER

PRODUCTS

ARE

INTENDED

FOR

ULTIMATE

All

welding

guns

and

feeder/guns

days

OPERATION

PERSONS

TRAINED

AND

EXPERIENCED

All

other

Millermatic

Feeders

year

THE

USE

AND

MAINTENANCE

WELDING

EQUIPMENT

AND

Replacement

repair

parts,

exclusive

labor

. .

days

NOT

FOR

CONSUMERS

CONSUMER

USE.

MILLER

WAR

Batteries

months

RANTIES

NOT

EXTEND

TO,

AND

RESELLER

provided

that Miller

notified

writing

within

thi;ty(30)

days

AUTHORIZED

EXTEND

MILLERS

WARRANTIES

TO,

the

date

such

failure

ANY

CONSUMER.

5,

b...5,

- -

Section

No.

Page

No.

SECTION



SAFETY

RULES

FOR

OPERATION

ARC

WELDING

POWER

SOURCE

-1.

Introduction

General

Precautions

Arc

Welding

Standards

Booklet

Index

SECTION

2

INTRODUCTION

2-1.

General

Receiving

Handling

Description

2-4.

Safety

SECTION



INSTALLATION

3-1.

Location

Electrical

Input

Connections

Weld

Output

Connections

Open

Circuit

Voltage

Selection

Contactor

Control

Receptacle

Water

Connections

Wire

Feeder

Shutdown

Control

Volts

Receptacle

Overload

Protection

3-10.

Duty

Cycle

3-11.

Volt-Ampere

Curve

8

SECTION

4

SEQUENCE

OPERATION

Gas

Metal-Arc

Welding

Shutting

Down

SECTION

5

TROUBLESHOOTING

PARTS

LIST

SECTION

1-SAFETY

RULES

FOR

OPERATION

ARC

WELDING

POWER

SOURCE

1-1.

INTRODUCTION

1-2.

learn

experience.

Learning

safety

through

personal

experience,

child

touching

hot

Stove

harmful,

wasteful,

and

unwise.

Let

the

experience

others

teach

you.

Safe

practices

developed

from

experience

the

use

weld

ing

and

cutting

are

described

this

manual.

Research,

devel

opment,

and

field

experience

have

evolved

reliable

equipment

and

safe

installation,

operation,

and

servicing

practices.

Acci

dents

occur

when

equipment

improperly

used

main

tained.

The

reason

for

the

safe

practices

may

not

always

given.

Some

are

based

common

sense,

others

may

require

technical

volumes

explain.

wiser

the

rules.

Read

and

understand

these

safe

practices

before

attempting

install,

operate,

service

the

equipment.

Comply

with

these

procedures

applicable

the

particular

equipment

used

and

their

instruction

manuals,

for

personal

safety

and

for

the

safety

others.

Failure

observe

these

safe

practices

may

cause

serious

in,

jury

death.

When

safety

becomes

habit,

the

equipment

can

used

with

confidence.

These

safe

practices

are

divided

into

two

Sections:

General

Precautions,

common

arc

welding

and

cutting;

and

Arc

Welding

(and

Cutting)(only).

Reference

standards:

Published

Standards

safety

are

also

available

for

additional

and

complete

procedures

than

those

given

this

manual.

They

are

listed

the

Standards

Index

this

manual.

ANSI

Z49.1

the

most

complete.

The

National

Electrical

Code.

Occupational

Safety

and

Health

Administration,

local

industrial

codes,

and

local

spection

requirements

also

provide

basis

for

equipment

stallation,

use,

and

service.

GENERAL

PRECAUTIONS

Burn

Prevention

Wear

protective

clothing

leather

(or

asbestos)

gauntlet

gloves,

hat,

and

high

safety.toe

shoes.

Button

shirt

collar

and

pocket

flaps,

and

wear

cuffless

trousers

avoid

entry

sparks

and

slag.

Wear

helmet

with

safety

goggles

glasses

with

side

shields

underneath,

appropriate

filter

lenses

plates

(protected

clear

cover

glass).

This

MUST

for

welding

cutting.

(and

chipping)

protect

the

eyes

from

radiant

energy

and

flying

metal.

Replace

cover

glass

when

broken,

pitted,

spattered.

See

1-3A.2.

Avoid

oily

greasy

clothing.

spark

may

ignite

them.

Hot

metal

such

electrode

stubs

and

workpieces

should

never

handled

without

gloves.

Medical

first

aid

and

eye

treatment.

First

aid

facilities

and

qualified

first

aid

person

should

availthle for

each

shift

unless

medical

facilities

are

for

immediate

treatment

flash

burns

the

eyes

and

skin

burns.

Ear

plugs

should

worn

when

working

overhead

confined

space.

hard

hat

should be

worn

when

others

work

overhead.

Flammable

hair

preparations

should

not

used

bypersons

intending

weld

Cut.

Toxic

Fume

Prevention

Adequate

ventilation.

Severe

discomfort,

illness

death

can

result

from

fumes,

vapors,

heat,

oxygen

enrichment

depletion

that

welding

(or

cutting)

may

produce.

Prevent

them

with

adequate

ventilation

described

ANSI

Stan

dard

Z49.1

listed

Standards

index.

NEVER

ventilate

with

oxygen.

Lead

cadmium

zinc

mercury

and

beryllium

bearing

and

similar

materials,

when

welded

(or

cut)

may

produce

harmful

concentrations

toxic

fumes.

Adequate

local

exhaust

ventilation

must

used,

each

person

the

area

well

the

operator

must

wear

airsupplied

respirator.

For

beryllium,

both

must

used.

Metals

coated

with

containing

materials

that

emit

toxic

fumes

should

not

heated

unless

coating

removed

from

the

work

surface,

the

area

well

ventilated,

the

operator

wears

air-supplied

respirator.

Work

confined

space

only

while

being

ventilated

and,

necessary,

while

wearing

air-supplied

respirator.

Gas

leaks

confined

space

should

avoided.

Leaked

gas

large

quantities

can

change

oxygen

concentration

danger.

ously.

Do-not

bring

gas

cylinders

into

confined

space.

Leaving

confined

space,

shut

OFF

gas

supply

source

prevent

possible

accumulation

gases

the

space

down

stream

valves

have

been

accidently

opened

left

open.

Check

sure

that

the

space

safe

before

re-entering

it.

Vapors

from

chlorinated

solvents

can

decomposed

the

heat

the

arc

(or

flame)

form

PHOSGENE,

highly

toxic

gas,

and

other

lung

and

eye

irritating

products.

The

ultra

violet

(radiant)

energy

the

arc

can

also

decompose

chloroethylene

and

perchloroethylene

vapors

form

phos

gene.

