EWM Tetrix 352 Synergic Operating Instructions Manual
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Summary of Contents for EWM Tetrix 352 Synergic
- Page 1 Operating instructions Power source Tetrix 352 Synergic Tetrix 452 Synergic Tetrix 552 Synergic 099-000141-EW501 Observe additional system documents! 20.11.2017...
- Page 2 +49 2680 181-0. A list of authorised sales partners can be found at www.ewm-group.com. Liability relating to the operation of this equipment is restricted solely to the function of the equipment.
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Page 3: Table Of Contents
Contents Notes on the use of these operating instructions Contents 1 Contents ..............................3 2 For your safety ............................6 Notes on the use of these operating instructions ................6 Explanation of icons ........................7 Part of the complete documentation ....................8 Safety instructions .......................... - Page 4 Contents Notes on the use of these operating instructions 5.2.18 spotArc .......................... 38 5.2.19 spotmatic........................40 5.2.20 Pulse welding ........................ 41 5.2.20.1 Automated pulses ..................41 5.2.20.2 Thermal pulsing ..................... 41 5.2.20.3 Metallurgical pulsing (kHz pulsing) ..............42 5.2.21 activArc ......................... 43 5.2.22 Expert menu (TIG) ......................
- Page 5 11 Appendix A ............................76 11.1 JOB-List ............................76 12 Appendix B ............................80 12.1 Parameter overview – setting ranges ..................80 12.1.1 TIG welding ........................80 13 Appendix C ............................81 13.1 Overview of EWM branches ......................81 099-000141-EW501 20.11.2017...
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Page 6: For Your Safety
For your safety Notes on the use of these operating instructions For your safety Notes on the use of these operating instructions DANGER Working or operating procedures which must be closely observed to prevent imminent serious and even fatal injuries. •... -
Page 7: Explanation Of Icons
For your safety Explanation of icons Explanation of icons Symbol Description Symbol Description Indicates technical aspects which the Activate and release/tap/tip user must observe. Switch off machine Release Switch on machine Press and keep pressed Switch Wrong Turn Numerical value – adjustable Correct Menu entry Signal light lights up in green... -
Page 8: Part Of The Complete Documentation
For your safety Part of the complete documentation Part of the complete documentation These operating instructions are part of the complete documentation and valid only in combination with all other parts of these instructions! Read and observe the operating instructions for all system components, especially the safety instructions! The illustration shows a general example of a welding system. -
Page 9: Safety Instructions
For your safety Safety instructions Safety instructions WARNING Risk of accidents due to non-compliance with the safety instructions! Non-compliance with the safety instructions can be fatal! • Carefully read the safety instructions in this manual! • Observe the accident prevention regulations and any regional regulations! •... - Page 10 For your safety Safety instructions WARNING Fire hazard! Due to the high temperatures, sparks, glowing parts and hot slag that occur during welding, there is a risk of flames. • Be watchful of potential sources of fire in the working area! •...
- Page 11 For your safety Safety instructions CAUTION Electromagnetic fields! The power source may cause electrical or electromagnetic fields to be produced which could affect the correct functioning of electronic equipment such as IT or CNC devices, telecommunication lines, power cables, signal lines and pacemakers. •...
