#jennyscience

Direct Drive Achsen in Minuten in Betrieb nehmen | WebMotion® Quick Start Wizard https://www.youtube.com/watch?v=vnR2Sj0_ICE Jenny Science präsentiert den neuen Quick Start Wizard in WebMotion® für XENAX® Xvi Servo-Controller. Der Assistent vereinfacht die Inbetriebnahme von Direct Drive Achsen und reduziert den Aufwand auf wenige Minuten. 5 einfache Schritte: - Achse identifizieren - Bewegte Masse eingeben - Masse anpassen - Gain einstellen - Maximale Dynamik testen Keine Softwareinstallation. Keine komplizierte Parametrierung. Keine aufwendigen Tuning-Prozesse. Die browserbasierte WebMotion® Oberfläche ermöglicht eine schnelle und intuitive Inbetriebnahme direkt im Servocontroller. Vorteile: ✔ Vereinfachte Inbetriebnahme ✔ Weniger Konfigurationsfehler ✔ Schnellere Maschinen-Inbetriebnahme ✔ Browserbasierte Bedienung mit WebMotion® ✔ Optimiert für XENAX® Xvi Servo-Controller Jetzt herunterladen: https://ift.tt/u0AY7DL 🔔 Subscribe for more motion control insights: https://www.youtube.com/@JennyScienceAG/?sub_confirmation=1 🌐 Mehr über Jenny Science: https://ift.tt/bDp3znq 💼 LinkedIn: https://ift.tt/lIkpLg5 📩 Business Inquiries: [email protected] 🎥 Weitere Videos: • Force Measurement with Forceteq® Pro → https://youtu.be/JwsLVII3Stw • LINAX® Lxu F60S – Industrial Automation Demo → https://youtu.be/Qu3zm8G6XR4 • LINAX® Lxs F60S – Compact Precision Drive → https://youtu.be/SyFWXBQiTzA • How To Update Firmware & WebMotion on XENAX® Controller → https://youtu.be/bc6KesSkGfg #DirectDrive #ServoController #MotionControl #Automation #Maschinenbau #JennyScience © Jenny Science AG – Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww May 19, 2026 at 02:35PM

Injection Pen Testing | Real-Time Torque Control with ROTAX® Rxhq & Forceteq® pro https://www.youtube.com/watch?v=UPnvZLnbEX4 How much torque does it take to open an injection pen? We know. Down to 10 mNm. This application demonstrates precise torque measurement and active torque control directly in the automation process. ROTAX® Rxhq opens the injection pen, while the Signateq® measurement amplifier captures the torque in real time. Forceteq® pro does not just measure. It actively controls. What this enables: – live torque vs. position curve – active torque control directly in the process – immediate detection of deviations – highly repeatable testing processes – real-time quality monitoring One pen. Hundreds of data points. No room for error. Products used in this application: – ROTAX® Rxhq hollow shaft rotary stage – Forceteq® pro – Signateq® measurement amplifier – XENAX® servo controller 🔔 Subscribe for more motion control insights: https://www.youtube.com/@JennyScienceAG/?sub_confirmation=1 🌐 Learn more about our linear motors and servo controllers: https://ift.tt/heyEQcF 💼 Connect with us on LinkedIn: https://ift.tt/AWDSIpN 📩 For business inquiries: [email protected] 🎥 More Jenny Science videos: • Force Measurement with Forceteq® Pro → https://youtu.be/JwsLVII3Stw • LINAX® Lxu F60S – Industrial Automation Demo → https://youtu.be/Qu3zm8G6XR4 • LINAX® Lxs F60S – Compact Precision Drive → https://youtu.be/SyFWXBQiTzA • How To Update Firmware & WebMotion on XENAX® Controller → https://youtu.be/bc6KesSkGfg #JennyScience #SwissEngineering #Automation #LinearMotor #ServoController #Forceteq #PrecisionEngineering #MotionControl #SimplifyMotion © Jenny Science AG – Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww May 11, 2026 at 06:18PM

