POWERPRO 164Si - Everlast Welders

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POWERPRO 164Si - Everlast Welders | Manualzz

EVERLAST

POWERPRO

164Si

A Digitally controlled pulse tig/stick/Plasma Multi-Process welder/Cutter

CC

GTAW-P

SMAW

PAC

IGBT

AC/DC

120/240

DV

Operator’s Manual for the PowerPro 164Si

Safety, Setup and General Use Guide

Rev. 1 0 001227-15

everlastwelders.com

1 877 755 9353

Specifications and Accessories subject to change without notice.

329 Littlefield Ave. South San Francisco, CA 94080 USA

Table of contents

Section……………………………………………………………..

Page

Letter to the Customer ………………...………………….

3

Everlast Contact Information…………………………….

4

Safety Precautions…………………………………………....

Introduction and Specifications…………………….…..

Unit Specifications……………………….……………………

5

9

10

General Overview…………….…..…………………………..

11

General Use and Care………...……………………………..

11

Quick Setup Guide, TIG Torch/Cooler Connection

13

Quick Setup Guide, Plasma Connection.…..………..

14

Quick Setup Guide, Stick Polarity and Connection

15

Quick Setup Guide, Rear Connection for Plasma…

16

Quick Setup Guide, Rear Connection for TIG..……. 17

Front Panel Features and Controls……………………..

18

Rear Panel Features and Controls……………………...

21

Welder Function Summary and Explanations…….

23

Tungsten Preparation………………………………………...

27

High Frequency Start TIG Operation……………………

28

Plasma Function and Operation………………………....

30

Recommendations for Polarity/Amps/Tungsten..

34

Expanded View of TIG torch……….…….……….…….…

35

PowerPro 164Si Plasma Torch S-45………………..…..

36

7 Pin Connector Pin-out…………..…….…….…………….

37

Troubleshooting………………………………………………....

38

NOTE:

Product Specifications and features are subject to change without notice. While every attempt has been made to provide the most accurate and current information possible at the time of publication, this manual is intended to be a general guide and not intended to be exhaustive in its content regarding safety, welding, or the operation/maintenance of this unit. Everlast Power Equipment

INC. does not guarantee the accuracy, completeness, authority or authenticity of the information contained within this manual. The owner of this product assumes all liability for its use and maintenance.

Everlast Power Equipment INC. does not warrant this product or this document for fitness for any particular purpose, for accuracy of performance or for particular suitability of application. Furthermore,

Everlast Power Equipment INC. does not accept liability for injury or damages, consequential or incidental, resulting from the use of this product or resulting from the content found in this document or accept claims by a third party of such liability.

2

Dear Customer,

THANKS!

You had a choice, and you bought an Everlast. We appreciate you as a customer and hope that you will enjoy years of use from your welder.

Please go directly to the Everlast website to register your unit and receive your warranty information.

Your unit registration is important should any information such as product updates or recalls be issued. It is also important so that we may track your satisfaction with Everlast products and services.

If you are unable to register by website, contact Everlast directly through the sales department via the main customer service number in your country. Your unit will be registered and warranty will be issued and in full effect. Keep all information regarding your purchase.

In the event of a problem you must contact technical support before your welder can be a candidate for warranty service and returned.

Please review and download the official warranty statement, located on our website www.everlastwelders.com. If you are not in the United States, visit the distributor’s website warranty information nearest to your region or country. Print it for your records and become familiar of its terms and conditions.

Everlast offers full technical support in several different forms. We offer domestic based phone support and online support. Online support is available through email and through our website contact forms. We also provide a welding support forum designed for customers and noncustomer interaction. Technical advisors are active on the forum on a regular basis. We also divide our support into two divisions: technical and welding performance. Should you have an issue or question concerning your unit, please contact performance/technical support available through the main company headquarters available in your country. For best service, call the appropriate support line and follow up with an email. In the event you do not reach a live person, particularly during heavy call volume times, holidays, or off hours, leave a message and your call will normally be returned within 24 hours. For quick answers to basic operating or service questions, join the company owned forum linked through the US website. You should be able to find knowledgeable, helpful people and staff available to answer your questions, and perhaps find a topic that already addresses your question at http://www.everlastgenerators.com/forums/.

Should you need to call or write, always know your model name, purchase date and welder manufacturing inspection date. This will assure the quick and accurate customer service.

REMEMBER:

Be as specific and informed as possible. Technical and performance advisors rely upon you to carefully describe the conditions and circumstances of your problem or question. Take notes of any issues as best you can. You may be asked a series of questions by the advisors meant to clarify problems or issues. Some of these questions may seem basic or fundamental, but even with experienced users technical advisors can’t assume that correct operating procedures are being followed for proper operation, and must cover all aspects to properly diagnose the problem. Depending upon your issue, it is advisable to have basic tools handy such as screwdrivers, wrenches, pliers, and even an inexpensive test meter with volt/ohm functions before you call.

Please note: To establish a warranty claim and to return a unit for repair or replacement, you must call technical support first to go through basic diagnosis process before an Return Authorization will be issued.

Let us know how we may be of service to you should you have any questions.

Sincerely,

Everlast Customer Service

3

Serial number: ____________________________

Model number: ____________________________

Date of Purchase:__________________________

Contact Information

Everlast US:

Everlast consumer satisfaction email: [email protected]

Everlast Website: everlastwelders.com

Everlast Technical Support: [email protected]

Everlast Support Forum: http://www.everlastgenerators.com/forums/index.php

Main toll free number: 1-877-755 WELD (9353) 9am—5pm PST M-F

11am-4pm PST Sat.

FAX: 1-650-588-8817

Everlast Canada:

Everlast consumer satisfaction email: [email protected]

Everlast Website: everlastwelders.ca

Everlast Technical Support: [email protected]

Telephone: 905-637-1637 9am-4:30pm EST M-F

10am-1pm EST Sat.

FAX: 1-905-639-2817

Everlast Australia:

Sydney: 5A Karloo Parade Newport NSW 2106

(02) 9999 2949

Port Macquarie: 2B Pandorea Place Port Macquarie

(02) 8209 3389

After hours support: 0413 447 492

Everlast Technical Support: [email protected]

4

Safety Precautions

Everlast is dedicated to providing you with the best possible welding and cutting equipment to meet the demanding welding needs that you have. As a company, we want to go beyond merely delivering a satisfactory product to you. That is the reason we also offer trained technical support and qualified repair facilities to assist you with your Everlast equipment should an unlikely occasion occur where it is needed. With proper use and care your product should deliver years of trouble free service.

Remember: Safe operation and proper maintenance is your responsibility.

We have compiled this operator ’ s manual to instruct you in basic safety, operation and maintenance of your Everlast product to give you the best possible operating experience. As thorough as this welding manual may be, it is no substitute for experience or common sense. Exercise extreme caution and care in all activities related to welding or cutting. Your health and life depend upon it. While accidents are never planned, preventing an accident requires careful planning and vigilance.

Carefully read this manual before you operate your Everlast unit.

This manual is intended to instruct in the proper use of your Everlast machine. When read and followed, it will also assist you in obtaining the best performance and service life. Do not operate the unit until you have read this manual and you are thoroughly familiar with the safe operation of the unit. If you feel you need more information or do not have the proper knowledge to properly operate please contact Everlast Support.

The warranty does not cover improper use, maintenance or consumables.

Do not attempt to alter or defeat any piece or part of your unit, particularly any safety device.

Keep all shields and covers in place during unit operation should an unlikely failure of internal components result in the possible presence of sparks and explosions. If a failure occurs, discontinue further use until malfunctioning parts or accessories have been repaired or replaced by qualified personnel.

Note on High Frequency electromagnetic disturbances:

Certain welding and cutting processes generate High Frequency (HF) energy. These energy waves may disturb sensitive electronic equipment such as televisions, radios, computers, cell phones, and related equipment. High Frequency may also interfere with fluorescent lights. Consult with a

licensed

electrician if disturbance is noted.

Sometimes, improper wire routing or poor shielding may be the cause.

HF energy can interfere with pacemakers. See EMF warnings in following safety section for further information. Always consult your physician before entering an area known to have welding or cutting equipment if you have a pacemaker.

5

SAFETY PRECAUTIONS

These safety precautions are for protection of safety and health. Failure to follow these guidelines may result in serious injury or death. Be careful to read and follow all cautions and warnings. Protect yourself and others.

Welding and cutting processes produce high levels of ultraviolet (UV) radiation that can cause severe skin burn and damage

. There are other potential hazards involved with welding such as severe burns and respiratory related illnesses. Therefore observe the following to minimize potential accidents and injury:

Use appropriate safety glasses with wrap around shields while in the work area, even under welding helmets to protect your eyes from flying sparks and debris.

When chipping slag or grinding, goggles and face shields may be required.

When welding or cutting, always use an approved shielding device, with the correct shade of filter installed.

Always use a welding helmet in good condition. Discard any broken or cracked filters or helmets. Using broken or cracked filters or helmets can cause severe eye injury and burn. Filter shades of no less than shade 5 for cutting and no less than shade 9 for welding are highly recommended. Shades greater than 9 may be required for high amperage welds. Keep filter lenses clean and clear for maximum visibility. It is also advisable to consult with your eye doctor should you wear contacts for corrective vision before you wear them while welding.

Do not allow personnel to watch or observe the welding or cutting operation unless fully protected by a filter screen, protective curtains or equivalent protective equipment.

If no protection is available, exclude them from the work area. Even brief exposure to the rays from the welding arc can damage unprotected eyes.

Always wear hearing protection because welding and cutting can be extremely noisy.

Ear protection is necessary to prevent hearing loss

. Even prolonged low levels of noise has been known to create long term hearing damage. Hearing protection also further protects against hot sparks and debris from entering the ear canal and doing harm.

Always wear personal protective clothing.

Flame proof clothing is required at all times.

Sparks and hot metal can lodge in pockets, hems and cuffs. Make sure loose clothing is tucked in neatly. Leather aprons and jackets are recommended. Suitable welding jackets and coats may be purchased made from fire proof material from welding supply stores. Discard any burned or frayed clothing. Keep clothing away from oil, grease and flammable liquids.

Leather boots or steel toed leather boots with rubber bottoms are required for adequate foot protection.

Canvas, polyester and other man made materials often found in shoes will either burn or melt. Rubber or other non conductive soles are necessary to help protect from electrical shock.

Flame proof and insulated gauntlet gloves are required whether welding or cutting or handling metal.

Simple work gloves for the garden or chore work are not sufficient.