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Page 12: Transport And Installation
For your safety Transport and installation Transport and installation WARNING Risk of injury due to improper handling of shielding gas cylinders! Improper handling and insufficient securing of shielding gas cylinders can cause serious injuries! • Observe the instructions from the gas manufacturer and any relevant regulations concerning the use of compressed air! •... -
Page 13: Intended Use
3.2.1 Warranty For more information refer to the "Warranty registration" brochure supplied and our information regarding warranty, maintenance and testing at www.ewm-group.com! 3.2.2 Declaration of Conformity The labelled machine complies with the following EC directives in terms of its design and construction: •... -
Page 14: Calibration/Validation
Intended use Documents which also apply 3.2.5 Calibration/Validation We hereby confirm that this machine has been tested using calibrated measuring equipment, as stipulated in IEC/EN 60974, ISO/EN 17662, EN 50504, and complies with the admissible tolerances. Recommended calibration interval: 12 months 099-000141-EW501 20.11.2017... -
Page 15: Machine Description - Quick Overview
Machine description – quick overview Front view Machine description – quick overview Front view Figure 4-1 Item Symbol Description Lifting lug Machine control > see 4.3 chapter PC interface, serial (D-Sub connection socket, 9-pole) Key switch to protect against unauthorised use (retrofitting option) Position 1: changes possible. -
Page 16: Rear View
Machine description – quick overview Rear view Rear view Figure 4-2 Item Symbol Description Interfaces Optional interface in the extension casing for assembly onto the power source • RINTX11 robot interface • BUSINTX10 industrial bus interface 19-pole mechanised welding interface (analogue) >... -
Page 17: Machine Control (Mode Rc - On)
Machine description – quick overview Machine control (Mode RC - on) Item Symbol Description Key button, automatic cutout Wire feed motor supply voltage fuse press to reset a triggered fuse G¼" connection thread, shielding gas connection, inlet Cooling air outlet Mains connection cable >... -
Page 18: Function Sequence
Machine description – quick overview Machine control (Mode RC - on) Item Symbol Description Error/status indicators ------ Collective interference signal light - Water deficiency signal light (welding torch cooling) --------- Excess temperature signal light -------- S safety sign signal light Functional sequence >... -
Page 19: Machine Control (Mode Rc - Off)
Machine description – quick overview Machine control (Mode RC - off) Item Symbol Description Main current (TIG) / pulse current Main current (MMA) I min to I max (1 A increments) I min to I max (1 A increments) Pulse time / slope time from AMP% to AMP / Spot time Secondary current (TIG) - Page 20 Machine description – quick overview Machine control (Mode RC - off) Item Symbol Description “Select material type” button CrNi ----- Chrome nickel alloys FeSt ----- Iron and steel alloys Cu ------- Copper or copper alloys (bronzes) CuZn ---- Copper zinc alloys (brass) Spez ---- Special (for special custom-built tasks) Select seam type button ------- Fillet weld...
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Page 21: Function Sequence
Machine description – quick overview Machine control (Mode RC - off) 4.4.1 Function sequence Figure 4-6 Item Symbol Description Select welding parameters button This button is used to select the welding parameters depending on the welding process and operating mode used. Gas pre-flow time signal light AMP% Signal light... -
Page 22: Design And Function
Design and function Transport and installation Design and function WARNING Risk of injury from electrical voltage! Contact with live parts, e.g. power connections, can be fatal! • Observe the safety information on the first pages of the operating instructions! • Commissioning must be carried out by persons who are specifically trained in handling power sources! •... -
Page 23: Transport And Storage
Design and function Transport and installation 5.1.2.2 Transport and storage Storage in an enclosed space, temperature range of the ambient air: • -30 °C to +70 °C Relative air humidity • Up to 90% at 20 °C 5.1.3 Machine cooling Insufficient ventilation results in a reduction in performance and equipment damage. - Page 24 Design and function Transport and installation Use an individual welding lead to the workpiece for each welding machine! Figure 5-2 Fully unroll welding current leads, torch hose packages and intermediate hose packages. Avoid loops! Always keep leads as short as possible! Lay any excess cable lengths in meanders.
