ESAB Mig 5000i User manual

Aristo®

Service manual

0740 800 193 GB 20181116

Valid for: serial no. 803-, 945-, 950-, 608-, 613-, 834-xxx-xxxx

Mig5000i, MigU5000i,

Mig5000iWeldCloud™,

MigU5000iWeldCloud™

460 V

TABLE OF CONTENTS

0740 800 193 © ESAB AB 2018

READ THIS FIRST.................................................................................... 5

INTRODUCTION....................................................................................... 6

Design structure of the power source.................................................. 6

WeldCloud™ ........................................................................................... 7

TECHNICAL DATA ................................................................................... 8

WIRING DIAGRAMS................................................................................. 12

Component description ......................................................................... 12

MMC option for MIG power sources ..................................................... 15

Mig U5000i, 460 V version ..................................................................... 16

Mig 5000i, 460 V version ........................................................................ 18

Mig U5000i WeldCloud™, 460 V version .............................................. 20

Mig 5000i WeldCloud™, 460 V version................................................. 24

INSTALLATION......................................................................................... 28

Configuration of the arc voltage feedback, WeldCloud™ .................. 28

Welding with the filler wire positive or negative, using external voltage

sensing from the wire, without external sensing from the workpiece ...

28

Welding with the filler wire positive or negative, without any external

voltage sensing from the wire or the workpiece ...................................

29

Welding with the filler wire positive, using external voltage sensing

from the wire and the workpiece ..........................................................

30

Welding with the filler wire negative, using external voltage sensing

from the wire and the workpiece ..........................................................

31

DESCRIPTION OF OPERATION.............................................................. 32

AP2 Interference suppressor board ..................................................... 32

1 MMC module ........................................................................................ 32

2AP1 Interference suppressor board ................................................... 33

5 Cooling unit.......................................................................................... 33

15 The power module............................................................................. 34

15AP1 Power board ............................................................................. 35

15AP1:1 Mains rectifier bridge and charging circuit .......................... 35

15AP1:2 Switching circuit.................................................................. 36

15 AP1:3 Overvoltage and undervoltage protection.......................... 37

15 AP1 Connections to the circuit board ........................................... 37

15AP1 Component positions............................................................. 38

15AP2 Gate driver board...................................................................... 38

15AP2:1 Gate driver stages .............................................................. 39

15AP2:2 Overvoltage and undervoltage protection........................... 40

15AP2 Component positions............................................................. 41

15AP4 Filter board with main rectifier .................................................. 42

20AP1 Control board.............................................................................. 42

20AP1:1 Power supply ......................................................................... 43

20AP1:2 Fan control............................................................................. 44

TABLE OF CONTENTS

0740 800 193 © ESAB AB 2018

20AP1:3 The CAN bus ......................................................................... 44

20AP1:4 Temperature monitoring......................................................... 47

20AP1:5 Overvoltage and undervoltage protection.............................. 47

20AP1:6 Communication with relay board 20AP2 ............................... 47

20AP1:7 Gate pulses ........................................................................... 47

20AP1:8 Current sensor....................................................................... 47

20AP1:9 Arc voltage feedback ............................................................. 48

20AP1 Circuit board versions ............................................................... 50

20AP1 Component positions, version 1 ............................................... 52

20AP1 Component positions, version 2 ............................................... 53

20AP2 Relay board................................................................................. 54

20AP2:1 Power supply ......................................................................... 54

20AP2:2 External shutdown ................................................................. 54

20AP2:3 Starting sequence.................................................................. 54

20AP2:4 Power supply to the cooling unit............................................ 55

20AP2:5 Cooling water monitoring in MIG welding mode .................... 55

20AP2:5 Cooling water monitoring in TIG welding mode..................... 57

20AP2:6 TIG Gas valve........................................................................ 58

20AP2:7 TIG HF starting device........................................................... 58

20AP2:8 TIG Starting ........................................................................... 59

20AP2:9 TIG, Gas flow monitor............................................................ 59

20AP2 Component positions................................................................ 59

20AP2 Circuit diagram ......................................................................... 60

24AP1 Weld Data unit............................................................................. 61

25AP1 WeldCloud™ Unit - SBC board ................................................. 63

Power supply........................................................................................ 64

Ethernet................................................................................................ 64

Antenna ................................................................................................ 64

The WeldCloud™ function.................................................................... 64

Reset button – rebooting WeldCloud™................................................ 64

