Miller COMPUTER INTERFACE MR-5 Owner's manual

Brand: Miller

Model: COMPUTER INTERFACE MR-5

Category: Welding System

Type: Owner's manual

This manual is also suitable for

JG073823

July

1986

FORM:

OM-878A

OWN

ERS

MANUAL

Effective

With

Serial

No.

JG073823

MODEL

MR-5

COMPUTER

INTERFACE

GAS/CURRENT

SENSING

CON

TROL

FILE

COPY

RETURN

FOLDER

MILLER

ELECTRIC

MFG.

CO.

718

BOUNDS

ST,

P.O.

Box

1079

APPLETON,

54912

USA

ADDITIONAL

COPY

PRICE

CENTS

IMPORTANT:

Read

and

understand

the

entire

contents

both

this

manual

and

the

power

source

manual

used

with

this

unit,

with

special

emphasis

the

safety

material

throughout

both

manuals,

before

Installing,

operating,

maintaining

this

equipment.

This

unit

and

these

instructions

are

for

use

only

persons

trained

and

experienced

the

safe

operation

welding

equipment.

not

allow

untrained

persons

install,

operate,

maintain

this

unit.

Contact

your

distributor

you

not

fully

understand

these

Instructions.

fullER

NWSA

CODE

NO.

4579

PRINTED

U.S.A.

LIMITED

WARRANTY

EFFECTIVE:

JANUARY

1986

This

warranty

supersedes

all

MILLER

warranties

and

ex-

clusive

with

other

guarantees

warranties

expressed

implied.

LIMITED

WARRANTY

Subject

the

terms

and

condi-

the

case

Millers

breach

warranty

any

other

duty

tions

hereof,

Miller

Electric

Mfg.

Co.,

Appleton,

Wisconsin

with

respect

the

quality

any

goods,

the

exclusive

remedies

warrants

its

Distributor/Dealer

that

all

new

and

unused

therefore

shall

be.

Millers

option

(1)

repair

(2)

replacement

Equipment

furnished

Miller

free

from

defect

workman-

or,

where

authorized

writing

Miller

appropriate

cases,

(3)

ship

and

material

the

time

and

place

delivery

Miller.

the

reasonable

cost

repair

replacement

authorized

C

warranty

made

Miller

with

respect

engines,

trade

Miller

service

station

(4)

payment

credit

for

the

purchase

~

accessories

other

items

manufactured

others.

Such

price

(less

reasonable

depreciation

based

upon

actual

use)

upon

engines,

trade

accessories

and

other

items

are

sold

subject

return

the

goods

Customers

risk

and

expense.

MILLERs

the

warranties

their

respective

manufacturers,

any

All

option

repair

replacement

will

F.O.B.,

Factory,

engines

are

warranted

their

manufacturer

for

one

year

from

Appleton,

Wisconsin,

F.O.B.,

MILLER

authorized

service

date

original

purchase,

except

Tecumseh

and

Onan

engines

facility,

therefore,

compensation

for

transportation

costs

which

have

two

year

warranty,

any

kind

will

allowed.

Upon

receipt

notice

apparent

defect

failure,

Miller

shall

insiruct

the

claimant

the

warranty

Except

specified

below,

Millers

warranty

does

not

apply

claim

procedures

followed.

components

having

normal

useful

life

less

than

one

(1)

year,

such

spot

welder

tips,

relay

and

contactor

points,

MILLERMATIC

parts

that

come

contact

with

the

welding

ANY

EXPRESS

WARRANTY

NOT

PROVIDED

HEREIN

AND

wire

including

nozzles

and

nozzle

insulators

where

failure

does

ANY

IMPLIED

WARRANTY,

GUARANTY

REPRESENTA

not

result

from

defect

workmanship

material.

TION

PERFORMANCE,

AND

ANY

REMEDY

FOR



BREACH

CONTRACT

WHICH.

BUT

FOR

THIS

PROVISION,

Miller

shall

required

honor

warranty

claims

war-

MIGHT

ARISE

IMPUCA11ON,

OPERA11ON

LAW,

ranted

Equipment

the

event

failure

resulting

from

defect

CUSTOM

TRADE

COURSE

DEAUNG.

INCLUDING

within

the

following

periods

from

the

date

delivery

Equip-

ANY

IMPUED

WARRANTY

MERCHANTABIUTy

.~)

ment

the

original

user:

FITNESS

FOR

PARTiCULAR

PURPOSE.

