Description
We are the official distributor and authorized service provider of the GYS brand in Poland.
The GYSARC 220 FV CEL is an advanced single-phase inverter MMA (Manual Metal Arc) welder with Flexible Voltage (FV) function and specially optimized for welding with cellulose electrodes. The FV function automatically adjusts to power supply voltages ranging from 85 to 265 volts, providing versatility and the ability to work in a variety of power conditions, including long extension cords and generators. The welder is protected by a 16A fuse at 230V or 32A at 110V. It offers adjustable welding current from 10 to 220 amps (at 230V) and from 10 to 120 amps (at 110V), allowing welding of a variety of materials with electrodes from 1.6 to 5 mm in diameter (including rutile, alkaline and cellulose electrodes).
The GYSARC 220 FV CEL features advanced inverter technology with microprocessor control, optimized for stable arc and excellent welding properties, especially when using cellulose electrodes.
The welder is equipped with advanced features to facilitate MMA welding:
Adjustable Hot Start: Facilitates arc ignition, with fine-tuning to suit the type of electrode and material being welded.
Adjustable Arc dlace: Specially tuned for stable welding with cellulose electrodes, ensuring deep penetration and minimal electrode sticking.
Anti-Sticking: Automatically reduces the welding current in the event of electrode sticking, making it easier to detach the electrode.
The GYSARC 220 FV CEL is also equipped with a PFC (Power Factor Correction) function that optimizes power consumption, making the device more energy-efficient and allowing it to work with longer extension cords and lower-power generators. It also features surge protection.
As standard, the welder is supplied with a clamped ground wire and an electrode holder. Its compact design and relatively light weight make it a mobile and versatile device for professional welding applications, especially where cellulose electrode welding and power flexibility are required.