REMOTE CONTROLS .............................................................................. 65

ERROR CODES........................................................................................ 66

Error log .................................................................................................. 66

Error code description, power source ................................................. 66

WeldCloud™ error codes ...................................................................... 69

SERVICE INSTRUCTIONS....................................................................... 70

What is ESD? .......................................................................................... 70

Service aid .............................................................................................. 70

Special tools ........................................................................................... 71

Dismantling............................................................................................. 71

Service information ................................................................................ 71

TABLE OF CONTENTS

0740 800 193 © ESAB AB 2018

Checking power board 15AP1............................................................... 72

Mounting components on the heat sink............................................... 77

Soft starting ............................................................................................ 77

Checking the overvoltage and undervoltage threshold values ......... 83

Calibrating the current sensor signal................................................... 84

Calibration of the arc voltage feedback ............................................... 85

2TC2, auxiliary transformer with 10 A MCB ......................................... 87

Checking 25AP1 WeldCloud™ Unit ...................................................... 88

Replacing WeldCloud™ antenna ......................................................... 89

Connectivity check with 25AP1 SBC board ......................................... 89

Antenna connection for Wi-Fi, 3G and GPS......................................... 89

Troubleshooting WeldCloud™.............................................................. 90

IN-SERVICE INSPECTION AND TESTING.............................................. 93

General requirements ............................................................................ 93

Periodic inspection and test.................................................................. 93

After repair, inspection and test ........................................................... 93

Visual inspection .................................................................................... 93

Electrical test .......................................................................................... 94

Functional test ........................................................................................ 96

TEST REPORT ......................................................................................... 98

SPARE PARTS ......................................................................................... 99

Rights reserved to alter specifications without notice.

READ THIS FIRST

0740 800 193

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READ THIS FIRST

Maintenance and repair work must be performed by an experienced person, and electrical

work only by a trained electrician. Use only recommended replacement parts.

This service manual is intended for use by technicians with electrical/electronic training for

help in connection with fault-tracing and repair.

Use the wiring diagram as a form of index for the description of operation. The circuit boards

are divided into numbered blocks, which are described individually in more detail in the

description of operation. Component names in the wiring diagram are listed in the

component description.

Use the spare parts list as a guide to where the components are located in the equipment.

The spare parts list is published as a separate document, see the "SPARE PARTS" chapter

in this manual.

This manual contains details of design changes that have been made up to and including

August 2018.

The manual is valid for: Mig U5000i and Mig 5000i with serial no. 803-, 945-, 950-xxx-xxx.

The manual is valid for: Mig 5000i WeldCloud™ and Mig U5000i WeldCloud™ with serial no.

608-, 613-, 834-xxx-xxx.

NOTE!

Mig U5000i and Mig 5000i with serial number 304-, 445-, 524-, 620- and

640-xxx-xxxx differ from the description in this manual. For those power sources

there is another service manual with file name 0740 800 159.

The Mig U5000i and Mig 5000i are designed and tested in accordance with international

and European standards IEC/EN 60974. On completion of service or repair work, it is the

responsibility of the person(s) performing the work to ensure that the product still complies

with the requirements of the above standard.

CAUTION!

Read and understand the instruction manual before

installing or operating.

WARNING!

Many parts of the power source are at mains voltage.

INTRODUCTION

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INTRODUCTION

The Mig U5000i is a MIG/MAG welding current power source, which can also be used for

MMA and HF-TIG welding. The Mig 5000i and Mig 5000i WeldCloud™ can be used for

MIG/MAG and MMA welding.

There are two variants of the Mig U5000i and Mig U5000i WeldCloud™ power sources:

with cooling unit or without cooling unit. This service manual describes a power source with

cooling unit.

The Mig 5000i and Mig 5000i WeldCloud™ power sources are available without a cooling

unit.

The power sources are intended for use with the Feed 3004 or Feed 4804 wire feed units. All

the settings are made from the wire feed unit or control box U8 or U8

2

.

Design structure of the power source

The power source is transistor-controlled, operating on the inverter principle. It consists of a

number of function modules, as shown in the block diagram on next page. Each module has

a module number, which is always included as the first part of the name/identification of

components in the module. The modules have the following main functions:

1 MMC module

The control panel and welding data unit, which control the power source functions.

2 Mains module

Mains interference suppressor, mains switch, auxiliary transformer, contactor.

15 Power module

This module is a dual forward converter inverter, operating at a switching frequency of 2 × 27

kHz. IGBT transistors are used as the switching elements. All power semiconductors are built

into modules in order to ensure a robust design suitable for use in the demanding welding

environment.