WITH

RESPECT

ANY

AND

ALL

EQUIPMENT

FURNISHED

MILLER

Arc

welders,

power

sources

and

components

....

year

CLUDED

AND

DISCLAIMED

MILLER.

r7~\

Originalmalnpowerrectiflers

years

(Iabor.lyear

only)

3

,6.J

~J~g

gone,

feeder/gur.

and

plaesia

torehes...

days

EXCEPT

EXPRESSLY

PROViDED

MILLER

All

otherMillermatic

Feeders

year

WRmNG,

MILLER

PRODUCTS

ARE

INTENDED

FOR

Replacementorrepairpartsexclusiveof

labor..

days.

ULTIMATE

PURCHASE

COMMERCIAL/INDUSTRIAL

Batteries

months

USERS

AND

FOR

OPERATION

PERSONS

TRAINED

AND

EXPERIENCED

THE

USE

AND

MAINTENANCE

provided

that

Miller

notified

wilting

within

thirty

(30)

days

WELDING

EQUIPMENT

AND

NOT

FOR

CONSUMERS

the

date

such

failure.

CONSUMER

USE

MILLERS

WARRANTIES

NOT

EXTEND

matter

general

policy

only,

Miller

.,~

EXTEND

submitted

the

original

user

within

the

foregoing

periods.



,,

~

-...

TABLE

CONTENTS

Section

No.

Page

No.

SECTION

INTRODUCTION

General

Information

And

Safety

Receiving-Handling

Description

SECTION

INSTALLATION

2-1.

Location

Gas/Current

Sensing

Control

Connections

Computer

Interface

Welding

Power

Source

Connections

SECTION

FUNCTION

CONTROLS

3-1.

PowerSwitch

Overload

Protection

Voltmeter

Wire

Speed

Meter

Indicator

Lights

SECTION

SEQUENCE

OPERATION

Input

Signal

From

Welding

Power

Source

Output

Signals

From

Computer

Interface

Wire

Stick

Check

SECTION

MAINTENANCE

TROUBLESHOOTING

Inspection

And

Upkeep

Overload

Protection

Display

Board

Meter

Check

Board

Replacement

Procedures

Troubleshooting

Chart

5-6.

UseOflndicatorLightsForTroubleshooting



SECTION

INTRODUCTION



Model

Weight

MR-5DW

lbs.

(14

kg)

Gas/Current

Sensing

Control

lbs.

(2.3

kg)



16.5

in.

(419

mm)

case

only

4-1/2

in.

(108

m)H~IIIIIII~

in.

(7.9

mm)

Diameter

Holes

9-7/8

in.

10-1/2

in.

(251

mm)

(267

mm)

Figure

Specifications

TB-109

947

T~-1

10320

19-1/8

in.

(486

in.

mm)

OM-878

Page

GENERAL

INFORMATION

AND

SAFETY

General

Information

presented

this

manual

and

various

labels,

tags,

and

plates

the

unit

pertains

equip

ment

design,

installation,

operation,

maintenance,

and

troubleshooting

which

should

read,

understood,

and

followed

for

the

safe

and

effective

use

this

equip

ment.

Safety

The

installation,

operation,

maintenance,

and

troubleshooting

arc

welding

equipment

requires

practices

and

procedures

which

ensure

personal

safety

and

the

safety

others.

Therefore,

this

equipment

installed,

operated,

and

maintained

only

qualified

persons

accordance

with

this

manual and

all

plicable

codes

such

as,

but

not

limited

to,

those

listed

the

end

Section

Safety

Rules

For

Operation

Arc

Welding

Power

Source

the

welding

power

source

Owners

Manual.

t~.~UI

statements

include

installation,

operation,

and

maintenance

procedures

practices

which

not

carefully

followed

could

result

minor

personal

injury

damage

this

equipment.

IMPORTANT

third

signal

word,

highlights

instruc

tions

which

need

special

emphasis

obtain

the

most

efficient

operation

this

equipment.

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

will

furnished

the

manufacturer

quest

occasion

file

claim

arises.

When

requesting

information

concerning

this

equip

ment,

essential

that

Model

Description

and

Serial

Number

the

equipment

supplied.

DESCRIPTION

Safety

instructions

specifically

pertaining

this

unit

pear

throughout

this

manual

highlighted

the

signal

words

which

identify

different

levels

hazard.