Gauntlet type welding gloves are available from your local welding supply companies. Never attempt to weld with out gloves. Welding with out gloves can result in serious burns and electrical shock. If your hand or body parts comes into contact with the arc of a plasma cutter or welder, instant and serious burns will occur.

Proper hand protection is required at all times when working with welding or cutting machines!

6

SAFETY PRECAUTIONS

WARNING

!

Persons with pacemakers should not weld, cut or be in the welding area until they consult with their physician. Some pacemakers are sensitive to EMF radiation and could severely malfunction while welding or while being in the vicinity of someone welding

.

Serious injury or death may occur!

Welding and plasma cutting processes generate electro-magnetic fields and radiation.

While the effects of EMF radiation are not known, it is suspected that there may be some harm from long term exposure to electromagnetic fields. Therefore, certain precautions should be taken to minimize exposure:

Lay welding leads and lines neatly away from the body.

Never coil cables around the body.

Secure cables with tape if necessary to keep from the body.

Keep all cables and leads on the same side the body.

Never stand between cables or leads.

Keep as far away from the power source (welder) as possible while welding.

Never stand between the ground clamp and the torch.

Keep the ground clamp grounded as close to the weld or cut as possible.

Welding and cutting processes pose certain inhalation risks.

Be sure to follow any guidelines from your chosen consumable and electrode suppliers regarding possible need for respiratory equipment while welding or cutting. Always weld with adequate ventilation. Never weld in closed rooms or confined spaces. Fumes and gases released while welding or cutting may be poisonous. Take precautions at all times.

Any burning of the eyes, nose or throat are signs that you need to increase ventilation.

Stop immediately and relocate work if necessary until adequate ventilation is obtained.

Stop work completely and seek medical help if irritation and discomfort persists.

WARNING!

Do not weld on galvanized steel, stainless steel, beryllium, titanium, copper, cadmium, lead or zinc without proper respiratory equipment and or ventilation.

WARNING!

This product when used for welding or cutting produces fumes and gases which contains chemicals known to the State of California to cause birth defects and in some cases cancer.

(California Safety and Health Code

§

25249.5

et seq

.)

WARNING!

Do not weld or cut around Chlorinated solvents or degreasing areas. Release of Phosgene gas can be deadly.

Consider all chemicals to have potential deadly results if welded through or if welding near metal containing residual amounts of chemicals.

Keep all cylinders upright and chained to a wall or appropriate holding pen.

Regulations regarding high pressure cylinders can be obtained from OSHA or a local workplace regulatory agency. Also consult with your welding supply company in your area for further recommendations and securing equipment. Regulatory changes are frequent so keep informed.

All cylinders have a potential explosion hazard.

When not in use, keep all cylinders capped and closed. Store chained so that overturn is not likely. Transporting cylinders incorrectly can lead to an explosion. Do not attempt to adapt regulators to fit cylinders. Do not use faulty regulators. Do not allow cylinders to come into contact with work piece or work. Do not weld or strike arcs on cylinders. Keep cylinders away from direct heat, flame and sparks. Remove damaged or leaking regulators from service.

7

SAFETY PRECAUTIONS

continued

WARNING!

Electrical shock can kill.

Make sure all electrical equipment is properly grounded. Do not use frayed, cut or otherwise damaged cables and leads. Do not stand, lean or rest on ground clamp. Do not stand in water or damp areas while welding or cutting.

Keep work surface dry. Do not use welder or plasma cutter in the rain or in extremely humid conditions. Use dry rubber soled shoes and dry gloves when welding or cutting to insulate against electrical shock. Turn machine on or off only with gloved hand. Keep all parts of the body insulated from work, and work tables. Keep away from direct contact with skin against work. If tight or close quarters necessitates standing or resting on work piece, insulate with dry boards and rubber mats designed to insulate the body from direct contact.

All work cables, leads, and hoses pose trip hazards.

Be aware of their location and make sure all personnel in area are advised of their location. Taping or securing cables with appropriate restraints can help reduce trips and falls.

WARNING!

Fire and explosions are real risks while welding or cutting.

Always keep fire extinguishers close by and additionally a water hose or bucket of sand. Periodically check work area for smoldering embers or smoke. It is a good idea to have someone help watch for possible fires while you are welding. Sparks and hot metal may travel a long distance. They may go into cracks in walls and floors and start a fire that would not be immediately visible.

Here are some things you can do to reduce the possibility of fire or explosion:

Keep all combustible materials including rags and spare clothing away from area.

Keep all flammable fuels and liquids stored separately from work area.

Visually inspect work area when job is completed for the slightest traces of smoke or embers.

If welding or cutting outside, make sure you are in a cleared off area, free from dry tender and debris that might start a forest or grass fire.

Do not weld on tanks, drums or barrels that are closed, pressurized or anything that held flammable liquid or material.

Metal is hot after welding or cutting!

Always use gloves and or tongs when handling hot pieces of metal. Remember to place hot metal on fire-proof surfaces after handling. Serious burns and injury can result if material is improperly handled.

WARNING!

Faulty or poorly maintained equipment can cause injury or death.

Proper maintenance is your responsibility. Make sure all equipment is properly maintained and serviced by qualified personnel. Do not abuse or misuse equipment.

Keep all covers in place. A faulty machine may shoot sparks or may have exploding parts.

Touching uncovered parts inside machine can cause discharge of high amounts of electricity.

Do not allow employees to operate poorly serviced equipment.

Always check condition of equipment thoroughly before start up. Disconnect unit from power source before any service attempt is made and for long term storage or electrical storms.

Further information can be obtained from The American Welding Society (AWS) that relates directly to safe welding and plasma cutting. Additionally, your local welding supply company may have additional pamphlets available concerning their products. Do not operate machinery until your are comfortable with proper operation and are able to assume inherent risks of cutting or welding.

8

Section 1 Introduction and Specifications

PowerPro 164Si

Air Cooled 26 series 12 ft.

S-45

12 ft. Plasma Torch

Argon and Air Regulator

Work Clamp

Consumable Starter Kit

(Does not include Tungsten)

22K Ω

Foot Pedal Assembly

Stick Electrode Holder

NOTE: Accessory and consumable style and quantities are subject to change without notice. Consumable starter kits provide only enough consumables to get you started. Extra consumables can be purchased through Everlast or almost any local welding supply store.

9

Section 1

PowerPro 164Si

Process

Inverter Type

Minimum/Maximum Rated Output TIG 120/240v

Minimum/Maximum Rated Output Stick 120/240V

Minimum/Maximum Rated Output Plasma 120/240V

Start Type

HF Point Gap

TIG Duty Cycle @ Rated Amps/Volts

Stick Duty Cycle @ Rated Amps/Volts

Plasma Duty Cycle @ Rated Amps/Volts

OCV (U0)

Voltage Input (U1)

Maximum Inrush Amps (I1MAX)

Maximum Operating Amps (Rated Effective) (I1EFF)

Post Flow Time

Down Slope

AC Frequency Control

AC Balance Control

Pulse Frequency Hz (Pulses Per Second)

Minimum Water Ingress Protection Standard

Efficiency

Cooling Method

Dimensions (approximate)

Weight (Bare Unit)

Introduction and Specifications

SPECIFICATION

AC/DC GTAW-P/DC SMAW/PAC

Digital, IGBT

DC: 120 V: 5 A/10.2 V—100 A/ 14.0 V 240 V: 5 A/10.2 V — 160A/ 16.4 V

AC: 120 V: 20 A/ 10.8V — 100A/ 14.0 V 240 V: 20 A/10.8 V — 160A/ 16.4 V

120 V: 5A/20.2V—90A/ 23.6 V 240V 5 A/20.2 V—130 A/ 23.6 V

120 V: 20 A/88V—25 A/90V 240V: 20 A/88V—40 A/ 96V

HF only for TIG/Blow Back type for Plasma

.030”-.045” (.035” suggested)

120 V: 60% @ 100 A/15V, 100% @ 80 A/13.2 V

240 V: 60% @ 160 A/16.4 V, 100% @ 130 A/ 15.2 V

120 V: 60% @ 90A/23.6 V, 100% @ 75 A/ 23 V

240 V: 60% @ 130 A/ 25.2 V, 100% @ 100 A/ 24 V

120 V: 35% @ 25 A/ 90 V, 60% @ 20 A/88V

240 V: 35% @ 40 A/ 96 V, 60% @ 30 A/92 V, 100% @ 20 A/ 88 V

70 V TIG/Stick, 230 V Plasma

120 V, 240 V; 50/60 Hz 1 Ph

28.5 A @ 120 V/ 24.8 A @ 240 V

23 A @ 110 V/ 20 A @ 240 V

0-10 Seconds

0-10 Seconds

20-250 Hz

10-90% of Electrode Positive (EP)

1 or 25 Hz

IP21S

>85%

Full time High Velocity Fan with Tunnel design.

18” H X 10” X 25” L

68 lbs.

The minimum size required to run this unit on 220V is 5500 watts. Use this unit only with generators that are certified as clean power by the manufacturer of the generator

(defined as less than 10% total harmonic distortion). Use of this product with generators that are not clean power rated or underpowered is prohibited and will void the warranty.

10

Section 1

Introduction and Specifications

General overview:

The PowerPro 164Si from Everlast is designed as a TIG/Stick welder and a plasma cutter fitted into one relatively compact package. This multi-process unit features digital control for improved control and service life but also incorporates analog style design elements for simplicity of setup and use. Designed with portable repair in mind, it intended to be a go-anywhere unit that can be conveniently transported around. The unit is ideal for many typical repair situations where onthe-spot repair is necessary due to its size and the following features:

A. Dual voltage design makes it truly portable and versatile. Operating on 120V, output is as follows: 100

Amps TIG , 90 Amps Stick and 25 Amps Plasma.

B. Full bridge design features soft switching technology which further extends IGBT component life and extends its capabilities.

C. Improved HF point design offers better and more stable arc starts, even at lower amperages.

D. Features automatic over-voltage, over current and duty cycle protection (over-heat).

E. The digitally controlled design creates a stable arc in

AC TIG, with a fast melting puddle and good wet in with the advanced Square wave DC TIG performance is excellent as well.

F. Digitally-controlled design offers precise control and improved plug and play serviceability. It also simplifies internal design by reducing circuit complexity.

