STAHLE Robot Systems
Founded in 1984, STÄHLE GmbH provided at first a comprehensive spectrum of technologically challenging solutions in the fields of measurement, regulation and medical equipment like safety regulating valves for operating temperatures from -265°C to +200°C. From 1987 STÄHLE GmbH moved to producing automotive applications involving robotics, electronics & software. Over decades of specialization STÄHLE GmbH gained a huge experience and delivered a very large number of robotics systems for component testing and chassis dynamometers. During the past few years, STÄHLE GmbH additionally started to focus on applications for proving grounds testing in order to allow testing and verification of vehicles and their complex assist systems with robotic systems simulating real conditions in a precise and repeatable manner.
- +49 (0) 7044 91561-0
- info@stahle.com
- Maybachstraße 12,
Wimsheim, 71299
Germany
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Product
Actuator For EMC Tests
PSE-G-MC
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Pneumatically operated actuator for operation of throttle on motorcycles and 2/3 wheelers. External set-point of the pedal actuator position via analog voltage to closed-loop pressure regulator in external valve box.
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Product
EMC Actuator for Gas + Clutch Pedal
PSE-GK
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Pneumatically operated actuator for operation of accelerator and clutch pedal in vehicles. External set-point of the pedal actuator position via analog voltage to closed-loop pressure regulator in external valve box.
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Product
Free Ride Systems
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For ADAS and NCAP maneuvers to be truly comparable in real-world testing, one thing is paramount: repeatability. Free-running systems provide an automated setup that reduces driver variation and accurately reproduces scenarios.
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Product
Actuator
SCX-SA
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Actuator for the ignition key in vehicles. Stand-alone controller with buttons for position selection and external selection via potential free contacts.
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Product
Actuator
AP-GB/2.10
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Actuator for precise operation of accelerator and brake pedal in vehicles.
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Product
Steering Robots
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Steering robots take over constant lateral guidance – reproducibly, safely, and independently of individual driving styles. With millisecond-precise synchronization to driving, pedal, and shifting robots, they maintain the lane even during AEB, lane-keeping, and lane-change maneuvers.