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Page 25: Stray Welding Currents
Design and function Transport and installation 5.1.5.1 Stray welding currents WARNING Risk of injury due to stray welding currents! Stray welding currents can destroy protective earth conductors, damage machines and electronic devices and cause overheating of components, leading to fire. •... -
Page 26: Mains Configuration
Design and function TIG welding 5.1.6.1 Mains configuration The machine may be connected to: • a three-phase system with four conductors and an earthed neutral conductor • a three-phase system with three conductors of which any one can be earthed, e.g. -
Page 27: Pressure Regulator Connection
Design and function TIG welding 5.2.1.1 Pressure regulator connection Figure 5-6 Item Symbol Description Pressure regulator Shielding gas cylinder Output side of the pressure regulator Cylinder valve • Before connecting the pressure regulator to the gas cylinder, open the cylinder valve briefly to blow out any dirt. -
Page 28: Shielding Gas Hose Connection
Design and function TIG welding 5.2.1.2 Shielding gas hose connection Figure 5-7 Item Symbol Description G¼” connecting nipple Shielding gas connection on the pressure regulator. • Screw the crown nut on the shielding gas lead gastight to the connecting thread (G¼"). Gas test –... -
Page 29: Purge Hose Package" Function
Design and function TIG welding “Purge hose package” function 5.2.2.2 Operating Action Result element Select hose package rinsing "Gas pre-flow time (TIG)" signal light flashes. The function is ended by pressing the button again. If the "Rinse hose package" function is not ended by pressing the "Gas and current parameters" button again, shielding gas will flow until the gas cylinder is empty! 5.2.3 Welding torch cooling system... -
Page 30: Welding Torch Connection
Design and function TIG welding 5.2.4 Welding torch connection Figure 5-9 Item Symbol Description 19-pole (analogue) connection socket Collision protection / sensor voltage control signals G¼" connection thread, shielding gas connection, outlet Connection socket, welding current - Welding torch connection Welding torch hose package Welding torch •... -
Page 31: Connecting The Welding Torch To The Tig Torch Box
Design and function TIG welding 5.2.5 Connecting the welding torch to the TIG TORCH BOX Figure 5-10 Item Symbol Description Automated welding torch Welding torch hose package Connecting nipple G¼, shielding gas connection Quick connect coupling (red) coolant return “-” Welding current connection socket TIG welding torch welding current lead connection Quick connect coupling (blue) coolant supply... -
Page 32: Connecting The Tig Torch Box To The Power Source
Design and function TIG welding 5.2.6 Connecting the TIG TORCH BOX to the power source When using a TIG TORCH BOX the gas supply must be connected directly to the TIG TORCH BOX. Gas monitoring can be configured using the Tool EWMConfig.Net. Figure 5-11 Item Symbol Description... -
Page 33: Connection For Workpiece Lead
Design and function TIG welding 5.2.7 Connection for workpiece lead Figure 5-12 Item Symbol Description Workpiece Connection socket, “+” welding current Workpiece connection • Insert cable plug on the workpiece lead into the connection socket for workpiece lead and lock by turning to the right. -
Page 34: Welding Parameter Setting
Design and function TIG welding When the settings are changed (e.g. welding current) after welding when the hold values are displayed, the display will be switched to the relevant nominal values. If the "Program number" signal light is on in addition to the "Material thickness" signal light, the user is in program mode (programs 1-15, , >... -
Page 35: Synergic Parameter Setting In The Functional Sequence
Design and function TIG welding The welding task or JOB is defined using the following parameters: Basic parameters The JOB number is defined by three basic welding parameters: A: electrode diameter B: material type C: seam type Program sequence Other welding parameters, such as parameters for the start program, secondary program or end program and the gas pre-flow time, slope times and many more are preset for a variety of applications, but can be modified where required. -
Page 36: Conventional Parameter Setting In The Functional Sequence
Design and function TIG welding 5.2.13 Conventional parameter setting in the functional sequence All welding parameters in the functional sequence can also be adjusted, regardless of the welding current set. This means that if the welding current is changed, the values for the down slope time or gas post-flow time remain unchanged, for example. -
Page 37: Select Welding Current
Design and function TIG welding 5.2.15 Select welding current Figure 5-17 5.2.16 Optimising the ignition characteristics for pure tungsten electrodes The best ignition and stabilisation of the arc (DC, AC) and optimum spherical cup formation in the tungsten electrode depend on the electrode diameter being used. The set value should correspond to the diameter of the tungsten electrode. -
Page 38: Arc Ignition
Design and function TIG welding 5.2.17 Arc ignition 5.2.17.1 HF ignition Figure 5-19 The arc is started without contact from high-voltage ignition pulses. a) Position the welding torch in welding position over the workpiece (distance between the electrode tip and workpiece should be approx. 2-3 mm). b) Robot start signal (high voltage ignition pulses ignite the arc). - Page 39 Design and function TIG welding When selecting the spotArc operating mode, the long interval is automatically preselected. When selecting the Spotmatic operating mode, the short interval is automatically preselected. The user can change the interval in the Configuration menu > see 5.9 chapter. EXIT Figure 5-20 The up-slope and down-slope times should be set to “0”...
