Lincoln Electric Invertec Im526 B Users Manual

IM526-B to the manual 370b3826-e402-498a-9984-8d2fb7ba3054

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INVERTEC V300-PRO

OPERATOR’S MANUAL

For use with machines Code 10256 and 10257.

IM526-B

December,1999

Safety Depends on You

Lincoln arc welding and cutting

equipment is designed and built

with safety in mind. However, your

overall safety can be increased by

proper installation ... and thought-

ful operation on your part. DO

NOT INSTALL, OPERATE OR

REPAIR THIS EQUIPMENT

WITHOUT READING THIS

MANUAL AND THE SAFETY

PRECAUTIONS CONTAINED

THROUGHOUT. And, most

importantly, think before you act

and be careful.

™

Date of Purchase:

Serial Number:

Code Number:

Model:

Where Purchased:

• Sales and Service through Subsidiaries and Distributors Worldwide •

Cleveland, Ohio 44117-1199 U.S.A. TEL: 216.481.8100 FAX: 216.486.1751 WEB SITE: www.lincolnelectric.com

• World's Leader in Welding and Cutting Products •

RETURN TO MAIN MENU

–2–

PROTECT YOURSELF AND OTHERS FROM POSSIBLE SERIOUS INJURY OR DEATH. KEEP CHILDREN

AWAY. PACEMAKER WEARERS SHOULD CONSULT WITH THEIR DOCTOR BEFORE OPERATING.

Read and understand the following safety highlights. For additional safety information it is strongly recommended that you pur-

chase a copy of “Safety in Welding & Cutting - ANSI Standard Z49.1” from the American Welding Society, P.O. Box 351040,

Miami, Florida 33135 or CSA Standard W117.2-1974. A Free copy of “Arc Welding Safety” booklet E205 is available from the

Lincoln Electric Company, 22801 St. Clair Avenue, Cleveland, Ohio 44117-1199.

BE SURE THAT ALL INSTALLATION, OPERATION, MAINTENANCE, AND REPAIR PROCEDURES ARE

PERFORMED ONLY BY QUALIFIED INDIVIDUALS.

WELDING SPARKS can

cause fire or explosion.

4.a..Remove fire hazards from the welding area.

If this is not possible, cover them to prevent

the welding sparks from starting a fire.

Remember that welding sparks and hot

materials from welding can easily go through small cracks

and openings to adjacent areas. Avoid welding near

hydraulic lines. Have a fire extinguisher readily available.

4.b. Where compressed gases are to be used at the job site, spe-

cial precautions should be used to prevent hazardous situa-

tions. Refer to “Safety in Welding and Cutting” (ANSI

Standard Z49.1) and the operating information for the equip-

ment being used.

4.c. When not welding, make certain no part of the electrode cir-

cuit is touching the work or ground. Accidental contact can

cause overheating and create a fire hazard.

4.d. Do not heat, cut or weld tanks, drums or containers until the

proper steps have been taken to insure that such procedures

will not cause flammable or toxic vapors from substances

inside. They can cause an explosion even though they have

been “cleaned.” For information purchase “Recommended

Safe Practices for the Preparation for Welding and Cutting of

Containers and Piping That Have Held Hazardous

Substances”, AWS F4.1 from the American Welding Society

(see address above).

4.e. Vent hollow castings or containers before heating, cutting or

welding. They may explode.

ARC RAYS can burn.

2.a. Use a shield with the proper filter and cover

plates to protect your eyes from sparks and

the rays of the arc when welding or observing

open arc welding. Headshield and filter lens

should conform to ANSI Z87. I standards.

2.b. Use suitable clothing made from durable flame-resistant

material to protect your skin and that of your helpers from

the arc rays.

2.c. Protect other nearby personnel with suitable non-flammable

screening and/or warn them not to watch the arc nor expose

themselves to the arc rays or to hot spatter or metal.

ELECTRIC SHOCK can

kill.

1.a. The electrode and work (or ground) circuits

are electrically “hot” when the welder is on.

Do not touch these “hot” parts with your bare

skin or wet clothing. Wear dry, hole-free

gloves to insulate hands.

1.b. Insulate yourself from work and ground using dry insulation.

Make certain the insulation is large enough to cover your full

area of physical contact with work and ground.

In addition to the normal safety precautions, if welding

must be performed under electrically hazardous condi-

tions (in damp locations or while wearing wet clothing;

on metal structures such as floors, gratings or scaf-

folds; when in cramped positions such as sitting, kneel-

ing or lying, if there is a high risk of unavoidable or acci-

dental contact with the workpiece or ground) use the fol-

lowing equipment:

• Semiautomatic DC Constant Voltage (Wire)

Welder.

• DC Manual (Stick) Welder.

• AC Welder with Reduced Voltage Control.

1.c. In semiautomatic or automatic wire welding, the electrode,

electrode reel, welding head, nozzle or semiautomatic weld-

ing gun are also electrically“hot”.

1.d. Always be sure the work cable makes a good electrical con-

nection with the metal being welded. The connection should

be as close as possible to the area being welded.

1.e. Ground the work or metal to be welded to a good electrical

(earth) ground.

1.f. Maintain the electrode holder, work clamp, welding cable and

welding machine in good, safe operating condition. Replace

damaged insulation.

1.g. Never dip the electrode in water for cooling.

1.h. Never simultaneously touch electrically “hot” parts of elec-

trode holders connected to two welders because voltage

between the two can be the total of the open circuit voltage

of both welders.

1.i. When working above floor level, use a safety belt to protect

yourself from a fall should you get a shock.

1.j. Also see Items 4.c. and 6.

WARNING ARC WELDING can be hazardous.

FUMES AND GASES

can be dangerous.

3.a. Welding may produce fumes and gases haz-

ardous to health. Avoid breathing these

fumes and gases.When welding, keep your

head out of the fume. Use enough ventila-

tion and/or exhaust at the arc to keep fumes

and gases away from the breathing zone. When welding

with electrodes which require special ventilation such

as stainless or hard facing (see instructions on contain-

er or MSDS) or on lead or cadmium plated steel and

other metals or coatings which produce highly toxic

fumes, keep exposure as low as possible and below

Threshold Limit Values (TLV) using local exhaust or

mechanical ventilation. In confined spaces or in some

circumstances, outdoors, a respirator may be required.

Additional precautions are also required when welding

on galvanized steel.

3.b. Do not weld in locations near chlorinated hydrocarbon vapors

coming from degreasing, cleaning or spraying operations.

The heat and rays of the arc can react with solvent vapors to

form phosgene, a highly toxic gas, and other irritating prod-

ucts.

3.c. Shielding gases used for arc welding can displace air and

cause injury or death. Always use enough ventilation, espe-

cially in confined areas, to insure breathing air is safe.

3.d. Read and understand the manufacturer’s instructions for this

equipment and the consumables to be used, including the

material safety data sheet (MSDS) and follow your employ-

er’s safety practices. MSDS forms are available from your

welding distributor or from the manufacturer.

3.e. Also see item 7b.

Apr. ‘93

–3–

FOR ENGINE

powered equipment.

7.a. Turn the engine off before troubleshooting and maintenance

work unless the maintenance work requires it to be running.

---------------------------------------------------------------------------------------

7.b. Operate engines in open, well-ventilated

areas or vent the engine exhaust fumes out-

doors.

---------------------------------------------------------------------------------------

FOR ELECTRICALLY

powered equipment.

6.a. Turn off input power using the disconnect

switch at the fuse box before working on

the equipment.

6.b. Install equipment in accordance with the U.S. National

Electrical Code, all local codes and the manufacturer’s rec-

ommendations.

6.c. Ground the equipment in accordance with the U.S. National

Electrical Code and the manufacturer’s recommendations.

CYLINDER may explode

if damaged.

5.a. Use only compressed gas cylinders contain-

ing the correct shielding gas for the process

used and properly operating regulators

designed for the gas and pressure used. All

hoses, fittings, etc. should be suitable for the application and

maintained in good condition.

5.b. Always keep cylinders in an upright position securely

chained to an undercarriage or fixed support.

5.c. Cylinders should be located:

• Away from areas where they may be struck or subjected to

physical damage.

• A safe distance from arc welding or cutting operations and

any other source of heat, sparks, or flame.

5.d. Never allow the electrode, electrode holder or any other

electrically “hot” parts to touch a cylinder.

5.e. Keep your head and face away from the cylinder valve outlet

when opening the cylinder valve.

5.f. Valve protection caps should always be in place and hand

tight except when the cylinder is in use or connected for

use.

5.g. Read and follow the instructions on compressed gas cylin-

ders, associated equipment, and CGA publication P-l,

“Precautions for Safe Handling of Compressed Gases in

Cylinders,”available from the Compressed Gas Association

1235 Jefferson Davis Highway, Arlington, VA 22202.

7.c.Do not add the fuel near an open flame weld-

ing arc or when the engine is running. Stop

the engine and allow it to cool before refuel-

ing to prevent spilled fuel from vaporizing on

contact with hot engine parts and igniting.

Do not spill fuel when filling tank. If fuel is

spilled, wipe it up and do not start engine

until fumes have been eliminated.

---------------------------------------------------------------------------------------

7.d. Keep all equipment safety guards, covers

and devices in position and in good repair.

Keep hands, hair, clothing and tools away

from V-belts, gears, fans and all other mov-

ing parts when starting, operating or repair-

ing equipment.

7.e. In some cases it may be necessary to remove safety

guards to perform required maintenance. Remove

guards only when necessary and replace them when the

maintenance requiring their removal is complete.

Always use the greatest care when working near moving

parts.

7.f. Do not put your hands near the engine fan. Do not

attempt to override the governor or idler by pushing on

the throttle control rods while the engine is running.

7.g. To prevent accidentally starting gasoline engines while turn-

ing the engine or welding generator during maintenance

work, disconnect the spark plug wires, distributor cap or

magneto wire as appropriate.

---------------------------------------------------------------------------------------

7.h. To avoid scalding, do not remove the radia-

tor pressure cap when the engine is hot.

Mar. ‘93

ELECTRIC AND MAGNETIC

FIELDS

may be dangerous

8.a. Electric current flowing through any con-

ductor causes localized Electric and

Magnetic Fields (EMF). Welding current

creates EMF fields around welding cables

and welding machines.

8.b. EMF fields may interfere with some pacemakers, and

welders having a pacemaker should consult their physician

before welding.

8.c. Exposure to EMF fields in welding may have other health

effects which are now not known.

8d. All welders should use the following procedures in order to

minimize exposure to EMF fields from the welding circuit:

8.d.1. Route the electrode and work cables together - Secure

them with tape when possible.

8.d.2. Never coil the electrode lead around your body.

8.d.3. Do not place your body between the electrode and

work cables. If the electrode cable is on your right side,

the work cable should also be on your right side.

8.d.4. Connect the work cable to the workpiece as close as

possible to the area being welded.

8.d.5. Do not work next to welding power source.

4.f. Sparks and spatter are thrown from the welding arc. Wear oil

free protective garments such as leather gloves, heavy shirt,

cuffless trousers, high shoes and a cap over your hair. Wear

ear plugs when welding out of position or in confined places.