I!ATIJ

statements

include

installation,

operation,

and

maintenance

procedures

practices

which

not

carefully

followed

could

result

serious

personal

injury

loss

life.

The

computer

interface

control

contains

wire

feed

speed

and

weld

voltage

control

circuitry,

digital

voltmeter

and

wire

feed

speed

meter,

and

circuitry

terface

with

the

robot

control

unit.

The

gas/current

sensing

control

contains

the

gas

valve

and

current

sensing

reed

relay.

These

components

function

with

the

robot

system

when

using

the

Gas

Metal

Arc

Welding

(GMAW)

pro

cess.

SECTION

INSTALLATION.

LOCATION

(Figure

The

location

should

allow

room

open

and

remove

covers

and

wrappers

for

installation,

maintenance

and

repair.

Lead

lengths

must

considered

when

locating

components.

Mounting

holes

are

provided

each

component

for

mounting

purposes.

Figure

1-1

gives

unit

dimensions.

Normally

the

computer

interface

mounted

top

the

robot

control

unit.

The

gas/current sensing

control

should

mounted

line

between

the

welding

power

source

and

wire/drive

assembly.

See

installation

sec

tion

robot

manual

for

specific

information.

The

service

life

and

efficiency

the

system

are

reduced

when

subjeoted

high

levels

dust,

dirt,

moisture,

corrosive

vapors,

and

extreme

heat.

-2.

GAS/CURRENT

SENSING

CONTROL

CON

NECTIONS

(Figures

2-1

And

2-2)

ITATI~h~llk~C~

ELECTRIC

SHOCK

can

kill.



not

touch

five

electrical

parts.



Shut

down

unit,

welding

power

source,

and

robot

and

disconnect

input

power

employing

lockout/tagging

procedures

before

making

terconnections.

Lockout/tagging

procedures

consist

padlocking

line

disconnect

switch

open

position,

removing

fuses

from

fuse

box,

shutting

off

and

red-tagging

circuit

breaker

other

disconnecting

device.

Insert

16-pin

Amp

plug

from

interconnecting

cord

into

corresponding

receptacle

the

gas/current sensing

control,

and

rotate

collar

clockwise.

Route

weld

cable

from

welding

power

source

positive

weld

output

terminal,

through

the

gas/current

sensing

control,

the

wire

drive

assembly.

Connect

hose

from

gas/current

sensing

control

gas

supply

regulator/flowmeter.

The

gas

flow

must

accurately

controlled

regulator/flowmeter

the

source.

WARNING

and

CAUTION

OM-878

Page

Applicable

tWhen

Filter

Interface

Not

Used:

White

Lead

Terminal

Green

Lead

Terminal

Blue

Lead

Terminal

Red

Lead

Terminal

Figure

Rear

Panel

View

TB-109

848A

COMPUTER

INTERFACE

WELDING

POWER

SOURCE

CONNECTIONS

(Figures

2-1

And

2-2)

WARNING

__________

ELECTRIC

SHOCK

can

kill.



not

toucif

live

electrical

parts.



Shut

down

unit,

welding

power

source,

and

robot

and

disconnect

input

power

employing

lockout!

tagging

procedures

before

making

terconnections.

Lockout/tagging

procedures

consist

padlocking

line

disconnect

switch

open

position,

removing

fuses

from

fuse

box,

shutting

off

and

red-tagging

circuit

breaker

other

disconnecting

device.

There

are

three

separate

cords

used

for

interconnec

tions

between

the

computer

interface

and

welding

power

source.

Examine

and

select

the

proper

cord

for

the

following

connections.

Voltage

Sensing

Connections

Connect

lead

with

ring

terminal

wire

drive

assembly

where

weld

cable

from

welding

power

source

connected.

Connect

lead

with

clamp

work

table.

Voltage

Control

Connections

Insert

5-pin

Amphenol

plug

remaining

end

cord

into

corresponding

receptacle

welding

power

source,

and

rotate

collar

clockwise.

15VAC/Contactor

Control

Receptacle

RC1

Filter

15VAC/Contactor

Control

Cord

Voltage

Control

Cord

Power

Source

Gas/Current

Arc

Failure

Connection

Robot

Control

Unit

Sensor

nections

Motor

Control

Cord

Figure

Interconnection

Diagram

15-109

851

OM-878

Page

Place

welding

power

source

REMOTE

VOLTAGE

control

switch

the

position.

