ESAB ESP-600C Instruction manual

INSTRUCTION MANUAL

ESP-600C

Cutting Power Source

F-15-237

October, 1995

100

0

0

200

D-C AMPERES

10

D-C VOLTS

A

300

400

500

V

20

30

40

5

4

6

3

600

50

7

8

V

9

MIN

MAX

CURRENT

MAIN

HIGH

PILOT
ARC

POWER

PANEL

OVER
TEMP

LOW

REMOTE

CONTACTOR

ON

FAULT

POWER
RESET
FAULT

This manual provides installation, operation, maintenance, and troubleshooting instructions for the following units:

ESAB P/N 35609 - 460 V ac, 60 Hz
ESAB P/N 35610 - 400 V ac, 50 Hz
ESAB P/N 35611 - 575 V ac, 60 Hz

These INSTRUCTIONS are for experienced operators. If you are not fully familiar with the principles of operation and safe
practices for arc welding equipment, we urge you to read our booklet, "Precautions and Safe Practices for Arc W elding,
Cutting, and Gouging," Form 52-529. Do NOT permit untrained persons to install, operate, or maintain this equipment. Do
NOT attempt to install or operate this equipment until you have read and fully understand these instructions. If you do not
fully understand these instructions, contact your supplier for further information. Be sure to read the Safety Precautions
before installing or operating this equipment.

Be sure this information reaches the operator.
You can get extra copies through your supplier.

ESAB Welding &
Cutting Products

USER RESPONSIBILITY

This equipment will perform in conformity with the description thereof contained in this manual and accompanying
labels and/or inserts when installed, operated, maintained, and repaired in accordance with the instructions provided.
This equipment must be checked periodically . Defective equipment should not be used. Parts that are broken, miss­ing, worn, distorted, or contaminated should be replaced immediately. Should such repair or replacement become
necessary, the manufacturer recommends that a telephone or written request for service advice be made to the
Authorized Distributor from whom purchased.

This equipment or any of its parts should not be altered without the prior written approval of the manufacturer. The
user of this equipment shall have the sole responsibility for any malfunction which results from improper use, faulty
maintenance, damage, improper repair, or alteration by anyone other than the manufacturer or a service facility
designated by the manufacturer.

TABLE OF CONTENTS

SECTION TITLE PAGE
PARAGRAPH

SECTION 1 DESCRIPTION ................................................................................................. 5

1.1 Introduction ....................................................................................................... 5

1.2 Description ........................................................................................................ 5

SECTION 2 INSTALLATION ................................................................................................ 8

2.1 General ............................................................................................................. 8

2.2 Unpacking and Placement ................................................................................ 8

2.3 Input Power Connections .................................................................................. 8

2.4 Output Connections .......................................................................................... 9

2.5 Parallel Installation ............................................................................................ 10

SECTION 3 OPERATION..................................................................................................... 11

3.1 Introduction ....................................................................................................... 11

3.2 Control Panel .................................................................................................... 11

3.3 V olt-Ampere (Slope) Characteristics ................................................................. 12

3.4 Sequence of Operation ..................................................................................... 12

3.5 Arc Initiation Settings ........................................................................................ 13

SECTION 4 MAINTENANCE ............................................................................................... 16

4.1 General ............................................................................................................. 16

4.2 Cleaning............................................................................................................ 16

4.3 Lubrication ........................................................................................................ 16

SECTION 5 TROUBLESHOOTING ..................................................................................... 17

5.1 General ............................................................................................................. 17

5.2 Indicators .......................................................................................................... 17

5.3 Fault Isolation.................................................................................................... 18

5.4 Testing and Replacing Components.................................................................. 26

SECTION 6 REPLACEMENT PARTS.................................................................................. 29

6.1 General ............................................................................................................. 29

6.2 Ordering ............................................................................................................ 29

2

SAFETY PRECAUTIONS

WARNING: These Safety Precautions are for

your protection. They summarize precaution­ary information from the references listed in

Additional Safety Information section. Before
performing any installation or operating procedures, be
sure to read and follow the safety precautions listed below
as well as all other manuals, material safety data sheets,
labels, etc. Failure to observe Safety Precautions can result
in injury or death.