NOT

WELD

cut

where

solvent

vapors

can

drawn

into

the

welding

cutting

atmosphere

where

the

radiant

energy

can

penetrate

atmospheres

con

taiiiing

even

minute

amounts

trich

loroethylene

perchloroethylene.

Fire

and

Explosion

Prevention

Causes

fire

and

explosion

are:

combustibles

reached

the

arc,

flame,

flying

sparks,

hot

slag

heated

material;

misuse

compressed

gases

and

cylinders;

and

short

circuits.

AWARE

THAT

flying

sparks

falling

slag

can

pass

through

cracks,

along

pipes,

through

windows

doors,

and

through

wall

floor

openings,

Out

sight

the

goggled

operator.

Sparks

and

slag

can

fly

feet.

prevent

fires

and

explosion:

Keep

equipment

clean

and

operable,

free

oil,

grease,

and

(in

electrical

parts)

metallic

particles

that

can

cause

short

circuits.

combustibles

are

area,

NOT

weld

Cut.

Move

the

work

practicable,

area

free

combustibles.

Avoid

paint

spray

rooms,

dip

tanks,

storage

areas,

ventilators.

the

work

cannot

moved,

move

combustibles

least

feet

away

out

reach

sparks

and

heat;

protect

against

ignition

with

suitable

and

snug-fitting,

fire-resistant

covers

shields.

Walls

touching

combustibles

opposite

sides

should

not

welded

(or

cut).

Walls,

ceilings,

and

floor

near

work

should

protected

heat-resistant

covers

shields.

Fire

watcher

must

standing

with

suitable

fire

tinguishing

equipment

during

and

for

some

time

after

weld

ing

cutting

if:

appreciable

combustibles

(including

building

Construc

tion)

are

within

feet

appreciable

combustibles

are

further

than

feet

but

can

ignited

sparks

openings

Iconcealed

visible)

floors

walls

within

feet

may

expose

combustibles

sparks

combustibles

adjacent

walls,

ceilings,

roofs,

metal

partitions

can

ignited

radiant

conducted

heat.

Hot

work

permit

should

obtained

before

operation

ensure

supervisors

approval

that

adequate

precautions

have

been

taken.

After

work

done,

check

that

area

free

sparks,

glowing

embers,

and

flames.

empty

container

that

held

combustibles,

that

can

pro

duce

flammable

toxic

vapors

when

heated,

must

never

welded

cut,

unless

container

has

first

been

cleaned

described

AWS

Standard

A6.O.

listed

Standards

index.

OM-233

Page

This

includes:

thorough

steam

caustic

cleaning

(or

solvent

water

washing,

depending

the

combustibles

solubility(

followed

purging

and

inerting

with

nitrogen

carbon

dioxide,

and

using

protective

equipment

recom

mended

AGO.

Waterfilling

just

below

working

level

may

substitute

for

inerting.

container

with

unknown

content

should

cleaned

(see

paragraph

above(.

NOT

depend

sense

smell

sight

determine

safe

weld

cut.

Hollow

castings

containers

must

vented

before

welding

cutting.

They

can

explode,

Explosive

atmospheres.

Never

weld

cut

where

the

air

may

contain

flammable

dust,

gas,

liquid

vapors

(such

gaso

Iine(.

Compressed

Gas

Equipment

Standard

precautions.

Comply

with

precautions

this

manual,

and

those

detailed

CGA

Standard

P-i,

PRECAU

TIONS

FOR

SAFE

HANDLING

COMPRESSED

GASES

CYLINDERS,

listed

Standards

index,

Pressure

Regulators

Regulator

relief

valve

designed

protect

only

the

regula

tor

from

overpressure;

it is

not

intended

protect

any

downstream

equipment.

Provide

such

protection

with

one

relief

devices,

Never

connect

regulator

cylinder

containing

gas

other

than

that

for

which

the

regulator

was

designed.

Remove

faulty

regulator

from

service

immediately

for

repair

(first

cylinder

valve(.

The

following

symptoms

indicate

faulty

regulator:

Leaks

gas

leaks

externally.

Excessive

Creep

delivery

pressure

continues

rise

with

downstream

valve

closed.

Faulty

Gauge

gauge

pointer

does

not

move

off

stop

when

pressurized,

nor

returns

stop

after

pressure

release

Repair.

NOT

attempt

repair.

Send

faulty

regulators

for

repair

manufacturers

designated

repair

center,

where

special

techniques

and

tools

are

used

trained

personnel.

Cylinders

must

handled

carefully

prevent

leaks

and

damage

their

walls,

valves,

safety

devices:

Avoid

electrical

circuit

contact

with

cylinders

including

third

rails,

electrical

wires,

welding

circuits.

They

can

produce

short

circuit

arcs

that

may

lead

serious

accident.

(See

i-3C.(

ICC

DOT

marking

must

each

cylinder.

assurance

safety

when

the

cylinder

properly

handled.

Identifying

gas

content

Use

only

cylinders

with

name

gas

marked

them;

not

rely

color

identify

gas

con

tent.

Notify

supplier

unmarked.

NEVER

DEFACE

alter

name,

number,

other

markings

cylinder.

illegal

and

hazardous.

Empties:

Keep

valves

closed,

replace

caps

securely;

mark

MT;

keep

them

separate

from

FULLS

and

return

promptly.

Prohibited

use.

Never

use

cylinder

its

contents

for

other

than

its

intended

use,

NEVER

support

roller.

Locate

secure

cylinders

they

cannot

knocked

over.

Passageways

and

work

areas.

Keep

cylinders

clear

areas

where

they

may

struck.

Transporting

cylinders.

With

crane,

use

secure

support

such

platform

cradle.

NOT

lift

cylinders

off

the

ground

their

valves

caps,

chains,

slings,

mag

nets.

NOT

expose

cylinders

excessive

heat,

sparks,

slag,

and

flame,

etc.

that

may

cause

rupture.

not

allow

contents

exceed

i30F.

Cool

with

water

spray

where

such

exposure

exists.

Protect

cylinders

particularly

valves

from

bumps,

falls,

falling

objects,

and

weather.

Replace

caps

securely

when

moving

cylinders.

Stuck

valve.

NOT

use

hammer

wrench

open

cylinder

valve

that

can

not

opened

hand.

Notify

your

supplier.

Mixing

gases.

Never

try

mix

any

gases

cylinder.

Never

refill

any

cylinder.

Cylinder

fittin~

should

never

modified

exchanged.

Hose

Prohibited

use.

Never

use

hose

other

than

that

designed

for

the

specified

gas.

general

hose

identification

rule

is:

red

for

fuel

gas,

green

for

oxygen,

and

black

for

inert

gases.