Always wear safety glasses with side shields when in a weld-

ing area.

4.g. Connect the work cable to the work as close to the welding

area as practical. Work cables connected to the building

framework or other locations away from the welding area

increase the possibility of the welding current passing through

lifting chains, crane cables or other alternate circuits. This can

create fire hazards or overheat lifting chains or cables until

they fail.

4.h. Also see item 7c.

–4–

PRÉCAUTIONS DE SÛRETÉ

Pour votre propre protection lire et observer toutes les instructions

et les précautions de sûreté specifiques qui parraissent dans ce

manuel aussi bien que les précautions de sûreté générales suiv-

antes:

Sûreté Pour Soudage A L’Arc

1. Protegez-vous contre la secousse électrique:

a. Les circuits à l’électrode et à la piéce sont sous tension

quand la machine à souder est en marche. Eviter toujours

tout contact entre les parties sous tension et la peau nue ou

les vétements mouillés. Porter des gants secs et sans trous

pour isoler les mains.

b. Faire trés attention de bien s’isoler de la masse quand on

soude dans des endroits humides, ou sur un plancher met-

allique ou des grilles metalliques, principalement dans

les positions assis ou couché pour lesquelles une grande

partie du corps peut être en contact avec la masse.

c. Maintenir le porte-électrode, la pince de masse, le câble de

soudage et la machine à souder en bon et sûr état defonc-

tionnement.

d.Ne jamais plonger le porte-électrode dans l’eau pour le

refroidir.

e. Ne jamais toucher simultanément les parties sous tension

des porte-électrodes connectés à deux machines à souder

parce que la tension entre les deux pinces peut être le total

de la tension à vide des deux machines.

f. Si on utilise la machine à souder comme une source de

courant pour soudage semi-automatique, ces precautions

pour le porte-électrode s’applicuent aussi au pistolet de

soudage.

2. Dans le cas de travail au dessus du niveau du sol, se protéger

contre les chutes dans le cas ou on recoit un choc. Ne jamais

enrouler le câble-électrode autour de n’importe quelle partie du

corps.

3. Un coup d’arc peut être plus sévère qu’un coup de soliel, donc:

a. Utiliser un bon masque avec un verre filtrant approprié ainsi

qu’un verre blanc afin de se protéger les yeux du rayon-

nement de l’arc et des projections quand on soude ou

quand on regarde l’arc.

b. Porter des vêtements convenables afin de protéger la peau

de soudeur et des aides contre le rayonnement de l‘arc.

c. Protéger l’autre personnel travaillant à proximité au

soudage à l’aide d’écrans appropriés et non-inflammables.

4. Des gouttes de laitier en fusion sont émises de l’arc de

soudage. Se protéger avec des vêtements de protection libres

de l’huile, tels que les gants en cuir, chemise épaisse, pan-

talons sans revers, et chaussures montantes.

5. Toujours porter des lunettes de sécurité dans la zone de

soudage. Utiliser des lunettes avec écrans lateraux dans les

zones où l’on pique le laitier.

6. Eloigner les matériaux inflammables ou les recouvrir afin de

prévenir tout risque d’incendie dû aux étincelles.

7. Quand on ne soude pas, poser la pince à une endroit isolé de

la masse. Un court-circuit accidental peut provoquer un échauf-

fement et un risque d’incendie.

8. S’assurer que la masse est connectée le plus prés possible de

la zone de travail qu’il est pratique de le faire. Si on place la

masse sur la charpente de la construction ou d’autres endroits

éloignés de la zone de travail, on augmente le risque de voir

passer le courant de soudage par les chaines de levage,

câbles de grue, ou autres circuits. Cela peut provoquer des

risques d’incendie ou d’echauffement des chaines et des

câbles jusqu’à ce qu’ils se rompent.

9. Assurer une ventilation suffisante dans la zone de soudage.

Ceci est particuliérement important pour le soudage de tôles

galvanisées plombées, ou cadmiées ou tout autre métal qui

produit des fumeés toxiques.

10. Ne pas souder en présence de vapeurs de chlore provenant

d’opérations de dégraissage, nettoyage ou pistolage. La

chaleur ou les rayons de l’arc peuvent réagir avec les vapeurs

du solvant pour produire du phosgéne (gas fortement toxique)

ou autres produits irritants.

11. Pour obtenir de plus amples renseignements sur la sûreté, voir

le code “Code for safety in welding and cutting” CSA Standard

W 117.2-1974.

PRÉCAUTIONS DE SÛRETÉ POUR

LES MACHINES À SOUDER À

TRANSFORMATEUR ET À

REDRESSEUR

1. Relier à la terre le chassis du poste conformement au code de

l’électricité et aux recommendations du fabricant. Le dispositif

de montage ou la piece à souder doit être branché à une

bonne mise à la terre.

2. Autant que possible, I’installation et l’entretien du poste seront

effectués par un électricien qualifié.

3. Avant de faires des travaux à l’interieur de poste, la debrancher

à l’interrupteur à la boite de fusibles.

4. Garder tous les couvercles et dispositifs de sûreté à leur place.

Mar. ‘93

–5–

TABLE OF CONTENTS

Page

Safety Precautions .............................................................................................................2-4

Introductory Information .......................................................................................................6

Product Description..............................................................................................................7

Specifications.......................................................................................................................7

Installation .........................................................................................................................7-10

Safety Precautions ........................................................................................................7

Location .........................................................................................................................7

Electrical Installation......................................................................................................7

Input Voltage Setup.......................................................................................................8

Power Cord Connection ................................................................................................8

Connection of Wire Feeders to Invertec .....................................................................8-10

Output Cables & Plugs .................................................................................................10

Operating Instructions ......................................................................................................11-13

Safety Precautions .......................................................................................................11

Controls Description and Function.............................................................................11-13

Maintenance.....................................................................................................................13-14

Capacitor Discharge Procedure ...................................................................................13

Routine Maintenance....................................................................................................13

Periodic Maintenance ...................................................................................................14

Troubleshooting Guide .....................................................................................................14-20

Matched Parts.....................................................................................................................20

Switch P.C. Board Replacement Procedure .......................................................................20

Replacement of Power Modules and Output Diodes .......................................................20-21

Connection Diagrams.......................................................................................................22-31

Wiring Diagrams...............................................................................................................32-33

Parts Lists......................................................................................................................appendix

–6–

Thank You for selecting a QUALITY product by Lincoln Electric. We want you

to take pride in operating this Lincoln Electric Company product

••• as much pride as we have in bringing this product to you!

Read this Operators Manual completely before attempting to use this equipment. Save this manual and keep it

handy for quick reference. Pay particular attention to the safety instructions we have provided for your protection.

The level of seriousness to be applied to each is explained below:

WARNING

This statement appears where the information must be followed exactly to avoid serious personal injury or

loss of life.

This statement appears where the information must be followed to avoid minor personal injury or damage to

this equipment.

CAUTION

Please Examine Carton and Equipment For Damage Immediately

When this equipment is shipped, title passes to the purchaser upon receipt by the carrier. Consequently, Claims

for material damaged in shipment must be made by the purchaser against the transportation company at the

time the shipment is received.

Please record your equipment identification information below for future reference. This information can be

found on your machine nameplate.

Model Name & Number _____________________________________

Code & Serial Number _____________________________________

Date of Purchase _____________________________________

Whenever you request replacement parts for or information on this equipment always supply the information

you have recorded above.

PRODUCT DESCRIPTION

The Invertec V300-PRO is a 300 amp arc welding

power source that utilizes single or three phase input

power to produce either constant voltage or constant

current outputs. The V300-PRO is designed for 60 Hz

supply systems. The welding response of the Invertec

has been optimized for GMAW, SMAW, TIG and

FCAW processes. It is designed to be used with the

LN-25 and LN-7 semiautomatic wire feeders.

SPECIFICATIONS

–7–

INSTALLATION

ELECTRIC SHOCK can kill.

• Have an electrician install and service

this equipment.

• Turn the input power off at the fuse

box before working on equipment.

• Do not touch electrically hot parts.

---------------------------------------------------------------------

WARNING

LOCATION

The Invertec has been designed with many features to

protect it from harsh environments. Even so, it is

important that simple preventative measures are fol-

lowed in order to assure long life and reliable opera-

tion.

• The machine must be located where there is free

circulation of clean air such that air movement into

the sides and out the bottom and front will not be

restricted. Dirt and dust that can be drawn into the

machine should be kept to a minimum. Failure to

observe these precautions can result in excessive

operating temperatures and nuisance shutdown of

the Invertec.

• Keep machine dry. Shelter from rain and snow. Do

not place on wet ground or in puddles.

ELECTRICAL INSTALLATION

1. The Invertec should be connected only by a quali-

fied electrician. Installation should be made in

accordance with the U.S. National Electrical Code,

all local codes and the information detailed below.

2. Single voltage, 575 VAC machines, can only be

connected to 575 VAC. No internal reconnection

for other input voltages is possible.

3. Initial 208 VAC and 230 VAC operation will require

a voltage panel setup, as will later reconnection

back to 460 VAC:

a. Open the access panel on the right side of

the machine.

b. For 208 or 230: Position the large switch to

200-230.

For 460: Position the large switch to 380-460.

c. Move the “A” lead to the appropriate terminal.

Product Ordering Input AC Rated DC Output Input Amps at Rated DC Output Output Weight Dimensions

Name Information Voltage Amps/Volts/Duty Cycle 208 230 460 575 Range with Gun HxWxD

(continuous) (net)

208/230/460 300A / 32V / 60%(1) 48 43 24

3 Phase 250A / 30V / 100%(1) 37 33 19

60 Hz

300A / 35/39/41V /60%

(2)

49 48 28

18.7*x10.8x

Invertec K1349-3 22.2”

V300- 208/230/460 250A / 30V / 60%(1) 69 62 38 AMPS 64 lbs. (475x274x

PRO 1 Phase 160A / 28V / 100%(1) 53 47 29 5-350 (29 kg) 564 mm)

60 Hz

250A / 37/41/43V / 60%

(2) 75 67 42 * Includes

575 300A / 32V / 60%(1) 20 handle

K1349-4 3 Phase 250A / 30V / 100%(1) 16

60 Hz 300A / 36V / 60%(2) 22

(1 )NEMA Class I Rated Output / Based on a 10 min. Period .

(2 )Lincoln plus rating.

* Overall Height Including Handle, (16.4” (417mm without handle).

–– 8–

INPUT VOLTAGE SETUP

POWER CORD CONNECTION

A 10 ft. (3.0m) power cord is provided and wired into

the machine. Follow the power cord connection

instructions. Incorrect connection may result in equip-

ment damage.

Single Phase Input

1. Connect green lead to ground per U.S. National

Electrical Code.

2. Connect black and white leads to power.

3. Wrap red lead with tape to provide 600V insula-

tion.

Three Phase Input

1. Connect green lead to ground per U.S. National

Electrical Code.

2. Connect black, red and white leads to power.

Install in accordance with all local and national electric

codes.

CONNECTION OF WIRE FEEDERS TO THE

INVERTEC

(Note: IEC units do not have 110 VAC auxiliary

power).