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Page 40: Spotmatic
Design and function TIG welding 5.2.19 spotmatic In contrast to the spotArc operating mode, the arc is not ignited by pressing the torch trigger as is usual, but by briefly touching the tungsten electrode against the workpiece. The torch trigger is used for welding process activation. -
Page 41: Pulse Welding
Design and function TIG welding 5.2.20 Pulse welding The following pulse types can be selected: • Automated pulsing • Thermal pulsing • Metallurgical pulsing This parameter setting is specified by the robot control via the RINT X12 or BUSINT X11 robot interface (see documentation in the relevant interface description). -
Page 42: Metallurgical Pulsing (Khz Pulsing)
Design and function TIG welding The pulse function can also be deactivated if necessary during the up-slope and down-slope phases (parameter ) > see 5.9 chapter. Figure 5-26 5.2.20.3 Metallurgical pulsing (kHz pulsing) Metallurgical pulsing (kHz pulsing) uses the plasma force (arc force) occurring at high currents which allows you to achieve a constricted arc with concentrated heat input. -
Page 43: Activarc
TIG welding 5.2.21 activArc The EWM activArc process, thanks to the highly dynamic controller system, ensures that the power supplied is kept virtually constant in the event of changes in the distance between the welding torch and the weld pool, e.g. during manual welding. Voltage losses as a result of a shortening of the distance between the torch and molten pool are compensated by a current rise (ampere per volt - A/V), and vice versa. -
Page 44: Expert Menu (Tig)
Design and function TIG welding 5.2.22 Expert menu (TIG) The Expert menu has adjustable parameters stored that don’t require regular setting. The number of parameters shown may be limited, e.g. if a function is deactivated. ENTER EXIT Figure 5-30 Display Setting/selection Expert menu Slope time (main current to secondary current) -
Page 45: Organising Welding Tasks (Mode "Job Manager")
Design and function Organising welding tasks (Mode "JOB Manager") Display Setting/selection Filler wire diameter (manual setting) Setting the wire diameter between 0.6 mm to 1.6 mm. The character "d" preceding the wire diameter on the display (d0.8) indicates a pre- programmed characteristics (correction operating mode "KORREKTUR”). -
Page 46: Creating A New Job In The Memory Or Copying A Job
Design and function Organising welding tasks (Mode "JOB Manager") 5.3.2 Creating a new JOB in the memory or copying a JOB Copying a pre-defined welding task from the fixed memory (JOBs 1 to 128) to the free memory (JOBs 129-256): It is normally possible to adjust all 256 JOBs individually. -
Page 47: Loading An Existing Job From The Free Memory
Design and function Organising welding tasks (Mode "JOB Manager") 5.3.3 Loading an existing JOB from the free memory EXIT Figure 5-32 5.3.4 Resetting an existing JOB to the factory setting (Reset JOB) Figure 5-33 099-000141-EW501 20.11.2017... -
Page 48: Resetting Jobs 1-128 To The Factory Setting (Reset All Jobs)
Design and function Welding programs 5.3.5 Resetting JOBs 1-128 to the factory setting (Reset All JOBs) Figure 5-34 5.3.6 Exit JOB Manager without changes EXIT Figure 5-35 Welding programs Changes made to the other welding parameters during the course of the program have the equivalent effect on all programs. -
Page 49: Selection And Adjustment
Design and function Welding programs The operating mode cannot be changed during the welding process. If welding is started with program 1 (non-latched operating mode), program 2 controls the setting of ignition program 1 despite the latched setting and is implemented to the end of the welding process. The pulse function (pulses off, pulses on) and the welding currents are transferred from the corresponding programs. -
Page 50: Example "Program With Conventional Setting
Design and function Interfaces 5.4.3 Example "Program with conventional setting" Figure 5-38 5.4.4 Accessories for switching over programs The user can change, retrieve and save programs using the following components. Programs Component create and change call up Welding machine control PC with PC 300 welding parameter software Tetrix RINT X11, -X12 robot interface... -
Page 51: Connecting The Robot Interface / Industrial Bus Interface
Design and function Interfaces 5.5.1 Connecting the robot interface / industrial bus interface Figure 5-39 Item Symbol Description 7-pole connection socket (digital) For connecting digital accessory components Switching cabinet Robot interface / Industrial bus interface Interface casing ATCASE 7-pole connection cable Connection between switching cabinet and power source Connection lead Connection between interface casing and switching cabinet... -
Page 52: Connecting The Pc 300.Net Welding Parameterisation Software
Design and function Interfaces 5.5.2 Connecting the PC 300.net welding parameterisation software Create all welding parameters quickly on the PC and easily transfer them to one or more welding machines (accessories, set consisting of software, interface, connection leads) Equipment damage or faults may occur if the PC is connected incorrectly! Not using the SECINT X10USB interface results in equipment damage or faults in signal transmission. -
Page 53: Interfaces For Automation
Design and function Interfaces for automation Interfaces for automation WARNING No function of the external interrupt equipment (emergency stop switch)! If the emergency stop circuit has been set up using an external interrupt equipment connected to the interface for automated welding, the machine must be configured for this setup. - Page 54 Design and function Interfaces for automation Signal Circuit diagram Function shape signal name Input Not/Aus Emergency stop for higher level shut-down of the power source. To use this function, jumper 1 must be unplugged on PCB T320/1 in the welding machine. Contact open ...