Use

ferrules

clamps

designed

for

the

hose

(not

ordinary

wire

other

substitute(

binding

connect

hoses

fittings.

copper

tubing

splices.

Use

only

standard

brass

fittings

splice

hose.

Avoid

long

runs

prevent

kinks

and

abuse.

Suspend

hose

off

ground

keep

from

being

run

over,

stepped

on,

other

wise

damaged.

Coil

excess

hose

prevent

kinks

and

tangles.

Protect

hose

from

damage

sharp

edges,

and

sparks,

slag,

and

open

flame.

Examine

hose

regularly

for

leaks,

wear,

and

loose

connec

tions.

Immerse

pressured

hose

water;

bubbles

indicate

leaks.

Repair

leaky

worn

hose

cutting

area

out

and

splicing

(i-2D3(.

NOT

use

tape.

Proper

Connections

Clean

cylinder

valve

outlet

impurities

that

may.

clog

orifices

and

damage

seats

before

connecting

regulator.

Except

for

hydrogen,

crack

valve

momentarily,

pointing

outlet

away

from

people

and

sources

ignition.

Wipe

with

clean

lint-

less

cloth.

Match

regulator

cylinder.

Before

connecting,

check

that

the

regulator

label

and

cylinder

marking

agree,

and

that the

regulator

inlet

and

cylinder

outlet

match.

NEVER

CON

NECT

regulator

designed

for

particular

gas

gases

cylindercontaining

any

other

gas.

Tighten

connections.

When

assembling

threaded

connections,

clean

and

smooth

seats

where

necessary.

Tighten.

connec

tion

leaks,

disassemble,

clean,

and

retighten

using

properly

fitting

wrench.

Adapters.

Use

CGA

adapter

(available

from

your

supplier(

between

cylinder

and

regulator,

one

required.

Use

two

wrenches

tighten

adapter

marked

RIGHT

and

LEFT

HAND

threads.

Regulator

outlet

(or

hose(

connections

may

identified

right

hand

threads

for

oxygen

and

left

hand

threads

(with

grooved

hex

nut

shank(

for

fuel

gas.

Pressurizing

Steps:

Drain

regulator

residual

gas

through

suitable

vent

before

opening

cylinder

(or

manifold

valve)

turning

adjusting

screw

(clockwise(.

Draining

prevents

excessive

compression

heat

high

pressure

seat

allowing

seat

open

pressur

ization.

Leave

adjusting

screw

engaged

slightly

single-stage

regulators.

Stand

side

regulator

while

opening

cylinder

valve.

Open

cylinder

valve

slowly

that

regulator

pressure

creases

slowly.

When

gauge

pressurized

(gauge

reaches

regu

lator

maximum(

leave

cylinder

valve

following

position:

For

oxygen,

and

inert

gases,

open

fully

seal

stem

against

possible

leak.

For

fuel

gas,

open

less

than

one

turn

permit

quick

emer~ency

shutoff.

Page

ERRATA

SHEET

After

this

manual

was

printed,

refinements

equipmentdesign

occurred.

This

sheet

lists

exceotions

data

appearing

later

this

manual.

AMENDMENT

SECTION

TROUBLESHOOTING.

Figure

5-1.

Circuit

Diagram

Eftective

With

Serial

No.

HK282806

SURE

PROVIDE

MODEL

AND

SERIAL

NUMBERS

WHEN

ORDERING

REPLACEMENT

PARTS.

02T

038

0,33

032

031

0/6

0/4

OM-233

Page

Amend

Figure

5-1.

Circuit

Diagram

_______I~

CircuitDiagramNo.

B-048674-A

Item

Dia.

Part

Replaced

Page

No.

Mkgs.

No.

With

Description

Quantity

Q50,51

024

207 037 236

TRANSISTOR,

amp

100

volts

NPN

081

516

048560

PANEL,

rear

010

337

023365

WEDGE,3/16x1x4-i/2

SRi 035 224

083

971

RECTIFIER,

SCR/silicondiode(EffW/JB556978)



603

105

603

105

HOSE,

neoprene

No.1

5/161D(orderbyft)(qtychg)

R1-3

030

026

Deleted

(EffW/JB556978)

Qi-3

039

526

083

936

THYRISTOR,

SCR

300

amp

300

volts

(EffW/JB556978)

(con



sisting

of)

-3

030

026

RESISTOR,

carbon

0.5

watt

560

ohm

-6

031

689

CAPACITOR,

ceramic

0.01

500

volts

(Eff

W/HK282806).

000

914

LINK,

connecting

12/8/81

Use

pressure

charts

(available

from

your

supplier)

for safe

and

efficient,

recommended

pressure

settings

regulators.

Check

for

leaks

first

pressurization

and

regularly

there

after.

Brush

with

soap

solution

(capful

Ivory

Liquid

equivalent

per

gallon

water).

Bubbles

indicate

leak.

Clean

off

soapy

water

after

test;

dried

soap

combustible.

User

Responsibilities

Remove

leaky

defective

equipment

from

service

immed

iately

for

repair.

See

User

Responsibility

statement

equip

ment

manual.

Leaving

Equipment

Unattended

gas

supply

source

and

drain

gas.

Rope

Staging-Support

Rope

staging-support

should

not

used

for

welding

cut

ting

operation;

rope

may

burn.

1-3.

ARC

WELDING

Comply

with

precautions

1-1,

1-2,

and

this

section.

Arc

Welding,

properly

done,

safe

process,

but

careless

opera

tor

invites

trouble.

The

equipment

carries

high

currents

significant

voltages.

The

arc

very

bright

and

hot.

Sparks

fly,

fumes

rise,

ultraviolet

and

infrared

energy

radiates,

weld

ments

are

hot,

and

compressed

gases

may

used.

The

wise

operator

avoids

unnecessary

risks

and

protects

himself

and

others

from

accidents.

Precautions

are

described

here

and

standards

referenced

index.

Burn

Protection

Comply

with

precautions

1-2.

The

welding

arc

intense

and

visibly

bright.

Its

radiation

can

damage

eyes,

penetrate

lightweight

clothing,

reflect

from

light-colored

surfaces,

and

burn

the

skin

and

eyes.

Skin

burns

resemble

acute

sunburn,

those

from

gas-shielded

arcs

are

severe

and

painful.

DONT

GET

BURNED;

COMPLY

WITH

PRECAUTIONS.

Protective

Clothing

Wear

long-sleeve

clothing

(particularly

for

gas-shielded

arc)

addition

gloves,

hat,

and

shoes

(1-2A).

necessary,

use

additional

protective

clothing

such

leather

jacket

sleeves,

flame-proof

apron,

and

fire-resistant

leggings.

Avoid

outergarments

untreated

cotton.

Bare

skin

protection.