PROTECT YOURSELF AND OTHERS --
Some welding, cutting, and gouging
processes are noisy and require ear
protection. The arc, like the sun, emits

ultraviolet (UV) and other radiation and
can injure skin and eyes. Hot metal can cause burns.
Training in the proper use of the processes and equip­ment is essential to prevent accidents. Therefore:

1. Always wear safety glasses with side shields in any work

area, even if welding helmets, face shields, and goggles
are also required.

2. Use a face shield fitted with the correct filter and cover

plates to protect your eyes, face, neck, and ears from
sparks and rays of the arc when operating or observing
operations. Warn bystanders not to watch the arc and
not to expose themselves to the rays of the electric-arc
or hot metal.

3. Wear flameproof gauntlet type gloves, heavy long-sleeve

shirt, cuffless trousers, high-topped shoes, and a weld­ing helmet or cap for hair protection, to protect against
arc rays and hot sparks or hot metal. A flameproof apron
may also be desirable as protection against radiated
heat and sparks.

4. Hot sparks or metal can lodge in rolled up sleeves,

trouser cuffs, or pockets. Sleeves and collars should be
kept buttoned, and open pockets eliminated from the
front of clothing

5. Protect other personnel from arc rays and hot sparks

with a suitable non-flammable partition or curtains.

6. Use goggles over safety glasses when chipping slag or

grinding. Chipped slag may be hot and can fly far.
Bystanders should also wear goggles over safety glasses.

FIRES AND EXPLOSIONS -- Heat from
flames and arcs can start fires. Hot slag
or sparks can also cause fires and ex­plosions. Therefore:

1. Remove all combustible materials well away from the

work area or cover the materials with a protective non­flammable covering. Combustible materials include wood,
cloth, sawdust, liquid and gas fuels, solvents, paints and
coatings, paper, etc.

2. Hot sparks or hot metal can fall through cracks or

crevices in floors or wall openings and cause a hidden
smoldering fire or fires on the floor below. Make certain
that such openings are protected from hot sparks and
metal.“

3. Do not weld, cut or perform other hot work until the

workpiece has been completely cleaned so that there
are no substances on the workpiece which might pro­duce flammable or toxic vapors. Do not do hot work on
closed containers. They may explode.

4. Have fire extinguishing equipment handy for instant use,

such as a garden hose, water pail, sand bucket, or
portable fire extinguisher. Be sure you are trained in its
use.

5. Do not use equipment beyond its ratings. For example,
overloaded welding cable can overheat and create a fire
hazard.

6. After completing operations, inspect the work area to
make certain there are no hot sparks or hot metal which
could cause a later fire. Use fire watchers when neces­sary.

7. For additional information, refer to NFPA Standard 51B,
"Fire Prevention in Use of Cutting and Welding Pro­cesses", available from the National Fire Protection Asso­ciation, Batterymarch Park, Quincy, MA 02269.

ELECTRICAL SHOCK -- Contact with live
electrical parts and ground can cause
severe injury or death. DO NOT use AC
welding current in damp areas, if move­ment is confined, or if there is danger of
falling.

1. Be sure the power source frame (chassis) is connected
to the ground system of the input power.

2. Connect the workpiece to a good electrical ground.

3. Connect the work cable to the workpiece. A poor or
missing connection can expose you or others to a fatal
shock.

4. Use well-maintained equipment. Replace worn or dam­aged cables.

5. Keep everything dry, including clothing, work area, cables,
torch/electrode holder, and power source.

6. Make sure that all parts of your body are insulated from
work and from ground.

7. Do not stand directly on metal or the earth while working
in tight quarters or a damp area; stand on dry boards or
an insulating platform and wear rubber-soled shoes.

8. Put on dry, hole-free gloves before turning on the power.

9. Turn off the power before removing your gloves.

10. Refer to ANSI/ASC Standard Z49.1 (listed on next page)
for specific grounding recommendations. Do not mistake
the work lead for a ground cable.