General Use and Care

: The welder is designed for regular use, but not necessarily for fabrication or production duties. Keep in mind that the unit is designed for on-the- spot repairs and portability. It is highly useful and convenient in these situations. Care should be taken to keep the unit out of direct contact with water spray. The unit is rated IP21S, which rates it for light contact with dripping water. It is a good idea to remove the welder from the vicinity of any water or moisture source to reduce the possibility of electrocution or shock. Never operate in standing water. Every 1-2 months, depending upon use, the welder should be unplugged, opened up and carefully cleaned with compressed air. Regular maintenance will extend the life of the unit. Metallic dust and build up may lead to premature board and component failure.

IMPORTANT: Before opening the unit for any reason, make sure the unit has been unplugged for at least 10 minutes to allow time for the capacitors to fully discharge. Severe shock and/or death can occur.

Do not restrict air flow or movement of air around the welder. Allow a buffer distance of 2 ft from all sides if

11 possible, with a minimum distance of at least 18” clearance. Do not operate the welder immediately in the weld area or the force of the fan will cause welding issues such as unstable arc, or porosity. Do not mount the unit in areas that are prone to severe shock or vibration. Lift and carry the welder by the handle. Take care to not direct metallic dust or dirt intentionally toward the machine, particularly in grinding and welding operations. Make sure the panel is protected from damage during welding and cutting operations by flipping down the clear protective cover.

Duty Cycle.

For 240V operation, the duty cycle has been determined for the PowerPro 164 at 160 A @ 60% duty cycle for TIG, 130 A @ 35% for Stick, and 40 A @ 35% duty cycle for Plasma. (See specification page for full duty cycle details.) The duty cycle is based off a 10 minute duty cycle rating at 40° C. This means that the unit is capable of being operated at the max amps for the stated percent of time out of 10 minutes without a break to cool down the unit. For the remainder of the 10 minute time period, the welder should rest for maximum service life. The temperature light will come on and the welder will automatically stop welding when an overheat condition has occurred.

The fan and display will remain powered up however.

Stop welding immediately. Heat will continue to be generated by and transferred to the electronics after welding has ceased. Do not shut down an overheated welder until it has safely cooled. Once the overheated condition has cleared, welding can resume. Cycle the power switch to completely reset the unit.

Operating the PowerPro unit in such a way that causes the unit to repeatedly surpass the duty cycle limit will significantly decrease the life span of the electronics or cause permanent damage to the welder.

However, an occasional duty cycle interrupt event should not be an issue if the prescribed cool-down procedures are followed. If you find that the unit is being repeatedly operated up to and beyond the duty cycle limit of the machine, it is likely that a larger welder/cutter is needed for the job. Or, consider separate units with higher duty cycles for dedicated service. Keep in mind many things can affect the stated duty cycle of the welder and plasma cutter. Water, ambient air temperature, humidity, air circulation around the welder all can impact the duty cycle

.

HF Start.

The welder uses High Frequency to start the arc. A bright blue light may be seen emanating from the front panel during starts as the HF activates. This is not a cause for concern and is perfectly normal. To prevent

Section 1 Introduction and Specifications wear to the contacts and possible damage to the circuitry, do not engage the HF with the foot pedal or torch switch without the intention of starting the arc. Overtime or when operated in dusty/dirty conditions, the point gap will need to be checked and readjusted.

Note:

Although point gap adjustment is usually considered a part of regular maintenance, and is not an item covered by warranty, the following adjustment process is intended for experienced users only. If you suspect you have a a problem with the point gap due to hard starting of the arc, contact Everlast Tech Support before proceeding with point gap adjustment for proper diagnosis and a more detailed adjustment procedure.

To open the unit to adjust the point gap

:

1)

Unplug the welder. Wait 20 minutes to allow capacitors to discharge to prevent possible shock and injury. WARNING: If possible, do not touch unrelated circuits and components, especially capacitors, during this adjustment process to reduce the chance of possible shock and injury.

2) Remove the Rear plastic cover by removing screws with a small screw driver, remembering to remove screws holding the cover that are located on the bottom. There is no need to remove the front cover.

3) Remove screws in metal cover. Gently spread the bottom of the cover with your fingers about 1” on either side. Simultaneously slide the metal cover toward the rear and pull up to remove the cover from the chassis.

HF Point Gap Location

Locking Nut

Adjustment Screw

4) Locate the HF board located toward the front of the unit. This board is mounted under the top metal pan and the points should be visible from the left side (side determined by facing the front of the unit). The points will have two carbon contacts hanging under the bottom of the metal pan. These will be held in place by two brass nuts that are used to lock the contacts in place. Check the point gap with either a feeler gauge by sliding it between the points. Access may be tight, but try several angles to get the feeler gauge in between the points. The gap should be set to anywhere between .030 and .045”, with .035” being preferred.

5) If adjustment is needed, loosen the locking nuts slightly so that the end of the brass contact holder

12 can be rotated with a small flat bladed screw driver. Slowly adjust the points until slight contact is made with the feeler gauge. When completed hold the contact in place with the screw driver while the locknut is retightened, making sure the contact holder does not rotate in the process.

6) Recheck the point gap. Make any necessary readjustments. Reassemble the unit.

General usage and design purpose.

Keep in mind, this unit has been designed to be a viable all-in-one solution to many portable welding needs, where portability and space limitations are chief concerns. This unit is not intended or designed for production welding and fabrication duties. Rather this unit performs well as a go-almost-anywhere solution for onthe-spot general repairs, prototyping, or one-off work.

The unit does have many useful features, but the portable nature of the unit requires that the torches and gases be changed over if swapping between welding and cutting operations. In environments where there is a constant need to alternate between welding and cutting, this changeover process may become time consuming so, consider purchasing separate units for

Welding and Plasma cutting duties.

NOTE: This manual has been compiled to give an overview of operation and is designed to offer information centered around safe, practical use of the welder.

Welding has inherent dangers. Ultimately, only the operator of this welder can ensure that safe operating practices are followed, through the exercise of common sense practices and training. Do not operate this machine until you have thoroughly read through the entire manual, including the safety section.

If you do not have the skill and/or basic welding knowledge to safely operate this multi-process welder and plasma cutter, then do not operate this machine until formal training and instruction is received.

Important:

Do not use this machine with any type of

CNC device intended for plasma cutting. It is not designed or intended for this type of extended service.

Always purchase a dedicated Plasma cutter for this type of cutting. For CNC plasma cutting needs, consider the

Everlast PowerPlasma line, and for dedicated CNC cutting, consider purchasing one of our PowerPlasma

“C” series.

Section 2 QUICK SETUP AND USE GUIDE

QUICK SETUP GUIDE: TIG CONNECTION

NEVER OPERATE A WATER COOLED TORCH WITHOUT WATER OR THE TORCH MAY BE DAMAGED!

TORCH (-)

WORK (+)

GAS PILOT CONTROL

35 SERIES CONNECTOR

35 SERIES CONNECTOR

AIR COOLED TORCH

GAS (Ar)

FOOT PEDAL

CONTROL

9/17 SERIES TORCH

CONTROL

26 SERIES TORCH WITH TWO LINE DESIGN

35 SERIES CONNECTOR

GAS (Ar)

NOTE:

Torch switch and foot pedal control cannot be used at the same.

CONTROL

WATER COOLED TORCH

18/20 SERIES TORCH

COOLANT IN FROM TORCH (RED COUPLER)

OPTIONAL WATER COOLER

INPUT

COOLANT RETURN

COOLANT IN

WA

!

COOLANT OUT FROM COOLER (BLUE COUPLER)

OUTPUT

NOTE:

THE ARGON GAS LINE MAY BE TAGGED AS “Ar”.

IF NOT, TAKE DRY COMPRESSED AIR

AND GENTLY BLOW THROUGH THE LINES TO DISCOVER WHICH LINE EXHAUSTS THROUGH

THE TORCH OR THROUGH THE RETURN LINE. NOTE THE DIAGRAM ABOVE AND THE RETURN

LINE.

ON SOME AFTER MARKET TORCHES, THE WATER LINES ARE COLOR CODED: BLUE FOR

COOL WATER SUPPLY AND RED FOR HOT WATER RETURN. COOLER FITTINGS SHOULD BE

COLOR CODED BLUE AND RED AS WELL. HOWEVER, DO NOT RELY UPON COLOR MARKINGS

ON TORCHES TO DETERMINE THE FLOW AS THEY MAY VARY FROM BRAND TO BRAND.

WARNING: IF THE TORCH IS NOT CORRECTLY CONNECTED, WATER WILL DISCHARGE OUT OF

THE TORCH HEAD WHEN THE UNIT IS CONNECTED TO THE COOLER. THE LINE FROM THE

DINSE STYLE CONNECTOR IN A WATER COOLED TORCH IS ALWAYS USED AS THE WATER

RETURN LINE REGARDLESS OF THE RETURN LINE COLOR OR TORCH MANUFACTURER.

13

Section 2 QUICK SETUP AND USE GUIDE

QUICK SETUP GUIDE: PLASMA CONNECTIONS

S-45 TORCH

WORK (+)

35 SERIES CONNECTOR

GAS PILOT CONTROL

AIR

PILOT ARC

CONTROL

TORCH (-)

35 SERIES CONNECTOR

OPERATING NOTES:

1. For safest operation, be sure 2T is selected. Do not attempt to use the foot pedal to control the amps.

2. Do not attempt to use the plasma torch in any other mode or test in any other mode with torch connected.

3. Attempt to operate only with sufficient air pressure. If pressure is too low, the unit will cease output and the green indicator light next to the pressure gauge will go out to indicate the air pressure is too low to operate safely.

4.

See torch manual included in this manual for best pressure settings and parts identification.

5.

Do not exceed 90 psi air supply pressure from compressor or failure or leakage of internal line components may result.

6.

Do not use with an oiler or with an air line that has had oil run through the line.

7.

Adjust torch operation pressure to 72 psi (5 bar) for best results while post flow is flowing.

8.

When using lower amperage levels, the nozzles will need to be changed out for ones with a smaller diameter orifice. Everlast is an OEM supplier of the torch but not the torch manufacturer. Smaller diameter nozzles are available through Everlast to purchase them direct.

Note: Not all parts or consumables may be stocked or serviced individually by Everlast.

STOP:

Do not fire the torch continuously without attempting to make a cut. Doing so will keep the pilot arc engaged and will drastically shorten the life of the consumables. The Pilot arc should only be used to initiate the arc to start a cut. Always make sure the work clamp is directly connected to a deoxidized, unpainted location on the part being cut. Use a grinder to ensure proper contact is being made between the work clamp and the metal if necessary. Turn the unit off while changing torches to prevent accidental arc strikes.