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Page 55: Connection Socket Automation Torch
Design and function Interfaces for automation 5.6.1 Connection socket automation torch Figure 5-42 Pin assignment of the 19-pole automated welding torch connection socket (X53): Signal form Signal name circuit Function diagram Output PE_Dyn. Connection for cable screen Output BR KOLL1 Collision sensor emergency shut-down +24 V Input BR KOLL2... -
Page 56: Sensor Voltage
Design and function Power-saving mode (Standby) 5.6.2 Sensor Voltage The sensor voltage is transmitted via PIN F of the mechanised welding torch connection socket (X53). Outside the welding process, there is a voltage of approx. 12 V on the welding torch electrode. If the electrode comes into contact with the workpiece or the molten pool, the short-circuit produced means that when using the relevant interface (BUSINT X11/RINT X12), the resultant signal can be used for various functions (e.g. -
Page 57: Machine Configuration Menu
Design and function Machine configuration menu Machine configuration menu Basic machine settings are defined in the machine configuration menu. 5.9.1 Selecting, changing and saving parameters ENTER EXIT NAVIGATION Figure 5-43 Display Setting/selection Exit the menu Exit 099-000141-EW501 20.11.2017... - Page 58 Design and function Machine configuration menu Display Setting/selection Torch configuration menu Set welding torch functions Torch mode (ex works 1) Alternative welding start – tapping start Available from torch mode 11 (welding stop by tapping remains active). ------- Function enabled (ex works) ------- Function disabled Up/down speed Increase value >...
- Page 59 Design and function Machine configuration menu Display Setting/selection Program 0 block With machines with access block, program 0 can be disabled. When the access block has been enabled, programs 1–x only can be switched. ------- All programs can be selected (ex works) ------- Programs 1–x can be selected (program 0 disabled) Show warnings >...
- Page 60 Design and function Machine configuration menu Display Setting/selection Expert menu AC average value controller ------- Function enabled (ex works) ------- Function disabled Welding current polarity switch (dc+) with TIG DC ------- Polarity switch released ------- Polarity switch blocked; protects the tungsten electrode from being permanently damaged (ex works). Reconditioning pulse (tungsten ball stability) Cleaning effect of the tungsten ball at the end of welding.
- Page 61 Design and function Machine configuration menu Display Setting/selection Automated/Manual (rC on/off) operating mode Select machine/function control ------ with external control voltages/signals ------ with machine control Software version query (example) 07.= ------ system bus ID 03c0= ---- version number System bus ID and version number are separated by a dot. Cable resistance alignment Only qualified service personnel may change the parameters! TIG HF start (soft/hard) switching...