ELECTRIC AND MAGNETIC FIELDS —
May be dangerous. Electric current flow­ing through any conductor causes lo­calized Electric and Magnetic Fields
(EMF). Welding and cutting current cre­ates EMF around welding cables and
welding machines. Therefore:

1. Welders having pacemakers should consult their physi­cian before welding. EMF may interfere with some pace­makers.

2. Exposure to EMF may have other health effects which are
unknown.

3. Welders should use the following procedures to minimize
exposure to EMF:
A. Route the electrode and work cables together. Secure

them with tape when possible.
B. Never coil the torch or work cable around your body.
C. Do not place your body between the torch and work

cables. Route cables on the same side of your body.
D. Connect the work cable to the workpiece as close as

possible to the area being welded.
E. Keep welding power source and cables as far away

from your body as possible.

11/95

3

FUMES AND GASES -- Fumes and
gases, can cause discomfort or harm,
particularly in confined spaces. Do
not breathe fumes and gases. Shield­ing gases can cause asphyxiation.
Therefore:

1. Always provide adequate ventilation in the work area by
natural or mechanical means. Do not weld, cut, or gouge
on materials such as galvanized steel, stainless steel,
copper, zinc, lead, beryllium, or cadmium unless positive
mechanical ventilation is provided. Do not breathe fumes
from these materials.

2. Do not operate near degreasing and spraying opera­tions. The heat or arc rays can react with chlorinated
hydrocarbon vapors to form phosgene, a highly toxic
gas, and other irritant gases.

3. If you develop momentary eye, nose, or throat irritation
while operating, this is an indication that ventilation is not
adequate. Stop work and take necessary steps to im­prove ventilation in the work area. Do not continue to
operate if physical discomfort persists.

4. Refer to ANSI/ASC Standard Z49.1 (see listing below)
for specific ventilation recommendations.

CYLINDER HANDLING -- Cylinders, if
mishandled, can rupture and violently
release gas. Sudden rupture of cylin­der, valve, or relief device can injure or
kill. Therefore:

1. Use the proper gas for the process and use the proper
pressure reducing regulator designed to operate from
the compressed gas cylinder. Do not use adaptors.
Maintain hoses and fittings in good condition. Follow
manufacturer's operating instructions for mounting regu­lator to a compressed gas cylinder.

2. Always secure cylinders in an upright position by chain
or strap to suitable hand trucks, undercarriages, benches,
walls, post, or racks. Never secure cylinders to work
tables or fixtures where they may become part of an
electrical circuit.

3. When not in use, keep cylinder valves closed. Have
valve protection cap in place if regulator is not con­nected. Secure and move cylinders by using suitable
hand trucks. Avoid rough handling of cylinders.

4. Locate cylinders away from heat, sparks, and flames.
Never strike an arc on a cylinder.

5. For additional information, refer to CGA Standard P-1,
"Precautions for Safe Handling of Compressed Gases in
Cylinders", which is available from Compressed Gas
Association, 1235 Jefferson Davis Highway, Arlington,
VA 22202.

EQUIPMENT MAINTENANCE -- Faulty or im­properly maintained equipment can cause
injury or death. Therefore:

perform any electrical work unless you are qualified to
perform such work.

2. Before performing any maintenance work inside a power
source, disconnect the power source from the incoming
electrical power.

3. Maintain cables, grounding wire, connections, power cord,
and power supply in safe working order. Do not operate
any equipment in faulty condition.

4. Do not abuse any equipment or accessories. Keep
equipment away from heat sources such as furnaces, wet
conditions such as water puddles, oil or grease, corrosive
atmospheres and inclement weather.

5. Keep all safety devices and cabinet covers in position and
in good repair.

6. Use equipment only for its intended purpose. Do not
modify it in any manner.

ADDITIONAL SAFETY INFORMATION -- For
more information on safe practices for elec­tric arc welding and cutting equipment, ask
your supplier for a copy of "Precautions and
Safe Practices for Arc Welding, Cutting and
Gouging", Form 52-529.