5VAC/Contactor

Control

Connections

Insert

two-pole

twistlock

plug

from

cord

into

contactor

control

receptacle

welding

power

source,

and

rotate

plug

clockwise.

Place

welding

power

source

REMOTE

CONTAC

TOR

control

switch

the

position.

Insert

three-pole

twistlock

plug

from

cord

into

5VAC

receptacle

the

welding

power

source,

and

rotate

clockwise.

Power.

Switch

Circuit

Breaker

SECTION

FUNCTION

CONTROLS

Speed

1PM

Meter

TB-109

847

POWER

SWITCH

(Figure

3-1)

Placing

the

POWER

switch

the

position

applies

input

power

the

interface.

The

interface

must

for

the

robot

weld.

Placing

the

POWER

switch

the

OFF

position

shuts

the

interface

down.

OVERLOAD

PROTECTION

(Figure

3-1)

Fuse

Protection

The

interface

protected

from

damage

due

inter

nal

short

excessive

overload

fuse

Fl.

fuse

should

open,

the

interface

would

shut

down.

See

Sec

tion

5-2

for

replacement

procedures.

Wire

Drive

Motor

Circuit

Breaker

The

drive

motor

protected

from

damage

due

overload

circuit

breaker

CB1.

circuit

breaker

CB1

should

open,

the

interface

would

shut

down.

The

reset

button

would

have

manually

depressed

reset

the

circuit

breaker.

VOLTMETER

(Figure

3-1)

The

voltmeter

displays

weld

voltage

the

nearest

tenth

volt

while

welding

and

preset

voltage

while

idling.

WIRE

SPEED

METER

(Figure

3-1)

The

wire

speed

meter

displays

preset

wire

feed

speed

the

nearest

inch

per

minute

while

welding

and

idling.

Actual

and

preset

wire

feed

speed

are

the

same

due

the

wire

feed

speed

feedback

circuit.

INDICATOR

LIGHTS

(Figure

3-1)

There

are

five

indicator

lights

the

interface.

These

are

visual

indication

various

process

functions.

The

GAS

light

turns

indicate

that

the

gas

valve

energized

and

shielding

gas

should

flow.

The

CONTACTOR

light

turns

when

the

welding

power

source

contactor

energized

indicate

that

weld

output

available.

The

WIRE

FEED

light

turns

when

the

wire

feed

motor

energizes

indicate

that

wire

feed

started.

The

CURRENT

light

turns

when

the

current

detect

relay

energized

indicate

that

arc

established.

The

ARC

FAILURE

light

turns

when

there

arc

outage

while

welding.

Figure

Front

Panel

View

Indicator

Light

OM-878

Page

SECTION

SEQUENCE

OPERATION

INPUT

SIGNAL

FROM

WELDING

POWER

SOURCE

(Figure

4-1)

The

welding

power

source

and

wire

drive

motor

send

signals

the

computer

inter

face.

These

signals

are

used

determine

weld

parameters.

During

welding

these

signals

are

compared

preset

welding

values

and

compensations

are

made

keep

weld

parameters

preset

levels.

Input

From

Motor

WeldAbnormal.

,

Detect,

Open

when

abnormality

occurs.

I-

Start

Time

Figure

Input

Signal

Timing

Chart

OUTPUT

SIGNALS

FROM

COMPUTER

TERFACE

(Figure

4-2)

The

interface

interprets

the

input

signals

from

the

welding

power

source,

wire

drive

motor,

robot,

and

wire

stick

check

circuit.

The

output

the

computer

interface

regulates

the

welding

power

source

and

wire

feed

functions

while

welding.

Arc

Iniation

Open

_________

Wire

Feed

Speed

________________

Command

_______

-

Voltage

_________________

Command

_________

________

~I

Ii

Wire

Inching

Open

Crater

Fill

OutputTo

Motor

Gas

Valve



Preflow

Time

_.s..~

.u~.__.

Postflow~

I...

Wire

Stick

Check

(at

Arc

End)

Time

0.2

to0.3

sec

..~....

WIRE

STICK

CHECK

(Figure

4-1)

After

the

weld

completed,

the

wire

stick

check

performed

determine

the

welding

wire

has

burned

back

out

the

weld

puddle.

The

welding

power

source

contactor

pulsed

on.