20 Processor board module (controler module)

This is the controller board, 20AP1, with a microprocessor, that monitors and controls the

voltage and current. It is served by relay board 20AP2, which handles input and output

signals to/from the controller board. Further information on the modules can be found in the

component and function descriptions.

INTRODUCTION

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Block diagram of the power source

WeldCloud™

For information about WeldCloud™, see WeldCloud™ instruction manual.

The WeldCloud™ unit connects the welding power source to a remote WeldCloud™ server

through Wi-Fi, Wired LAN or 3G. The WeldCloud™ unit can have a GPS unit to track the

location of the welding power source.

The WeldCloud™ unit Wi-Fi is enabled after power up of the power source. It will start as a

hotspot with a default hotspot name. This hotspot appears as an available Wi-Fi network.

After establishing the connection, it is possible to access the web interface of the power

source.

TECHNICAL DATA

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TECHNICAL DATA

Mig 5000i Mig 5000i WeldCloud™

Mains voltage 460 V ±10%, 3~ 60 Hz 460 V ±10%, 3~ 60 Hz

Mains supply S

scmin

14.54 MVA

Z

max

0.011 Ω

S

scmin

14.54 MVA

Z

max

0.011 Ω

Primary current

I

max

GMAW (MIG/MAG)

37 A 37 A

I

max

GTAW (TIG)

30 A 30 A

I

max

SMAW (MMA)

38 A 38 A

No-load power demand when in the energy-saving mode, 6.5 min. after welding

GTAW/GMAW (TIG/MIG) 36 W 36 W

SMAW (MMA) 43 W 43 W

Voltage/current range

GMAW (MIG/MAG) 8 - 60 V / 16 - 500 A 8 - 60 V / 16 - 500 A

GMAW (MIG/MAG), control

panel M2 8 - 42 V 8 - 42 V

SMAW (MMA) 4 - 500 A 4 - 500 A

Permissible load at GMAW (MIG/MAG)

60 % duty cycle 500 A / 39 V 500 A / 39 V

100% duty cycle 400 A / 34 V 400 A / 34 V

Permissible load at TIG

60 % duty cycle 500 A / 30 V 500 A / 30 V

100% duty cycle 400 A / 26 V 400 A / 26 V

Permissible load at SMAW (MMA)

60 % duty cycle 500 A / 40 V 500 A / 40 V

100% duty cycle 400 A / 36 V 400 A / 36 V

Power factor at maximum

current (I

2

)

SMAW/GTAW/GMAW

(MMA/TIG/MIG) 0.90 0.90

Efficiency at maximum current (I

2

)

SMAW (MMA) 85 % 85 %

GTAW (TIG) 82 % 82 %

GMAW (MIG) 84 % 84 %

Open-circuit voltage U

0

max

GMAW (MIG/MAG) without

VRD function 1) 72 - 88 V 72 - 88 V

SMAW (MMA) without VRD

function 1)

68 - 80 V 68 - 80 V

TECHNICAL DATA

0740 800 193

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Mig 5000i Mig 5000i WeldCloud™

GMAW (MIG/MAG), SMAW

(MMA), VRD function

deactivated 2)

59 V 59 V

VRD function activated 2) < 35 V < 35 V

Operating temperature 14 to 104 °F

(-10 to +40 °C)

14 to 104 °F

(-10 to +40 °C)

Transport temperature -4 to 131 °F

(-20 to +55 °C)

-4 to 131 °F

(-20 to +55 °C)

Dimensions l × w × h

without cooling unit

with cooling unit

24.6 × 15.5 × 19.5 in.

(625 × 394 × 496 mm)

24.6 × 15.5 × 19.5in.

(625 × 394 × 496 mm)

24.6 × 15.5 × 30.6 in.

(625 × 394 × 776 mm)

24.6 × 15.5 × 30.6in.

(625 × 394 × 776 mm)

Continual A-weighted

sound pressure

<70 db <70 db

Weight without cooling unit

with cooling unit

150 lb (68 kg) 174 lb (79 kg)

194 lb (88 kg) 218 lb (99 kg)

Insulation class transformer H H

Enclosure class IP23 IP23

Application class

1)

Valid for power sources without VRD specification on the rating plate.

2)

Valid for power sources with VRD specification on the rating plate. The VRD function is

explained in the instruction manuals for the control panel, if the panel has that function.