The following publications, which are available from the
American Welding Society, 550 N.W. LeJuene Road, Miami,
FL 33126, are recommended to you:

1. ANSI/ASC Z49.1 - "Safety in Welding and Cutting"

2. AWS C5.1 - "Recommended Practices for Plasma Arc
Welding"

3. AWS C5.2 - "Recommended Practices for Plasma Arc
Cutting"

4. AWS C5.3 - "Recommended Practices for Air Carbon Arc
Gouging and Cutting"

5. AWS C5.5 - "Recommended Practices for Gas Tungsten
Arc Welding“

6. AWS C5.6 - "Recommended Practices for Gas Metal Arc
Welding"“

7. AWS SP - "Safe Practices" - Reprint, Welding Handbook.

8. ANSI/AWS F4.1, "Recommended Safe Practices for Weld­ing and Cutting of Containers That Have Held Hazardous
Substances."

This symbol appearing throughout this manual
means Attention! Be Alert! Your safety is

involved.

The following definitions apply to DANGER, WARNING,
CAUTION found throughout this manual:

Used to call attention to immediate haz­ards which, if not avoided, will result in
immediate, serious personal injury or loss
of life.

Used to call attention to potential haz­ards which could result in personal injury
or loss of life.

1. Always have qualified personnel perform the installa­tion, troubleshooting, and maintenance work. Do not

Used to call attention to hazards which
could result in minor personal injury.

4

SECTION 1 DESCRIPTION

1.1 INTRODUCTION

The ESP-600C cutting power source is designed for high
speed plasma cutting applications. It is normally used
with equipment such as the ESAB ESP Mechanized
Plasma System. For cutting currents beyond the rating of
the ESP-600C, two power sources may be connected in
parallel. The ESP-600C may also be operated in parallel
with the Ultralife-300 or ESP-400 power sources. Refer to
figure 1-1 for technical specifications.

1.2 DESCRIPTION

The ESP-600C is a solid state dc power source capable
of producing 100 to 600 amperes of cutting current at
100% duty (no cool-down period required). Cutting cur­rent is regulated either locally from the power source's
front panel or remotely from a precision 0-10 volt refer­ence (VREF) signal.

The ESP-600C uses a ripple cancellation technique to
produce cutting current with an extremely low ripple
current. The result is a longer life for plasma consumables.
Ripple cancellation is achieved by connecting the 180°
phase shifted outputs from two chopper (buck converter)
circuits in parallel.

Internal components are maintained at proper operating
temperatures by forced air drawn through the power
source. This cooling air is generated by three internal

fans. If the flow of cooling air is inadequate, the ESP-600C
may overheat. If the power source does overheat, ther­mal switches provide protection for the main transformer
and power semiconductor components. These switches
automatically reset when the components have cooled to
their normal operating temperature.

Solid state circuitry maintains constant-current output
independent of component heating and line voltage varia­tions (within ±10% of the rated load). If input voltage falls
substantially outside of the ±10% margin, the power
source will protect itself by safely shutting down.

Nuisance tripping is reduced by an excitation circuit that
practically eliminates high input currents to the main
transformer.

The ESP-600C is designed for ease of moving and
handling. Sufficient clearance at its base permits lifting
with a forklift truck. The power source may also be raised
with a crane or hoist using the lifting rings protruding
through the top cover.

Use both lifting rings when using a hoist or crane.
Using only one ring may distort and damage the
sheet metal parts.

5

SECTION 1 DESCRIPTION

OUTPUT
(100% DUTY)

INPUT

DIMENSIONS
(without skids)

Voltage
Current Range DC
Power
Open Circuit

Voltage (OCV)
Voltage (3-phase)
Current (3-phase)
Frequency
KVA
Power
Power Factor

Height
Width
Depth

ESP-600C

460 V, 60 Hz

(P/N 35609)

460 V ac 400 V ac 575 V ac

179 A RMS 206 A RMS 143 A RMS

60 Hz 50/60 Hz 60 Hz

142.6 KVA 142.7 KVA 142.4 KVA

129.8 KW 129.9 KW 129.6 KW

ESP-600C

400 V, 50 Hz

(P/N 35610)

200 V dc

100 A to 600 A

120 KW

427 V dc

91%

40.25 in (102.24 cm)

37.25 in (94.62 cm)

45.00 in (114.3 cm)

ESP-600C

575 V, 60 Hz

(P/N 35611)

NET WEIGHT

2040 lbs (925.34 kg)

Table 1-1. ESP-600C Specifications

6

SECTION 1 DESCRIPTION

Figure 1-1. ESP-600C Functional Block Diagram

7

SECTION 2 INSTALLATION

2.1 GENERAL

Proper installation will contribute to safe, satisfactory, and
trouble-free operation of the ESP-600C. This section
should be studied carefully and closely followed.

