ESAB 200i - User Manual

254 pages

Save Page as PDF

To Next Page

100i, 200i, 300i, and 400i

Plasma Systems

Instruction Manual

Article Number: 0560956430

Revision Date: May 13, 2016

Revision Number: AB

Language: ENG

Main Page

Default Chapter4
- User Responsibility4
- Table of Contents7
Section 1: Safety11
- Safety Precautions - ENGLISH11
- Précautions de Sécurité - FRENCH CANADIAN16
Section 2: Specifications21
- General Description of the System21
- Plasma Power Supply21
- Remote Arc Starter21
- Gas Control Module21
- Precision Plasma Cutting Torch21
- Specifications & Electrical Requirements22
- Power Supply Dimensions24
- Power Supply Rear Panel Features25
- Gas Requirements26
- Gas Applications28
- Torch Specifications29
Section 3: Installation31
- Installation Requirements31
- System Layout 100I - 200I Amp32
- System Layout 300I Amp33
- System Layout 400I Amp33
- Recommended Gas Supply Hose34
- Leads and Cables All Amperage34
- Lift the Power Supply35
- Connect Input Power and Ground Cables36
- Connect Work Cable and Pilot and Negative Leads37
- Ground Connections38
- Connect Coolant Leads41
- Connect Cables for CNC, Remote Arc Starter, Gas Selection, and Heat Exchanger42
- Handling and Installation of Fiber Optics43
- Correct Installation44
- Connect Cable and Gas Section Console Fiber Optic Cable to CCM47
- Set Switches on the Command - Control Module49
- Height Control Connections51
- Gas Selection Console Installation52
- Gas Control Unit Installation55
- Fiber Optic Cable Installation from CCM to Gas Selection Console58
- Fiber Optic Cable Installation from Gas Selection Console to Gas Control Unit60
- Install Touch Screen CNC63
- External Cooler64
- Install Remote Arc Starter66
- Connecting Torch74
- Install Consumable Torch Parts75
- Voltage Divider for Ihc Torch Height Control78
Section 4: Operation79
- Power Supply Control Panel79
- System Operation79
- CCM Status Codes81
- Gas Selection Console Status Codes89
- Gas Control Unit Status Codes91
- Remote Arc Starter Trouble Shooting94
Section 5: Maintenance95
- General Maintenance95
- External Coolant Filter Cleaning Procedure95
- Coolant Replacement Procedure96
Section 6: Replacement Assemblies & Parts97
- Replacement Power Supply97
- System Layout 100 - 200 Amp98
- System Layout 300 Amp98
- System Layout 400 Amp99
- Recommended Gas Supply Hose99
- Leads and Cables All Amperages100
- Power Supply External Replacement Parts102
- Power Supply Replacement Parts - Upper Right Side103
- Power Supply Replacement Parts - Lower Right Side104
- Power Supply Replacement Parts - Rear Panel105
- Power Supply Replacement Parts - Left Side106
- Automated Gas Control System Replacement Components107
- Gas Selection Console Replacement Parts108
- Gas Control Unit Replacement Parts109
- Remote Arc Starter (RAS) Replacement Parts110
Torch Maintenance111
- Consumable Removal111
- Section 7: Torch Maintenance111
- O-Ring Lubrication112
- Parts Wear113
- Torch Consumables Installation114
- Coolant Leak Trouble-Shooting116
Torch Operation119
- Standard Cutting up to 100 Amp125
- Bevel and Robotic Cutting up to 100 Amp147
- Standard Cutting 150 - 200 Amp155
- Robotic and Bevel Cutting 150 - 200 Amp167
- Standard Cutting 250 - 300 Amp177
- Robotic and Bevel Cutting 250 - 300 Amp185
- Standard Cutting 400 Amp195
- Robotic and Bevel Cutting 400 Amp205
- Torch Parts List217
- Torch Consumables Installation220
- Patent Information223
Appendix 1: Cnc - Control Module Pcb Connections225
Appendix 2: Cnc226
- CNC Functions226
- CNC Input / Output Descriptions228
- Simplified CNC Circuit230
- CNC Connections232
- CNC Cable Color Code233
Appendix 3: Cooling Diagram234
Appendix 4: System Schematic 100A, 380-415V Pg 1236
Appendix 4: System Schematic 100A, 380-415V238
Appendix 5: System Schematic 100A, 380-415V Pg 2238
Appendix 6: System Schematic 200A, 380-415V240
Appendix 7: System Schematic 200A, 380-415V242
Appendix 8: System Schematic 300A, 380-415V244
Appendix 9: System Schematic 300A, 380-415V246
Appendix 10: System Schematic 400A, 380-415V248
Appendix 11: System Schematic 400A, 380-415V250