LN-25 Connection Instructions

1. Turn the Invertec power switch “off”.

2. Connect the electrode cable to the output terminal

of polarity required by electrode. Connect the work

lead to the other terminal.

3. LN-25 with remote control options K431 and K432.

Use K876 adapter with K432 cable or modify K432

cable with K867 universal adapter plug. See con-

nection diagram S19899 and S19309 or S19405 at

the back of this manual.

4. Place the local-remote switch in the “remote” posi-

tion if output control is desired at the wire feeder

rather than the Invertec. (LN-25 must have K431

and K432 options for remote output control opera-

tion).

LN-7 Connection Instructions

1. Turn the Invertec power switch “off”.

2. Connect the K480 control cable from the LN-7 to

the Invertec control cable connector. The control

cable connector is located at the rear of the

Invertec.

3. Connect the electrode cable to the output terminal

of polarity required by electrode. Connect the work

lead to the other terminal.

4. Place the local-remote switch in the “local” posi-

tion to allow output control at the Invertec. (K864

Recommended Fuse Sizes Based On The U.S.

National Electrical Code And Maximum

Machine Outputs

Fuse Size in Amps

Input Volts(1) (Time Delay Fuses)

3 phase 208 60

50/60 Hz 230 60

460 40

1 phase 208(2) 85

50/60 Hz 230(2) 80

460 50

3 phase 575 30

60 Hz

(1) Input voltage must be within ±10% of rated value.

(2) When operating on these inputs, at outputs exceeding 200A/60%

or 165A/100%, the input line cord should be changed to an input

conductor of 6 AWG or larger.

THE LINCOLN ELECTRIC CO. CLEVELAND, OHIO U.S.A.

.

.

.

.

Do not touch electrically live parts.

Only qualified persons should install,

use or service this equipment.

RECONNECT PROCEDURE

REPLACE WITH A 3 AMP SLOW BLOW ONLY.

1. BE SURE POWER SWITCH IS OFF.

200-208V

220-230V

380-415V

440-460V

’A’

INPUT VOLTAGE RANGE.

removed.

Do not operate with wraparound

inspecting or servicing machine.

Disconnect input power before

IF MACHINE CEASES TO OPERATE (NO METER, NO FAN)

2. CONNECT LEAD ’A’ TO DESIRED

3. POSITION SWITCH TO DESIRED INPUT VOLTAGE RANGE.

S20324

AND THERE IS NO OTHER KNOWN FAILURE: CHECK FUSE;

VOLTAGE=380-460V VOLTAGE=200-230V

9-11-92

BLACK

GREEN

RED

WHITE

DO NOT ATTEMPT TO POWER THIS UNIT

FROM THE AUXILIARY POWER SUPPLY

OF AN ENGINE WELDER.

• Special protection circuits may operate, causing

loss of output.

• The supply from engine welders often has exces-

sive voltage peaks because the voltage waveform

is usually triangular shaped instead of sinusoidal.

• If voltage peaks from the engine welder exceed

380V, the input circuits of this machine protecting

the filter capacitors, FETS and other components

from damage will not be energized .

---------------------------------------------------------------------

CAUTION

–9–– 9–

remote control adapter and K857 remote control

are required for remote output control).

5. Set the meter polarity switch on the rear of the

Invertec to coincide with wire feeder polarity used.

The wire feeder will now display the welding volt-

age.

6. If K480 is not available, see connection diagram

S19404 for modification of K291 or K404 LN-7

input cable with K867 universal adapter plug.

General Instructions for Connection of Wire

Feeders to Invertec

Wire feeders other than LN-7 and LN-25 may be used

provided that the auxiliary power supply capacity of

the Invertec is not exceeded. K867 universal adapter

plug is required. See connection diagram S19406 and

S19386 at the back of this manual for more informa-

tion.

Remote Control of Invertec

Remote control K857, hand amptrol K963 and foot

amptrol K870 require K864 remote control adapter.

See 19309 instruction at the back of this manual for

connection information.

K954-1 MIG PULSER

The MIG Pulser is a hand-held “pendant” type GMAW

Pulsing option for the V300 Power Source. Refer to

the Mig Pulser’s IM manual (IM555) for connection

information.

Parallel Operation

The Invertec’s are operable in parallel in both CC and

CV modes. For best results, the currents of each

machine should be reasonably well shared. As an

example, with two machines set up in parallel for a

400 amp procedure, each machine should be set to

deliver approximately 200 amps, not 300 amps from

one and 100 amps from the other. This will minimize

nuisance shutdown conditions. In general, more than

two machines in parallel will not be effective due to

the voltage requirements of procedures in that power

range.

To set machine outputs, start with output control pots

and arc force/pinch pots in identical positions. If run-

ning in a CC mode, adjust outputs and arc forces to

maintain current sharing while establishing the proper

output current. In CV modes, the pots in identical

positions. Then switch the machine meters to amps

and adjust one of the output control pots for current

balance. Check the voltage and if readjustment is

necessary, repeat the current balancing step. Pinch

settings should also be kept identical on the

machines.

K900-1 DC TIG Starter Connection

This versatile new kit was made to mate with the

Invertec.

A control cable assembly is supplied with the kit to

connect the kit to an Invertec. The cable can be con-

nected, either end, at the DC TIG Starter kit and at

the Invertec by attaching to the 14-pin Amphenols on

the backs of each unit. Refer to diagram S20405 at

the back of this manual.

A negative output cable assembly is also supplied

with the DC TIG Starter kit to connect the kit with the

Invertec’s negative output terminal.

All Magnum™ one and two piece water-cooled torch-

es with 7/8 left-hand threads and gas-cooled torches

with 7/8 and 5/16 right-hand threads can be connect-

ed to the starter kit.

To secure the DC TIG Starter kit to the bottom of the

Invertec and for more detailed instructions, refer to

the K900-1 manual.

MAR97

LN-9 GMA Connection Instructions

1. Turn the Invertec power switch “off”.

2. Connect the K596 control cable assembly from the

LN-9 GMA to the Invertec control cable connector.

The control cable connector is located at the rear

of the Invertec.

3. Connect the electrode cable to the output terminal

of polarity required by electrode. Connect the work

lead to the other terminal.

4. Place the local-remote switch in the “remote” posi-

tion to allow output control at the LN-9 GMA.

5. Set the meter polarity switch on the rear of the

Invertec to coincide with wire feeder polarity used.

The wire feeder will now display the welding volt-

age.

6. K608-1 adapter is required in LN-9 GMA for LN-9

type control. K608-1 is installed in line with P10

connection at the LN-9 GMA voltage board. See

diagram S20607 at the back of this manual.

7. K442-1 Pulse Power Filter Board is also required

for GMAW, but should be disconnected for FCAW.

8. If K596 is not available, see connection diagram

S20608 at the back of this manual for modification

of K196 LN-9 GMA input cable with K867 universal

adapter plug.

Output Cables

Select the output cable size based upon the following

chart.

Cable sizes for Combined Length of Electrode and

Work Cable (Copper) 75° rated:

Duty Length Up 61-76m

Cycle Current 61m (200 ft.) (200-250 ft.)

100% 250 1/0 1/0

60% 300 1/0 2/0

Quick Disconnect Plugs

A quick disconnect system is used for the welding

cable connections. The welding plug included with the

machine is designed to accept a welding cable size of

1/0 to 2/0.

1. Remote 25mm (1 in.) of welding cable insulation.

–10 –

2. Slide rubber boot onto cable end. The boot end

may be trimmed to match the cable diameter.

Soap or other lubricant will help to slide the boot

over the cable.

3. Slide the copper tube into the brass plug.

4. Insert cable into copper tube.

5. Tighten set screw to collapse copper tube. Screw

must apply pressure against welding cable. The

top of the set screw will be well below the surface

of the brass plug after tightening.

6. Slide rubber boot over brass plug. The rubber

boot must be positioned to completely cover all

electrical surfaces after the plug is locked into the

receptacle.

25 mm

1 in.

WELDING CABLE

BOOT

TRIM

SET SCREW

BRASS PLUG

COPPER TUBE

–11 –

OPERATING INSTRUCTIONS

DUTY CYCLE

The Invertec is rated at 300 amps, 60% duty cycle for

3 phase inputs (based on a 10 minute cycle). It is also

rated at 250 amps, 100% duty cycle.

CONTROL FUNCTION / OPERATION

Power Switch - Place the lever in the “ON” position to

energize the machine. When the power is on, the digi-

tal meter will activate and the fan will operate.

ELECTRIC SHOCK can kill.

• Do not touch electrically live parts or

electrode with skin or wet clothing.

• Insulate yourself from work and

ground.

• Always wear dry insulating gloves.

------------------------------------------------------------------------

FUMES AND GASES can be danger-

ous.

• Keep your head out of fumes.

• Use ventilation or exhaust to remove

fumes from breathing zone.

------------------------------------------------------------------------

WELDING SPARKS can cause fire or

explosion.

• Keep flammable material away.

• Do not weld on closed containers.

------------------------------------------------------------------------

ARC RAYS can burn eyes and skin.

• Wear eye, ear and body

protection.

------------------------------------------------------------

See additional warning information at

front of this operator’s manual.

-----------------------------------------------------------

WARNING

Output Control - This controls the output voltage in

the CV modes and output current in the CC modes.

Control is provided over the entire output range of the

power source with 1 turn of the control knob. This con-

trol may be adjusted while under load to change

power source output.

Local/Remote Switch - Place in the “LOCAL” posi-

tion to allow output adjustment at the machine. Place

in the “REMOTE” position to allow output adjustment

at the wire feeder or with a remote control option

package.

Digital Meter Switch - Select either “A” for amps or

“V” for volts to display welding current or voltage on

the meter.

When welding current is not present, the meter will

display the set current for the CC modes or the set

voltage for the CV modes. This set reading is an indi-

cation of machine control setting. For a more precise

process reading, read meter during actual welding.

Mode Switch

GTAW Optimized for both scratch start and Hi-

Freq kit use.

CC SOFT Best for EXX18 thru EXX28 stick elec-

trodes.

CC Crisp Use this mode for stick welding with

EXX10 thru EXX14 electrodes. Non-

welding applications such as resistive

heating or output tests with resistive

loads should be done in this mode with

Arc Force Control set to minimum.

OFF

OUTPUT

REMOTE

–

CV FCAW This setting has been optimized for

Innershield®and Outershield®flux-cored

electrodes.

CV GMAW Short circuit, glob and spray transfer

solid wire and gas welding are done in

this mode. Low end procedures, less

than 17V, may operate better in the

FCAW mode. Voltage in the GMAW

mode can become erratic when

welding is attempted using voltages

equal to or less than 17V DC+.

Output Terminals Switch

For processes and equipment that require energized

machine terminals (stick, TIG, air-carbon arc cutting or

hot tip LN-25), set the Output Terminals Switch to

“ON” position.

Set to the REMOTE (OFF) position when using LN-25

with K431 and K432 options or LN-7 which will allow

the gun trigger to energize the welding terminals.

Arc Force / Inductance Control

This control functions in all modes except GTAW. For

CC modes, this control acts as an Arc Force adjust-

ment. The arc is soft at the minimum settings and

more forceful or driving at the maximum settings.