Mig U5000i Mig U5000i WeldCloud™

Mains voltage 460 V ±10%, 3~ 50/60 Hz 460 V ±10%, 3~ 50/60 Hz

Mains supply S

scmin

8.7 MVA Z

max

0.018Ω S

scmin

8.7 MVA Z

max

0.018Ω

Primary current

I

max

GMAW (MIG/MAG)

33 A 33 A

I

max

SMAW (MMA)

34 A 34 A

I

max

GTAW (TIG)

26 A 26 A

No-load power demand when in energy-saving mode, 6.5 min. after welding

GTAW/GMAW (TIG/MIG) 45 W 45 W

SMAW (MMA) 55 W 55 W

Voltage/current range

GMAW (MIG/MAG) 8 - 60 V / 16 - 500 A 8 - 60 V / 16 - 500 A

SMAW (MMA) 16 - 500 A 16 - 500 A

GTAW (TIG) 4 - 500 A 4 - 500 A

Permissible load at GMAW (MIG/MAG)

60 % duty cycle 500 A / 39 V 500 A / 39 V

100 % duty cycle 400 A / 34 V 400 A / 34 V

Permissible load SMAW (MMA)

TECHNICAL DATA

0740 800 193

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Mig U5000i Mig U5000i WeldCloud™

60 % duty cycle 500 A / 40 V 500 A / 40 V

100 % duty cycle 400 A / 36 V 400 A / 36 V

Permissible load at GTAW (TIG)

60 % duty cycle 500 A / 30 V 500 A / 30 V

100 % duty cycle 400 A / 26 V 400 A / 26 V

Power factor at maximum current (I

2

)

SMAW (MMA) 0.91 0.91

GTAW (TIG) 0.90 0.90

GMAW (MIG/MAG) 0.90 0.90

Efficiency at maximum current (I

2

)

SMAW (MMA) 87 % 87 %

GTAW (TIG) 82 % 82 %

GMAW (MIG/MAG) 83 % 83 %

Open-circuit voltage U

0

max

GMAW (MIG/MAG), GTAW

(TIG) without VRD function

1)

72 - 88 V 72 - 88 V

SMAW (MMA) without VRD

function

1)

68 - 80 V 68 - 80 V

U

0L

"Live TIG", VRD function

deactivated

2)

79 V 79 V

GMAW (MIG/MAG), SMAW

(MMA), VRD function

deactivated

2)

59 V 59 V

VRD function activated

2)

< 35 V < 35 V

Operating temperature 14 to 104 °F

(-10 to +40 °C)

14 to 104 °F

(-10 to +40 °C)

Transportation temperature -4 to 131 °F

(-20 to +55 °C)

-4 to 131 °F

(-20 to +55 °C)

Dimensions l × w × h

without cooling unit

with cooling unit

24.6 × 15.5 × 19.5 in.

(625 × 394 × 496 mm)

24.6 × 15.5 × 19.5 in.

(625 × 394 × 496 mm)

24.6 × 15.5 × 30.6 in.

(625 × 394 × 776 mm)

24.6 × 15.5 × 30.6 in.

(625 × 394 × 776 mm)

Continual sound pressure

at no-load

<70 db (A) <70 db (A)

Weight

without cooling unit

with cooling unit

158.7 lb (72 kg) 183 lb (83 kg)

202.8 lb (92 kg) 227 lb (103 kg)

Insulation class transformer H H

Enclosure class IP23 IP23

Application class

1)

Valid for power sources without VRD specification on the rating plate.

TECHNICAL DATA

0740 800 193

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2)

Valid for power sources with VRD specification on the rating plate. The VRD function is

explained in the instruction manuals for the control panel, if the panel has that function.

Cooling unit

Cooling power 2.0 kW at 104°F (40°C) temp. difference and flow

0.26gal/min

Coolant ESAB's ready mixed coolant

Coolant quantity 1.5 gal

Maximum water flow 0.6 gal/min

Maximum number of water-cooled

welding torches that may be connected

Two GMAW welding torches or

one GTAW torch and one GMAW welding torch

Duty cycle

The duty cycle refers to the time as a percentage of a ten-minute period that you can weld or

cut at a certain load without overloading. The duty cycle is valid for 40°C/104°F, or below.

Enclosure class

The IP code indicates the enclosure class, i.e. the degree of protection against penetration

by solid objects or water.

Equipment marked IP23 is intended for indoor and outdoor use.