Other manuals for ESAB 200i

Service Manual114 pages

Questions and Answers

M
Maria ClarkAug 31, 2025
What does 'Device Locked' mean on ESAB 200i?
- L
  Lacey Wright MDSep 1, 2025
  If the ESAB Welding System displays 'Device Locked' during process loading with Automatic Gas Control, wait until the process is finished.
W
wbryantSep 1, 2025
What to do if the ESAB Welding System displays 'Inverter 1A Output Current Low'?
- M
  Michael DavisSep 1, 2025
  If the ESAB Welding System displays 'Inverter 1A Output Current Low', it indicates that the plasma work current is low during cutting and attributed to Inverter Module 1 Section A output being low. Check if the inverter output is disconnected or if there is a defective ribbon cable. If the problem persists, replace Inverter Module 1.
R
Rebekah BurkeSep 2, 2025
What to do if the ESAB 200i displays 'Inverter 1B Output Current Low'?
- J
  Joshua MoralesSep 2, 2025
  If the ESAB Welding System displays 'Inverter 1B Output Current Low', it indicates that the plasma work current is low during cutting and attributed to Inverter Module 1 Section B output being low. Check if the inverter output is disconnected or if there is a defective ribbon cable. If the problem persists, replace Inverter Module 1.
D
Daniel JacksonSep 2, 2025
What to do if the ESAB Welding System displays 'Inverter 2A Output Current Low'?
- T
  Timothy MeyerSep 2, 2025
  If the ESAB Welding System displays 'Inverter 2A Output Current Low', it indicates that the plasma work current is low during cutting and attributed to Inverter Module 2 Section A output being low. Check if the inverter output is disconnected or if there is a defective ribbon cable. If the problem persists, replace Inverter Module 2.
L
Lisa CookSep 3, 2025
What to do if the ESAB 200i displays 'Inverter 2B Output Current Low'?
- M
  Michael McdanielSep 3, 2025
  If the ESAB Welding System displays 'Inverter 2B Output Current Low', it indicates that the plasma work current is low during cutting and attributed to Inverter Module 2 Section B output being low. Check if the inverter output is disconnected or if there is a defective ribbon cable. If the problem persists, replace Inverter Module 2.
T
Thomas RodgersSep 3, 2025
What to do if the ESAB 200i Welding System displays 'Inverter 3A Output Current Low'?
- W
  wmarshallSep 3, 2025
  If the ESAB Welding System displays 'Inverter 3A Output Current Low', it indicates that the plasma work current is low during cutting and attributed to Inverter Module 3 Section A output being low. Check if the inverter output is disconnected or if there is a defective ribbon cable. If the problem persists, replace Inverter Module 3.
M
Megan WilliamsSep 4, 2025
What to do if the ESAB 200i displays 'Inverter 3B Output Current Low'?
- C
  Courtney AndersonSep 4, 2025
  If the ESAB Welding System displays 'Inverter 3B Output Current Low', it indicates that the plasma work current is low during cutting and attributed to Inverter Module 3 Section B output being low. Check if the inverter output is disconnected or if there is a defective ribbon cable. If the problem persists, replace Inverter Module 2.
H
Heather DuffySep 4, 2025
What to do if the ESAB Welding System displays 'Inverter 1A Output Current High'?
- J
  jessicabishopSep 5, 2025
  If the ESAB Welding System displays 'Inverter 1A Output Current High', it indicates that the plasma work current is high during cutting and attributed to Inverter Module 1 Section A output being high. If the problem persists, replace Inverter Module 1.
V
vaughnannaSep 5, 2025
What to do if the ESAB 200i Welding System displays 'Inverter 1B Output Current High'?
- R
  Ralph SanchezSep 5, 2025
  If the ESAB Welding System displays 'Inverter 1B Output Current High', it indicates that the plasma work current is high during cutting and attributed to Inverter Module 1 Section B output being high. If the problem persists, replace Inverter Module 1.
N
Nicholas DrakeSep 6, 2025
What to do if the ESAB 200i displays 'Inverter 2A Output Current High'?
- J
  Jennifer Coleman PhDSep 6, 2025
  If the ESAB Welding System displays 'Inverter 2A Output Current High', it indicates that the plasma work current is high during cutting and attributed to Inverter Module 2 Section A output being high. If the problem persists, replace Inverter Module 2.

Summary

SECTION 1: SAFETY

1.01 Safety Precautions - ENGLISH

Essential safety precautions for English-speaking users.

1.02 Précautions de sécurité - FRENCH CANADIAN

Safety precautions provided in French Canadian for user protection.

ELECTRICAL SHOCK

EQUIPMENT MAINTENANCE

DANGER

SECTION 2: SPECIFICATIONS

2.06 Specifications & Electrical Requirements

Technical specifications and electrical requirements for different system amperages.

2.09 Gas Requirements

Specifies the required gases, quality, pressure, and flow rates for system operation.

2.10 Gas Applications

SECTION 3: INSTALLATION

3.01 Installation Requirements

Outlines electrical, gas, and water supply requirements for installation.