WARNING:

Plasma cutting uses a high voltage, high temperature arc.

Do not touch any part of the consumable while cutting or with the torch energized even if the arc is not present!

Always switch the unit off while changing consumables. Do not disable the yellow safety on the torch switch.

CAUTION:

Never attempt to use the torch while hooked up to the positive (+) connector or damage may occur to the consumables and/or the torch. Always verify correct torch polarity before each use. Do not change processes while the Plasma torch is connected or severe damage may result to the machine and torch.

14

Section 2 QUICK SETUP AND USE GUIDE

QUICK SETUP GUIDE: STICK POLARITY AND CONNECTIONS

TORCH (+)

GAS PILOT CONTROL

WORK (-)

NOTE:

Most stick (SMAW) electrodes require electrode positive(+) (also referred to as DCEP or reverse polarity) to weld correctly. Some welding electrodes may be rated for use with both electrode positive and electrode negative (-) (also referred to as DCEN or straight polarity) by the electrode manufacturer.

However, most electrodes are generally welded with an electrode positive connection regardless of the electrode negative polarity capability. When the electrode (welding rod) is rated for DCEN(-) use and is used that way, the arc may not penetrate as fully or may seem softer. Note: This unit is not rated for use with an E6010 electrode. However, it is possible to use E6011 or other welding electrodes.

15

Section 2 QUICK SETUP AND USE GUIDE

QUICK SETUP GUIDE: REAR CONNECTIONS FOR PLASMA OPERATION

Compressor and Dryer Diagram

Compressor and Air hose w fittings

(Customer Supplied)

Regulator Assembly with built-in water trap and dirt filter (Included)

CLAMP

1/4” Automotive Universal style quick connector (Included)

1~220 VAC

Air Dryer/Oil Filter

(Customer Supplied)

GAS

INLET

1~220 V

1

2

3

4

NOTE:

WHEN ASSEMBLING AIR REGULATOR NOTICE THE MARKING S THAT ARE

STAMPED ON TOP OF THE REGULATOR HOUSING FOR AIR FLOW DIRECTION. AIR

FLOW DIRECTION WILL BE NOTED AS IN/OUT OR BE STAMPED WITH A SMALL

ARROW FOR AIR FLOW DIRECTION. THE QUICK CONNECT 1/4” MALE AUTOMOTIVE

COUPLING SHOULD BE MOUNTED ON THE SIDE OF THE REGULATOR WITH “ IN ” OR

THE ARROW POINTING TO THE MIDDLE OF THE REGULATOR. IF INSTALLED, RE-

MOVE BRASS PLUG IN CENTER AND INSTALL THE PRESSURE GAUGE. USE A LIGHT

WRAPPING OF THREAD TAPE TO PREVENT LEAKING AROUND THE PRESSURE

GAUGE THREADS IF NECESSARY. DO NOT OVER APPLY THE THREAD TAPE.

NOTE:

A SEPARATE AIR DRYER BETWEEN THE AIR COMPRESSOR AND REGULATOR ASSEMBLY MUST BE INSTALLED. IT SHOULD BE INSTALLED AS CLOSE TO THE

WELDER AS PRACTICAL.

THIS IS A CUSTOMER SUPPLIED ITEM.

THIS WILL REDUCE CUTTING ISSUES SUCH AS SPITTING, POPPING AND RAPID CONSUMABLE WEAR.

THE REGULATOR/FILTER THAT IS INCLUDED WITH THE WELDER IS NOT SUFFICIENT TO REMOVE ALL MOISTURE. IT SERVES ONLY AS A WATER TRAP AND FINE

SEDIMENT FILTER. ANY AIR COMPRESSOR SYSTEM WILL PRODUCE AT LEAST SOME MOISTURE REGARDLESS OF HUMIDITY LEVELS AND ENVIRONMENT. DAILY

DRAINING THE AIR COMPRESSOR SUPPLYING AIR TO THE PLASMA CUTTER IS RECOMMENDED. THE AIR SUPPLIED TO THE PLASMA CUTTER SHOULD BE OF SIMI-

LAR QUALITY USED FOR AUTOMOTIVE PAINTING. DIFFERENT STYLES OF DRYERS ARE AVAILABLE. THE MOST INEXPENSIVE AND COMMONLY AVAILABLE IS THE

REPLACEABLE DESSICANT TYPE USED FOR AUTOMOTIVE PAINTING. DAMAGE DONE TO THE TORCH AND THE PLASMA CUTTER (INCLUDING BUT NOT LIMITED TO:

SHORTING, CORROSION, AND DETERIORATION OF INTERNAL LINES AND COMPONENTS) AS A RESULT OF EXCESS MOISTURE IS NOT COVERED UNDER THE WAR-

RANTY. ADDITIONALLY, A FILTER SHOULD BE INSTALLED IN-LINE AT THE COMPRESSOR TO FILTER ANY EXCESS OIL OR OIL BLOW-BY FROM THE LINE IF NECES-

SARY. DO NOT USE WITH OILING SYSTEMS DESIGNED TO AUTOMATICALLY LUBRICATE AIR TOOLS. OIL WILL DAMAGE THE TORCH AND CONSUMABLES AS WELL.

DAMAGE DONE TO THE CUTTER OR THE TORCH BY OIL IS NOT COVERED UNDER THE WARRANTY. IT IS ADVISABLE TO USE THE PLASMA CUTTER WITH A NEW AIR

HOSE/LINE THAT IS FRESH WITHOUT MOISTURE OR LUBE CONTAMINATION AND DEDICATE IT FOR PLASMA USE ONLY. IF THERE IS AN AIR PRESSURE DROP

GREATER THAN 5-10 PSI FROM THE COMPRESSOR OR AIR FLOW IS SUSPECTED TO BE INSUFFICENT, INCREASE TO A LARGER SIZE EXTERNAL DRYER/FILTER AND AIR

LINE. FAILURE TO USE A DRYER/FILTER IS A LEADING CAUSE OF PLASMA CUTTING AND CONSUMABLE WEAR ISSUES.

16

Section 2

QUICK SETUP GUIDE: REAR CONNECTIONS FOR TIG / WIRING

(US/Canada)

SUPPLIED PLUG IS A

NEMA 6-50P

, WHICH IS THE STANDARD PLUG FOR MOST 1 PHASE 240V WELDERS IN THE US AND CANADA.

GREEN GROUND

To convert to 120V operation, you may purchase a separate 240V to 120V adapter

from Everlast. Rewiring the unit for strictly

120V operation by removing the existing plug is strongly discouraged.

HF

L2,WHITE; HOT

L1,BLACK; HOT

NEMA 6-50P

240V

IMPORTANT:

ALWAYS CONSULT A LICENSED ELECTRICIAN AND LOCAL CODES BEFORE RE-

WIRING YOUR WELDER OR ATTEMPTING TO MAKE ANY ELECTRICAL CONNECTION.

SWAP TUBING!

GAS

INLET

CLAMP

*NOTE: The connection point for the TIG shielding gas and for the Plasma air input is shared. This requires swapping the TIG and Air input hoses at the lower connection point when making the changeover between processes. Do not route the argon line through the air regulator. In lieu of constantly swapping the gas and air lines back and forth, a manifold system may be made from either a T configuration of two ball valves or a Y valve( either must be supplied by the customer) to switch between the plasma air input and TIG shielding gas as needed without disconnecting and reconnecting the gas and air lines every time the process is changed. If no switching valve or manifold system is used, then you must manually change the input supply tubing every time you change over from TIG to Plasma or vice versa.

Calibrated in Cubic Feet Per Hour (CFH)

CO

2

EVERLAST

NOTE: Use Ar or Ar/He only. Do not use more than 25% He in the Ar/He gas mix or starting difficulty may be experienced.

Fe, Cu

NOTE: TO PREVENT STRAY HIGH FREQUENCY INTERFERENCE, THIS UNIT PROVIDES AN ADDITIONAL GROUNDING POINT AT THE REAR OF THE UNIT. IT SHOULD BE DIRECTLY GROUNDED

THROUGH A SEPARATE WIRE TO AN OUTSIDE METAL ROD DRIVEN IN THE GROUND. THIS HELPS PREVENT BLEEDBACK OF HF INTO THE POWER GRID, AND HELPS MUTE HF INTERFER-

ENCE. ADDITIONALLY, ALL SURROUNDING METAL OBJECTS SHOULD BE GROUNDED INCLUDING THE TABLE, PIPES, WALLS ETC. TO PREVENT ELECT RICAL INTERFERENCE WITH OTHER

CIRCUITS. DO NOT COUPLE THIS WIRE TO THE GROUND PROVIDED IN THE ELECTRICAL CIRCUIT.

17

Section 2 QUICK SETUP AND USE GUIDE

FRONT PANEL FEATURES AND CONTROLS

1. PROTECTIVE COVER

2. 2T/PEDAL/ OR 4T SWITCH

16. AMP DISPLAY

17. PRESSURE GAUGE

15. STATUS/WARNING INDICATORS

14. AMP CONTROL

3. DOWN-SLOPE

4. POST-FLOW

5. PULSE HIGH/LOW/OFF

6. AC/DC SELECTOR

7. PROCESS SELECTOR

13. AC BALANCE (% OF +)

12. AC FREQUENCY

8. POSITIVE (35 SERIES)

9. GAS QUICK CONNECT (9mm)

GAS OUTLET PILOT CONTROL

11. NEGATIVE (35 SERIES)

10. TORCH/PEDAL CONTROL

PILOT ARC (PLASMA ONLY)

18

Section 2 QUICK SETUP AND USE GUIDE

POWERPRO 164Si

FRONT PANEL FEATURES AND CONTROLS CONTINUED

PARAMETERS PURPOSE

1. Protective Cover

N/A Clear hinged cover protects panel from damage. Keep closed during welding operations.

2. 2T/4T Sequencer Switch

3. Down Slope Control

4. Post Flow Control

6. AC/DC Selector

7. Process Selector

8. Positive Connector

5. Pulse OFF/High/Low

2T -Pedal/4T Used with the torch switch function. Select 2T for simple press and hold operation of the torch switch.

Release the switch to cease operation. Select 4T for advanced use of down slope. 1) Press and hold switch to start arc. 2) Release switch to begin welding at normal welding current. 3) Press and hold switch once again to begin downslope. 4) Release switch to terminate the arc. In 4T mode, if the puddle becomes too hot, it can be cooled by lightly tapping the switch to begin downslope and tapping again to restart welding before end current is reached. Setting a long downslope helps improve heat control with this feature.