Wear

dark,

substantial

clothing.

Button

collar

protect

chest

and

neck

and

button

pockets

pre

vent

entry

sparks.

Eye

and

Head

Protection

Protect

eyes

from

exposure

arc.

NEVER

look

elec

tric

arc

without

protection.

Welding

helmet

shield

containing

filter

plate

shade

no.

denser

must

used

when

welding.

Place

over

face

before

striking

arc.

Protect

filter

plate

with

clear

cover

plate.

Cracked

broken

helmet

shield

should

NOT

worn;

radiation

can

pass

through

cause

burns.

Cracked,

broken,

loose

filter

plates

must

replaced

MEDIATELY.

Replace

clear

cover

plate

when

broken,

pitted,

spattered.

Flash

goggles

with

side

shields

MUST

worn

under

the

helmet

give

some

protection

the

eyes

should

the

helmet

not

lowered

over

the

face

before

arc

struck.

Looking

arc

momentarily

with

unprotected

eyes

(particularly

high

intensity

gas-shielded

arc)

can

cause

retinal

burn

that

may

leave

permanent

dark

area

the

field

vision.

Protection

Nearby

Personnel

Enclosed

welding

area.

For

production

welding,

separate

room

enclosed

bay

best.

open

areas,

surround

she

operation

with

low.reflective.

non-combustible

screens

panels.

Allow

for

free

air

circulation,

particularly

floor

level.

Viewing

the

weld.

Provide

face

shields

for

all

persons

who

will

looking

directly

the

weld.

Others

working

area.

See

that

all

persons

are

wearing

flash

goggles.

Before

starting

weld,

make

sure

that

screen

flaps

bay

doors

are

closed.

Toxic

Fume

Prevention

Comply

with

precautions

1-2B.

Generator

engine

exhaust

must

vented

the

outside

air.

Carbon

monoxide

can

kill.

Fire

and

Explosion

Prevention

Comply

with

precautions

1-2C.

Equipments

rated

capacity.

not

overload

arc

welding

equipment.

may

overheat

cables

and

cause

fire.

Loose

cable

connections

may

overheat

flash

and

cause

fire.

Never

strike

arc

cylinder

other

pressure

vessel,

creates

brittle

area

that

can

cause

violent

rupture

lead

such

rupture

later

under

rough

handling.

Compressed

Gas

Equipment

Comply

with

precautions

1-2D.

Shock

Prevention

Exposed

hot

conductors

other

bare

metal

the

welding

circuit,

ungrounded,

electrically-HOT

equipment

can

fatally

shock

person

whose

body

becomes

conductor.

NOT

STAND,

SIT,

LIE,

LEAN

ON,

TOUCH

wet

sur

face

when

welding,

without

suitable

protection.

protect

against

shock:

Keep

body

and

clothing

dry.

Never

work

damp

area

with

out

adequate

insulation

against

electrical

shock.

Stay

dry

duckboard,

rubber

mat

when

dampness

sweat

can

not

avoided.

Sweat,

sea

water,

moisture

between

body

and

electrically

HOT

part

grounded

metal

reduces

the

body

surface

electrical

resistance,

enabling

dangerous

and

possibly

lethal

currents

flow

through

the

body.

Grounding

the

Equipment

When

installing,

connect

the

frames

each

unit

such

welding

power

source,

control,

work

table,

and

water

circula

tor

the

building

ground.

Conductors

must

adequate

carry

ground

currents

safely.

Equipment

made

electrically

HOT

stray

current

may

shock,

possibly

fatally.

NOT

GROUND

electrical

conduit,

pipe

carrying

ANY

gas

flammable

liquid

such

oil

fuel,

Three-phase

connection.

Check

phase

requirement

equip

ment

before

installing.

only

3-phase

power

available.

connect

single-phase

equipment

only

two

wires

the

3-phase

line.

NOT

connect

the

equipment

ground

lead

the

third

(live)

wire,

the

equipment

will

become

electri

cally

HOT

dangerous

condition

that

can

shock,

possibly

fatally.

Before

welding,

check

ground

for

continuity.

sure

conduc

tors

are

touching

bare

metal

equipment

frames

connec

tions.

line

cord

with

ground

lead

provided

with

the

equip

ment

for

connection

switchbox,

connect

the

ground

lead

the

grounded

switchbox.

three-prong

plug

added

for

connection

grounded

mating

receptacle,

the

ground

lead

must

connected

the

ground

prong

only.

the

line

cord

comes

with

three-prong

plug,

connect

grounded

mating

receptacle.

Never

remove

the

ground

prong

from

plug,

use

plug

with

broken

off

ground

prong.

Trademark

Proctor

Gamble,

OM-233

Page

Electrode

Holders

Fully

insulated

electrode

holders

should

used.

NOT

use

holders

with

protruding

screws.

Connectors

Fully

insulated

lock.type

connectors

should

used

join

welding

cable

lengths.

Cables

Frequently

inspect

cables

for

wear,

cracks

and

damage.

IMMEDIATELY

REPLACE

those

with

excessively

worn

damaged

insulation

avoid

possibly

lethal

shock

from

bared

cable.

Cables

with

damaged

areas

may

taped

give

resistance

equivalent

original

cable.

Keep

cable

dry,

free

oil

and

grease,

and

protected

from

hot

metal

and

sparks.

Terminals

And

Other

Exposed

Parts

Terminals

and

other

exposed

parts

electrical

units

should

have

insulating

covers

secured

before

operation.

Electrode

Wire

Electrode

wire

becomes

electrically

HOT

when

the

power

switch

gas

metal-arc

welding

equipment

and

welding

gun

trigger

pressed.

Keep

hands

and

body

clear

wire

and

other

HOT

parts.

Safety

Devices

Safety

devices

such

interlocks

and

circuit

breakers

should

not

disconnected

shunted

out.

Before

installation,

inspection,

service,

equipment,

shut

OFF

all

power

and

remove

line

fuses

(or

lock

red-tag

switches)

prevent

accidental

turning

power.

Discon

nect

all

cables

from

welding

power

source,

and

pull

all

115

volts

line-cord

plugs.

not

open

power

circuit

change

polarity

while

welding.

If,

emergency,

must

disconnected,

guard

against

shock

burns,

flash

from

switch

arcing.

Leaving

equipment

unattended.

Always

shut

OFF

and

dis

connect

all

power

equipment.

Power

disconnect

switch

must

available

near

the

welding

power

source.

1-4.

STANDARDS

BOOKLET

INDEX

For

information,

refer

the

following

standards

their

latest

revisions

and

comply

applicable:

ANSI

Standard

Z49.i,

SAFETY

WELDING

AND

CUTTING

obtainable

from

the

American

Welding

Society,

2501

7th

St.,

Miami,

Fla.