2.2 UNPACKING AND PLACEMENT

CAUTION

Use the two lifting eyes whenever lifting the unit. Do
not use just one of the lifting eyes.

A. Immediately upon receipt of the equipment, in-

spect for damage which may have occurred in
transit. Notify the carrier of any defects or dam­age at once.

B. After removing the components from the ship-

ping container(s), check the container(s) for any
loose parts. Remove all packing materials.

C. Check air passages of the ESP-600C for any

packing materials that may obstruct air flow
through the power source.

2.3 INPUT POWER CONNECTIONS

Electric shock can kill! Take precau-

tionary measures to provide maximum
protection against electrical shock. Before making
electrical connections between the power source
and the line (wall) disconnect switch, be sure that all
power is off by opening the line (wall) disconnect
switch.

A. Primary Power

The ESP-600C is a 3-phase unit and must be
connected to a 3-phase power line. Input power
must be provided from a line (wall) disconnect
switch that contains fuses or circuit breakers
sized in accordance with figure 2-1. Although
equipped with line voltage compensation, it is
suggested that the ESP-600C be connected to a
dedicated power line to prevent impaired perfor­mance due to an overloaded circuit.

B. Input Conductors (not supplied)

D. If the equipment is not to be installed immedi-

ately, store it in a clean, dry, well-ventilated area.

E. The location of the power source should be

relatively close to a properly fused supply of
electrical power.

F. Locate the ESP-600C in an open area where air

can circulate freely. If space is at a premium,
leave at least 2 feet of clearance between the
nearest obstruction and the front and rear of the
power source. Also, keep the area beneath the
power source free of equipment and debris. The
area around the power source should be rela­tively free of dust, fumes, and excessive heat. It
is also suggested to locate the power source so
the top cover and side panels can be removed
easily for cleaning and maintenance.

Primary power is applied to the ESP-600C through
four insulated copper conductors (three power
leads and one ground lead) sized in accordance
with table 2-1. The leads may consist of a heavy
rubber covered cable or may be run in a solid or
flexible conduit.

NOTE
Input conductors must be terminated with ring terminals
sized for ½-inch hardware before being attached to the
ESP-600C.

1. Remove the left side panel of the ESP-600C.

2. Thread the conductor cables through the access
opening in the rear panel of the ESP-600C.

3. Secure the cables with a strain relief or conduit
coupling (not supplied) at the access opening.

Take precautionary measures to ensure ring termi­nals have sufficient clearance between the side panel
and main transformer. Also, make sure the input
cables do not interfere with cooling fan rotation.
Otherwise, damage to the ESP-600C and personal
injury may occur.

8

SECTION 2 INSTALLATION

4. Connect the ground lead to the stud on the
chassis base below the primary terminals as
shown in figure 2-1.

It is of the utmost importance that the chassis be
connected to an approved electrical ground to pre­vent accidental shock. Be sure the ground lead is
NOT connected to any primary terminal.

5. Connect the power lead ring terminals to the
primary terminals with the supplied bolts, wash­ers, and nuts as shown in figure 2-1.

6. Connect the input conductors to the line (wall)
disconnecth.

Rated Load

Volts Amps

400
460
575

* Sizes per National Electric Code for 90 °C rated copper
co nduc t ors @ 40 °C ambient. Not more than three conductors in
raceway or cable. Local codes should be followed if they specify
sizes other than those listed above.

** During heavy duty cutting at 600 A, input current can
momentarily rise above 200 A and cause nuisance blowing of
200 A fuses. When cutting currents are below 500 A, 200 A fuses
are sufficient.

206
179
143

Inp ut &

Gnd.