I

MPORTANT:

For foot pedal use: Select 2T. Be sure to turn the down slope to the minimum setting or the foot pedal will not operate correctly, and an arc flare or delayed stop at the end of the cycle will be noticed.

0-10 Seconds Ramps the amps down from welding amp value to allow the weld crater to be filled. Set to 0 while using with the foot pedal. If the downslope is used with the foot pedal, a delayed arc stop or arc flash may occur.

0-10 Seconds Sets the amount of shielding gas flow time after arc ends to shield the weld to prevent oxidation and cool the torch. Use .5-1 second post-flow or less for every 10 amps.

1 or 25 Hz

AC or DC

This pulse control is simplified, offering preset parameters for pulse balance, and pulse amps. Select 1 or 25

Hz, and all other parameters are set automatically. The pulse will offer reduced heat input into the weld.

Pulse will create an “averaging” effect of the amperage while maintaining fluidity control of the puddle.

Select DC output for Steel, Stainless and most metals.

Select AC output for Aluminum and Magnesium alloys.

NOTE: When in plasma mode turn off pulse. Do not connect foot pedal to operate plasma. While plasma cutting, turn down down the downslope to the minimum setting. For safest use, use plasma in 2T. Do not flip the process selector switch while cutting or welding or instant damage may result.

TIG/Cut

(Plasma)/Stick

35-70 mm²

Select TIG, Stick or Plasma cutting. Do not switch modes while actively welding or cutting or damage to the machine may occur.

Location of the positive terminal connection. Dinse-style connector. (35 Series)

For Stick: Torch connection. For TIG: Work Clamp Connection.

9. Quick Connect Gas Outlet

9 mm

10. Control (TIG and Plasma use) and Pilot Arc (Plasma use only)

Connectors

7 Pin and Screw

Terminal

Connect the foot pedal or torch switch to control socket to control the TIG welder functions. Only the foot pedal or torch control connector can be connected at one time. If the torch has a torch switch feature, tie the loose connector back and leave it unconnected while using the pedal. Do not use foot pedal with the

Plasma cuter function. The Pilot arc establishes the non cutting arc for the plasma cutter when continuity is not present. Do not fire the torch excessively without close proximity to the metal to be cut. Tighten the thumb screw finger tight only. Do not use the plasma cutter without the wire with the eyelet connected securely to the terminal post.

11. Negative Connector

35-70 mm²

Connects the gas to the TIG torch or the compressed air to the Plasma torch To connect: Push the torch fitting into the connector until the collar slides forward with a click. To Release: Slide the collar back.

Location of the negative terminal connection. Dinse-style. (35 series)

For Stick: Work Clamp Connection. For TIG: Torch Connection For Plasma: Torch Connection

12. AC Frequency Control

13. AC Balance Control

20-250Hz Controls the number of times per second that the current alternate in AC mode. To achieve greater arc focus (constriction) and increase puddle agitation while welding in AC mode, increase AC frequency. This allows pinpoint use on thin materials, and helps penetration on thicker materials. Ideal adjustment range is usually 100-150 Hertz. For comparison most transformer welders in the US operate on 60 Hz. Greater results can be achieved through the use of the higher frequency range of this welder. Lower Frequencies will widen and soften the arc but reduce the level of control. WARNING: Increasing the AC Frequency increases the noise level while welding in AC. Wear hearing protection.

10-90% of EP Selects the percent of Electrode Positive (EP) used during AC welding to provide cleaning. This divides the amount of time that the AC cycle is in Electrode Positive or Electrode Negative during one full AC cycle. It controls the amount of cleaning and penetration via a ratio to achieve the best balance while welding on

AC. When the control knob is rotated left, more Electrode Negative is present and more penetration will be achieved. When the control knob is rotated right, more Electrode Positive is present and more cleaning

(cathodic etching) will be achieved. Too much cleaning action will result in tungsten balling or splitting, making a larger tungsten necessary for the same amperage range. Too little cleaning can result in dirty, sooty welds and even a dull weld appearance. NOTE: This is expressed as a percent of full EP Polarity. This unit uses 100% Electrode Positive as the reference, which is just the opposite from some other brands.

Using the welder in excess of 50% EP can vaporize the tungsten. It can also reduce the duty cycle of the welder. For most welds, no more than 45% cleaning is needed. Ideally, start with 30% EP for a reference point, and adjust it up or down to achieve best results.

19

Section 2 QUICK SETUP AND USE GUIDE

FRONT PANEL FEATURES AND CONTROLS CONTINUED

POWERPRO 164Si PARAMETERS PURPOSE

14. Main Amp Control

15. On/Temperature/ Over Current/

OK to Cut Signal Lights

16. Amp Display

17. Air Pressure Gauge

Range Varies

Indicator/Warning

Or Fault

On Indicator: Confirms unit is switched on. Temperature Indicator: Lights up and stops welding output until the welder has cooled within normal limits. Allow 10 minutes before attempting to reset manually by cycling the power switch. If the light does not go out after the cool down period by cycling the switch, or if comes on again when the arc is struck, contact Everlast. Over Current

Indicator: Lights up when a voltage /amp surge has surpassed the units capabilities. Eliminate the source of the surge and manually cycle the power switch to reset. If the light remains on after cycling the switch, this may indicate a unit fault created during the over current event. In this case, contact Everlast.

OK TO CUT: This light will come on while the plasma cutter is being used when the air pressure has reached an acceptable level to prevent torch and unit damage. When air pressure is below the threshold (35 psi) the light will go out and the circuit will interrupt the cutting until the pressure rises over the threshold and the light comes on again. Should this happen while cutting , check your compressor. It may not have sufficient output or air reserve to make it operate properly.

N/A

The main amp control function varies range according to process and input. May vary ±3%

220/240V: DC TIG: 5-160 A AC TIG: 20-160 A Stick: 5-160 A Plasma: 20-40 A

110/120V: DC TIG: 5-100 A AC TIG: 20-100 A Stick: 5-90 A Plasma: 20-25 A

90 psi supply

70-75 psi while

Operating

Displays maximum selected amps until the weld is started. Displays actual amps while welding.

Display may cycle rapidly and randomly after pulse has been turned on. This is normal. The meter

“samples” the pulse at a fixed rate and is not synchronized with the pulse. Immediately after the pulse is turned on, a short delay is built in that prevents the display from cycling to allow the pulse to be adjusted. Once the adjustment is finished, pulse will begin to cycle after a few seconds if no input is made.

The air pressure gauge should not register more than 90 psi while the plasma torch is not in use.

While actively cutting pressure should register between 70 and 75 psi. Change torch nozzle size rather than lowering pressure for low amp cutting. Do not run TIG argon gas through the pressure regulator/pressure gauge assembly. See notes page 21.

20

Section 2 QUICK SETUP AND USE GUIDE

REAR PANEL FEATURES AND CONTROLS

5. REGULATOR ASSY.

1~220 VAC

1. 2-POLE POWER SWITCH

4. HF GROUND BOLT

GAS

INLET

3. GAS INLET

21

2. POWER CABLE 1 ~ 220/240V

1~220 V

Section 2 QUICK SETUP AND USE GUIDE

REAR PANEL FEATURES AND CONTROLS CONTINUED

POWERPRO 164Si

1. 2 Pole Power switch

2. Power Cord

3. Gas Input Connection

4. HF Ground Bolt

5. Air Regulator Assembly

PARAMETERS PURPOSE

On/Off

110/120V/220/240

V

1 phase, 50/60 Hz.

The unit is prewired with a standard NEMA 6-50 plug. This is the standard plug for welders in the US and Canada. Other regions voltage input and plug configuration may vary. To operate on 110V/120V use the 240V to 120V adapter from Everlast.

1/4-5/16”

The breaker switch has 2 poles. It serves as the On/Off switch for the welder. Always turn the welder on and off by the switch first before using any disconnect. The Water cooler outlet on the rear remains live after the switch is turned off.

N/A

This is the point where the shielding gas from the regulator connects. The unit is supplied with tubing and clamps which connect this fitting to the regulator. The hose barb design allows universal connection of the welder to almost any regulator or setup found throughout the world. Make sure the tubing slides fully over the connector, then thoroughly tighten the clamp. Use an additional clamp if necessary to prevent leaking. If you suspect leaking, test the connection with a solution of mild soapy water. If bubbles are seen, retighten or reinstall the tubing. While changing processes, the tubing must be swapped. Do not run the Argon gas through the air regulator/filter. A T-fitting or Yfitting may be placed inline at the connection to leave both argon and air hooked up without having to swap out the lines. This is not supplied by Everlast.

HF energy can be devastating to surrounding electronic equipment. If the operating environment includes electronic equipment, this connection can serve as a direct path to an outdoor grounded metal rod that is isolated from the main electrical circuit to help bleed off excess HF circuit. All metal parts inside the building should be grounded as well, including pipes, tables, and even metal siding. HF energy has been known to bleed back into the power grid and disrupt electronic devices further down the grid. If the point gap becomes out of adjustment, more HF energy may build up, or even jump across circuitry within the welder. It is recommended that a small, separate ground wire

(minimum 14 gauge) be attached to this point while in use.

90 psi maximum

Supply pressure.

70-75 psi operating pressure while cutting

The regulator serves a dual purpose. 1) It controls air pressure for plasma. 2) It filters fine particulates and large drops of water. The regulator is not designed to regulate

Argon flow or have argon flowing through it. A separate air dryer must be installed inline to prevent rapid torch and consumable wear (Customer supplied). The regulator assembly is not designed to remove moisture from the air, only large drops of water that may be created in the coupling and uncoupling process. Everlast does not warranty damage caused to torches or consumables by moisture. Residual moisture in the line also can contaminate the system, causing problems while TIG welding. The number one issue experienced with Plasma cutting, with many different symptoms is the presence of moisture in the air line. To adjust the pressure, for cutting, simply pull the knob up until it clicks and rotate it clockwise to increase the pressure, and rotate it counter clockwise to decrease the pressure. To adjust the pressure correctly, adjust the pressure while the air is flowing in post flow mode. If a flow tube for the torch is provided, adjust it so the ball floats in the window as depicted in the torch manual

. WARNING: Do not fire torch with the flow tube installed on the torch. Turn Post flow to maximum, fire the torch, then install the flow meter and make adjustments to the air pressure while it is flowing.

If no flow tube is provided, adjust pressure to 70-75 psi.

NOTES:

1. The gas input connection should be checked for tightness periodically, especially if the machine is moved or when changing process.