Higher spatter levels may be present at the maximum

settings.

For CV modes, this control will set the degree of

“pinch effect” which predominantly affects short circuit

transfer. In FCAW, the maximum setting is generally

preferred. With GMAW, the upper half of the range is

preferred with CO2or high content CO2mixed. The

lower half is for inert gas mixes.

–12 –

Recommended Arc Force / Inductance Settings

For Selected Applications

Full Range Is 1-10,

1 Is Very Soft, 10 Is Very Crisp

Nominal Recommended

Mode Process Setting Adjustment Range

CC SMAW 1 EXX18 thru 5 1 (gentle, may stick) to 9

EXX28 stick (forceful, more spatter)

CC SMAW 2 EXX10 thru 6 3 to 10

EXX14 stick

Air Carbon Arc 1 None

Cutting

CV FCAW Innershield or 10 None

Outershield

Air Carbon Arc 1 None

Cutting

CV GMAW* CO2or 25% CO27.5 5 to 10

or similar

gas mixes

98% Ar-2% O2Ar, 5 1 to 10

90% He-7.5% Ar

2.5% CO2and

other

predominantly

inert gases

* 1 = Lowest pinch, highest inductance and least spatter.

10 = Highest pinch, lowest inductance and most spatter.

GMAW

FCAW

SMAW

CRISP

SMAW

SOFT

GTAW

OUTPUT

TERMINALS

ON

REMOTE

–13 –

Meter Polarity Switch

The wire feeder polarity switch is located at the rear of

the machine. The switch provides a work connection

for wire feeder voltmeters. Place the switch in the

position of the electrode polarity indicated by the

decal. The switch does not change the welding

polarity.

Auxiliary Power

A 24 VAC @ 1 amp supply is included for use with the

LN-25 wire feeder (24 volts needed for K431 and

K432 options). This supply is protected by a self-

resetting current limiter.

A 42 VAC @ 5.5 amp supply is included for use with

other wire feeders. This supply is protected by a 6

amp breaker located on the rear of the machine.

A 110/115 VAC @ 2 amp supply is included for use

with the LN-7 or LN-9 GMA wire feeders. This supply

is protected by a 2.5 amp breaker located on the rear

of the machine. It is NOT available on IEC units.

All three supplies are not to be loaded simultaneously.

MAINTENANCE

Capacitor Discharge Procedure

1. Obtain a power resistor (25 ohms, 25 watts).

2. Hold resistor body with electrically insulated glove.

DO NOT TOUCH TERMINALS. Connect the resis-

tor terminals across the two hex head cap screws

in the position shown. Hold in each position for 1

second. For 575 VAC only, repeat for second

capacitor. Repeat for the capacitor(s) on the other

side of the machine

3. Use a DC voltmeter to check that voltage is not

present across either capacitor.

Routine Maintenance

1. Every 6 months or so the machine should be

cleaned with a low pressure airstream. Keeping

the machine clean will result in cooler operation

and higher reliability. Be sure to clean these areas:

• Power, switch, driver, protection and control printed

circuit boards.

• Power switch

• Main transformer

• Input rectifier (located in front of fan blade)

• Heat sink fins

2. Examine the sheet metal case for dents or breakage.

Repair the case as required. Keep the case in good con-

dition to insure that high voltage parts are protected and

correct spacings are maintained. All external sheet

metal screws must be in place to insure case strength

and electrical ground continuity.

CAPACITOR

TERMINALS

RESISTOR

T13086-84

ELECTRIC SHOCK can kill.

• Have an electrician install and service

this equipment.

• Turn the input power off at the fuse

box before working on equipment.

• Do not touch electrically hot parts.

---------------------------------------------------------------------

EXPLODING PARTS can cause

injury.

•

Failed parts can explode or cause other

parts to explode when power is applied.

•

Always wear a face shield and long sleeves when servicing.

----------------------------------------------------------------------------------

WARNING

–14 –

PERIODIC MAINTENANCE

Overload Protection

The machine is electrically protected from producing

high output currents. Should the output current

exceed 340-360A, an electronic protection circuit will

reduce the current to approximately 150A. The

machine will continue to produce this low current until

the protection circuit is reset. Reset occurs when the

output load is removed.

Thermal Protection

Thermostats protect the machine from excessive

operating temperatures. Excessive temperatures may

be caused by a lack of cooling air or operating the

machine beyond the duty cycle and output rating. If

excessive operating temperature should occur, the

thermostat will prevent output voltage or current. The

meter will remain energized during this time.

Thermostats are self-resetting once the machine cools

sufficiently. If the thermostat shutdown was caused by

excessive output or duty cycle and the fan is operating

normally, the Power Switch may be left on and the

reset should occur within a 15 minute period. If the fan

is not turning or the air intake louvers were obstructed,

then the power must be switched off for 15 minutes in

order to reset. The fan problem or air obstruction must

also be corrected.

Filter Capacitor Conditioning

A protection circuit is included to monitor the voltage

across filter capacitors C1 and C2 (also C14 and C15

on 575 VAC units). In the event that the capacitor volt-

age is too high, the protection circuit will prevent out-

put. The protection circuit may prevent output provid-

ing all these circumstances are met:

1. Machine is internally connected for 380 VAC, or

higher input voltage.

2. Machine did not have power applied for many

months.

3. Machine did not produce output when power was

first switched on.

If these circumstances apply, the proper action is to

switch the machine on and let it idle for up to 30 min-

utes. This is required to condition the filter capacitors

after an extended storage time. The protection circuit

will automatically reset once the capacitor conditioning

and resultant voltage levels are acceptable. It may be

necessary to turn the power switch off and back on

again after this period.

TROUBLESHOOTING

Visual Inspection

Clean interior of machine with a low pressure

airstream. Make a thorough inspection of all compo-

nents. Look for signs of overheating, broken leads or

other obvious problems. Many problems can be

uncovered with a good visual inspection.

Open Circuit Voltage

The open circuit voltage of the Invertec V300-PRO is

60 to 75 VDC and cannot be adjusted by the output

control.

Test Conditions

Perform all testing at the lowest input voltage avail-

able, except where a higher voltage is required by a

test step. Make ohmmeter checks only after power

has been disconnected from machine and after

capacitors have been discharged.

Certain high voltage connections have been insulated

with RTV sealant. It is necessary to break through the

sealant with a sharp probe in order to make voltage or

resistance checks.

Disconnect any control cables from remote control

receptacle.

ELECTRIC SHOCK can kill.

• Have an electrician install and service

this equipment.

• Turn the input power off at the fuse

box before working on equipment.

• Do not touch electrically hot parts.

---------------------------------------------------------------------

EXPLODING PARTS can cause

injury.

•

Failed parts can explode or cause other

parts to explode when power is applied.

•

Always wear a face shield and long sleeves when servicing.

----------------------------------------------------------------------------------

WARNING

–15 –

TROUBLESHOOTING GUIDE

Trouble What To Do

Not output but fan operates and meter is on.

Poor welding, weld settings drift, or output power is

low.

Main fuses open or Switch PC boards overheated.

Output turns on momentarily then switches off and

repeats. Machine is connected for 380 VAC or higher

input voltage.

OCV is normal (approx. 65-75V) but output power is

low (less than 20V and 100A). Machine makes

squealing noise while under load. Machine is connect-

ed for 230 VAC, or lower, input voltage.

Open circuit voltage is 1-2 volts.

Output control not functioning on remote control. Local

control OK.

Machine does not produce more than 250A output

when connected to 3 phase supply.

Machine does not produce more than 200 A output

while connected to 1 phase supply.

Machine operates OK at 230 VAC or lower. No output

at 380 VAC or higher.

Poor EXX10 stick electrode (5P) performance. Arc

“pops out”.

No output or reduced output the first time power is

applied to the machine.

Perform test steps 1A and 1B.

1. Check front panel wiring and controls.

2. Replace Control PC Board.

Perform test steps 4 and 5 for both Switch PC Boards

and 7.

Perform test steps 3B, 4 and 5.

Perform test steps 4 and 5 for both Switch PC Boards.

Perform test step 6.

1. Check remote control assembly.

2. Check S3, Local/Remote switch.

1. Replace main fuse if blown.

2. Replace Protection PC Board.

3. Replace Control PC Board.

4. Perform test step 7.

Normal operation.

Perform test step 2.

Check D6 and D12, L1 and L2.

Check reconnect panel - connections and fuse.

If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-

tact your local Authorized Field Service Facility for technical troubleshooting assistance before you proceed.

CAUTION

–– 16 –

TEST PROCEDURES

Step

1A

1B

2

3A

3B

Next

Test

Step

1B

2

3A

3B

4

and

5

Test

Output pilot circuit

(set S4 on)

Protection PC

board output (set

S4 on)

Static capacitor

balance (set S4

off)

380 VAC input

and higher test

Dynamic capaci-

tor balance (set

S4 on)

380 VAC input

and higher test

Repair Action

Replace Power

and Control PC

Boards

Replace

Protection PC

Board

Check

223A to 210

302 (pos) to 275D (neg)

313 (neg) to 311 (pos)

Compare voltage across

terminals 9 & 12 of each

Switch PC Board.

575 VAC -- 407 VDC

460 VAC -- 325 VDC

440 VAC -- 311 VDC

415 VAC -- 293 VDC

380 VAC -- 269 VDC

575 VAC only - compare

voltage across 9A & 13

and 13 & 12A; then, 9B &

15 and 15 & 12B

Connect as in step 3A.

Same voltages as above.

Test

Result

24 VAC

0 VAC

15 VDC

0 VDC

<1 VDC

>5 VDC

<25 VDC

difference

between

readings

>25 VDC

difference

<25 VDC

>25 VDC

Conclusion

Fan thermostat, choke

thermostat, T1 trans-

former and S4 all OK.

Check above compo-

nents.

T1 and 15V power sup-

ply OK.

Check T1 and Power PC

Board.

Protection PC Board OK

C1, C2, R1, R9 - OK

(575 VAC machine C14,

C15 - OK)

Check above compo-

nents.

OK

Power PC Board or

Switch PC Boards are

damaged.

If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-

tact your local Authorized Field Service Facility for technical troubleshooting assistance before you proceed.

CAUTION

–17 –

Step

4

Next

Test

Step

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

cont

5

Test

Switch PC Board

resistance test.

No dynamic test

is possible.

Remove leads

401/403, 1/8, 9,

12, 4/5 and

402/404.

Repair Action

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Replace Switch PC Board

Check

Terminals on Switch

PC Board:

1/8 (pos) to

12 (neg)

1/8 (neg) to

12 (pos)

9 (pos) to

4/5 (neg)

9 (neg) to

4/5 (pos)

1/8 (pos) to

9 (neg)

1/8 (neg) to

9 (pos)

12 (pos) to

4/5 (neg)

12 (neg) to

4/5 (pos)

12 (pos) to

401/403 (neg)

12 (neg) to

401/403 (pos)

9 (pos) to

402/404 (neg)

9 (neg) to

402/404 (pos)

Test

Result

>1K ohms

<100 ohms

<100 ohms

>1K ohms

>1K ohms

<100 ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

>1K ohms

<100 ohms

<100 ohms

>1K ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

>1K ohms

<100 ohms

Conclusion

OK

Short

OK

Open

OK

Short

OK

Open

OK

Open

OK

Short

OK

Open

OK

Short

OK

Short

OK

Open

OK

Open

OK

Short

If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-

tact your local Authorized Field Service Facility for technical troubleshooting assistance before you proceed.