Conductor*

CU/AWG

4/0
3/0
1/0

Time-Delay

Fuse Size

Amps

250

250**

200

2.4 OUTPUT CONNECTIONS

Before making any connections to
the power source output bus bars,
make sure the power source is
deenergized by opening the line (wall)

disconnect switch. To be doubly safe,
have a qualified person check the output bus bars
(positive and negative) with a voltmeter to be sure all
power is off.

A. Output Cables (not supplied)

Select plasma cutting output cables on the basis
of one 4/0 AWG, 600-volt insulated copper cable
for each 400 amps of output current. Do NOT use
ordinary 100-volt insulated welding cable.

1. Remove the access panel on the lower-front
panel of the power source.

2. Thread the output cables through the openings at
the bottom of the front panel or at the bottom of
the power supply immediately behind the front
panel.

3. Connect cables to the designated terminals
mounted inside the power source using UL listed
pressure wire connectors.

Table 2-1. Recommended Input Conductor and

Line Fuse Sizes

Figure 2-1. Interconnection Diagram

9

SECTION 2 INSTALLATION

NOTE
Each bus bar terminal is labeled with a polarity mark to
help facilitate a standard plasma hookup (negative bus to
torch electrode and positive bus to the workpiece). For
parallel operation connections, refer to paragraph 2.5.

4. Attach access panel removed in step 1.

5. Complete the plasma system installation in
accordance with the appropriate instructional
literature.

2.5 PARALLEL INSTALLATION

In order to provide an extended output current range, two
power sources may be connected together forming a
parallel output circuit. See figure 2-2.

NOTE
For cutting currents below 200 A, use only one power
source.

A. Connect the negative (-) output cables to the

power receptacles located on the plumbing box
(high frequency generator) used in the cutting
setup.

Work

First
Unit

Electrode

B. Connect the positive (+) output cables to the

workpiece.

C. Connect the positive (+) and negative (-) connec-

tions between the power sources as shown in
figure 2-2.

D. Connect the pilot arc cable to the "appropriate

place in power source "No. 1."

E. Set the PILOT ARC HIGH/LOW switch in power

source "No. 2" to LOW.

F. Set PILOT ARC HIGH/LOW switch in power

source "No. 1" to HIGH.

Whenever power source "No. 1" is used
by itself in a parallel installation, the
negative output from power source "No.
2" must be disconnected from power

source "No. 1." Failure to disconnect
will make power source "No. 2" electrically "hot"
when power source "No. 1" is energized.

Ensure there is a safe means of disconnecting power
source 2 without exposing any electrical "hot" conduc­tors. This can be accompished by disconnecting the
negative output cable of the power source 2 at both ends
(power source 2 and at the plumbing box). Insulate both
ends with electrical tape.

Electrode

Work

Second
Unit

4/0, 600 Volt
Cable Jumpers
Between Units

-

+

-

+

3-4/0, 600 Volt Neg.
Leads to Plumbing

3-4/0, 600 Volts
Pos. Leads to

Box (Hi-Freq Gen)
Power Receipts

Workplace

Figure 2-2. Parallel Configuration Diagram

10

SECTION 3 OPERATION

3.1 INTRODUCTION

This section is intended to familiarize personnel with the
operational procedures applicable to the ESP-600C cut­ting power source. Read carefully before operating the
power source.

Never operate the ESP-600C with the top cover or
side panels removed. In addition to the safety hazard,
improper cooling may cause damage to internal com­ponents.

3.2 CONTROL PANEL (FIGURE 3-1)

A. MAIN POWER indicator illuminates when input

power is applied to the power source.

B. OVER TEMP indicator illuminates when the power

source has overheated.

C. CONTACTOR ON indicator illuminates when

the main contactor is energized.

D. FAULT indicator illuminates when there are ab-

normalities in the cutting process or when the
input line voltage falls outside of the required
nominal value by ±10%.

E. POWER RESET FAULT indicator illuminates

when a serious fault is detected. Input power
must be disconnected for at least 5 seconds and
then reapplied.

F. PANEL/REMOTE switch controls the location of

current control. Place in the PANEL position for
control from the power source (CURRENT po­tentiometer). Place in the REMOTE position for
control from an external signal (CNC).

G. PILOT ARC HIGH/LOW switch allows selection

for either high pilot arc and low pilot arc.