2. Never operate welder on a generator that is not certified by its manufacturer to be “clean” power, which is less than 10% total harmonic distortion. Less than 5% is preferred. Operating the unit on square wave output or modified sine wave generator is strictly prohibited.

Contact the manufacturer of the generator for this information. Everlast does not have an “approved” list of generators. But, if the generator is not listed as clean power by its manufacturer, then operation is prohibited. Generators that do not at least meet the operating input requirements of the welder are also forbidden to be used with the welders. Surge amp capability of the generator should equal or exceed the maximum inrush demand of the welder. But the surge capability should not be used as the only factor. The regular, running output of the generator should match or exceed the running or “rated” demand of the welder. Any damage done by operating the welder on a generator not specified by its manufacturer to be “clean”, will not be covered under warranty. This also includes suspect power sources where voltage is below 208 V and above 250 V.

22

Section 3

Welder Function Summary and Explanations.

1.

2T/4T sequencer.

The 2T/4T feature allows operation of the TIG welder without a foot pedal. In many circumstances, a foot pedal is not practical for use. So, the 2T/4T function has been created to allow programming of the welder to simulate the activities of the foot pedal while providing more accurate control. The “T” refers to the number of

“travels” of the remote switch required to operate the programming of the sequencer. 2T is essentially a “press and hold” operation and all programming is cycled automatically. Releasing the switch begins the final stage of programming. 4T operates differently in the fact that each touch activates a different stage of the programming, allowing for greater control. Also, in 4T,while actually welding at full amps, no finger contact with the switch is required. Following the graphic lines below, you can visually trace the activity and function of each part of the welding cycle. In either 2T or 4T operation the programming can be reset to “upslope” before reaching the end amp stage by pressing the switch once more. See the graphics below for further explanation. The up and down arrows indicate the switch travel direction. NOTE: The PowerPro

164 has fixed start and end amps. It also has fixed preflow and up slope. Downslope and post flow are the only features adjustable on this unit.

2T Torch Operation Effect on Weld Cycle

WELD AMPS

WELD AMPS

PREFLOW

START AMPS

= UP ON SWITCH

= DOWN ON SWITCH

4T Torch Operation Effect on Weld Cycle

START AMPS

PREFLOW

WELD AMPS

END AMPS

POST FLOW

END AMPS

POST FLOW

23

Basic theory and function

Post-Flow is a feature that works in conjunction with both the foot pedal and the 2T/4T sequencer. Add more post flow time for larger welds.

For Pedal operation, turn Down slope to the minimum setting (0) and select 2T.

2.

AC Frequency.

The AC frequency only applies to the

AC mode. Standard transformer welders typically have a fixed frequency of 60 Hz which is essentially the line input frequency supplied by the power company.

But with inverters, the AC frequency adjustment is practically limitless due to the IGBT components that create the welding power. Frequency adjustment is useful to help improve the directional control of the arc, and to focus the arc so that a narrower bead profile can be achieved. Also, at higher frequencies, the puddle agitation is greater which improve the breakup of undesirable oxides. A setting of 100-120 Hz is a good starting point. See the graphic below.

200 Hz

AC FREQUENCY EFFECTS

60 Hz

3.

AC Balance.

The advanced form of AC square wave output is formed by alternating polarity rapidly between electrode negative and electrode positive, creating a wave form that resembles a square “sine” wave when viewed on an oscilloscope. Normally, with standard transformer welders, both standard sine wave and even square wave welders have little or no way to adjust the balance of EN to EP, which results in having to weld with a molten ball at the tip of the tungsten and a less stable arc. Electrode negative (EN) provides penetration in the TIG welding process. Electrode positive (EP) creates a strong reverse flow of electricity that breaks up the weld-resistant oxidation that covers aluminum and magnesium components.

EP also places a lot of heat on the tungsten. In a

“balanced” wave where both EP and EN are equal in

Section 3 the side of the weld. Not all weld conditions will be alike, so more cleaning is required at times than others. Similarly, more penetration will be required at times than others. Ordinarily, about 30-

35% electrode positive is considered an ideal amount (65-70% electrode negative). This means that more heat is put into the work than is placed on the tungsten. A sharper point can be used.

Cleaning is still sufficient at that level. Good results can be achieved with about 30% EP or less. The cleaning action is still visible even at these levels.

Ideally, the cleaning action should be adjusted until a small amount of frosting can be seen no more than 1/8” distance from the edge of the weld. If a piece of metal is particularly heavily oxidized or dirty, more cleaning action will be required. If too much cleaning action is used, the tungsten will begin to ball and even may start to burn away. If this much cleaning action is needed, then switch to a larger size of tungsten that can handle the increased heating level. Signs of too little cleaning action while welding aluminum include soot, porosity, and dull looking (scummy) welds. A dedicated stainless steel brush and suitable aluminum cleaner such as acetone should be used before starting any aluminum weld to help break up the heaviest oxide layer so less EP is needed and better penetration can be achieved.

EXAMPLE: AC EP (+) BALANCE

1 Hz (one full AC cycle)

EP 50%

EN 50%

50%

Standard transformer welder balance: 50% EN/EP

Balling tungsten, light penetration, wide cleaning area.

EN 35%

EP 65%

50%

Extreme cleaning setting. 65% EP:

Shallow penetration, balling tungsten, excessive cleaning area.

EN 65%

50%

EP 35%

Good penetration setting 35% EP:

Deeper penetration, sharper tungsten, narrow cleaning area.

24

Basic theory and function

Cleaning/Frosted Area of Aluminum

30% EP

Narrow bead/etching/sharp tungsten

50% EP

Wider bead/etching/rounded tungsten

65% EP

Wide bead/etching/balled tungsten

NOTES:

1. Due to the rapid switching of the inverter, High

Frequency (HF) is not used except to start the arc. In a transformer welder, the HF would remain on to stabilize the AC arc. However, in an inverter, this is not necessary. So, the HF refers only to the start of the arc, and not to

AC operation. However to reduce tungsten contamination, you should only operate the AC mode with the HF start selected.

2. The addition of Helium to Argon can increase the welding capacity of the welder and alter the amount of cleaning typically needed. Do not exceed 25% however or arc starts will be difficult and erratic.

3. If arc wandering in AC is a problem, reduce cleaning percent to 20-30%. If it continues, reduce gas flow and then check for drafts.

4. Yellow-coded AC controls only apply to AC operation. DC settings are not affected by them.

5. If cleaning lines are excessive at low settings, it is likely not a welder issue, but rather, a speed/ heat issue. The longer the electrode remains in the same place, the more the cleaning area will widen. If you find yourself with this issue, try increasing the amperage to travel faster. If overheating is feared, then use pulse to increase forward travel speed to reduce the cleaning lines. You should only suspect a welder issue if adjusting the AC balance to above

40-60% does not begin to ball the tungsten.

6. If tungsten balling is experienced at settings below 40%, make sure that the torch is in the negative connector and that pure tungsten is

NOT being used.

7. Do NOT use pure tungsten or Zirconiated tungsten in an inverter to weld in AC or DC mode.

Section 3

Basic theory and function

4.

Pulse.

The pulse creates two amp values, a high and a low value that cycle back and forth between each other while welding. The upper amperage is called the “welding amps” (sometimes called “peak” current) and the lower amperage is called “pulse amps “ (sometimes called “background” or

“base“current). This creates a situation where penetration can be achieved without overheating the metal, particularly on metals that are prone to structural deterioration or burn through. In effect you are creating an average of amps. The PowerPRO 164 has been created with a simple function pulse. The pulse frequency can be selected for either 1 Hz or 25 Hz.

The Pulse time on and Pulse amps have been fixed at an optimized setting to simplify the pulse setup process. This simplified operation allows the user to reduce over all heat input and to improve weld appearance without having to worry about fine tuning the pulse settings.

Do not attempt to use the pulse in plasma or stick mode.

See the example to the right for a basic explanation of pulse components and terminology.

NOTE: The panel will begin to reflect the pulse operation in the digital display soon after switching the pulse function on. The display numbers may appear to be randomized. This is normal, because the display is not synchronized to sample at the same rate that the pulse is pulsing. The display will reflect various amps due to differing sample points. To avoid confusion, set the main amps before selecting the pulse feature.

100

AMPS

EXAMPLE 1

Welding Amps: 100 amps,

PulseAmps: 50%

Pulse Time On: 50%

DC Pulse Frequency: 1 Hz

Pulse Time ON

Welding Amps

Pulse Amps

50

Pulse Hz

1 S

2 S 3 S

DC

25

Section 3

Basic theory and function

5.

Automatic Arc Force Control/Surge Amp Control.

When stick welding, arc force is used to help improve performance of the welder with certain metals and welding rods. The arc force boosts current flow to match the demands of arc length and position. As an arc is held shorter, voltage tends to drop so extra amps are introduced to help maintain a steady arc. Surge amps boost the starting amperage briefly to heat up the welding electrode and weld area so the arc starts cleanly, without sticking or porosity. Both controls are inactive while welding in TIG mode. These features are automatically regulated on the PowerPRO 164, but are an intrinsic part of it’s operation in stick mode.

6.

Foot Pedal. 22k

.

Select 2T on the panel. Select the maximum amp value desired on the panel. The foot pedal will only control amps up to the range governed by the main amp control. If more amperage is needed raise the amp level on the panel. The foot pedal also controls both Welding Amps, and Pulse

Amps through the ratio established by selecting the pulse Amp % on the panel. Welding with pulse and the foot pedal takes practice, as it will seem the welder is welding at less amps than it is. Always set the panel amps to about 25% more than what is needed. Increasing the amps more than this margin on the panel will reduce the accuracy of the foot pedal by lowering the resolution of the foot pedal. Be sure to turn the start/end amps and up/down slope to the minimum settings or the 2T programming will be active and interfere with pedal operation. The pedal cannot override the 2T amp and slope controls. For more accurate and responsive control, Everlast offers a US made foot pedal available as an additional option.

Do not attempt to control the stick function with the foot pedal.

8.

Water-cooled torch.

A water cooler is necessary for use with the water cooled torches. These aren’t normally necessary with this unit, but many prefer to make a separate purchase of a water cooled torch for comfort’s sake. Please note that using a water-cooled torch even briefly without water can seriously and permanently damage your torch. Torches used without water-coolers cannot be warrantied unless cleared by

Everlast. Everlast carries water-coolers designed to cool the maximum amp capacity of the torches. If you are not able to provide a water cooler or have not purchased a water cooler, you will need to use the stock air cooled (gas cooled) torch provided with the welder, or purchase a air cooled torch that is more suitable.

