Buying a first welder is easy to overthink. Rather than starting from a shortlist of machines, it helps to start from the work: what materials, what thickness, and how much of it will be done indoors versus outside or on-site. That single question narrows the choice between MIG, TIG and MMA far more usefully than comparing spec sheets in isolation, whether you end up looking at a Jasic entry-level MIG package or something further up the range.
If you’re weighing up options for your own workshop, from portable units to fixed installations, it’s worth talking through the layout with a supplier who stocks a range of systems, such as Tec Products Ltd.
Most domestic UK properties are supplied with single-phase power, typically 230V, which is more than adequate for light-duty inverter welders used for hobby work, repairs and general fabrication. Three-phase supply, commonly 400V to 415V across three live conductors, is standard in industrial premises and delivers power more efficiently to heavier equipment, which is why higher-output welders and plasma cutters, including some Fronius and ESAB machines, are often offered in a three-phase version.
The figure changes with output. Turn the amperage down and the duty cycle climbs, because the internal components are working less hard. This is why a welder can feel completely different in a busy production environment compared with occasional home workshop use: someone welding continuously through a shift needs a much higher duty cycle at their working amperage than someone doing short repair jobs a few times a week. It’s the kind of spec worth comparing properly across brands such as Kemppi and EWM, not just reading off the headline amperage figure.
Before choosing a machine, it’s worth checking what your workshop’s consumer unit and incoming supply can actually handle, not just what socket is nearest the bench. Buying a three-phase-only machine for a single-phase workshop, or underestimating the load a higher-output single-phase welder places on existing wiring, are both avoidable problems with a bit of checking upfront.
Where the extraction point sits relative to the arc makes a bigger difference than most people expect. A fixed overhead hood can miss fume entirely if the work moves around the shop, whereas a flexible arm or on-torch extraction follows the job and tends to capture more consistently. Filters also need regular checking and replacement; a clogged filter doesn’t just reduce airflow, it can quietly reduce the whole system’s effectiveness long before anyone notices.