Festo ELGA-BS, 8041845 Electrical Linear Actuator, 1500mm/s, 300 mm
- RS-stocknr.:
- 281-0450
- Fabrikantnummer:
- ELGA-BS-KF-120-300-0H-25P-ML
- Fabrikant:
- Festo
Subtotaal (1 eenheid)*
€ 2.931,68
(excl. BTW)
€ 3.547,33
(incl. BTW)
GRATIS bezorging voor bestellingen van meer dan € 90,00
Voorradig bij de fabrikant
- Klaar voor verzending vanaf 13 juli 2026
Heeft u meer nodig? Klik op 'Controleer leverdata' voor extra voorraad en levertijden.
Aantal stuks | Per stuk |
|---|---|
| 1 + | € 2.931,68 |
*prijsindicatie
- RS-stocknr.:
- 281-0450
- Fabrikantnummer:
- ELGA-BS-KF-120-300-0H-25P-ML
- Fabrikant:
- Festo
Specificaties
Datasheets
Wetgeving en compliance
Productomschrijving
Zoek vergelijkbare producten door een of meer kenmerken te selecteren.
Alles selecteren | Attribuut | Waarde |
|---|---|---|
| Merk | Festo | |
| Product Type | Electrical Linear Actuator | |
| Stroke Length | 300mm | |
| Maximum Speed | 1500mm/s | |
| Series | ELGA-BS | |
| Motor Technology | Servo Motor, Stepper Motor | |
| Duty Cycle | 100% | |
| IP Rating | IP40 | |
| Guide Type | Ball Bearing | |
| Maximum Operating Temperature | 60°C | |
| Standards/Approvals | RoHS | |
| Alles selecteren | ||
|---|---|---|
Merk Festo | ||
Product Type Electrical Linear Actuator | ||
Stroke Length 300mm | ||
Maximum Speed 1500mm/s | ||
Series ELGA-BS | ||
Motor Technology Servo Motor, Stepper Motor | ||
Duty Cycle 100% | ||
IP Rating IP40 | ||
Guide Type Ball Bearing | ||
Maximum Operating Temperature 60°C | ||
Standards/Approvals RoHS | ||
- Land van herkomst:
- DE
Festo ELGA-BS Series Electrical Linear Actuator, 300mm Stroke Length, 100% Duty Cycle - ELGA-BS-KF-120-300-0H-25P-ML, Numeric Part Number:8041845
This electrical linear actuator provides controlled linear motion for automation and mechanical systems, delivering repeatable positioning over a 300mm travel. Designed for continuous operation in industrial settings, it accepts both servo and stepper motor drives and is suitable where moderate environmental protection is acceptable.
Features and Benefits:
• 100% duty cycle supports continuous operation without downtime
• Ball-bearing guidance ensures low-friction, precise movement
• Maximum speed 1500 mm/s enables Rapid actuation cycles
• Rated for 60°C operation permits use in elevated-temperature zones
• IP40 enclosure offers protection against large solid objects
• RoHS compliance limits hazardous substances in components
• Ball-bearing guidance ensures low-friction, precise movement
• Maximum speed 1500 mm/s enables Rapid actuation cycles
• Rated for 60°C operation permits use in elevated-temperature zones
• IP40 enclosure offers protection against large solid objects
• RoHS compliance limits hazardous substances in components
Applications
• Suitable for pick-and-place systems requiring fast linear strokes
• Ideal for automated test rigs needing continuous actuation
• Used with motion-control platforms driven by servo motors
• Can be used for positioning stages paired with stepper motors
• Suitable for factory automation where RoHS materials are mandated
• Ideal for automated test rigs needing continuous actuation
• Used with motion-control platforms driven by servo motors
• Can be used for positioning stages paired with stepper motors
• Suitable for factory automation where RoHS materials are mandated
What motor types can drive this actuator?
It accepts both servo and stepper motors, allowing integration with closed-loop or open-loop control architectures according to control precision requirements.
How does the guidance system affect lifetime performance?
The ball-bearing guide reduces wear and maintains alignment, improving positional accuracy over extended duty cycles and lowering maintenance intervals.
What environmental limits should I consider for installation?
The unit has protection against large solids but is not dust-tight or water-resistant, so avoid exposure to fine particulate ingress or moisture during operation.
How does the speed capability influence cycle design?
With a TOP speed of 1500 mm/s, cycle timings can be shortened
design inertia and control acceleration profiles must be adjusted to prevent overshoot.