TPS/i Push Systems
The system is specifically used in CrNi and steel applications where consistent quality and high system availability are decisive.
- Consistent welding quality and high system availability
- Specialized performance in CrNi and steel applications
- Minimum maintenance costs
- Rapid setup and commissioning
- Optimized system reliability
Low Spatter Control (LSC)
Advanced control technology that minimizes spatter in the short arc and globular transfer ranges.
- Up to 75% less spatter
- Up to 4.5 times faster welding
- High process stability with LSC Advanced
Universal
- Suitable characteristics for every application
- Time-saving, easy welding settings
Root
- High-pressure arc with robust gap-bridging capability
- Enables easy root pass welding
Galvanized
- Developed specifically for welding galvanized sheet metal parts
- Lower risk of porosity and reduced zinc burnout
Braze
- MIG/MAG brazing capability
- Ensures high brazing speeds in the short arc range, reliable wetting, and excellent filler metal flow
Pulse Multi Control (PMC)
High-technology system providing superior welding performance through precision pulse control.
Optimized Pulsed Arc
- Increased process stability thanks to exceptionally precise control
- Spatter-free ignition
- Improved pulse characteristics
Enhanced Welding Properties
- 15% higher welding speed*
- 15% less energy input*
- Consistent weld penetration
High Weld Seam Quality and Appearance
- Optimized vertical weld seams thanks to the "PMC Mix" feature
- 100% control via arc length and penetration stabilizers
- TIG-like seam appearance thanks to PMC Ripple Drive
TPS/i PushPull Systems
These robotic welding systems provide high process stability, especially in long wire feed lines and aluminum alloy or CuSi applications.
- Superior performance in long wire feed lines
- High process stability with aluminum alloy materials
- Exceptional performance in CuSi applications
- Full integration with robotic systems
- Precise wire feed control and stable process
CMT (Cold Metal Transfer) Technology
Initiating a new era in welding technology through mechanical wire motion, CMT technology offers nearly spatter-free welding with maximum speed and low heat input. CMT can now be used more effectively in areas where adhesives or brazing were previously required.
Operating Principle
During welding, the wire moves forward and is retracted as soon as a short circuit occurs. During the arc phase, the arc provides heat for only a very short time. Result: Spatter-free metal transfer. The arc remains stable regardless of the workpiece's surface quality or the speed at which the welder wishes to work. This allows CMT to be applied everywhere and in any position.
Less spatter
Lower heat input
Welding speed