33125.

ANSI

Standard

Z87.i,

SAFE

PRACTICE

FOR

OCCUPA

TION

AND

EDUCATIONAL

EYE

AND

FACE

PROTEC

TION,

obtainable

from

American

National

Standards

Institute.

1430

Broadway,

New

York,

N.Y.

10018.

American

Welding

Society

Standard

A6.0,

WELDING

AND

CUTTING

CONTAINERS

WHICH

HAVE

HELD

COMBUSTIBLES,

obtainable

same

item

NFPA

Standard

51,

OXYGEN-FUEL

GAS

SYSTEMS

FOR

WELDING

AND

CUTTING,

obtainable

from

the

National

Fire

Protection

Association,

470

Atlantic

Avenue,

Boston,

Mass.

02210.

NFPA

Standard

51B,

CUTTING

AND

WELDING

PRO

CESSES,

obtainable

same

item

CGA

Pamphlet

P-i.

SAFE

HANDLING

COM

PRESSED

GASES

CYLINDERS,

obtainable

from

the

Compressed

Gas

Association,

500

Fifth

Avenue,

New

York,

10036.

OSHA

Standard

CFR,

Part

1910,

Subpart

WELD

ING,

CUTTING

AND

BRAZING.

Page

SECTION

INTRODUCTION

2-1.

GENERAL

This

manual

has

been

prepared

especially

for

use

familiar

izing

personnel

with

the

design,

installation,

operation,

main

tenance,

and

troubleshooting

this

equipment.

All

informa

tion

presented

herein

should

given

careful

consideration

assure

optimum

performance

this

equipment.

2-2.

RECEIVING-HANDLING

Prior

installing

this

equipment,

clean

all

packing

material

from

around

the

unit

and

carefully

inspect

for

any

damage

that

may

have

occurred

during

shipment.

Any

claims

for

loss

damage

that

may

have

occurred

transit

must

filed

the

purchaser

with

the

carrier.

copy

the

bill

lading

and

freight

bill

will

furnished

the

carrier

request

occasion

file

claim

arises.

When

requesting

information

concerning

this

equipment,

essential

that

Model

Description

and/or

Stock

Number

and

Serial

(or

Style)

Numbers

the

equipment

supplied.

DESCRIPTION

This

unit

water-cooled,

constant

potential

welding

power

source

which

produces

dc.

current.

This

welding

power

source

designed

used

conjunction

with

the

Gas

Metal-Arc

Welding

(GMAW)

process.

This

unit

designed

operated

from

single

input

volt

age,

three-phase,

Hertz

power.

2-4.

SAFETY

Before

the

equipment

put

into

operation,

the

safety

sec

tion

the

front

this

manual

should

read

completely.

This

will

helpavoid

possible

injury

due

misuse

improper

welding

applications.

The

following

definitions

apply

CAUTION,

IMPORTANT,

and

NOTE

blocks

found

throughout

this

manual:

eading,

stallation,

operat

and

tenance

procedures

practices

will

found

that

not

carefully

followed

may

create

hazard

per

sonnel.

Under

this

heading,

installation,

operating,

and

main

tenance

procedures

practices

will

found

that

not

carefully

followed

may

result

damage

equip

mebt.

SECTION

INSTALLATION

3-1.

LOCATION

Figure

3-1.

Dimensional

Drawing

proper

installation

site

should

selected

for

the

welding

power

source

the

unit

provide

dependable

service,

and

remain

relatively

maintenance

free.

proper

installation

site

permits

freedom

air

movement

into

and

out

the

welding

power

source,

and

also

least

subjects

the

unit

dust,

dirt,

moisture,

and

corrosive

vapors.

The

installation

site

should

also

permit

easy

removal

the

welding

power

source

outer

enclosure

for

maintenance

functions.

Holes

are

provided

the

welding

power

source

base

for

mounting

purposes.

Figure

3-1.

gives

overall

dimensions

and

the

base

mounting

hole

layout.

most

welding

power

sources

lifting

device

provided

for

moving

the

unit.

H~ever,

fork

lift

vehicle

used

for

lifting

the

Unit,

sure

that

the

lift

forks

are

long

enough

extend

completely

under

the

base.

IMPORTANT

The

use

lift

forks

too

short

extend

out

the

opposite

side

the

base

will

expose

internal

com

ponents

damage

should

the

tips

the

lift

forks



penetrate

the

bottom

the

unit.

Open

Circuit

Voltage

Ranges

Rated

Welding

Current

100%

Duty

Cycle

input

Rated

Load

Output

Hz.

Three-Phase



Amperes

230V

460V

480V

kva



21.6

20.4

Dimensions

(Inches)

Weight

(Pounds)

Net

Ship



260

275

39.4

344

29.3

38.7 33.6

28.6

37.9

32.9

27.9

37.3 32.2

27.1

36.5

31.5

26.4

35.8

30.8

25.7

35.1

30.1

24.9

24.2

500

Amperes

Volts

Height

17-314

Width

19-1/2

Depth

18-1/4

Add

2-1/4

For

Lifting

Eye.

Figure

2-1.

Specifications

NOTE

Under

this

heading,

explanatory

statements

will

found

that

need

special

emphasis

obtain

the

most

efficient

operation

the

equipment.

1-1/2

OM-233

Page

3-2.

ELECTRICAL

INPUT

CONNECTIONS

Electrical

Input

Requirements

This

welding

power

source

designed

operated

from

three-phase,

Hertz,

power

supply

which

has

line

voltage

rating

that

corresponds

with

the

electrical

input

voltage

shown

the

nameplate.

Consult

the

local

electric

utility

there

any

question

about

the

type

electrical

system

available

the

installation

site

how

proper

connections

the

welding

power

source

are

made.

Input

Conductor

Connections

rri



It is

recommended

that

line

disconnect

switch

installed

the

input

circuit

the

welding

power

source.

This

would

provide

safe

and

convenient

means

completely

remove

all

electrical

power

from

the

welding

power

source

whenever

it is

necessary

perform

any

internal

function

the

unit.

I~_

Before

making

electrical

input

connections

the

welding

power

source,

machinery

lockout

procedures

should

employed.

the

connection

made

from

line

disconnect

switch,

the

switch

should

padlocked

the

open

position.

the

connection

made

from

fuse

box,

remove

the

fuses

from

the

box

and

padlock

the

cover

the

position.

the

unit

connected

circuit

breaker,

other

disconnecting

device

without

locking

facilities,

attach

red

tag

the

device

warn

others



that

the

circuit

being

worked

on.

CAUTION

Connect

the

inpu:

conductors

th~ing

power

source

before

making

connections

the

three-phase



power

supply.