Feed

back

used

determine

the

wire

free

the

weld.

the

feedback

indicates

the

wire

free

the

weld,

the

robot

can

cycle

its

sequence.

200

milliseconds

Contactor

millIseconds

Figure

Wire

Stick

Check

the

feedback

indicates

the

wire

stuck,

the

welding

power

source

sent

.25

VDC

command

signal

provide

output

voltage

6.25

VDC.

The

contactor

pulsed

on.

the

wire

was

stuck,

the

pulsed

voltage

should

enough

free

the

wire.

The

contactor

pulsed

and

feedback

used

determine

the

wire

now

free

the

weld.

the

feedback

indicates

the

wire

free,

the,

robot

can

cycle

its

sequence.

the

feedback

indicates

the

wire

still

stuck,

higher

voltage

command

given,

and

the

contactor

pulsed

free

the

welding

wire.

The

check

performed

and

two

voltage

increases

are

used

try

and

free

the

welding

wire

(see

Figure

4-3).

the

wire

remains

stuck,

the

robot

will

shut

down,

Weld

Abnormal

error

will

displayed

the

robot

pro

gram

module,

and

the

wire

must

physically

removed

from

the

weld.

Start

Time

Arc

Initiation

Welding

Current

Load



Welding

voltaoeTjI

50V

,Crater

lovoc

Voltage

Command

25VDC

Weld

Start

Relay

Figure

Output

Signal

Timing

Chart

OM-878

Page

SECTION

MAINTENANCE

TROUBLESHOOTING

IMPORTANT

______________

Every

six

months

inspect

the

labels

this

unit

for

legibility.

All

precautionary

labels

must

maintained

c/early

readable

state

and

rep/aced

when

necessary.

See

the

Parts

List

for

part

number

precautionary

labels.

INSPECTION

AND

UPKEEP

Iih~:I~Il~c~

ELECTRIC

SHOCK

can

kill.



not

touch

live

electrical

parts.



Shut

down

unit,

welding

power

source,

and

robot

and

disconnect

input

power

employing

lockout/tagging

procedures

before

internally

inspecting

servicing.

Lockout/tagging

procedures

consist

padlocking

line

disconnect

switch

open

position,

removing

fuses

from

fuse

box,

shutting

off

and

red-tagging

circuit

breaker

other

disconnecting

device.

Usage

and

shop

conditions

will

determine

the

frequency

and

type

maintenance.

Inspect

equipment

follows:

Repair

replace,

required,

all

hoses,

cords,

and

cables;

give

particular

attention

frayed

and

cracked

insulation

and

areas

where

enters

equipment.

Remove

grease

and

grime

from

components;

moisture

from

electrical

parts

and

cables.

OVERLOAD

PROTECTION

(Figure

3-1)

ITiTI~:I~II~cf

ELECTRIC

SHOCK

can

kill.



not

touch

live

electrical

parts.



Shut

down

unit,

welding

power

source,

and

robot

and

disconnect

input

power

employing

lockout/tagging

procedures

before

internally

inspecting

servicing.

Lockout/tagging

procedures

consist

padlocking

line

disconnect

switch

open

position,

removing

fuses

from

fuse

box,

shutting

off

and

red-tagging

circuit

breaker

other

disconnecting

device.

1.~U1l.1~~

IMPROPER

FUSES

can

damage

this

unit.



replacement

becomes

necessary,

use

only

fuses

the

proper

size,

type,

and

rating

(see

Parts

List).

replace

the

fuse,

proceed

follows:

Depress

and

rotate

fuse

holder

cover

counterclockwise.

Pull

out

fuse

with

cover

when

fuse

holder

cover

free.

Insert

new

fuse

into

fuse

holder

cover.

Install

fuse

with

fuse

holder

cover

back

into

unit.

yin2

Power

Supply

For

V2~

Voltmeter

5Vdc<~..~

Input

Command

For

Vdc

Input

Command

For

Wire

Speed

1PM

Meter

Vdc

Figure

Display

Board

Meter

Checks

*Corresponds

volt

welding

power

source

output.

Corresponds

800

ipm

output

the

wire

drive

motor.

Depress

and

rotate

fuse

holder

cover

clockwise

until

cover

secure.

Rear

View

Display

Board

PC4

Vini

Power

Supply

For

,,

Wire

Speed

1PM

Meter0-5Vdc

OM-878

Page

5-3.