INTAX | Plug & Work Motion Control | Jenny Science https://www.youtube.com/shorts/-SLD0EREOYE Complexity is history. This is INTAX. • Integrated servo controller • Absolute position sensing no homing required • USB C web interface no setup • Compact design with fully integrated wiring Plug and Work INTAX makes high tech simple. Jenny Science – Simplify Motion. 🔗 Learn more: https://ift.tt/KV1kzEC #JennyScience #INTAX #MotionControl #Automation #SwissEngineering © Jenny Science AG – Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww April 17, 2026 at 10:00PM

Injection Pen Assembly | Faster. Safer. Simpler. | Jenny Science https://www.youtube.com/shorts/C1Z0HTohZsI 💉 Precision matters in injection pen assembly. With Forceteq®: → 10,000 updates/sec → No external force sensors → Faster & safer processes #Automation #MedicalTech #Precision #MotionControl © Jenny Science AG – Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww April 8, 2026 at 10:00PM

Automatic Diamond Sorting | Zero Backlash Precision | Jenny Science https://www.youtube.com/shorts/jZUjRapUzmg 💎 Tiny. Valuable. Zero margin for error. Automatic diamond sorting demands absolute precision. The DMS/8 Fancy Unit, developed by BUKO in Belgium, combines: → Optical inspection → Flexible feeding (Asyril) → High-speed automation At its core: Jenny Science linear motor technology ensures precise positioning – every single cycle. No vibration. No backlash. Just controlled motion. Simplify Motion. #Automation #MotionControl #SwissEngineering #Precision #LinearMotor via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww April 1, 2026 at 07:00PM

When the servo controller is the brain and the motor is the muscle | Jenny Science https://www.youtube.com/shorts/AbFbp4MAUoU A direct drive works when intelligence and force move in perfect synchronisation The brain thinks steers connects The muscle delivers force dynamics repeatability In our systems both become one The controller provides intelligence The linear motor provides movement Direct synchronised without mechanical loss From idea to finished motion system Engineered for maximum performance This is Jenny Science Knowledge Thinking Precision Jenny Science Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww March 10, 2026 at 10:00PM

Implementing Feedback Mechanisms in Linear Actuators for Better Control https://www.youtube.com/watch?v=mEZDMOuOoy8 Linear actuator feedback systems and limit switches — motion control vs. motion protection explained. In this video, we explain how linear actuator feedback systems and limit switches work together to control and protect industrial motion systems. If you are designing automation equipment, understanding the difference between feedback and safety functions is essential for reliable operation. What you’ll learn in this video: • How a linear actuator with limit switches protects the mechanical end of travel • The role of a limit switch for a linear actuator in system safety • How a linear actuator proximity switch works for non-contact detection • Why precise motion control depends on linear actuator feedback systems, not on limit switches • How feedback and limit switches complement each other in industrial automation Feedback systems in linear actuators: In modern electric linear actuators, motion control is based on continuous feedback. Servo-controlled linear axes constantly measure position and speed, enabling closed-loop regulation with high accuracy and repeatability. These linear actuator feedback systems are essential for: • Assembly and insertion processes • Testing and inspection • Precise positioning and handling • Repeatable, cycle-stable motion At Jenny Science, linear axes such as LINAX® and ELAX® operate with integrated position feedback as part of a servo system. Motion data is processed by XENAX® servo controllers and communicated to the PLC via industrial fieldbuses such as EtherCAT, PROFINET, Ethernet/IP, or POWERLINK. Limit switches — protection, not control: A limit switch for a linear actuator serves a different purpose than feedback. Limit switches define the mechanical end of travel and prevent motion beyond the allowed range. They are used for safety, commissioning, and fault protection—not for precise positioning. Common implementations include: • Internal end-of-travel switches • External mechanical limit switches • Linear actuator proximity switches for non-contact detection • How they work together In industrial systems, feedback handles accurate motion control, while limit switches provide an independent safety layer. In machines with multiple linear actuators, this combination ensures each axis moves precisely while the overall system remains protected against unexpected conditions. Conclusion: Accurate linear motion is achieved through servo-based linear actuator feedback systems, not through limit switches. Limit switches exist to protect the mechanics—not to control motion. Understanding this distinction is key when designing reliable, industrial-grade linear actuator systems. 🔔 Subscribe for more motion control insights: https://www.youtube.com/@JennyScienceAG/?sub_confirmation=1 🌐 Learn more about our linear motors and servo controllers: https://ift.tt/twU0RQf 💼 Connect with us on LinkedIn: https://ift.tt/IDiHfRw 📩 For business inquiries: [email protected] 🎥 More Jenny Science videos: • Force Measurement with Forceteq® Pro → https://youtu.be/JwsLVII3Stw • LINAX® Lxu F60S – Industrial Automation Demo → https://youtu.be/Qu3zm8G6XR4 • LINAX® Lxs F60S – Compact Precision Drive → https://youtu.be/SyFWXBQiTzA • How To Update Firmware & WebMotion on XENAX® Controller → https://youtu.be/bc6KesSkGfg #JennyScience #SwissEngineering #Automation #LinearMotor #ServoController #Forceteq #PrecisionEngineering #MotionControl #SimplifyMotion © Jenny Science AG – Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww March 10, 2026 at 02:00PM