The

input

conductors

should

covered

with

insulating

material

which

conforms

local electrical

standards.

Table

3-1

provided

only

guide

for

selecting

the

proper

size

input

conductors

and

fuses.

Table

3-1.

Input

Conductor

And

Fuse

Size

Input

Conductor

Size

AWG

Fuse

Size

Amperes

230V

460V 480V

230V

460V 480V

6(81

10(10)

10110)

Input

conductor

sizes

are

based

allowable

ampacities

insulated

copper

conductors,

having

temperature

rating

75C,

with

not

than

three

conductors

raceway

cable.

Numbers

are

equipment

ground

conductor

sizes.

Insert

the

three

input

conductors

plus

one

ground

conductor

through

the

access

hole

the

rear

panel.

This

hole

will

standard

conduit

fittings.

See

Figure

3-2

for

hole

loca

tion

and

size.

reco

mme

nded

ter

lug

adeq

amperage

capacity

attached

the

ends

the

put

and

ground

conductors.

The

hole

diameter

the

terminal

lug

must

proper

size

accommodate

the

line

and

ground

terminal

studs.

Connect

the

three

input

conductors

the

line

terminals

the

primary

terminal

board and

connect

the

ground

conduc

tor

the

ground

terminal

(see

Figure

3-2

for

location

terminals).

The

remaining

end

the

ground

conductor

should

connected

proper

ground,

Use

grounding

method

that

acceptable

the

local

electrical

inspection

authority.

The

ground

terminal

connected

the

welding

power

source

chassis

and

for

grounding

purposes

only.

not

connect

conductor

from

the

ground

terminal

any

one

the

line

terminals

this

will

result

electrically

energized

welding

power



source

chassis.

Figure

3-2.

Input

Conductor

Connections

3.3.

WE1..D

OUTPUT

CONNECTiONS

obtain

the

full

rated

output

from

this

unit,

necessary

select,

install,

and

maintain

proper

welding

cables.

Failure

comply

any

these

areas

may

result

less

than

satisfactory

welding

performance.

Ensure

that

the

unit

completely

shut

down

before

making

any

weld

output

connections.

Location

The

POSITIVE

and

NEGATIVE

weld

output

terminals

are

located

the

upper

portion

the

front

panel,

Welding

Cables

welding

cables

were

not

ordered

with

this

unit,

the

steps

listed

should

followed

ensure

the

best

welding

performance:

recommended

that

the

welding

cables

kept

short

possible,

placed

together,

and

adequate

current

carrying

capacity.

The

resistance

the

welding

cables

and

connections

causes

voltage

drop

which

added

the

voltage

the

arc.

Excessive

cable

resistance

may

result

overloading

well

reducing

the

maximum

current

output

capability

this

unit.

Prdper

operation

great

extent

dependent

the

use

welding

cables

and

connections

that

are

good

condition

and

adequate

size.

Use

Table

3-2

guide

for

selecting

correct

cable

size

for

the

anticipated

maximum

weld

current

which

will

~,,

Table

3-2

shows

total

cable

length,

which

includes

the

electr.4e

and

work

cable.

Example:

the

electrode

holder

cable

feet

long

and

the

work

cabte

feet

long,

select

the

size

cable

that

recommended

for

100

feet

the

maximum

weld

current

that

used.

not

use

damaged

frayed

cables.

Use

correct

lugs

the

weld

cables

connect

the

work

clamp

and

connect

the

cables

the

weld

output

terminals.

Ensure

that

all

connections

are

clean

and

tight.

CAUTION

Ground

Terminal

TA-049

297

Page

~oo~

38.7

VOLTS

0~0ofl

37.9

VOLTS

fl0o0~

fl~fl

373 VOLTS

fl0o0~

fl~fl

36,5

VOLTS

oo~oo~

35.8

VOLTS

oo~oo~

35.1

VOLTS



oo~oo~

0o~ofl

34.4

VOLTS

32.2

VOLTS

o~oo~o

VOLTS

oo~o~o

29.3

VOLTS

28.6

VOLTS

27.9

VOLTS

27.1

VOLTS

0~fl0~

264

VOLTS

25.7

VOLTS

oo~oo

fl0~0o

24.9

VOLTS

Positive

Negative

Output

Terminal

~@ﬁﬁﬁ~

~0@~

39.4

VOLTS

33.6

VOLTS

fl0ofl

~a~o~o

VOLTS

oo~o~o

~ooo~o

oo~o~o

o~oo~o

o~o~oo

o~oo~o

30.8

VOLTS

o~oo~o

303

VOLTS

o~ooo~

o~o~oo

o~oo~o

oo~oo

24.2

VOLTS

Table

3-2.

Welding

Cable

Size

Figure

3-3.

Open

Circuit

Voltage

Selection

SCR

Circuit

Power

Pilot

Output

Fuse

Circuit

Breaker

Light

Terminal

~~-.--~

B-049

271

WELDING

AMPERES

TOTA

LENGTH

CABLE

(COPPER

WELOCI

~CUiT

100

150

200

250 300

350

400

100

1/0

150

2 2

1/0

2/0 3/0

3/0

200

1/0

2/0

3/0

4/0

250

1/0

2/0

3/0

4/0 4/0

2-2/0

300

2/0

3/0

4/0

2-2/0

2-3/0

350

3/0

4/0

2-2/0

2-3/0

400

3/0

4/0

2-2/0

2.3/0 3-2/0

2-4/0

500

4/0

2-2/0

2-3/0

2-4/0

3-3/0

600

2.2/0

2-2/0

2.2/0

2-3/0

3-2/0

2-4/0 3-3/0 3-4/0

700

2-3/0

2-4/0

3.3/0

3-4/0

4-4/0 4-4/0

~a~a

O.oO.~

115

Voits

115

Volts

Contactor

Receptacle

Controi

Fuse

Receptacle

TA-049

277

Figure

3-4.

Front

Panel

3-6.

WATER

CONNECTIONS

the

left

side

the

rear

panel

are

water

connections

labelled

WATER

and

WATER

OUT.

These

connections

are

female

type

and

have

right-hand

threading.

recom

mended

that

the

water

pressure

set

between

and

psi.

A-u02

623

NOTE:

A.

FEET

LESS.

B.

CABLE

SIZE

BASED

DIRECT

CURRENT

(DCI.

100%

DUTY

CYCLE

AND

EITHER

VOLTS

LESS

DROP

CURRENT

DENSITY

NOT

OVER

300

CIRCULAR

MILS

PER

AMP.

WELD

CABLE

INSULATION

WITH

VOLTAGE

RATING TO

WITHSTAND

THE

OPEN-CIRCUIT

VOLT

AGE

(OCVI

TI-tE

WELDING

POWER

SOURCE

MUST

USED.