DISPLAY

BOARD

METER

CHECK

(Figure

Gentiypullboardstraightawayfromfrontpanel.

5-1)

Check

points

are

provided

the

display

board

not

pull

down;

otherwise,

the

meters

for

checking

power

supply

and

input

command

for

the

and

LEDs

may

damaged.

VOLT

meter

and

WIRE

SPEED

1PM

meter.

replace

meter(s)

proceed

follows:

I~I..1:hIl~e~

ELECTRIC

SHOCK

can

kill.



not

touch

live

electrical

parts.

Remove

nuts

and

lock

washers

from

meter



sure

that

personnel

performing

testing

pro-

support.

cedures

are

familiar

with

and

standard

safe-



practices.

Gently

pull

meter

straight

out

socket.

Re-



Shut

down

unit

before

making

changing

meter

tam

spacers.

test

equipment

lead

connections.

ELECTROSTATIC

DISCHARGE

(ESD)

can

damge

Slide

spacers

onto

new

meters

supports.

electronic

components.



not

touch

any

electronic

components

unless

Push

meter

into

socket

with

meter

supports

properly

grounded

wrist

strap

worn

while

stan-

protruding

through

rear

board.

ding

grounded,

static-dissipating

mat.



Transport

all

static-sensitive

components

pro-

Reinstall

lock

washers

and

nuts

secure

per

static-shielding

carriers

and

packages.

meter

board.

not

overtighten

nuts



Perform

work

only

static-safe

work

area.

meter

may

damaged.

Remove

computer

interface

top

cover.

install

replacement

display

board,

carefully

line

board

with

front

panel

openings

for

Locate

display

board

PC4.

meters

and

LEDs.

Check

voltage

according

Figure

5-1.

Reinstall

securing

screws.

meterpower

supply

and

command

voltage

Reinstall

top

cover

unit.

correct

and

the

meter

not

working,

replace

the

meter

(see

Section

5-4).

Voltage

Board

(PCi),

Motor

Board

(PC2),

terface

Board

(PC3),

and

Filter

Board

the

power

supply

command

voltage

incor-

(PC6)

Replacement

rect,

replace

display

board

PC4

(see

Section

Remove

top

cover

from

unit.

5-4).

For

Voltage

Board

PCi:

BOARD

REPLACEMENT

PROCEDURES

Disconnect

lead

from

terminal

and

lead

ELECTRIC

SHOCK

can

kill.

from

terminal



not

touch

live

electrical

parts.



Shut

down

unit,

welding

power

source,

and

robot

Disconnect

plug

PLG

from

receptacle

and

disconnect

input

power

employing

RC14

board.

lockout/tagging

procedures

before

inspecting

servicing.

Remove

board.

Lockout/tagging

procedures

consist

padlocking

line

disconnect

switch

open

position,

removing

fuses

Install

replacement

board.

from

fuse

box,

shutting

off

and

red-tagging

circuit

breaker

other

disconnecting

device.

Connect

PLG14

RC14.

ELECTROSTATIC

DISCHARGE

(ESO)

can

damage

electronic

components.

Connect

lead

terminal

and

lead



not

touch

any

electronic

components

unless

terminal

properly

grounded

wrist

strap

worn

while

stan

ding

grounded,

static-dissipating

mat.

For

Motor

Board

PC2:



Transport

all

static-sensitive

components

pro-

per

static-shielding

carriers

packages.

Remove

securing

screw

and

unlatch

stand-



Perform

work

only

static-safe

work

area.

off.

Display

Board

(PC4)

And

Meter

Replace-

Gently

pull

board

from

receptacle

RC5.

ment

Install

new

board.

Remove

top

cover

from

unit.

Reinstall

securing

screw

and

latch

standoff.



Remove

screws

securing

board

stand-offs.

not

remove

stand-offs.

OM-878Page7

For

Interface

Board

PC3:



Shutdown

unit,

we/ding

power

source,.and

robot

and

disconnect

input

power

employing

Disconnect

plugs

PLG18

and

PLG19

from

lockout/tagging

procedures

before

internally

receptacles

RC18

and

RC19.

inspecting

servicing.

Lockout/tagging

procedures

consist

padlocking

line

Remove

board.

disconnect

switch

open

position,

removing

fuses

from

fuse

box,

shutting

off

and

red-tagging

circuit

Install

replacement

board.

breaker

other

disconnecting

device.

