Festo ELGS, 8083428 Electrical Linear Actuator, 0.18m/s, 500 mm
- RS Stock No.:
- 204-0013
- Distrelec Article No.:
- 301-86-884
- Mfr. Part No.:
- ELGS-BS-KF-32-500-8P-ST-M-H1-PLK-AA
- Manufacturer:
- Festo
Subtotal (1 unit)*
PHP111,063.72
(exc. VAT)
PHP124,391.37
(inc. VAT)
FREE delivery for orders over ₱3,000.00
Stocked by manufacturer
- Ready to ship from May 25, 2026
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units | Per Unit |
|---|---|
| 1 + | PHP111,063.72 |
*price indicative
- RS Stock No.:
- 204-0013
- Distrelec Article No.:
- 301-86-884
- Mfr. Part No.:
- ELGS-BS-KF-32-500-8P-ST-M-H1-PLK-AA
- Manufacturer:
- Festo
Specifications
Technical data sheets
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Festo | |
| Product Type | Electrical Linear Actuator | |
| Stroke Length | 500mm | |
| Maximum Speed | 0.18m/s | |
| Series | ELGS | |
| Motor Technology | Stepper Motor | |
| Duty Cycle | 100% | |
| IP Rating | IP40 | |
| Guide Type | Ball Bearing | |
| Maximum Operating Temperature | 50°C | |
| Standards/Approvals | RoHS | |
| Select all | ||
|---|---|---|
Brand Festo | ||
Product Type Electrical Linear Actuator | ||
Stroke Length 500mm | ||
Maximum Speed 0.18m/s | ||
Series ELGS | ||
Motor Technology Stepper Motor | ||
Duty Cycle 100% | ||
IP Rating IP40 | ||
Guide Type Ball Bearing | ||
Maximum Operating Temperature 50°C | ||
Standards/Approvals RoHS | ||
- COO (Country of Origin):
- DE
Festo ELGS Series Electrical Linear Actuator, 500mm Stroke Length, 0.18m/s Maximum Speed - ELGS-BS-KF-32-500-8P-ST-M-H1-PLK-AA, Numeric Part Number:8083428
This electrical linear actuator provides controlled linear motion for industrial automation and precision positioning tasks. It is driven by a stepper motor and designed for continuous operation in systems that require repeatable travel over a mid-range stroke. The actuator integrates a guided translation mechanism suited to applications where accurate linear displacement and predictable speed are required.
Features and Benefits:
• 100% duty cycle enables continuous operation without interruption
• Ball bearing guide provides high-precision linear guidance
• 500mm stroke delivers substantial travel for medium-range tasks
• 0.18m/s maximum speed supports responsive positioning
• Rated to 50°C allows use in elevated-temperature environments
• IP40 protection suits controlled indoor installations
• Ball bearing guide provides high-precision linear guidance
• 500mm stroke delivers substantial travel for medium-range tasks
• 0.18m/s maximum speed supports responsive positioning
• Rated to 50°C allows use in elevated-temperature environments
• IP40 protection suits controlled indoor installations
Applications
• Suitable for pick-and-place stations requiring repeatable strokes
• Ideal for laboratory automation with precise linear motion needs
• Used for panel adjustment mechanisms in production lines
• Can be used for component feed systems in assembly equipment
• Ideal for laboratory automation with precise linear motion needs
• Used for panel adjustment mechanisms in production lines
• Can be used for component feed systems in assembly equipment
What motor technology is used to achieve accurate stepwise movement?
A stepper motor provides discrete microstep control, enabling precise incremental positioning and simple open-loop control schemes.
How does the guide type affect long-term positional stability?
The ball bearing guidance reduces lateral play and friction variability, maintaining consistent accuracy over repeated cycles.
What environmental limitations should be considered for installation?
The protection level is suitable for dust-free indoor environments but does not provide resistance to water ingress, so it should be mounted in sheltered locations.
How does speed interact with continuous operation for throughput planning?
Maximum travel speed is 0.18 m/s
planners should account for acceleration, deceleration and cycle dwell when calculating achievable throughput under continuous running conditions.