H. Voltmeter displays arc voltage when cutting.

I. Ammeter displays current while cutting.

200

D-C AMPERES

0

100

A

400

V

300

200

D-C VOLTS

600

400

400

300

200

800

100

0

CURRENT

ARC

+

-

HIGH

LOW

PILOT

5000

PANEL

REMOTE

500

600

OVER
TEMP

CONTACTOR

ON

FAULT

POWER

RESET
FAULT

V

MAIN

POWER

Figure 3-1. ESP-600C Control Panel

11

SECTION 3 OPERATION

3.3 VOLT-AMPERE (SLOPE)
CHARACTERISTICS

The curves shown in figure 3-2 represent the volt-ampere
static characteristics of the ESP-600C. These curves
show the output voltage available at any given output
current between the minimum and maximum settings of
the "current control pot." Values for other settings fall
between the minimum and maximum curves. The output
curve is regulated with precision to within 1% of full output
by the 0-10 volt reference signal (VREF) from the CNC
control.

3.4 SEQUENCE OF OPERATION

A. Apply power by closing the line (wall) disconnect

switch. (The ESP-600C does not have an "ON/
OFF" switch.) The MAIN POWER light will illumi­nate and the FAULT light will flash and then go
out.

B. Select the location from which welding current

will be regulated on the PANEL/REMOTE switch,
either locally from the front panel or from a
precision remote reference.

C. Set PILOT ARC HIGH/LOW switch to HIGH for

cutting currents 250 A or higher. Set switch to
LOW for cutting currents below 250 A.

D. Commence plasma cutting operation in accor-

dance with the appropriate system instruction
manuals.

E. If a fault light illuminates, refer to section 5 for

troubleshooting information.

450

400

300

200

100

DC OUTPUT VOLTAGE (VOLTS)

0

0

427 V - OPEN CIRCUIT

THIS OUTPUT IS FROM
THE BOOST/START CIRCUIT

THRESHOLD
OF CURRENT
DETECTOR

V

REF

= 1.00 V

MIN. CURRENT RATING V

REF

= 1.25 V

100

V

REF

= 2.00 V

200

DC OUTPUT CURRENT (AMPERES)

V

REF

= 3.00 V

MAX. OUTPUT VOLTAGE AT NOMINAL LINE

300

V

REF

= 4.00 V

400

V

REF

= 5.00 V

V

REF

= 6.00 V

500

I

OUT

= 80 V

REF

MAX. CURRENT RATING V

REF

= 7.50 V

V

REF

= 8.00 V

V

REF

= 7.00 V

600

INTERNAL MAX. CURRENT LIMIT

700

Figure 3-2. Volt-Ampere Curves

12

SECTION 3 OPERATION

3.5 ARC INITIATION SETTINGS

The ESP-600C is equipped with an arc initiation feature
called Soft-Start. This feature uses a percentage of the
cutting current (start current) to ignite the arc and then
"ramps up" to the full cutting currrent. Figure 3-3 shows
the relationship between start current, dwell time, and up­slope time. The ESP-600C is factory shipped with Soft­Start enabled and with the default settings shown in table
3-1. In order to change these default settings to suit your
particular system, internal modifications (see paragraphs

Start Current Waveform vs. Time with Soft-Start OFF (Bang Start)

Cut Current

OUT = 80 VREF

I

approximately 2 msec
rise time

DC OUTPUT CURRENT

A. - D. below) must be made to the power source. To
make these modifications, the access panel on the upper­right corner of the front panel must be removed. After the
settings are changed, make sure the access panel is
replaced.

To disable Soft-Start, locate SW1 on PCB1 (refer to table
3-2) and push both rockers down. To enable Soft-Start
again, push both rockers up. Do not leave the rockers in
different positions.

Start Current Waveform vs. Time with Soft-Start ON

Cut Current

OUT = 80 VREF

I

Dwell Time

Start

Current

DC OUTPUT CURRENT

Upslope Time

TIME

Figure 3-3. Start Current Waveforms

Minimum Start Current

Start Current

Up-Slope Time

Dwell Time

50% of cut current

80 A

800 msec

50 msec

Table 3-1. Factory Default Settings

Electric shock can kill! Take precau­tionary measures to provide maximum
protection against electrical shock. Be-

fore making electrical connections be­tween the power source and the line (wall) discon­nect switch, be sure that all power is off by opening
the line (wall) disconnect switch.