Connect

PLG18

RC18

and

PLG19

MOVING

PARTS

can

cause

serious

injury.

RC1



Keep

c/ear

moving

parts.

HOT

SURFACES

can

cause

severe

burns.

For

Filter

Board

PC6:



Allow

cooling

period

before

servicing.

Troubleshooting

performed

only

qualified

per-

Disconnect

plugs

PLG21

and

PLG22

from

sons.

receptacles

RC21

and

RC22.

assumed

that

the

computer

interface

was

properly

Remove

board.

installed

according

Section

this

manual,

the

operator

familiar

with

the

function

controls,

the

Install

replacement

board.

unit

was

working

properly,

and

that

the

trouble

not

the

welding

process.

The

following

chart

Connect

PLG21

RC21

and

PLG22

designed

diagnose

and

provide

remedies

for

some

RC22.

the

troubles

that

may

develop

this

unit.

Reinstall

top

cover

unit.

TROUBLESHOOTING

CHART

ELECTRIC

SHOCK

can

kill.

not

touch

live

electrical

parts.

Use

this

chart

conjunction

with

the

circuit

diagrams

while

performing

troubleshooting

procedures.

the

trouble

not

remedied

after

performing

these

pro

cedures,

the

nearest

Factory

Authorized

Service

Sta

tion

should

contacted.

all

cases

equipment

malfunction,

the

manufacturers

recommendations

should

strictly

followed.

TROUBLE

PROBABLE

CAUSE

REMEDY

Unit

does

not

operate.

Fuse

open.

Check

Fl,

and

replace

necessary

(see

Section

5-2).

Correct

overload

problem

before

continuing

operation.

Circuit

breaker

CB1

tripped.

Check

CB1,

and

reset

necessary.

Correct

overload

problem

before

continuing

operation.

meter

display.

Meter

not

working.

Use

check

points

display

board

PC4

deter

mine

power

available

meter

(see

Section

5-3).

check

points

are

okay,

replace

meter

(see

Section

5-4).

Display

board

PC4

not

working.

Use

check

points

determine

power

available

(see

Section

5-3).

check

points

not

test

okay,

replace

PC4

(see

Section

5-4).

wire

feed.

Robot

signal.

Check

input

signal

from

robot

motor

board

PC2.

Signal

should

0-10

Vdc

between

pins

and

(common)

RC5.

Relay

CR1

not

working.

Replace

CR1.

Motor

board

PC2

not

work-

ing.

Replace

PC2

(see

Section

5-4).

Wire

feeds

maximum.

Tach

board

PC5

wire

drive

motor

not

working.

Replace

PC5.

WARNING

OM-878

Page

TROUBLE

PROBABLE

CAUSE

REMEDY

arc

voltage

control.

Voltage

control

connec-

tions.

Check

and

secure

connections

(see

Section

2-3).

Voltage

sensing

connec-

tions.

Check

and

secure

connections

(see

Section

2-3).

REMOTE

VOLTAGE

con-

trol

switch

position.

REMOTE

VOLTAGE

control

switch

welding

power

source

must

position.

Voltage

board

PCi

not

working.

Replace

PCi

(see

Section

5-4).

Incorrect

robot

command

voltage.

Check

robot

command

voltage

board

PCi.

Command

voltage

should

0-10

Vdc

bet

ween

pins

and

(common)

RC14.

Robot

shuts

down

due

Touch

Sensor

error.

Touch

Sensor

connections.

Check

continuity

leads

between

gun/torch

and

gas/current

sensing

control.

Repair

replace.

Secure

all

connections.

Robot

moves

when

welding

wire

stuck.

Wire

stick

check

connec-

tion.

sure

that

red

lead

connected

terminal

and

blue

lead

connected

terminal

welding

power

source

interface

position

ter

minal

strip.

Interface

board

PC3

not

working.

Replace

PC3

(see

Section

5-4).

Wire

speed

(1PM)

meter

goes

zero.

Incorrect

robot

command

voltage.

Check

robot

command

voltage

motor

board

PC2.

Signal

should

0-10

Vdc

between

pins

and

(common)

RC5.

Motor

board

PC2

not

work-

ing.

Replace

PC2

(see

Section

5-4).

wire

retract.

Control

relay

CR2

not

work-

ing.

Replace

CR2.

Interface

board

PC3

not

working.