3.02 System Layout 100 i - 200 i Amp

3.03 System Layout 300 i Amp

3.04 System Layout 400 i Amp

3.07 Lift the Power Supply

Provides instructions and warnings for safely lifting the power supply unit.

3.08 Connect Input Power and Ground Cables

Step-by-step guide for connecting input power and system ground cables.

3.09 Connect Work Cable and Pilot and Negative Leads

Instructions for connecting the work cable, pilot, and negative leads.

3.10 Ground Connections

Procedures for establishing proper grounding to minimize EMI and ensure safety.

3.11 Connect Coolant Leads

Instructions for connecting the color-coded coolant hoses to the power supply.

3.12 Connect Cables for CNC, Remote Arc Starter, Gas Selection, and Heat Exchanger

3.13 Handling and Installation of Fiber Optics

3.14 Connect Cable and Gas Section Console Fiber Optic Cable to CCM

3.15 Set Switches on the Command - Control Module

3.16 Height Control Connections

3.17 Gas Selection Console Installation

3.18 Gas Control Unit Installation

3.19 Fiber Optic Cable Installation from CCM to Gas Selection Console

3.20 Fiber Optic Cable Installation From Gas Selection Console to Gas Control Unit

3.22 External Cooler

3.23 Install Remote Arc Starter

3.24 Connecting Torch

Step-by-step instructions for connecting the plasma torch assembly to the leads.

3.25 Install Consumable Torch Parts

Procedure for installing torch consumables to ensure proper operation and seating.

3.26 Voltage Divider for iHC Torch Height Control

SECTION 4: OPERATION

4.01 Power Supply Control Panel

Explains the indicators and functions on the power supply control panel.

4.02 System Operation

Contains operating information specific to the power supply, including startup sequences.

4.03 CCM Status Codes

Lists and explains CCM status codes indicating active faults or conditions.

4.04 Gas Selection Console Status Codes

4.05 Gas Control Unit Status Codes

4.06 Remote Arc Starter Trouble Shooting

Troubleshooting guide for common symptoms and causes related to the Remote Arc Starter.

SECTION 5: MAINTENANCE

5.01 General Maintenance

Periodic checks recommended for power supply maintenance to ensure performance.

5.02 External Coolant Filter Cleaning Procedure

Steps for cleaning the external coolant filter to maintain optimal coolant flow efficiency.

5.03 Coolant Replacement Procedure

Detailed steps for draining and replacing the coolant in the system.

SECTION 6: REPLACEMENT ASSEMBLIES & PARTS

6.01 Replacement Power Supply

6.07 Power Supply External Replacement Parts

6.08 Power Supply Replacement Parts - Upper Right Side

6.09 Power Supply Replacement Parts - Lower Right Side

6.10 Power Supply Replacement Parts - Rear Panel

6.11 Power Supply Replacement Parts - Left Side

6.12 Automated Gas Control System Replacement Components

6.13 Gas Selection Console Replacement Parts

6.14 Gas Control Unit Replacement Parts

6.15 Remote Arc Starter (RAS) Replacement Parts

SECTION 7: TORCH MAINTENANCE

7.01 Consumable Removal

Procedure for removing consumables from the torch cartridge assembly.

7.02 O-Ring Lubrication

7.03 Parts Wear

7.04 Torch Consumables Installation

Steps for installing torch consumables to ensure proper operation and seating.

7.05 Coolant Leak Trouble-Shooting

Troubleshooting guide for identifying and resolving coolant leaks from the torch head.

SECTION 8: TORCH OPERATION

Torch Parts Selection

Pre-Setting Power Supply Controls

Recommended Cutting Speeds

Consumables Notes

Operational Notes

Ohmic Sensing

8.01 Standard Cutting Up To 100 Amp

Cutting data for mild steel, O2 plasma/shield, up to 100 amps.

8.02 Bevel and Robotic Cutting Up To 100 Amp

Cutting data for bevel and robotic operations up to 100 amps.

8.03 Standard Cutting 150 - 200 Amp

Cutting data for mild steel, O2 plasma/shield, 150-200 amps.

8.04 Robotic and Bevel Cutting 150 - 200 Amp

Cutting data for robotic and bevel operations, 150-200 amps.

8.05 Standard Cutting 250 - 300 Amp

Cutting data for mild steel, O2 plasma/shield, 250-300 amps.

8.06 Robotic and Bevel Cutting 250 - 300 Amp

Cutting data for robotic and bevel operations, 250-300 amps.

8.07 Standard Cutting 400 Amp

Cutting data for mild steel, O2 plasma/shield, 400 amps.

8.08 Robotic and Bevel Cutting 400 Amp

Cutting data for robotic and bevel operations, 400 amps.

8.09 Torch Parts List

8.10 Torch Consumables Installation

Procedure for installing consumables into the torch cartridge assembly.

ESAB 200i Specifications

General

Input Voltage	230 V
Current Range	5 - 200 A
Input Current	16 A
Output Current Range	5 - 200 A
Efficiency	85%
Process	MMA/TIG

Related product manuals