TIME

A. Minimum Start Current is controlled by the

selection of positions 5 thru 8 of SW2 on PCB1
(refer to figure 3-4). When a rocker is pushed on,
its value (refer to table 3-2) is added to the factory
set threshold of 40 A.

B. Start Current. Start current is set using the

START CURRENT potentiometer located for­ward of PCB1 under the access panel. Refer to
table 3-4 for settings. If start current is set at less
than minimum start current (B.), the ESP-600C
will not initiate the cutting arc.

C. Up-Slope Time. A three-position switch located

next to the START CURRENT knob is used to
change up-slope time.

D. Dwell Time. Dwell time is controlled by the

selection of positions 1 thru 4 of SW2 on PCB1.
When a position rocker is pushed on, its value is
added to the minimum dwell time of 10 msec.
Refer to table 3-2 for positional values.

13

SECTION 3 OPERATION

SW2 SW1

Figure 3-4. PCB1 Switch Locations

FACTORY DEFAULT POSITIONS SHOWN

#1 - 10 mS DWELL TIME *

1 2 3 4 5 6 7 8

ON

OFF

NOTES:

Total DWELL TIME equals 10 mS plus the sum of times for SW2 positions 1, 2, 3, and 4 that are
"ON". Factory default DWELL TIME is 10 mS plus 40 mS (position 3) equals 50 mS.

MIN START CURRENT equals 40 A plus the sum of currents for SW2 positions 5, 6, 7, and 8 that
are "ON". Factory default MIN START CURRENT is 40 A plus 40 A (position 6) equals 80 A.

#2 - 20 mS DWELL TIME *
#3 - 40 mS DWELL TIME *
#4 - 80 mS DWELL TIME *

#5 - 80 A MIN START CURRENT
#6 - 40 A MIN START CURRENT
#7 - 20 A MIN START CURRENT
#8 - 10 A MIN START CURRENT

Table 3-2. Switch 2 (SW2) Settings on Control PCB

14

SECTION 3 OPERATION

FACTORY DEFAULT POSITIONS SHOWN

1 2

ON

BOTH SWITCHES "ON" - SOFT START

OFF

BOTH SWITCHES "OFF" - BANG START

Table 3-3. (SW1) Settings on Control PCB

90.0%

80.0%

70.0%

60.0%

50.0%

40.0%

30.0%

20.0%

PERCENTAGE (%) OF CUTTING CURRENT

10.0%

0.0%
0

1

(MIN)

23456

START CURRENT SETTING

Figure 3-5. Start Current Settings

15

7

89

10

(MAX)

SECTION 4 MAINTENANCE

4.1 GENERAL

Electric shock can kill! Ensure the line
(wall) disconnect switch or circuit

breaker is open before attempting any
inspection or work on the inside of the power source.
Always wear safety goggles with side shields when
blowing out the power source with low pressure air.

Maintenance work must be performed by an experienced
person. Do not permit untrained persons to inspect,
clean, or lubricate this equipment.

4.2 CLEANING

Since there are no moving parts (other than the internal
fans) in the power source, maintenance consists mainly
of keeping the interior of the cabinet clean. Periodically,

remove the cover from the cabinet and, wearing proper
eye protection, blow accumulated dust and dirt from the
air passages and the interior components using clean low
pressure air. It is imperative that the air passages to the
interior of the unit be kept free of dirt accumulation to
ensure adequate circulation of cooling air, especially over
the heat sink extrusions and aluminum heat sinks in the
front of the power source. This power source is NOT
designed to be used with air filters of any kind. Any
obstruction to the free flow of cooling air may damage the
machine and void the warranty. The length of time be­tween cleaning will depend on the location of the unit and
the amount of dust in the atmosphere.

4.3 LUBRICATION

Fan motors with oil tubes located on the side of the motor
require lubrication after 1 year of service. Motors without
oil tubes are permanently lubricated for life and should not
require any attention.

16