All consumables should be interchangeable with other brand torches with similar designations. They should be available for local purchase. No special consumables are required. Although a small starter kit of consumables is included, you will need more consumables fairly quickly.

No Tungsten is included with the starter kit. Actual starter kit contents may vary.

Contact Everlast if you desire to purchase an air cooled torch that is complete, ready to go.

9.

DINSE style connector.

Everlast uses a 35-70mm² connector for both negative and positive connectors, which is a standard connector within the welding industry. This is commonly known as a 1/2” or 35 series DINSE-style connector. The connector allows the use of almost any brand or style of TIG torch.

10.

7 pin remote/foot pedal connector.

This 7 pin connector is available from Everlast should it become damaged. See

Pin-out reference found near the end of this manual.

11.

Argon quick connect.

This is a 9 mm size quick connect nipple. These are commonly available from Everlast or online sites which carry torches and fittings. Should you need a new one for your torch or damage yours, consult

Everlast. Do not use a nipple that is scarred, bent or otherwise deformed. Damage to the female connector may result. Serious leaks may occur.

12.

Low amp starts.

The units have been configured to be able to start and weld at approximately 5(±2) amps in DC stick/tig only. However, to obtain the most stable starts, a slightly higher amp setting may be required, or a smaller tungsten may be necessary. After the arc is started, amps may be reduced to a minimum level. This is accomplished with setting a higher start amp value (2T/4T) or by pressing down more on the foot pedal until the arc stabilizes, then backing the amps down slowly until the arc stabilizes at the minimum selected amps. Minimum start amps in AC is 20 amps. This is still a fairly low value, but to increase weldability on thin materials with this unit, consider increasing

AC balance to 40—50%. This may cause the tungsten to ball, and the arc to become slightly unstable, but will put less heat into the material. Decrease AC frequency as well to spread the arc out over a wider area and reduce the concentration of heat.

13.

Argon Regulator.

Note whether the argon regulator is calibrated in lpm, and cfh. (subject to change) Some equipment may be provided in lpm. To roughly convert from lpm to CFH, multiply by 2. This is not 100% accurate, but is close enough not to matter in most situations.

26

Section 3

2.5 – 3 X Ø (DIAMETER)

Basic theory and function

TUNGSTEN PREPARATION

<50 A

>50 A

1. Use a dedicated grinding wheel or contamination may result. Do not breath grinding dust! Wear eye protection and gloves.

2. Hold Tungsten firmly.

3. Grind perpendicular to grinding wheel face. Allow tungsten to grind away slowly, creating point.

4. Rotate tungsten quickly as it is being ground to keep point even and symmetrical.

DO NOT GRIND TUNGSTEN

PARALLEL TO WHEEL FACE

OR AN UNSTABLE ARC WILL

RESULT.

Use a point for low amp use to help control arc. Create a slight truncation on the tip for higher amp use for best arc stability.

Grind the tip so that it is2.5- 3 times longer than the tungsten is wide (Diameter).

DO NOT BALL TUNGSTEN

WHILE USING AC. ERRATIC

ARC WILL RESULT. MAKE

SURE GRINDING MARKS

RUN PARALLEL TO TIP.

CONCENTRIC MARKS WILL

CAUSE ERRATIC ARC.

NEVER USE PURE (GREEN) TUNGSTEN IN AN INVERTER WELDER TO WELD ALUMINUM.

SEE FOLLOWING RECOMMENDATIONS ABOUT TUNGSTEN SELECTION FOUND IN THIS MANUAL ON NEXT PAGE.

27

Section 3

Basic theory and function

HIGH FREQUENCY START TIG OPERATION

FOR AC OR DC USE.

<1/8

1

2

4

<1/8”

3

1. Position the point of the sharpened tungsten about 1/8” or less above the metal.

2. Press the torch trigger or press the foot pedal to initiate the arc. The HF arc will be initiated. It may appear briefly as a blue spark.

3. An arc should form, almost immediately after the pre-flow cycle is completed. HF arc initiation will be delayed by the amount of pre-flow time used. If arc does not start after the pre-flow interval, and the HF is creating a spark, then check the work clamp contact with the work piece. Move the tungsten closer to the work. Repeat steps 1 and 2.

4. Leave 1/8” or less gap between the tungsten tip and the metal and proceed with welding, leaving the torch inclined at a 15° angle.

General TIG Arc Starting Steps

1. Turn unit on, allow time for power up cycle to complete its start up process.

2. Select either HF with the HF/CUT/Stick selector switch. Select DC mode with the AC/DC torch switch.

3. Plug in Torch and select 4T or 2T mode with the selector switch

OR

plug in foot pedal and select 2T.

4. If using the torch switch select start/end amps amperage by rotating the knob to increase or decrease amps for starting and ending the weld.

5. If using the torch switch, select up/ down slope time by rotating the knob to increase/decrease the ramp up or ramp down time of the amperage.

6. Adjust amps with amp control knob.

7. Start arc as depicted above.

8. If using 2T, continue to hold the torch switch until you are ready to stop welding. Release the switch. The Arc will then cease.

If using pedal raise foot fully off the pedal and arc will stop automatically.

9. If using 4T, release the switch, after arc initiates. Continue to weld without holding the switch down. To stop, press and release the switch again.

28

Section 3

Basic theory and function

STICK OPERATION

STARTING METHODS

Tapping Method

Scratch/Match Method

1. Turn on the power switch on the rear of the unit. Allow unit to cycle through its start up program.

2. Select the Stick mode with the HF/Lift Start/Stick selector switch.

3. Make sure electrode holder is hooked firmly into the positive connector and the work clamp is hooked firmly into the negative connector.

4. Select the amps desired. Use the electrode diameter selection chart in this manual to determine the approximate range of amps suitable for the rod size selected. Consult the welding electrode manufacturer’s recommendation for proper amperage range. Each manufacturer has specific recommendations for its electrodes.

5. Strike the arc with either the tapping method or the match strike method. Beginners usually find that the match strike method yields best results. Professionals tend to gravitate toward the tapping method because of its placement accuracy which helps prevent arc striking outside of the weld zone.

IMPORTANT: Do not weld in the TIG mode with the stick electrode holder still attached.

29

Section 3

Basic theory and function

The design of the blow back start

may

cause a slight delay in the arc as the air pressure must built inside the torch tubing and head to create the pressure needed to force the electrode off the nozzle seat. This may take up to two seconds. Restarting the arc with the post flow going may not cause a delay. If the torch does not light after 3 seconds, let go of the trigger and press it again. If start/arc is erratic check nozzle and electrode for tightness and wear.

0°-15° EDGE START

1

40°-60°

PIERCE START

2

TRAVEL

3

TRAVEL

1/16”

Edge Starts are the best type of start if possible to promote consumable and torch life. This reduces blow back of molten material and allows a smooth gradual start of the cut.

1. Line up the hole on the tip of the electrode on the edge of the cut. Hold torch perpendicular to the cut initially, about 1/16” off the metal. Slide the yellow safety lock and squeeze the trigger. Wait for arc to start.

2. Once the arc starts, wait for the arc to penetrate all the way through the metal.

3. As the torch penetrates its flame all the way through the metal, tilt the torch so there is a slight lead in the flame if metal is thin. If it is thick, keep holding torch in a nearly vertical position.

4. Begin moving the torch in the direction of the cut. Maintain 1/16” standoff height.

5. Move the torch fast enough so the sparks and flame trail from the bottom edge at an angle of no more than 30° and no less than

10° from perpendicular to the metal. Excess angle of sparks/flame indicate too fast of travel speed or practical cut capacity has been reached. Little or no angle indicates too slow of travel speed.

Piercing starts often result in rapid consumable wear and excess blow back of molten metal deposited onto torch and consumables. This should be done only as necessary.

1. Tilt the torch in the direction of travel or toward the side of the metal to be discarded or wasted at a 40° to 60° angle. Slide the yellow safety lock and squeeze the trigger. Wait for arc to start.

2. Once the arc starts, wait for the arc to transfer from pilot arc to the cutting arc.

3. As the torch penetrates it flame at an angle rotate the torch slowly to the vertical position, as the arc penetrates the metal. Tilt the torch from 0°-15° for thin metal cuts, or hold it nearly perpendicular for thicker metal cuts.

4. Begin moving the torch in the direction of the cut. Maintain 1/16” standoff height.

5. Move the torch fast enough so the sparks and flame trail from the bottom edge at an angle of no more than 30° and no less than

10° from perpendicular to the metal. Excess angle of sparks/flame indicate too fast of travel speed or practical cut capacity has been reached. Little or no angle indicates too slow of travel speed.

IMPORTANT: If you use a standoff guide with the torch, it must be adjusted or bent to provide no more than 1/8” standoff, less if possible.

Long standoff heights reduce cut capacity and quality. It also promotes rapid consumable wear and can prevent the pilot arc from transferring.

30

Section 3

Basic theory and function

TIP: For longer consumable life do not use the pilot arc unnecessarily. Do not fire the torch unless you are near the metal and ready to cut. For expanded metal cutting, keep the trigger held so the torch pilot arc will refire and steady cut progression can be accomplished.

FLAME AT NORMAL TRAVEL SPEED FLAME AT FAST TRAVEL SPEED

TRAVEL TRAVEL

FLAME AT SLOW TRAVEL SPEED

15-30

TRAVEL

NOTE:

When stepping down amps to cut thinner material, you must change to smaller orifice nozzle. Nozzles are offered through Trafimet in different sizes which are appropriate for different amp levels. Too large of a diameter orifice will result in arc instability and a rough cut. Lowering the air pressure below 65 psi to try to get the torch to cut will only result in a lazy, wandering arc.

IMPORTANT: Check consumables regularly for wear and change them out before they are completely worn. Allowing the consumables to wear until they quit working may damage related torch components, creating a more costly repair.