CAUTION

–18 –

Step

5

6

Next

Test

Step

cont

cont

cont

cont

Test

Snubber

Resistors

Disconnect leads

401, 402, 403 and

404 from Switch

PC Board

Output diodes

Remove output

load

Repair Action

Replace R4

Replace R5

Replace R6

Replace R7

Test individually

Check

Lead 401 to terminal

12

Lead 402 to terminal

9

Lead 403 to terminal

12

Lead 404 to terminal

9

+ output plug (pos)

to

- output plug (neg)

Test

Result

25 ohms

>30 ohms

<20 ohms

25 ohms

>30 ohms

<20 ohms

25 ohms

>30 ohms

<20 ohms

25 ohms

>30 ohms

<20 ohms

<100 ohms

>200 ohms

Conclusion

OK

R4 open

R4 shorted

OK

R5 open

R5 shorted

OK

R6 open

R6 shorted

OK

R7 open

R7 shorted

Shorted output

diode D1 thru

D12

Output diodes OK

If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-

tact your local Authorized Field Service Facility for technical troubleshooting assistance before you proceed.

CAUTION

Repair Action

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Replace D13, inspect S1,

test C1 and C2

Check

9 (pos) to H1 (neg)

9 (pos) to A (neg)

9 (pos) to H5 (neg)

12 (neg) to H1 (pos)

12 (neg) to A (pos)

12 (neg) to H5 (pos)

9 (neg) to H1 (pos)

9 (neg) to A (pos)

9 (neg) to H5 (pos)

12 (pos) to H1 (neg)

12 (pos) to A (neg)

12 ( pos) to H5 (neg)

Conclusion

OK

Shorted

OK

Shorted

OK

Shorted

OK

Shorted

OK

Shorted

OK

Shorted

OK

Open

OK

Open

OK

Open

OK

Open

OK

Open

OK

Open

–19 –

Step

7

Next

Test

Step

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

cont

4-5

Test

D13 Input

Rectifier

Test

Result

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

<100 ohms

>1K ohms

–

Matched Parts

Certain parts must be replaced in matched sets.

Matched sets are required in the following areas:

Output diodes: D1, D2, D3, D4 and D5

Output diodes: D7, D8, D9, D10 and D11

Capacitor bleeder resistors: R1 and D9

Capacitors: C1 and C2

Capacitors: C1, C2, C14 and C15 (575 VAC only)

Switch PC Board Repairs

If a test indicates that a Switch PC Board is defective,

both Switch PC Boards must be replaced.

Replacement boards must have completely identical

part numbers. A defective module is likely to damage

other devices in the power circuitry. The defect may

be subtle and not detectable by an ohmmeter mea-

surement. Unknown defective parts may cause newly

replaced parts to fail.

In addition to replacing the Switch PC Boards, replace

C1 and C2 (also C14 and C15 of the 575 VAC V300-

PRO) if the following conditions are met:

1. Machine was operating from 380 VAC or higher

supply when failure occurred.

2. Switch PC Boards have burned areas.

Switch PC Board Replacement Procedure

1. Carefully disconnect the leads at the top of the

Switch PC Board.

2. Remove the four socket head cap screws with a

3/16” hex key wrench.

3. While holding the Switch PC Board, remove the

hex head cap screws from the center area of the

board.

4. Remove the board.

–20 –

5. Thoroughly clean the heat sink surface.

6. Apply a thin layer (ideally .005-.010”) of Dow 340

Heat Sink Compound to the module mounting sur-

faces of the new Switch PC Board and a thinner

layer (.002”) to the capacitor terminals. Keep the

heat sink compound away from the screw threads

since this compound will affect the torque specifi-

cations.

7. Carefully place the Switch PC Board onto the heat

sink. Be sure the mounting holes are lined up

before making full contact with the heat sink.

8. Caution: The heat sink and the capacitor terminals

are relatively soft material and it is very easy to

cross-thread the mounting screws. Holding the

Switch PC Board, install the 4 socket head cap

screws, finger tight only. Then install the hex head

cap screws into the capacitor, finger tight only.

9. Torque the 4 socket head cap screws to 44 inch-

lbs force (5 N - m). Then torque the capacitor hex

head cap screws to 55 inch-lbs force (6 N - m).

10. Reconnect all the leads to the board.

Before applying input power to the machine, check all

electrical connections. An incorrect connection will result

in machine damage when the power is switched on.

Test After Repair

1. Short terminals 14 and 53 of the Protection PC

Board. Connect an ohmmeter, set for X1000

range, to terminals 9 (+) and 12 (-) of the Switch

PC Board. The meter will show the capacitors

charging up. The meter may take a minute or so to

stabilize. The value must not exceed 8600 ohms.

Test both boards. For 575V only units - measure

across each power capacitor, 2 per switch board;

All four readings should be approximately 5,000

ohms.

2. If OK, remove the short and proceed with the

power test.

3. Fuse input supply with 5 amp fuses.

4. Check output open circuit voltages. Do not apply

output load.

5. Connect machine for 460 (V300-PRO), or 575

(V300-PRO, 575V), or 380, 415 or 440 (V300-I)

VAC input.

6. Check output open circuit voltages. Do not apply

output load.

7. Fuse for 20 amps and test under load.

ELECTRIC SHOCK can kill.

• Have an electrician install and service

this equipment.

• Turn the input power off at the fuse

box before working on equipment.

• Do not touch electrically hot parts.

---------------------------------------------------------------------

EXPLODING PARTS can cause

injury.

•

Failed parts can explode or cause other

parts to explode when power is applied.

•

Always wear a face shield and long sleeves when servicing.

----------------------------------------------------------------------------------

WARNING

–21 –

Replacement of Power Modules and Output

Diodes

Input rectifier, D13, is a power module. When mount-

ing power modules, the heat sink and module mount-

ing surface should be clean and free of burrs and for-

eign material. Apply heatsink compound (Dow 340) as

a uniform layer ideally .010” thick, to eliminate all air

pockets. This may be verified by mounting and then

removing the module. When removed, the compound

on both surfaces will appear textured as if a vacuum

had created veinlike ridges when the parts were sepa-

rated. If the compound does not have this appear-

ance, apply more heatsink compound and recheck.

Replacement of output diodes D1 thru D12 is similar.

Clean and brighten mounting surface with fine steel

wool. Compound should be used on surface between

diode and heat sink when mounting individual diodes.

The compound should be applied to the heat sink in a

very thin layer, less than 0.001 in. DO NOT apply on

diode stud and mounting nut threads.

Components must have proper torque applied to

mounting screws and to electrical terminals. Torque

the modules according to the following:

Component to Heat Sink Terminal

Component Torque ±10% Torque ±10%

Switch Board

Module 44 Inch - Lbs.(1) N.A.

(5N - m)

Capacitor N.A. 55 Inch - Lbs.

(6.3 N - m)

Input Rectifier 6 Inch - Lbs.(2) 26 Inch - Lbs.

(M15454-1) (0.7 N - m) 3 (N - m)

Output Diode 25 Inch - Lbs. N.A.

(M15482-2) (3 N - m)

(1) Retorque after 3 hours to allow for spread of compound.

(2) Tighten in staggered fashion one quarter turn at a time.

Environment Protection

High voltage connections are covered with an RTV

sealant to prevent malfunction in severe environ-

ments. Sealant must be applied to connections which

have been opened or otherwise lost their protection. A

noncorrosive electronic grade sealant such as Dow

Corning 3140, 3145, 738, Columbus Adhesives 0172

or GE RTV-162 is recommended. Sealant may also

be purchased from Lincoln Electric (order E2519

Silicone Rubber RTV Coating). Apply sealant after

machine is repaired and tested.

High voltage areas which require sealant are as listed:

- Input rectifier D13, all 5 terminals.

Printed Circuit Board Replacement

1. Handle PC Boards by edges only.

2. Store PC Boards only in the bags that disperse

static charges.

3. Inspect PC Board for burned conductors or com-

ponents. If damage is visible, inspect the machine

wiring for grounds or shorts to avoid damaging a

new PC Board.

4. If there is no visible damage to the PC Board,

install a new PC Board and see if the problem is

fixed. If the problem is fixed by the new board,

reinstall the old board and see if the problem reoc-

curs. If the problem does not reoccur, check the

wiring harness and plugs for loose connections.

–22 –

TURN THE POWER SWITCH OF THE WELDING POWER

SOURCE "OFF" BEFORE INSTALLING PLUGS ON CABLES

OR WHEN CONNECTING OR DISCONNECTING PLUGS TO

WELDING POWER SOURCE.

STRAIGHT PLUG (14 PIN)

TO POWER SOURCE CABLE RECEPTACLE (6 SOCKET)

CABLE RECEPTACLE (14 SOCKET)

TO: 1) LN-7 WIRE FEEDERS

TO: 1) K857 REMOTE CONTROL

2) K963 HAND AMPTROL

3) K870 FOOT AMPTROL

K864

STRAIGHT PLUG (14 PIN)

TO POWER SOURCE

K876 CABLE RECEPTACLE (6 SOCKET)

TO: 1) LN-25 WIRE FEEDERS

S19309

4-19-96D

REMOTE CONTROL ADAPTERS

–23 –

INSTALLATION INSTRUCTIONS

THIS CONNECTOR IS MEANT TO BE USED WITH LINCOLN POWER SOURCES WHICH HAVE A 14-PIN

TO ANY OF THE 14 CIRCUITS PRESENT IN THE WIRE FEEDER RECEPTACLE.

WIRE FEEDER RECEPTACLE. IT IS DESIGNED TO ALLOW THE USER TO MAKE CONNECTIONS

CONSULT THE WIRING DIAGRAM OF THE POWER SOURCE AND WIRE FEEDER THIS ADAPTER WILL BE USED WITH.

2. CONSULT THE APPROPRIATE EQUIPMENT WIRING DIAGRAMS FOR THE CONNECTIONS TO UNIVERSAL ADAPTER.

THE STANDARD CONNECTOR PIN DESIGNATIONS AND FUNCTIONS ARE SHOWN BELOW.

MAY OR MAY NOT BE ISOLATED, INDEPENDENT CIRCUITS INSIDE THE WELDER.