WHILE

MOST

WELDING

POWER

SOURCES

HAVE

OPEN-CIRCUIT

VOLTAGE

LESS

THAN

100

VOLTS,

SOME

WELDING

POWER

SOURCES

SPECIAL

DESIGN

MAY

HAVE

HIGHER

OPEN-CIRCUIT

VOLTAGE.

OPEN

CIRCUIT

VOLTAGE

SELECTION

(Figure

3-3)

Behind

the

access

door

the

front

panel

tap

terminal

board.

This

terminal

board

provides

facilities

for

changing

the

open

circuit

voltage.

Twenty-two

open

circuit

voltages

are

obtainable.

obtain

the

desired

open

circuit

voltage,

position

the

six

leads

connected

the

terminal

board

shown

Figure

3-3.

CONTACTOR

CONTROL

RECEPTACLE

(Figure

3-4)

The

CONTACTOR

CONTROL

receptacle

two

pole

twist-

lock

receptacle

that

provides

junction

point

for

Contactor

Control.

order

for

open

circuit

voltage

present,

115

volts

must

applied

the

CONTACTOR

CONTROL

receptacle.

suspend

weld

output,

115

volts

must

removed

from

the

receptacle.

IMPORTANT

imperative

that

water

flow

through

the

Welding

power

source

not

interrupted

while

the

unit

use.

Failure

comply

may

result

damage

the

main

rectifier

and.

transformer

the

thermostats



should

fail.

When

the

welding

power

source

shutdown,

recom

mended

that

water

flow be

stopped.

This

will

prevent

water

condensation

inside

the

welding

power

source.

When

the

welding

power

source

being

moved

during

storage,

the

water

should be

drained

from

the

unit

and

the

water

lines

purged

with

air

prevent

freezing

should

the

unit

exposed

freezing

temperatures.

3-7.

WIRE

FEEDER

SHUTDOWN

CONTROL

set

normally-open

contacts

from

control

relay

CR2

are

connected

terminals

and

terminal

strip

iT.

This

set

contacts

intended

wired

series

with

one

OM-233

Page

the

wire

feeder

electrical

input

power

leads

for

the

purpose

shutting

the

wire

feeder

down

the

event

that

one

the

thermostats

the

welding

power

source

should

open

and

shut

the

welding

power

source

down.

Failure

connect

the wire

feeder

the

contacts

CR2

would

result

the

wire

feeder

continuing

feed

wire

even

though

weld

current

not

present.

Make

the

connections

the

welding

power

source

follows:

Remove

the

right

side

panel.

Terminal

strip

located

the

upper

rear

corner

the

right

side

the

welding

power

source.

Locate

the

7/8

hole

the

rear

panel

the

welding

power

source

and

route

leads

from

the

wire

feeder

through

the

hole

terminal

striA

iT.

Connect

wire

feeder

input

power

leads

terminals

and

terminal

strip

iT.

Replace

right

side

panel.

115

VOLTS

RECEPTACLE

(Figure

3-4)

The

three-pole,

twistlock

receptacle

the

front

panel

the

welding

power

source

intended

provide

115

volts,

Hertz

electrical

power

for

operation

accessory

equipment.

secure

the

corresponding

three-pole

plug

this

recep

tacle,

insert

the

plug

into

the

receptacle

and

rotate

the

plug

clockwise.

IMPORTANT

The

115

VOLTS

receptacle

protected

fuse

which

located

the

front

panel.

should

become

necessary

replace

the

fuse,

ensure

that

fuse

the

same

rating

used

for

replacement.

fuse

larger

rating

will

permit

overloading

the

115

volts

circuitry

and

thereby

cause

damage

the



weldingpowersource.

3-9.

OVERLOAD

PROTECTION

The

SCR

circuitry

protected

miniature

fuse

cated

the

front

panel

the

welding

power

source

(see

Figure

3-4).

fuse

should

open,

the

weld

output

would

cease.

There

are

thermostats

located

the

main

rectifier

and

transformer.

the

event

water

flow

stops

while

the

unit

use

and

the

main

rectifier

and/or

transformer

becomes

too

warm,

the

thermostat(s)

will

open

and

suspend

all

output.

this

occurs,

initiate

water

flow

and

allow

the

unit

cooling

period

before

attempting

resume

operation.

The

POWER

circuit

breaker

CR1

will

open

interrupt

coming

power

the

input

power

too

high.

The

circuit

breaker

must

manually

reset.

Make

electrical

input

and

weld

output

connections

outlined

Section

3-2

and

3-3.

Make

water

connections

required

and

turn

water

flow

on.

Select

desired

open

circuit

voltage

outlined

Section

3-4.

Make

connections

CONTACTOR

CONTROL

recep

tacles.

Place

POWER

circuit

breaker

position.

the

Contactor

Control

apply

115

volts

the

welding

power

source

voltage

control

circuit.

3-10.

DUTY

CYCLE

(Figure

3-5)

The

duty

cycle

welding

power

source

the

percentage

ten

minute

period

that

welding

power

source

can

safely

operated

given

output.

This

welding

power

source

rated

100

percent

duty

cycle.

This

means

that

the

welding

power

source

can

safely

operated

rated

load

con

tinuously.

Figure

3-5

enables

the

operator

determine

the

safe

output

the

welding

power

source

various

duty

cycles.

800

3-11.

VOLT-AMPERE

CURVE

(Figure

3-6)

The

volt-ampere

curves,

Figure

3-6,

show

the

output

voltage

available

each

given

output

current.



Prior

welding,

imperative

proper

protective1

clothing

(welding

coat

and

gloves)

and

eye

protection

(glasses

and/or

welding

helmet)

put

on.

Failure

comply

may

result

serious

and

even

permanent



bodily

damage.

Commence

welding.

4-2.

SHUTTING

DOWN

Open

the

Contactor

Control

remove

115

volts

from

the

welding

power

source

voltage

control

circuit.

Allow

the

welding

power

source

idle

with

the

water

flowing

for

cooling

period.

Turn

off

water

flow.

Place

the

POWER

circuit

breaker

the

OFF

position.

700

600

500

100

DUTY

CYCLE

8-049

263

Figure

3-5.

Duty

Cycle

Chart

-1

4-1.

GAS

METAL-ARC

WELDING

(GMAW)

SECTION

SEQUENCE

OPERATION

100

200 300

400

500

600

700

AMPERES

Figure

3-6.

Volt-Ampere

Curve

B-049

264

Page

SECTION

TROUBLESHOOTING

1IIUh1~1II~1

Hazardous

voltages

are

present

the

internal

circuitry

the

welding

power

source

long

power

connected

the

Unit.