Application class

The symbol indicates that the power source is designed for use in areas with increased

electrical hazard.

WIRING DIAGRAMS

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WIRING DIAGRAMS

The power source consists of a number of function modules, which are described in the

component descriptions on the following pages. Wire numbers and component names in the

wiring diagrams show to which module each component belongs.

Wires/cables within modules are marked 100 - 6999.

Wires/cables between modules are marked 7000 - 7999.

Component outside modules - e.g. capacitors - are named such as C1 - C99, connectors

XS1 - XS99 (S = socket), XP1 - XP99 (P = plug) etc.

Circuit boards within each module have names such as 20AP1 - 20AP99.

20 = module association, 1 - 69

AP = circuit board

1 = individual identification number, 0 - 99

Transistors within particular modules have identification numbers such as 15Q1 - 15Q99.

15 = module association, 1 - 69

Q = transistor

1 = individual identification number, 0 - 99

Component description

Component Description

AP1 Connection board for communication with the wire feed unit and remote

control device.

AP2 Interference suppressor board. See chapter "DESCRIPTION OF

OPERATION".

AP3 CAN bus distribution board. Accessory, included in the MMC kit for the

MIG power sources, see section "MMC option for MIG power sources" in

this chapter.

C3 Capacitor, 100 nF 250 V.

C4 Capacitor, 100 nF 250 V.

D1 LED, orange, for overtemperature indication.

D2 LED, white. Indicates power on.

XP.. Plug connectors

XS.. Socket connectors

XT.. Terminal blocks

1 MMC module. Wire numbers 100-199. This module is described in a

separate service manual for the control panels. See section "1 MMC

module" in chapter "DESCRIPTION OF OPERATION".

2 Mains module. Wire numbers 200-299.

2AP1 EMC suppressor board, see section "2AP1 Interference suppressor

board" in chapter "DESCRIPTION OF OPERATION".

Introduced from and including serial no. 950-xxx-xxxx.

2FU1 Fuse, 4 A, slow blow (anti-surge).

2FU2 Fuse, 6.3 A, slow blow (anti-surge).

2FU3 Fuse, 3.15 A, slow blow (anti-surge).

WIRING DIAGRAMS

0740 800 193

- 13 -

Component Description

2FU4 Fuse, 8 A glass-tube fuse, slow blow (anti-surge).

From serial no. 803-903-5789, the 8 A glass-tube fuse is replaced by a

10 A Micro Circuit Breaker, fitted to the rear panel of the power source,

see section "2TC2, auxiliary transformer with 10 A MCB" in chapter

"SERVICE INSTRUCTIONS".

2FU5 Fuse, 2 A, slow blow (anti-surge).

2KM1 Main contactor. See section "20AP2:3 Starting sequence" in chapter

"DESCRIPTION OF OPERATION".

2QF1 Mains switch. See section "20AP2:3 Starting sequence" in chapter

"DESCRIPTION OF OPERATION".

2TC1 Auxiliary transformer.

2TC2 Auxiliary transformer. If the mains voltage exceeds 427 V, the link on

terminal 2XT2 must be moved from the 400 V terminal to the 428 V

terminal.

There are two versions of the transformer, see section "2TC2, auxiliary

transformer with 10 A MCB" in chapter "SERVICE INSTRUCTIONS".

3 Primary inductor module. Wire numbers 300-399.

3L1 Primary inductor.

4 Autotransformer module. Wire numbers 400-499.

4TM1 Autotransformer, option. Connection instruction and wiring diagram are in

the instruction manual for the autotransformers TUA 1 and TUA 2.

5 Water cooling module. Wire numbers 500-599.

The connection diagram for the cooling module, see section "5 Cooling

unit" in chapter "DESCRIPTION OF OPERATION".

The power supply to the cooling water pump and fan is controlled by the

power source software. See the description of 20AP2:5 in section

"20AP2:5" in chapter "DESCRIPTION OF OPERATION".

10 TIG module. Wire numbers 1000-1199.

10AP1 HF starting device. See the description of 20AP2:7 in section "20AP2:7

TIG HF starting device" in chapter "DESCRIPTION OF OPERATION".

10C1 Interference suppression capacitor, 47 nF 250V.

10TV1 HF transformer.

10YV1 Gas valve. See the description of 20AP2:6 in section "20AP2:6 TIG Gas

valve" in chapter "DESCRIPTION OF OPERATION".

15 Power module. Wire numbers 1500-1699. See the schematic diagram

and description in section "15 The power module" in chapter

"DESCRIPTION OF OPERATION".