3. USE LUG, CRIMP SPLICE OR SOLDER CONNECTIONS AS REQUIRED AND INSULATE EACH USED AND UNUSED LEAD

14-PIN BOX RECEPTACLE, FRONT VIEW

AND 14-PIN CABLE PLUG, REAR VIEW

14-PIN BOX RECEPTACLE, REAR VIEW

AND 14-PIN CABLE PLUG, FRONT VIEW

K=42

A=32

B=GND

C=2

L=82

D=4

E=77

M=81

F=76

G=75

N=SPARE

H=21

I=41

J=31

K=42

J=31

I=41

H=21

N=SPARE

G=75

F=76

M=81

E=77

D=4

C=2

L=82

B=GND

A=32

PIN

SPARE

WELDING MODE CONTROL

A

B

C

D

E

F

G

H

I

J

K

L

M

N

81

82

42

31

41

21

75

76

77

4

2

GND

32

LEAD

WELDING MODE CONTROL

STANDARD FUNCTION

24V AC

42V AC

115V AC

42V AC

WORK

OUTPUT CONTROL

OUTPUT CONTROL

OUTPUT CONTROL

TRIGGER CIRCUIT

TRIGGER CIRCUIT

CHASSIS CONNECTION

115V AC

NOTE: 115V AC (31, 32), 42V AC (41, 42), 24V AC (SPARE) AND TRIGGER CIRCUIT (2, 4)

1. TURN THE POWER SWITCH OF THE WELDING POWER SOURCE OFF BEFORE INSTALLING

THIS ADAPTER TO WIRE FEEDER CABLE.

(SEE APPROPRIATE WIRING DIAGRAM)

THESE FUNCTIONS ARE LISTED FOR

REFERENCE ONLY AND EACH MAY OR

MAY NOT BE PRESENT IN YOUR EQUIPMENT.

NOT ALL CIRCUITS ARE PRESENT IN EVERY POWER SOURCE, NOR ARE THEY REQUIRED FOR PROPER WIRE FEEDER OPERATION.

IN THE UNIVERSAL ADAPTER. THE INSULATING METHOD MUST BE RATED FOR 120V AC OR GREATER.

S19386

3-16-90

K867 UNIVERSAL ADAPTER FOR 14-PIN WIRE FEEDER RECEPTACLE

–24 –

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

ELECTRODE CABLE

TO LN-7

TO

WORK

-

+

14 PIN

AMPHENOL

SPARE

82

81

42

41

31

32

2

4

21

GND

75

76

77

31

32

2

4

21

GND

N.C.

K291 OR K404

INPUT CABLE

K775 OPTIONAL

REMOTE CONTROL

K867 UNIVERSAL

ADAPTER PLUG

LN-7

CONTROL

BOX

75

76

77

GREEN

N.D.

N.D. SPLICE LEADS AND INSULATE.

POWER SOURCE

AUXILIARY POWER

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

INVERTEC

WITH 115VAC

S19404

K867 PLUG TO LN-7 - CONNECTION DIAGRAM

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

ELECTRODE CABLE

TO LN-7

TO

WORK

-

+

14 PIN

AMPHENOL

SPARE

82

81

42

41

31

32

2

4

21

GND

75

76

77

31

32

2

4

21

GND

N.C.

K291 OR K404

INPUT CABLE

K775 OPTIONAL

REMOTE CONTROL

K867 UNIVERSAL

ADAPTER PLUG

LN-7

CONTROL

BOX

75

76

77

GREEN

N.D.

N.D. SPLICE LEADS AND INSULATE.

POWER SOURCE

AUXILIARY POWER

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

INVERTEC

WITH 115VAC

S19404

12-10-93A

K867 PLUG TO LN-7 - CONNECTION DIAGRAM

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

ELECTRODE CABLE

TO LN-7

TO

WORK

-

+

14 PIN

AMPHENOL

SPARE

82

81

42

41

31

32

2

4

21

GND

75

76

77

31

32

2

4

21

GND

N.C.

K291 OR K404

INPUT CABLE

K775 OPTIONAL

REMOTE CONTROL

K867 UNIVERSAL

ADAPTER PLUG

LN-7

CONTROL

BOX

75

76

77

GREEN

N.D.

N.D. SPLICE LEADS AND INSULATE.

POWER SOURCE

AUXILIARY POWER

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

INVERTEC

WITH 115VAC

S19404

K867 PLUG TO LN-7 - CONNECTION DIAGRAM

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

ELECTRODE CABLE

TO LN-7

TO

WORK

-

+

14 PIN

AMPHENOL

SPARE

82

81

42

41

31

32

2

4

21

GND

75

76

77

31

32

2

4

21

GND

N.C.

K291 OR K404

INPUT CABLE

K775 OPTIONAL

REMOTE CONTROL

K867 UNIVERSAL

ADAPTER PLUG

LN-7

CONTROL

BOX

75

76

77

GREEN

N.D.

N.D. SPLICE LEADS AND INSULATE.

POWER SOURCE

AUXILIARY POWER

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

INVERTEC

WITH 115VAC

S19404

12-10-93A

K867 PLUG TO LN-7 - CONNECTION DIAGRAM

–25 –

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

TO

WORK

-

+

14 PIN

AMPHENOL

N.C.

ELECTRODE CABLE

TO LN-25

K867 ADAPTER

LN-25 WITH

K431 OPTION

K432 REMOTE

CONTROL CABLE

E

F

D

A

B

C77

76

75

SPARE

4

2

21

82

81

42

41

GND

31

32

N.D.

N.D. REMOVE 6 PIN PLUG FROM K432 CABLE IN ORDER TO CONNECT K867 PLUG.

LABEL EACH LEAD (A THRU F) AS THEY ARE REMOVED FROM 6 PIN PLUG.

N.E.

N.E. SPLICE LEADS AND INSULATE.

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

INVERTEC

POWER SOURCE

S19405

1-25-91

K867 PLUG TO LN-25 - CONNECTION DIAGRAM

–26 –

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

TO

WORK

-

+

14 PIN

AMPHENOL

N.C.

76

82

K867 UNIVERSAL

ADAPTER PLUG

81

SPARE

2

4

41

42

31

32

GND

21

77

75

REMOTE OUTPUT CONTROL

NOT USED ON INVERTEC

24 VAC / 1 AMP

CONNECT TOGETHER FOR

WELDING OUTPUT

42 VAC / 5.5 AMP

115 VAC / 2 AMP

INVERTEC FRAME CONNECTION

N.D.

N.D. FOR WIRE FEEDERS THAT RETURN A SIGNAL FOR WELDING OUTPUT, USE ISOLATION

RELAY TO CLOSE LEADS 2 & 4. 2

4

TO

K867

ELECTRODE CABLE

WIRE FEEDER VOLTMETER CONNECTION

CONNECTS TO (WORK TERMINAL) OF INVERTEC

TO

WIRE FEEDER

10K

MIN.

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

INVERTEC

POWER SOURCE

WITH 115VAC

AUXILIARY POWER

S19406

12-10-93A

K867 UNIVERSAL ADAPTER / INVERTEC - CONNECTION DIAGRAM

–27 –

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

TO

WORK

-

+

14 PIN

AMPHENOL

ELECTRODE CABLE

TO LN-25

LN-25 WITH

K431 OPTION

K432 REMOTE

CONTROL CABLE

6 PIN

AMPHENOL

N.C. FOR INVERTECS WITH 6 PIN AMPHENOL, K432 CABLE CAN BE CONNECTED DIRECTLY.

K876 ADAPTER

INVERTEC

POWER SOURCE

S19899

1-25-91

K876 ADAPTER TO LN-25 - CONNECTION DIAGRAM

–28 –

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF",

REVERSE ELECTRODE AND WORK CABLE AT POWER SOURCE.

ELECTRODE CABLE

TO LN-7

TO

WORK

-

+

14 PIN

AMPHENOL

LN-7

CONTROL

BOX

POWER SOURCE

INVERTEC

K864

K480-7 INPUT CABLE

14 PIN

AMPHENOL

K857

REMOTE CONTROL

K963

HAND AMPTROL

K870

FOOT AMPTROL

N.C. K480-7 INPUT CABLE CAN BE CONNECTED DIRECTLY IF REMOTE CONTROL IS NOT REQUIRED.

6 PIN

AMPHENOL

ADAPTER

OR

OR

N.D. K864 ADAPTER CANNOT BE USED WITH AN LN-25.

WITH 115VAC

AUXILIARY POWER

S19901

4-19-96D

K864 ADAPTER TO LN-7 & REMOTE CONTROL - CONNECTION DIAGRAM

–29 –

TO

WORK

+

POWER SOURCE

INVERTEC

DC TIG STARTER

-

WARNING

ELECTRIC

SHOCK

CAN KILL

Only qualified persons should install, use or service this machine.

Turn off input power to the Welding Power Source using the

disconnect switch at the fuse box before connecting the DC Tig

IN

OUT

K900-1

TO TIG

TORCH

K963

HAND AMPTROL

K870

FOOT AMPTROL

OR

K814

OR

ARC START SWITCH

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

AUXILIARY POWER

WITH 5.5 AMP 42 VOLT

Starter to the power source, or the Amptrol or Wire Feeder

to the DC Tig Starter.

TOP 14 PIN

AMPHENOL

WIRE FEEDER

N.B. A WIRE FEEDER CAN BE PLUGGED INTO THE DC TIG STARTER TO REDUCE PROCESS CONVERSION TIME.

N.C.

N.B.

BOTTOM 14 PIN

AMPHENOL

CONSULT INVERTEC INSTRUCTION MANUAL FOR

APPROPRIATE WIRE FEEDERS AMD CONNECTORS.

N.C. SET UP SHOWN IS FOR DC NEGATIVE TIG WELDING. DC POSITIVE WELDING IS OBTAINED BY REVERSING

THE OUTPUT CONNECTIONS ON THE INVERTEC AND SETTING THE INVERTEC’S ELECTRODE POLARITY

SWITCH TO POSITIVE.

4-19-96D

S20405

K900-1 DC TIG STARTER - CONNECTION DIAGRAM

–30 –

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

TO

WORK

-

+

14 PIN

AMPHENOL

ELECTRODE CABLE

TO LN-9 GMA

K596 REMOTE

CONTROL CABLE

ASSEMBLY

INVERTEC

POWER SOURCE

WITH 110/115V AUX.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF", REVERSE

ELECTRODE AND WORK CABLE AT POWER SOURCE. SET METER POLARITY SWITCH ON REAR

OF INVERTEC TO COINCIDE WITH POLARITY USED. SET LN-9 GMA POLARITY SWITCH ALSO.

N.D. FOR GMAW WELDING, INSTALL PULSE POWER FILTER KIT K442-1 IN LN-9 GMA.

N.C. INSTALL K608-1 ADAPTER IN LINE WITH P10 TO LN-9 GMA VOLTAGE BOARD

PER INSTRUCTIONS IN V300 MANUAL.

LN-9 GMA WITH

K608-1 AND

K442-1 KITS.

S20607

P10’,J10

2

3

4

5

6

7

10

11

12

P10,J10’

2

3

4

5

6

11

12

7

3.9K

K608-1

CONNECTION

DETAIL

530A

521

500

500

524

C

B

533

9-29-95C

LN-9 GMA WITH K596 CABLE TO INVERTEC - CONNECTION DIAGRAM

–31 –

N.C. INSULATE EACH UNUSED LEAD INDIVIDUALLY.

TO

WORK

-

+

14 PIN

AMPHENOL

SPARE

82

81

42

41

31

32

2

4

21

GND

75

76

77

31

32

2

4

21

GND

N.C.

K867 UNIVERSAL

ADAPTER PLUG

N.D.

N.D. SPLICE LEADS AND INSULATE.