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Page 62: Maintenance, Care And Disposal
Maintenance, care and disposal General Maintenance, care and disposal General DANGER Risk of injury due to electrical voltage after switching off! Working on an open machine can lead to fatal injuries! Capacitors are loaded with electrical voltage during operation. Voltage remains present for up to four minutes after the mains plug is removed. -
Page 63: Maintenance Work, Intervals
A periodic test according to IEC 60974-4 "Periodic inspection and test" has to be carried out. In addition to the regulations on testing given here, the relevant local laws and regulations must also be observed. For more information refer to the "Warranty registration" brochure supplied and our information regarding warranty, maintenance and testing at www.ewm-group.com! 099-000141-EW501 20.11.2017... -
Page 64: Disposing Of Equipment
• Information about returning used equipment or about collections can be obtained from the respective municipal administration office. • In addition to this, returns are also possible throughout Europe via EWM sales partners. 099-000141-EW501 20.11.2017... -
Page 65: Rectifying Faults
Rectifying faults Checklist for rectifying faults Rectifying faults All products are subject to rigorous production checks and final checks. If, despite this, something fails to work at any time, please check the product using the following flowchart. If none of the fault rectification procedures described leads to the correct functioning of the product, please inform your authorised dealer. -
Page 66: Warnings
Rectifying faults Warnings Pore formation I nadequate or missing gas shielding Check shielding gas setting and replace shielding gas cylinder if necessary Shield welding site with protective screens (draughts affect the welding result) Use gas lens for aluminium applications and high-alloy steels ... -
Page 67: Error Messages
Rectifying faults Error messages Error messages A welding machine error is indicated by an error code being displayed (see table) on the display on the machine control. In the event of a machine error, the power unit is shut down. The display of possible error numbers depends on the machine version (interfaces/functions). -
Page 68: Resetting Welding Parameters To The Factory Settings
Rectifying faults Resetting welding parameters to the factory settings Error message Possible cause Remedy Err 38 Switch the machine off and on again. Err 39 Electronics error (secondary If the error persists, contact service. overvoltage) Err 40 Electronics error (I>0 error) Inform service Err 48 Ignition error... -
Page 69: Technical Data
Technical data Tetrix 352 Technical data Performance specifications and guarantee only in connection with original spare and replacement parts! Tetrix 352 Setting range for welding current 5 A–350 A Setting range for welding voltage 10.2 V–24 V Duty cycle at 40 °C ambient temperature 100% DC 350 A Load cycle... -
Page 70: Tetrix 452
Technical data Tetrix 452 Tetrix 452 Setting range for welding current 5 A–450 A Setting range for welding voltage 10.2–28 V Duty cycle at 40 °C ambient temperature 80% DC 450 A 100% DC 420 A Load cycle 10 min. (60% DC 6 min. -
Page 71: Tetrix 552
Technical data Tetrix 552 Tetrix 552 Setting range for welding current 5 A–550 A Setting range for welding voltage 10.2 V–32 V Duty cycle at 40 °C ambient temperature 60% DC 550 A 100% DC 420 A Load cycle 10 min. (60% DC 6 min. -
Page 72: Accessories
Software for control and status signal analysis 090-008778-00000 Set PC300 / ANALYZER Set comprising PC300.Net and Analyzer software 090-008779-00000 ewm Xnet Starter-Set Set: QM software, a dongle (contains the 091-008788-00001 installation files and software licence) Welding torch cooling system Type Designation Item no. -
Page 73: Service Documents
Service documents Circuit diagrams Service documents 10.1 Circuit diagrams Original format circuit diagrams are located inside the machine. Figure 10-1 099-000141-EW501 20.11.2017... - Page 74 Service documents Circuit diagrams Figure 10-2 099-000141-EW501 20.11.2017...
- Page 75 Service documents Circuit diagrams Figure 10-3 099-000141-EW501 20.11.2017...
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Page 76: Job-List
Appendix A JOB-List Appendix A 11.1 JOB-List Process Material Wire Seam position Reserved CrNi CrNi CrNi CrNi CrNi ... - Page 77 Appendix A JOB-List Process Material Wire Seam position Fe/St Fe/St >3.2 Fe/St Fe/St Fe/St Fe/St ...
- Page 78 Appendix A JOB-List Process Material Wire Seam position CuZn CuZn CuZn CuZn CuZn CuZn >3.2 CuZn CuZn CuZn ...
- Page 79 Appendix A JOB-List Process Material Wire Seam position Special Special Special Special >3.2 Special Special Special Special Special Special >3.2 TIG manual/TIG classic Classic electrode...
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Page 80: Parameter Overview - Setting Ranges
Appendix B Parameter overview – setting ranges Appendix B Parameter overview – setting ranges 12.1 12.1.1 TIG welding Parameter Display Setting range Comment TIG/plasma Gas pre-flow time Ignition current AMP% % of main current AMP Up-slope time 20,0 Pulse time 0,01 0,00 - 20,0... -
Page 81: Overview Of Ewm Branches
Appendix C Overview of EWM branches Appendix C 13.1 Overview of EWM branches 099-000141-EW501 20.11.2017...
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