Formerly known as IS-300CR. Small enough to fit on a bench, the IS-300CA 300 amp MFDC welder is ideal for customers and integrators who require high output, but have limited production space.

Perfect solution for quality improvement of fusing.

The LF Series fiber lasers offer the precise control needed for small component welding and fine precision cutting of metals. A large touchscreen pendant enables clear visibility of process schedule parameters, and an intuitive interface enables quick and easy programming.

The field proven Alpha Series glovebox systems provide compact and effective platforms for environmental control with excellent price to performance value. The Alpha Series is excellent for both production R&D applications.

HF2 is a 2kHz, state-of-the-art high frequency inverter welding power supply used to join small parts at high speed. Built in the USA, the HF2 High Frequency Inverter Spot Welder, is a high speed digital adaptive feedback controls weld current, voltage, or power, providing better weld consistency as compared to traditional AC or CD technologies.

The HF-2500A high frequency inverter spot welder addresses the challenges of micro welding for a wide range of applications. Precise control of weld energy with high speed closed loop feedback and weld quality tools ensure high yields for the most demanding welding applications.

Pulsed heat hot bar reflow soldering is a selective soldering process in which two solder plated parts are pressed together and heated to a temperature adequate to cause the solder to melt and flow, after which the parts are cooled to form a permanent electro-mechanical bond.

The UF Series provides targeted heating and precision temperature control for hot bar soldering applications such as the connection of flexible circuits, ribbon cables, wires, SMT components, single or dual sided edge connectors and thermocompression bonding of gold ribbon.

Laser cutting and laser micromachining are non-contact processes which utilize a laser for micro drilling, micro milling, micromachining, micro patterning, micro scribing and ablation for industrial applications. The cut and feature edges are of high quality with little no burring, low surface roughness and dimensional accuracy.

The laser micro cutting process works by directing the laser beam through a co-axial gas nozzle to the workpiece. The laser melts a thin filament of material according to power and part conduction, the pressure of the coaxial assist gas then removes this molten filament through the underside of the cut. This process is repeated as the laser moves across the workpiece. According to cut conditions the periodic removal of material can sometimes be seen as “striation” lines running from the top to the bottom of the cut edge. This is a single pass processing technique that can create single sided features and asymmetrical features with very small internal radii.

The Delta Series laser processing workstations provide a flexible, low cost, CDRH Class I environment for precision marking, welding and cutting of medical, automotive, electronic, and aerospace components, as well as a broad range of other industrial applications.

Lasers welders produce a beam of high intensity light which, when focused into a single spot, provide a concentrated heat source, allowing narrow deep welds and fast welding speeds. The process is frequently used in high volume applications such as in the automotive and medical industries. Laser welding is a non-contact process which requires access to the weld zone from only one side of the parts being welded. There are many joint geometries that can be welded, but there must be a close fit-up at the joint interfaces, which makes tooling a key aspect for laser welding success.

Three types of welds can be achieved with a laser welder: conduction, transition/keyhole and penetration or full keyhole. Conduction welds are performed at low power, resulting in wide, shallow weld nuggets. Transition/keyhole welds utilize medium power density and result in a deeper weld nugget typically with a width to depth ratio of around 1. Penetration or full keyhole welds are resultant of direct power delivery into the material via the keyhole resulting in deep, narrow welds with width to depth ration typically between 3-10.

AMADA’s WL-100A is a highly configurable, compact unit designed for lean manufacturing and offering the widest range of marking capability in its class.

Standard options include a rotary stage to tailor the machine to your specific process.

Transistor direct current power supplies (also called “Linear DC”) produce much the same results as the high frequency inverter by using a high number of power transistors as the direct energy source. This technology provides clean, square wave forms with extremely fast rise time. Used primarily in constant voltage feedback control, transistor DC power supplies are effective in thin foils and fine wire welding applications and for extremely short welds.

Measures Current, Force, Voltage, Time and displacement

MM-400A welding monitor enables operators to monitor and manage key welding variables that result in changes in weld heat such as current, voltage, time, force and displacement. The compact unit supports a wide range of resistance welding technologies including AC, DC inverter, AC inverter, transistor and capacitive discharge. It features a simple and intuitive user interface and color touch panel display.

Active Welding System 3 Pneumatic

Formerly known as AWS3.The OP-AWS3 Active Welding System combines pneumatic weld heads / weld pincers (F- and FP-series) with an inverter power supply (ISQ-series) all in one unique system. Its various interfaces make OP-AWS3 an easy to integrate system for automation. The complete system is an integrated solution providing process control, monitoring and quality analysis all in one.