Only qualified persons should install, use or

service this machine.

using the disconnect switch at the fuse box

WARNING

Turn off input power to the Welding Power Source

Before connecting the wire feeder.

ELECTRIC

SHOCK

CAN KILL

N.A. WELDING CABLE MUST BE SIZED FOR CURRENT AND DUTY CYCLE OF APPLICATION.

N.B. DIAGRAM SHOWS ELECTRODE POSITIVE. TO CHANGE POLARITY, TURN POWER "OFF", REVERSE

ELECTRODE AND WORK CABLE AT POWER SOURCE. SET METER POLARITY SWITCH ON REAR

OF INVERTEC TO COINCIDE WITH POLARITY USED. SET LN-9 GMA POLARITY SWITCH ALSO.

N.F. FOR GMAW WELDING, INSTALL PULSE POWER FILTER KIT K442-1 IN LN-9 GMA.

A

K196

INPUT CABLE

ELECTRODE CABLE

TO LN-9 GMA

INVERTEC

POWER SOURCE

WITH 110/115V AUX.

LN-9 GMA WITH

K608-1 AND

K442-1 KITS.

N.E. INSTALL K608-1 ADAPTER IN LINE WITH P10 TO LN-9 GMA VOLTAGE BOARD AND SECURE TO

ADJACENT HARNESS WITH WIRE TIE PROVIDED. TURN "START" TRIMMER ON VOLTAGE BOARD FULLY ’CCW’.

S20608

P10’,J10

2

3

4

5

6

7

10

11

12

P10,J10’

2

3

4

5

6

11

12

7

3.9K

K608-1

CONNECTION

DETAIL

530A

521

500

500

524

C

B

533

C

B

9-11-92

LN-9 GMA WITH K196 CABLE AND K867 PLUG TO INVERTEC - CONNECTION DIAGRAM

–32 –

CONTROL

CONTROL PANEL

ARC FORCE/INDUCTANCE

2

2W

R11

227

/INDUCTANCE

CONTROL

TERMINAL

CHOKE

10K

215

227

4

303

301

CW (MAX)

METER

TOP

S2

C5

L3

R8

D2

SHUNT

1

211A

3

8

1

BOARD

9

CONNECTOR CAVITY NUMBERING SEQUENCE

OUTPUT TERMINAL

S4

R = RED

2

4

3

J2

J1

1

301

4

TP4

4

5

W

L4

9D

12B

12D

9C

1

5

R5

R12

275C

204B

6

5

206

3

215

A

V

LAYOUT

N.A.

NOTES:

B = BLACK

G = GREEN

W = WHITE

Y = YELLOW

FOR SINGLE PHASE INPUT: GROUND MACHINE PER NATIONAL AND LOCAL ELECTRICAL CODES.

FOR THREE PHASE INPUT: GROUND MACHINE PER NATIONAL AND LOCAL ELECTRICAL CODES.

CONNECT TERMINALS U, V & W TO SUPPLY CIRCUIT.

N.B. SINCE COMPONENTS OR CIRCUITRY OF A PRINTED CIRCUIT BOARD MAY CHANGE WITHOUT AFFECTING

THE INTERCHANGEABILITY OF A COMPLETE BOARD, THIS DIAGRAM MAY NOT SHOW THE EXACT

COMPONENTS OR CIRCUITRY HAVING A COMMON CODE NUMBER.

N.C. WIRE FEEDERS REQUIRING 24VAC, USE PINS "N" & "I".

N.D. PLACE "A" LEAD ON APPROPRIATE CONNECTION FOR INPUT VOLTAGE.

CONNECTION SHOWN IS FOR 440-460V OPERATION.

N.F. R1, R9 BLEEDER RESISTORS ARE A MATCHED SET.

N.G. C1, C2 CAPACITORS ARE A MATCHED SET.

N.H. PLACE SWITCH IN APPROPRIATE POSITION FOR INPUT VOLTAGE.

RECEPTACLE

CONTROL

SWITCH

REMOTE

POLARITY

285 WELDING

WIRE FEEDER

N

AUXILIARY

SPARE

-

T1

GND

CW (MAX)

275F

275D

303

302

304

J7

504

2

212A

J3

229

317

13

8

7

1

N.G.

N.F.

14

14 R7

52

BOARD

2200 F

214

3

J15

U

H1

82

SWITCH

METER FUNCTION

S5

S2

OUTPUT CONTROL

R11

INDICATOR

OVERLOAD

THERMAL

SWITCH

OUTPUT

REMOTE

223B

I

G

MIN

9A

9A

BOARD

52

1

311

V

W

6

H5

A

B

TP3

76

F -

FEEDER

12D 12D

12C

9B

51

N.H.

0V 2

503

4

150 5W

H1

N.C.

WIRE

COLOR CODE:

MODE SWITCH MODE SWITCH

OUTPUT

CONTROL

503A

Y

306

75

5

3

2

212B

42A

42

J13

W

212D

F

1

INSIDE

S

BOTTOM

THERMAL

F

229

11

12B

213

208

77A

S

R4

J3

C1

+

25

208V

8

5

203

D3 76

SWITCH

MODE

211A

S

220

J4

Y

AUX

77A

226

Y

R

CONTROL

BOARD

12C

12B

52

3

G

41

J5, J16

D

2

W

ON

4

A

316

4,5

D +

25W

-

12A

RIGHT

9D

212D

5

4

6

3

2

4

PANEL

226

CV GMAW

2

3

TP6

5

25W

1

400A

BOTTOM

401, 403

TOP

450V

25W

(RIGHT)

2200 F

25

BOARD

H1

25W

1

200-

5

H2

302

4,5

6

2

N.G. 9B

275D

42

24V

2

211B

H4

6

4

501

H3

L

AUX

TOP

1

1,8

212A

W

14

4

R

W

R

315 53

12

12A

5

317

2

3

TRIGGER

F

8

7

305

304

SWITCH

212B

10

H1

CC CRISP

CC SOFT

LOCAL

275B

OVERLOAD

502

TP5

250

BOTTOM

401, 403

6

H6

440-

A

42A

+

R

214

12D

R

SWITCH

H2

H3

220-

H3

309

212J

31

3

S

N.D.

FAN

311

229

THERMOSTAT

H5

6

ARC FORCE

6

11

S4

5

4

ON

223A

MOTOR

Y

206

110V

275A

E

2

S

3

C6

R12

INDICATOR

(V300-I ONLY)

(V300-I ONLY)

LOCAL/REMOTE

REMOTE

SWITCH

FUNCTION

METER

S5

R

7

2

212C

3

224

J6

J1, J7

2. FOR MACHINES NOT SUPPLIED WITH INPUT CABLE (V300-I)

CONNECT TERMINALS U & W TO SUPPLY CIRCUIT.

CONNECT BLACK, RED & WHITE LEADS TO SUPPLY CIRCUIT.

(VIEWED FROM COMPONENT SIDE OF BOARD)

WRAP RED LEAD WITH TAPE TO PROVIDE 600V. INSULATION.

2W

208

1

1

1

6

7

5

4

2

8

7

8

1,8

-

F

R9

504

7500

F

402, 404

I

CURRENT

CHOKE

+

207

204C

204B

228

3

275A

228

502

276

77B

2

1

4

218

SWITCH

S3

LOCAL/REMOTE

308

INPUT

S1

RECTIFIER

9D

9C

D13

9A

R6

450V

8

2

4

POWER

CB2

32A

212

CB1

6AMP

REMOTE

460V

S6

BLOW

SLOW

T3

229

D1A

(LEFT)

L10189

6

OFF

307

CC GTAW

TP1

C

CV FCAW

R12

6

BOTTOM

OUTSIDE

3 AMP

A

L5

R11

12

TOP

207

INSIDE

9

204A

J5

F

I

S

9

4

310

5

501

J16

13

276

RECONNECT

9D

9B

TRANSFORMER

12A

VAC

32

310

309

310

203

275C

75

OUTPUT

76F

77

3

313

316

H1

314

315

9B

W

12A

9

W

12A

TP2

SWITCH

9B

12

A

42V

230V

FAN

H4

75

380-

415V

77B

TRANSFORMER

32

A

42

110/115

212212

212C

H

B

21

L2

4

MAIN

34

53

53

S3

1

J10

12

7

210

J6

308

J12

210

14

DRIVER

1. FOR MACHINES SUPPLIED WITH INPUT CABLE (V300-PRO)

FOR SINGLE PHASE INPUT: CONNECT GREEN LEAD TO GROUND PER NATIONAL ELECTRIC CODE.

CONNECT BLACK & WHITE LEADS TO SUPPLY CIRCUIT.

FOR THREE PHASE INPUT: CONNECT GREEN LEAD TO GROUND PER NATIONAL ELECTRIC CODE.

CONNECTION SHOWN IS FOR 380-460V OPERATION.

1

4

5

2

6

3

J11

4

3

2

1

309

B

WIRING DIAGRAM V300-PRO Code 10256, V300-I Code 10258

THERMOSTAT

503A

224

S2

R

1

BOARD

INPUT

S7

12

PER

CR2

CR1

POWER

J9

1

S

286

SWITCH

C2

N.A.

B

211B

- ARC

OUTSIDE

+ ARC

314

25W

H5

PROTECTION

H5

J8

51

9

1

285

204C

C9

S

S

51

204A

25

213

229

T2

F

S

F

TRANSFORMER

4

F

313

306

402, 404

275F

F

52

+

25

+

R1

7500

25W

ELECTRICAL SYMBOLS PER E1537

J2, J8

J11, J14 J13, J15

J9, J10, J12

J4

3

503

5

305

2

307

32A

LEFT

2AMP

M

81

21

GND

Y

1

L1

10K

18V

H3

12B

10

25W

J14

K

VAC

N.F.

C

D1B

214

8

218

275B

10

223B

223A

CONTROL

220

NOTE: This diagram is for reference only. It may not be accurate for all machines covered by this manual. The specific diagram for a particular code is pasted inside

the machine on one of the enclosure panels. If the diagram is illegible, write to the Service Department for a replacement. Give the equipment code number..

MAR97

–33 –

2

1

2

RECTIFIER 9D

C2

R7

9A

9A

N.F.

CONTROL PANEL

J11, J14

S

F

9

H5

402, 404

ON

OFF

H1

R

V

C

H6

12B

BOTTOM

51

WIRING DIAGRAM V300-PRO CODE 10257 (575V)

SHUNT

R8

250

L3

L1

C1

TP2

9D

S1

1, 8

POWER

J12

401, 403

12B

12B

25

J13

G

25W

R = RED

R4

W = WHITE

1

3

2

1

J11

J9

4

5

2

6

3

F

D13

317

6

9A

J16

5

14

315

316

51

LAYOUT

504

4

H3

6

J5, J16

32

32

227

213

214

INSIDE

S

TOP

+

S

TOP

5

2

W

303

3

8

J6 1

18V

285

AUX

TOP

OUTSIDE S

BOTTOM

F

226

S

F

4

F

S

TRANSFORMER

MAIN

L2

CHOKE

F

S

53

4

1

52

36

52

53

53

14

REMOTE

214

SWITCH

POLARITY

WELDING

WIRE FEEDER

S6

42A

+

5

W

501

R

7

317

316

9D

6

314

R

W

POWER

R

BOARD

8

5

8

402, 404

307

+T2

+

CURRENT

J2

M

J2, J8 S4

OUTPUT TERMINAL

SWITCH

25W

CV FCAW

+

25 +

Y

10K

Y

R5

9B

N.F. 912

2W

10K

R12

REMOTE

275A

LOCAL

2W

275B

207

77A

275C

276

150 5W

204B

228

212C

208

203

76

77B

204C

204A

220

229

R11

285

MODE SWITCH

S2

/INDUCTANCE

LOCAL/REMOTE

N

SPARE

GND

218

B

GND

275C

227

226

275B

CONTROL

4

77A

75

218

276

208

207

228

229

275D

301

305

4

D3

S

1

12

(V300-I ONLY)

210

211B

1

J1, J7

J9, J10, J12

J13, J15

6

J3

302

J7

4

309

224

TOP

AUX

H1

42

W

B

N.A.