15AP1 Power board. See the description in section "15AP1 Power board" in

chapter "DESCRIPTION OF OPERATION" .

15AP2 Driver board. See the description in section "15AP2 Gate driver board" in

chapter "DESCRIPTION OF OPERATION".

15AP3 Current sensor. See the description of 20AP1:8 in section "20AP1:8

Current sensor" in chapter "DESCRIPTION OF OPERATION".

15AP4 Filter board with rectifier bridge. See the diagrams in section "15AP4

Filter board with main rectifier" in chapter "DESCRIPTION OF

OPERATION".

WIRING DIAGRAMS

0740 800 193

- 14 -

Component Description

15BR1 Rectifier bridge. See the description of 15AP1:1 in section "15AP1 Power

board" in chapter "DESCRIPTION OF OPERATION" and the assembly

instructions in section "Mounting components on the heat sink" in

chapter "SERVICE INSTRUCTIONS" .

15D1, 15D2

15D3, 15D4

Rectifier and freewheel diode modules. Each module consists of two

diodes.

15D1 and 15D3 rectifies the welding current. During the time interval

between the voltage pulses from transformers 15TM1 and 15TM2, the

freewheel diodes 15D2 and 15D4 maintain the welding current from

inductor 15L3.

See section "Mounting components on the heat sink" in chapter

"SERVICE INSTRUCTIONS" for assembly instructions for the diode

modules.

15EV1, 15EV2 Fans, 24 V DC. See the description of 20AP1:2 in section "20AP1:2 Fan

control" in chapter "DESCRIPTION OF OPERATION".

15L1, 15L2 2 + 2 ferrite rings. Reduce transient voltages produced when the diode

modules 15D1 and 15D2 turn off.

15L4, 15L5 2 + 2 ferrite rings. Reduce transient voltages produced when the diode

modules 15D3 and 15D4 turn off.

15L3 Inductor.

15Q1, 15Q2

15Q3, 15Q4

IGBT transistors. See the description of 15AP1:2 in section "15AP1:2

Switching circuit" in chapter "DESCRIPTION OF OPERATION" and the

installation instruction in chapter "Mounting components on the heat

sink".

15ST1 Thermal overload cutout, in the winding of main transformer 15TM1. See

the description of 20AP1:4 in section "20AP1:4 Temperature monitoring"

in chapter "DESCRIPTION OF OPERATION".

15ST2 Thermal overload cutout, mounted on the heat sink of the diode

modules. See the description of 20AP1:4 in section "20AP1:4

Temperature monitoring" in chapter "DESCRIPTION OF OPERATION"

and the installation instruction in chapter "Mounting components on the

heat sink".

15ST3 Thermal overload cutout, in the winding of main transformer 15TM2. See

the description of 20AP1:4 in section "20AP1:4 Temperature monitoring"

in chapter "DESCRIPTION OF OPERATION".

15TM1, 15TM2 Main transformers.

20AP1 Controller circuit board. See the description in section "20AP1 Control

board" in chapter "DESCRIPTION OF OPERATION".

20AP2 Relay board. See the description in section "20AP2 Relay board" in

chapter "DESCRIPTION OF OPERATION".

24AP1 Weld Data Unit

25AP1 Telematics Unit

25AP2 Power Supply Adaptor 42VAC to 12VDC

25AP3 Wifi + BT Module

25AP4 Ethernet Module

25AP5 USB to PCIe Adaptor

25AP6 3G + GPS Module

WIRING DIAGRAMS

0740 800 193

- 15 -

CAUTION!

STATIC ELECTRICITY can damage circuit boards and

electronic components.

• Observe precautions for handling electrostatic

sensitive devices.

• Use proper static-proof bags and boxes.

MMC option for MIG power sources

The CAN bus distribution board connected to a Mig 5000i.

The MIG power sources are normally delivered without MMC module. If the accessory 'MMC

kit' is used, the MMC module can be moved from the wire feed unit to the power source.

WIRING DIAGRAMS

0740 800 193

- 16 -

Mig U5000i, 460 V version

WIRING DIAGRAMS

0740 800 193

- 17 -

WIRING DIAGRAMS

0740 800 193

- 18 -

Mig 5000i, 460 V version

WIRING DIAGRAMS

0740 800 193

- 19 -

WIRING DIAGRAMS

0740 800 193

- 20 -

Mig U5000i WeldCloud™, 460 V version

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