31

Section 3

RESULTS OF CUT AT CORRECT SPEED,

AIR PRESSURE AND TORCH ANGLE

SMOOTH, EVEN CUT LINES WITH A S REARWARD SWEEP

Basic theory and function

RESULTS OF CUT AT FAST SPEED

ROUGH, DISTINCT CUT LINES SPACED FAR APART

MINIMAL EASY TO CLEAN DROSS NOTICEABLE SMALL, HARD DROSS

RESULTS OF CUT AT SLOW SPEED

VERTICAL CUT LINES

RESULTS OF TOO MUCH CURRENT OR

TOO MUCH STAND OFF HEIGHT

(SIDE VIEW)

MELTED TOP EDGE

SIGNIFICANT SOFT, POROUS DROSS

RESULTS OF WORN CONSUMABLE OR

LOW AIR PRESSURE

(SIDE VIEW)

SEVERLY ANGLED CUT AT TOP

32

Section 3

Basic theory and function

AN EXAMPLE OF CUTTING A LEAD-IN WHEN CUTTING OUT A DISK SHAPED OBJECT

AN EXAMPLE OF CUTTING A LEAD-IN WHEN CUTTING HOLE IN AN OBJECT

When cutting an object, particularly a pattern shape, where the torch must pierce or re-fire at an intersection of a cut, a lead-in cut should be employed. A lead-in is a cut that is made in the disposable part (also known as a drop) of the object to “lead” into the main part of the cut so that the destructive force of the arc is not directed into the desirable side of the cut itself. Also, all plasma cutters exhibit some angularity or bevel in the cut which is greater on one side than the other. Keep this in mind when cutting an object to size so that too much metal is not accidentally removed. If the bevel is on the wrong side, try flipping the swirl ring over for a different effect.

33

Section 3

Basic theory and function

GENERAL POLARITY RECOMMENDATIONS*

*Follow manufacturer of stick electrode for complete polarity recommendations

PROCESS TORCH POLARITY WORK POLARITY

TIG (GTAW)

-

+

STICK (SMAW)

+

-

TIG (GTAW) OPERATION GUIDE FOR STEEL (ALUMINUM)*

*As a general rule, set amperage using 1 amp for every .001” of metal thickness for aluminum. Less is required for DC.

METAL THICKNESS WELDING AMPS TUNGSTEN DIA.

Ar FLOW RATE

(A)

1-3 mm/.040”-1/8”

3-6 mm/ 1/8”-1/4”

6-10 mm 1/4”-3/8”

40-80 (60-125) 1-2 mm/.040”-3/32” 8-15 CFH /4-7 lpm

80-200 (125-200) 2-3 mm/ 3/32”-1/8” 15-25 CFH/ 7-14 lpm

150-200 (200-250) 3-6 mm/ 1/8”-1/4” 20+ CFH/10-15 lpm.

METAL THICKNESS

< 1 mm/.040”

2 mm/.080”

3 mm/ 1/8”

4-5 mm/ 3/16”

6-10 mm/ 1/4”-3/8”

STICK (SMAW) OPERATION GUIDE

ELECTRODE SIZE

1.5 mm/ 1/16”

2 mm/3/32”

3.2 mm/1/8”

3.2-4 mm/ 1/8”

4–5 mm/ 1/8”-5/32”

WELDING AMPS

20-40

40-50

90-110

90-130

130-200

Pure

TYPE

Lanthanated

Zirconiated

TUNGSTEN SELECTION GUIDE FOR AN INVERTER

PERCENT COLOR PROCESS RECOMMENDATION

100% Tungsten Green AC

Thoriated

(slightly radioactive)

2% Thorium

Ceriated

Lanthanated

2% Ceria

Red AC/DC

Orange AC/DC

1.5% Lanthanum Gold AC/DC

2% Lanthanum Blue

1% Zirconia Brown

AC/DC

AC

NOT RECOMMENDED!

Do not use in an inverter.

YES. Great for all purpose welding. Most economical.

YES. Good for low amp use.

YES. Best alternative to 2% Thoriated. Tough performer.

YES. Slight advantage over 1.5% Lanthanated.

NOT RECOMMENDED!

Do not use in an inverter.

NOTE: Thoriated tungsten is slightly radioactive, but is commonly used in the US. Care should be used when grinding so as not to breath the dust. If you have concerns about Thoriated (red) tungsten, choose from Lanthanated or Ceriated tungsten.

34

Section 3

5

4

3

1

Basic theory and function

EXPANDED VIEW OF TIG TORCH

(Actual appearance may vary slightly from what is listed.)

1

2

9

1

6

7

12

8

13

5/8”

9

15

14

11

12

13

14

7

8

9

10

15

2

3

4

5

6

NO. Parts for Standard 17/26 Series Torch ( 18 series uses same consumables and basic design is similar, except water cooler line plumbing)

1 Long Back Cap with O-Ring

Short Back Cap

Torch Head

Insulator

Collet 1/16 or 3/32

Collet Holder

Ceramic Cup #5,6, or 7

Tungsten (customer supplied)

Torch Cable

Torch Handle (Blue ergo handle std, not pictured)

Torch Switch (Built into ergo handle, separate on straight handle)

Torch Switch Connector

9mm (1/8”) b quick connect coupling (male)

Power Connector

Protective Synthetic Rubber Cover

QTY.

1

1

1

1

1

0

1

1

1

1

Opt.

1

1

1

1

35

Section 3

Basic theory and function

POWERPRO 164Si S 45 PLASMA TORCH**

*

*Everlast is not the manufacturer of the Trafimet S-75 torch, nor is it affiliated with Trafimet other than its role as an OEM supplier of torches on PowerPRO S-Series units. Trafimet and its logo are a gistered trademarks of Trafimet. Not all items, accessories and parts depicted are available directly through Everlast. These are items supplied through nationwide Trafimet dealers and resalers. Diagram provided courtesy of Trafimet.

**Actual manufacturer of the S-45 torch may vary, but consumables are still considered interchangeable with the Trafimet S-45 model and will function normally.

36

Section 3

Basic theory and function

7 PIN CONNECTOR FOR 22K

FOOT PEDAL

To Pedal or Torch Switch

To Pedal or Torch Switch

Bridge to 7

Bridge to 6

37

Section 4 Trouble Shooting

TIG/Stick Trouble shooting:

Machine will not turn on.

Machine runs, but will not weld in either mode.

Arc will not start unless lift started.

CAUSE/SOLUTION

Check cords and wiring in the plug. Check circuit breaker.

Check for sound work clamp and cable connections.

Make sure work cable and TIG Torch are securely fastened to the Dinse style connector. Reset main power switch if overcurrent light is on. Contact Technical Support.

Check HF point gap. Set to .035” See addendum or contact Technical Support. Make sure unit is set to HF

Tungsten is rapidly consumed. Inadequate gas flow. Too small of tungsten. Wrong shielding gas. Use only Ar. Using green tungsten. Use red thoriated or other color. Wrong polarity. Too much AC cleaning.

Tungsten is contaminated, arc changes to a green color. Tungsten is dipping into weld. Check and adjust stick out to minimum 1/8 inch. Tungsten is melting. Reduce amperage or increase tungsten size.

Porosity of the Weld. Discolored weld color. Tungsten is discolored.

Low flow rate of shielding gas. High flow rate of shielding gas. Too short of post flow period. Wrong TIG cup size.

Possible gas leaks internally or externally due to loose fittings. Base metal is contaminated with dirt or grease.

Weld quality is poor. Weld is dirty/oxidized. Eliminate drafts. Check if there is sufficient shielding gas left in tank. Check gas flow. Adjust for higher flow of gas. Listen for audible click of gas solenoid. If no click is heard, then contact Everlast Support. Clean weld properly, especially in Aluminum. Too short of post flow. Check tungsten stick out.

Over current/Duty cycle LED illuminates. Machine runs, but no output.

Unstable Arc.

Other issues.

Duty cycle exceeded or Over current. Allow machine to cool. Reset main power switch after full cool down period. Make sure fan is not blocked. Check wiring.

Poorly ground or shaped tungsten. Regrind to proper point. Too much AC positive polarity. Reduce balance to 30% or less. Increase AC Frequency.

Contact Everlast support.

38

Section 4

Trouble Shooting

PLASMA TROUBLE SHOOTING: CAUSE/SOLUTION

Air Flows but arc does not start withing 2-3 seconds. Check consumables for wear and tightness. Check fuse.

Check Air Pressure. Sticky or slow spring/piston on torch blow back mechanism. Release trigger and try again. Preflow turned on.

Air Flows but arc does not start or spark when nozzle is rubbed on the metal.

Pre Flow is turned on. Fuse blown. Missing swirl ring. Worn or loose consumables. IGBT issue. PCB issue.

OK to cut light is not on. Will not start arc. Increase air Pressure. Make sure air is connected.

Pilot arc will not light.

Pilot arc will not transfer and amps read approximately 25-27 amps while switch is held. (Arc barely cuts or only “scratches” the surface of the metal or cut is extremely slow on thin materials.)

Arc Sputters.

Fuse blown. Missing or damaged swirl ring.

Check work clamp connection. Make sure rust is removed from work clamp contact area. Faulty Clamp. Arc continuity is not being sensed. If these steps do not correct the issue, contact Everlast.

Inadequate air flow or air pressure. Improperly sized nozzle.

Decrease size as amps are lowered. Increase air pressure to

70-75 psi while air is flowing through torch. Loose consumables. Check tightness.

Moisture, oil contamination of consumable. Wrong consumables. Poor quality aftermarket consumables.

Consumables are dirty, smutty looking upon inspection. Premature wear on consumables. Shortened consumable life.

Premature wear on consumables. Short consumable life. Uneven wear of consumables, melting of cup.

Arc will not start. Air will not flow. Machine runs.

Amperage changes constantly, “bouncing” back and forth wildly, randomly.

Moisture, oil contamination of consumable. Excessive pilot arc time. Improper cutting technique. Wrong piercing technique.

Torch cup is loose, safety contact pins dirty or not making contact with cup face. Torch switch wire is loose. Problem with connector. Torch is not properly connected.

Pulse turned on. Turn off.

Unstable Arc at lower amps. Consumable orifice size is too large. Reduce orifice size.

Arc tries to start but irregular, dancing arc and/or arc melts through side of nozzle.

Missing swirl ring, or worn electrode or both. Check and replace. Make sure swirl ring is not cracked.

Arc will try to start if touched to the metal, but no air flow while switch is pressed.

Stuck or dirty solenoid valve. Contact Everlast. Wrong Process selected.

Air flows continuously.

Excessively Beveled Cut.

Post flow turned set too long. Preflow is turned on. Solenoid is stuck. Contact Everlast.

Worn consumables, too high of stand-off height.

Cup and/or nozzle is melting or cracking.

Power input circuit breaker trips repeatedly.

Arc “Blows Out” when ready to cut.

Arc will not stop when switch is released.

Improper cutting technique/excessive piercing.

Improperly sized circuit. Internal issue. Contact Everlast.

Too high of air pressure. Reduce to 72 psi.

Unit is in 4T. Switch to 2T. Torch trigger is stuck.

39

40

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