Disconnect

power

before

attempting

any

inspection

work

the

inside

the

unit.

Troubleshooting

internal

circuitry

should

performed

qualified

personnel

only.

The

following

chart

designed

diagnose

and

provide

remedies

for

some

the

troubles

that

may

develop

this

welding

power

source.

It is

assumed

that

proper

installation

has

been

made,

according

Section

this

manual,

and

that

the

welding

power

source

has

been

functioning

properly

until

this

trouble

developed.

Use

this

chart

conjunction

with

the

circuit

diagram

while

performing

troubleshooting

procedures.

the

trouble

not

remedied

after

performing

these

procedures,

the

nearest

Factory

Authorized

Service

Station

should be

contacted.

all

cases

equipment

malfunction,

the

manufacturers

recommendations

should

strictly

followed.

becomes

necessary

replace

any

fuse

the

welding

power

source,

ensure

that

fuse

of the

proper

size

used.

TROUBLE

PROBABLE

CAUSE

REMEDY

weld

output.

POWER

circuit

breaker

open.

Manually

reset

POWER

circuit

breaker,

Fuse

open.

Replace

fuse

F1.

Thermostat(s)

open.

Allow

cooling

period

before

attempting

resume

opera

tion.

Control

relay

CR1

defective.

Check

relay

CR1

and

replace

necessary.

Printed

circuit

board

not

secure

receptacle.

Ensure

that

the

printed

circuit

board

secure

receptacle.

Printed

circuit

board

defective.

Check

printed

circuit

board

and

replace

necessary.

Defective

component

main

rec-

tifier

SRi.

Check

main

rectifier

SRi

components

and

replace

necessary

parts.

Limited

output

and

low

open-

Circuit

voltage,

open-circuit

voltage

selector

wrong

taps.

See

Section

3-4

for

proper

open

-circuit

voltage

selection.

Open

line

fuse

one

phase.

Check

input

line

fuse(s)

and

replace

necessary.

Printed

Circuit

board

not

secure

receptacle.

Ensure

that

the

printed

circuit

board

secure

receptacle.

Printed

circuit

board

defective.

Check

printed

Circuit

board

and

replace

necessary.

Defective

component

main

rec-

tifier

Check

main

rectifier

SRi

components

and

replace

necessary

parts.

Erratic

weld

output.

Incorrect

welding

cable

size.

Use

proper

size

and

type

cable

(see

Section

3-3,

Table

3-2).

Loose

welding

cable

connections.

Ensure

all

connections

are

clean

and

tight.

115

volts

115

VOLTS

duplex

receptacle.

Fuse

open.

Replace

fuse

F2.

OM-233

Page

Figure

5-1.

Circuit

Diagram

02T

039

038

033

032

031

017

016

014

073

Circuit

Diagram

No.

B-081

644

FIRING

CIRCUIT

Page

March

1979

FORM:

OM-233

PARTS

LIST

Effective

With

Serial

No.

HK243705

MODEL

A-500

C,,

I-

C.)

.2~

U..

C,,.

IDe)

o,o~

I-

ł~.

cc,

I-

IL.

I-.

OM-233

Page

Item

Dia.

Factory

No.

Mkgs.

Part

No.

Description

Quantity

Figure

Main

Assembly

034

025

CIRCUIT

CARD

ASSEMBLY,

firing

circuit

(consisting

of)

C50

034

286

CAPACITOR,

poly

film

0.1

100

volts

C51

031

633

CAPACITOR,

electrolyte

volts

C52

031

646

CAPACITOR,

ceramic

0.001

1000

volts

050,51,52

026

202

DIODE,

rectifier

amp

400

volts

straight

polarity

Q50,51

024

207

TRANSISTOR,

amp

100

volts

R50

030

761

RESISTOR,

carbon

watt

ohm

R51

030

021

RESISTOR,

carbon

0.5

watt

4700

ohm

R52

030

038

RESISTOR,

carbon

0.5

watt

220

ohm

R53

030

004

RESISTOR,

carbon

0.5

watt

10K

ohm

R54,55,56

030

802

RESISTOR,

carbon

watt

ohm

SR5O

021

939

.RECTIFIER,

integrated

1.5

amp

400

volts

T50

032

304

TRANSFORMER,

inverter

032

979

ENCLOSURE,

printed

circuit

board

RC3

039

756

CONNECTOR,

amphenol

081

551

TRANSFORMER,

power

main

(See

Fig.

Page

010

323

CLAMP,

hose

1/4

5/8

dia

603

105

HOSE,

neoprene-

braid

No.

5/16

(order

ft)

ft.

081

410

ANGLE,

mounting

transformer

rear

081

512

PANEL,side

081

514

COVER,top

022

627

GASKET,

lifting-

eye

cover

Figure

BAFFLE,with-components(SeePage4)

000

527

BLANK,

snap

7/8

081

516

PANEL,

rear

602

956

FITTING,

pipe

brass

adapter

bulkhead

1/4

NPT

15/16

604 308

FITTING,

brass

barbed

male

1/4

TBG

1/4

NPT

081

402

BASE

Figure

PANEL,

front

with

components

(See

Page

081

420

TERMINAL

BOARD,

power

output

081

426

BRACKET,

mounting

transformer

circuit

card

enclosure

081

422

STRIP,

insulating

terminal

secondary

SURE TO

PROVIDE

MODEL

AND

SERIAL

NUMBER

WHEN

ORDERING

REPLACEMENT

PARTS.

OM-233

Page

Item

Dia.

No.

Mkgs.

TP3,4

026

181

605

538

**081

640

**081

639

**081

550

081

526

081

525

081

527

081

417

010

337

Factory

Part

No.

Description

Quantity

Figure

081 551

Transformer,

Power

Main

(See

Fig.

Page

Item

THERMOSTAT,

normally

closed

CABLE

TIE

COIL,

primary/secondary

COIL,

primary/secondary

w/1

volts

winding

TRANSFORMER

SUBASSEMBLY,

power

main

(consisting

of)

.STRIP,

mica

0.015x

3-1/2x3-1/2

STRIP,

polyester

glass

laminate

0.031

3-1/2

STRIP,

mica

0.015

2-5/8

3-3/8

HEAT

SINK,

coil

transformer

WEDGE,

polyester

glass

laminate

3/16

3/4

TD-049

520

Figure



Transformer,

Power-Main

**Replace

Factory

Authorized

Service

Station.

SURE

PROVIDE

MODEL

AND

SERIAL

NUMBER

WHEN

ORDERING

REPLACEMENT

PARTS.

Page

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Miller A-500 Owner's manual

Brand: Miller

Model: A-500

Category: Welding System

Type: Owner's manual

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Miller A-500 Owner's manual

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Miller A-500 Owner's manual

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