H5

H1

2

H3

75

MIN

G

75

76

24V

F

76

E

77

31

212C

CR1

+ ARC

400A

C6

RIGHT

C9

BOARD

S

W

R

215

4

5

203

310

S5

503A

1

229

1

4

J14

3

2

CW (MAX)

215

CW (MAX)

306

212A

212B

J5

223B

7

12

210

13

J1

275A

2

309

J4

J6

COLOR CODE:

B = BLACK

1. FOR MACHINES SUPPLIED WITH INPUT CABLE (V300-PRO)

Y = YELLOW

FOR SINGLE PHASE INPUT: CONNECT GREEN LEAD TO GROUND PER NATIONAL ELECTRIC CODE.

CONNECT BLACK & WHITE LEADS TO SUPPLY CIRCUIT.

WRAP RED LEAD WITH TAPE TO PROVIDE 600V. INSULATION.

FOR THREE PHASE INPUT: CONNECT GREEN LEAD TO GROUND PER NATIONAL ELECTRIC CODE.

CONNECT BLACK, RED & WHITE LEADS TO SUPPLY CIRCUIT.

2. FOR MACHINES NOT SUPPLIED WITH INPUT CABLE (V300-I)

FOR SINGLE PHASE INPUT: GROUND MACHINE PER NATIONAL AND LOCAL ELECTRICAL CODES.

LEFT

CONNECT TERMINALS U & W TO SUPPLY CIRCUIT.

FOR THREE PHASE INPUT: GROUND MACHINE PER NATIONAL AND LOCAL ELECTRICAL CODES.

25

25W

42A

2AMP

H1

6AMP

212

212212

I

C

D

H

42

81

42

VAC

S2

MODE

SWITCH

R11

OUTPUT

CONTROL

S3

R12

S4

SWITCH

SWITCH

CONTROL

TERMINAL

THERMAL

OVERLOAD

INDICATOR

SWITCH

FUNCTION

METER

REMOTE

3

503

313

6

H6 H5

0V

FAN

212D

2

THERMOSTAT

A

V

310

D1B

5

6

8F

4

301

8

2

4

223A

303

304

304

213

G = GREEN

2

FEEDER

NOTES:

N.A.

3

2

LOCAL/REMOTE

R11

F

501

2

2

3

4

PROTECTION

R1

B

+

912

25W

R9

D2

D1A

C15

L10191

CONTROL

ARC FORCE/INDUCTANCE

R12

SWITCH

METER FUNCTION

(V300-I ONLY)

INDICATOR

OVERLOAD

THERMAL

OUTPUT CONTROL

N.F. C1, C2, C14, C15 CAPACITORS ARE A MATCHED SET.

N.C. WIRE FEEDERS REQUIRING 24VAC, USE PINS "N" & "I".

COMPONENTS OR CIRCUITRY HAVING A COMMON CODE NUMBER.

THE INTERCHANGEABILITY OF A COMPLETE BOARD, THIS DIAGRAM MAY NOT SHOW THE EXACT

N.B. SINCE COMPONENTS OR CIRCUITRY OF A PRINTED CIRCUIT BOARD MAY CHANGE WITHOUT AFFECTING

CONNECT TERMINALS U, V & W TO SUPPLY CIRCUIT.

212D

212B

211B

211A

8

302

275D

CV GMAW

5

3

502

4

12

11

211A

2

3

9

6

6

Y

14

8

4

7

11

Y

10

5

Y

503

9

503A

2

1

TP6

3

3

C5

4

204C

L4

42V

32A

110V

25W

313

311 306

275F

4

4, 5

25W

BOARD

13,15

13

C14

(LEFT)

401, 403

DRIVER

BOARD

1

9D

L5

N.C.

L

82

230V

4

220-

TRIGGER

5

4,5

I

10K

ON

223A

502

FAN

S3

MOTOR

SWITCH

CB2

J

575V

32A

A

CB1

212A

52

14

J15

51

J8

H5

1

1

INPUT

314

23

12A

7

R

812 13 14

229

SWITCH

BOARD

A

F -

H3

OUTPUT

OUTPUT

ARC FORCE

3

2

1

220

204B

204A

F

1

INSIDE

1, 8

286

CHOKE

1

BOARD

305

5

308

-

1

CC SOFT

BOTTOM

S

206

-

J10

ELECTRICAL SYMBOLS PER E1537

(VIEWED FROM COMPONENT SIDE OF BOARD)

CONNECTOR CAVITY NUMBERING SEQUENCE

311

RECEPTACLE

TRANSFORMER

CONTROL

AUXILIARY

T1

REMOTE

WIRE

-

21

4

3

52

25

10K

TP1

TP3

212

VAC

21

223B

PANEL

3

METER

4

5

6

5

- ARC

6

TP4

THERMOSTAT

W

J4

2

7275F

7

504

1

CONTROL

1

3

9

10

224

PER

CC GTAW

CC CRISP

52315

INPUT

TRANSFORMER

I

F

BOTTOM

9

206

U

OUTSIDE

WD +

308

307

229

S5

TP5

K

41

H1

77B

(RIGHT)

T3

110/115

13,15

15

1

W

R

12

SWITCH

R6

25W

1

J3

10

B

NOTE: This diagram is for reference only. It may not be accurate for all machines covered by this manual. The specific diagram for a particular code is pasted inside

the machine on one of the enclosure panels. If the diagram is illegible, write to the Service Department for a replacement. Give the equipment code number..

MAR97

INVERTEC V300-PRO & V300-I

NOTES

INVERTEC V300-PRO & V300-I

NOTES

INVERTEC V300-PRO & V300-I

NOTES

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–38 –

WARNING

AVISO DE

PRECAUCION

ATTENTION

WARNUNG

ATENÇÃO

Spanish

French

German

Portuguese

Japanese

Chinese

Korean

Arabic

READ AND UNDERSTAND THE MANUFACTURER’S INSTRUCTION FOR THIS EQUIPMENT AND THE CONSUMABLES TO BE

USED AND FOLLOW YOUR EMPLOYER’S SAFETY PRACTICES.

SE RECOMIENDA LEER Y ENTENDER LAS INSTRUCCIONES DEL FABRICANTE PARA EL USO DE ESTE EQUIPO Y LOS

CONSUMIBLES QUE VA A UTILIZAR, SIGA LAS MEDIDAS DE SEGURIDAD DE SU SUPERVISOR.

LISEZ ET COMPRENEZ LES INSTRUCTIONS DU FABRICANT EN CE QUI REGARDE CET EQUIPMENT ET LES PRODUITS A

ETRE EMPLOYES ET SUIVEZ LES PROCEDURES DE SECURITE DE VOTRE EMPLOYEUR.

LESEN SIE UND BEFOLGEN SIE DIE BETRIEBSANLEITUNG DER ANLAGE UND DEN ELEKTRODENEINSATZ DES HER-

STELLERS. DIE UNFALLVERHÜTUNGSVORSCHRIFTEN DES ARBEITGEBERS SIND EBENFALLS ZU BEACHTEN.

●Do not touch electrically live parts or

electrode with skin or wet clothing.

●Insulate yourself from work and

ground.

●No toque las partes o los electrodos

bajo carga con la piel o ropa moja-

da.

●Aislese del trabajo y de la tierra.

●Ne laissez ni la peau ni des vête-

ments mouillés entrer en contact

avec des pièces sous tension.

●Isolez-vous du travail et de la terre.

●Berühren Sie keine stromführenden

Teile oder Elektroden mit Ihrem

Körper oder feuchter Kleidung!

●Isolieren Sie sich von den

Elektroden und dem Erdboden!

●Não toque partes elétricas e elec-

trodos com a pele ou roupa molha-

da.

●Isole-se da peça e terra.

●Keep flammable materials away.

●Mantenga el material combustible

fuera del área de trabajo.

●Gardez à l’écart de tout matériel

inflammable.

●Entfernen Sie brennbarres Material!

●Mantenha inflamáveis bem guarda-

dos.

●Wear eye, ear and body protection.

●Protéjase los ojos, los oídos y el

cuerpo.

●Protégez vos yeux, vos oreilles et

votre corps.

●Tragen Sie Augen-, Ohren- und Kör-

perschutz!

●Use proteção para a vista, ouvido e

corpo.

–39 –

WARNING

AVISO DE

PRECAUCION

ATTENTION

WARNUNG

ATENÇÃO

Spanish

French

German

Portuguese

Japanese

Chinese

Korean

Arabic

LEIA E COMPREENDA AS INSTRUÇÕES DO FABRICANTE PARA ESTE EQUIPAMENTO E AS PARTES DE USO, E SIGA AS

PRÁTICAS DE SEGURANÇA DO EMPREGADOR.

●Keep your head out of fumes.

●Use ventilation or exhaust to

remove fumes from breathing zone.

●Los humos fuera de la zona de res-

piración.

●Mantenga la cabeza fuera de los

humos. Utilice ventilación o

aspiración para gases.

●Gardez la tête à l’écart des fumées.

●Utilisez un ventilateur ou un aspira-

teur pour ôter les fumées des zones

de travail.

●Vermeiden Sie das Einatmen von

Schweibrauch!

●Sorgen Sie für gute Be- und

Entlüftung des Arbeitsplatzes!

●Mantenha seu rosto da fumaça.

●Use ventilação e exhaustão para

remover fumo da zona respiratória.

●Turn power off before servicing.

●Desconectar el cable de ali-

mentación de poder de la máquina

antes de iniciar cualquier servicio.

●Débranchez le courant avant l’entre-

tien.

●Strom vor Wartungsarbeiten

abschalten! (Netzstrom völlig öff-

nen; Maschine anhalten!)

●Não opere com as tampas removidas.

●Desligue a corrente antes de fazer

serviço.

●Não toque as partes elétricas nuas.

●Do not operate with panel open or

guards off.

●No operar con panel abierto o

guardas quitadas.

●N’opérez pas avec les panneaux

ouverts ou avec les dispositifs de

protection enlevés.

●Anlage nie ohne Schutzgehäuse

oder Innenschutzverkleidung in

Betrieb setzen!

●Mantenha-se afastado das partes

moventes.

●Não opere com os paineis abertos

ou guardas removidas.

–

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