Replace

PC3

(see

Section

5-4).

Incorrect

robot

command

voltage.

Check

robot

command

voltage

motor

board

PC2.

Signal

should

0-10

Vdc

between

pins

and

(common)

RC5.

Robot

shuts

down.

Loose

weld

output

connec-

tions.

Clean

and

tighten

connections.

Interconnecting

cords.

Check

all

interconnecting

cords

for

breaks;

repair

replace.

Check

and

secure

all

connections.

Interface

board

PC3

not

working.

Replace

PC3

(see

Section

5-4).

OM-878

Page

USE

INDICATOR

LIGHTS

FOR

TROUBLESHOOTING

Gas

flows:

System

normal

(on).

I,

Gas

does

not

flow:

Gas

flows:

Check

gas

valve

operation.

Check

gas

valve

operation

and

gas

line

for

leaks.

Check

interface

board

PC3.

Gas

does

not

flow:

System

normal

(off).

Contactor

Indicator

Light

-0-Off

Contactor

closed:

System

normal

(on).

Contactor

open:

Contactor

closed:

Check

interconnecting

Check

display

board

PC4.

cords.

Check

interface

board

PC3.

Contactor

Open:

System

normal

(off).

Wire

feeds:

Check

input

signal

from

robot

motor

board

PC2.

Signal

should

0-10

Vdc

between

pins

and

(common)

RC5.

Check

wire

feed

board

PC2.

Current

Indicator

Light

Off

I

Arc

started:

System

normal

(on).

arc:

Replace

reed

relay.

Arc

started:

Replace

reed

relay.

arc:

System

normal

(off).

Arc

Failure

Indicator

Light

Off

arc:

Check

weld

parameters.

Arc

started:

arc:

Check

signal

from

robot.

Normal

during

idling.

Signal

should

24Vdc

between

terminals

2TE

and

2TF.

Check

display

board

PC4.

Arc

started:

Normal

while

welding.

Ir

~Gas

Indicator

Light

Off

Wire

Feed

Indicator

Light

Wire

feeds:

System

normal

(on).

Wire

does

not

feed:

Check

circuit

breaker

CB1.

Check

relay

CR1.

Check

interface

board

PC3.

Wire

does

not

feed:

System

normal

(off).

OM-878

Page

Figure

Circuit

Diagram

For

Computer

Interface

~IVE

Circuit

Diagram

No.

C-ill

103

Circuit

Diagram

No.

B-108

982

Figure

Circuit

Diagram

For

Voltage

Control

Board

PCi

OM-878

Page

057

Circuit

Diagram

No.

C-083

388

Figure

Circuit

Diagram

For

Motor

Control

Board

PC2

.24

WELD

START

(FWD)

1)G

(REV)

COIUION

REV.

RELAY

.15

+24

GAS

WIRE

STICK

CFECK

.24

WELD

CuRRENT

RELAY

CR5

CR6

CR3

CR4

CR1

1--I

AJ~

WIREFEED

MOTOR

GAS

ROBOT

CURRENT

DETECT

CONT

ACTOR

Circuit

Diagram

No.

C-107

971

Figure

Circuit

Diagram

For

Interface

Board

PC3

Figure

Circuit

Diagram

For

Display

Board

PC4

Figure

Circuit

Diagram

For

Filter

Board

PC6

)

-4<

C-I

~>

,-~-



(I)

-I

-4

-i

(1

1

4-.

-4

~

LED3

UAAAA

AAAAAUU

I-I

4-I

RC2I

RC22

(.10

1

10

1

~1

-4

-4

4-I

RCfl~

Circuit

Diagram

No.

A-107

970

A.J

-4

-4

4-4

-4

4-4

-9

C20

-9

721

C14

C13

C12

-3F--4

)I-

~

C~2

C30



F

9

F

RC2II



ClO

C28

-9H--

-9

H

C29

H-

C24



H

I~HE

9

H

C25

C22

9

H

9

F

C23

C47

C46

-31

CAa

9

F

9

C49

Circuit

Diagram

No.

B-ill

117

OM-878

Page

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Miller COMPUTER INTERFACE MR-5 Owner's manual

Brand: Miller

Model: COMPUTER INTERFACE MR-5

Category: Welding System

Type: Owner's manual

This manual is also suitable for

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Miller COMPUTER INTERFACE MR-5 Owner's manual

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