Fine finish specialists
Equipped with an EC-TEC® Brushless Motor, the low-profile, long-life, and low-vibration ETS EC sanders can run all day with multiple shifts. This sander offer the performance of an air sander without the expense and bulk of an air system. The ETS EC 125/3 is equipped with innovative features which include Multi-Jetstream dust extraction, extraction connection signal, electronic active vibration stop, carbide-tipped sanding brakes and much more - making it the ultimate high-demand sanding tool.
The ETS EC 125/3 is a favourite for fine sanding and extra-fine sanding in the compact class. As a one-handed sander with an excellent power to weight ratio, it produces an excellent surface quality with a 3 mm sanding stroke.
- Fusion-Tec StickFix Sanding Pad - Soft
- Abrasive Sheet
- Plug-it Power Cord
- All packed in SysGen3 M187 Systainer
- Dust extraction port: 27 mm
- Pad diameter: 5" (125 mm)
- Motor Type: EC-TEC Brushless
- Power consumption: 400 watts / 3.3 amps 120 v AC
- Sanding stroke: 1/8" (3 mm)
- Speed: 6,000 - 10,000 rpm
- Weight: 2.6 lbs. (1.2 kg)
Ergonomic and comfortable
Compact design and ergonomic grip for greater flexibility in all sanding tasks with less user fatigue. Active electronic vibration control system prevents vibrations before they occur and the carbide-tipped pad brake and electronic control allows for smooth start-up to prevent surface marring and near-immediate pad braking.
Effective and long-lasting
Power through the toughest demands with EC TEC brushless motors delivering a constant powerful stream of performance. Exceptional service life for heavy users while providing a smooth workflow and a high degree of efficiency – no downtimes for pad brake or brush replacement.
Efficient and productive
Designed with dust extraction efficiency in mind the new ETS EC sanders integrate seamlessly into the Festool sanding solutions system. In addition they are perfectly compatible with existing Festool abrasives and pads. Boost productivity and profitability with the Festool systems-based approach to surface prep and finishing.