Linear Drives vs Linear Motors: Choosing the Right Option https://www.youtube.com/watch?v=r18AFn_0mi0 Linear motors explained — how direct-drive linear motion really works. In this video, we explain what a linear electric motor is, how a linear electromagnetic motor works, and when it makes sense to use a linear motor instead of a mechanical drive such as a linear drive screw. A linear motor generates motion directly in a straight line. Unlike conventional systems, there is no spindle, belt, or gearbox between the motor and the load. Force is produced electromagnetically and applied directly to the axis, resulting in highly precise and repeatable motion. What you’ll learn in this video: • The working principle of a linear electric motor • How linear motors and actuators differ from mechanical linear drives • Why direct-drive systems eliminate backlash and mechanical wear • When a mechanical linear drive screw is sufficient—and when it becomes a limitation • Typical applications where linear motors clearly outperform mechanical solutions Linear motors vs. mechanical linear drives: Mechanical linear drives are widely used for basic positioning tasks. They are robust and cost-efficient, but friction, backlash, and wear limit their performance—especially at higher speeds or tighter accuracy requirements. A linear electromagnetic motor, on the other hand, produces force without mechanical transmission. This direct-drive principle enables: • No backlash • No mechanical wear • Stable accuracy over millions of cycles • High speed and dynamic response That is why linear motors are used in precision automation, inspection systems, assembly processes, and compact industrial machines where motion quality is critical. Integrated linear motor systems: At Jenny Science, linear motor axes such as LINAX® and ELAX® are engineered as integrated direct-drive units. Motor, guide system, and feedback are optimized together as one compact axis, ensuring predictable behavior in demanding applications. Control and system integration: Linear motors are always part of a controlled system. With XENAX® servo controllers, linear motors and actuators are integrated into PLC-based automation via industrial fieldbuses such as EtherCAT, PROFINET, Ethernet/IP, or POWERLINK. This allows linear motors to operate seamlessly within existing machine architectures. Choosing the right technology: • Mechanical drives solve basic linear motion tasks • Linear motors solve precision, speed, and repeatability challenges • Understanding this difference is essential when evaluating linear motors for sale and selecting the right linear motion technology for your project. 🔔 Subscribe for more motion control insights: https://www.youtube.com/@JennyScienceAG/?sub_confirmation=1 🌐 Learn more about our linear motors and servo controllers: https://ift.tt/NmalkhP 💼 Connect with us on LinkedIn: https://ift.tt/WvAx1ul 📩 For business inquiries: [email protected] 🎥 More Jenny Science videos: • Force Measurement with Forceteq® Pro → https://youtu.be/JwsLVII3Stw • LINAX® Lxu F60S – Industrial Automation Demo → https://youtu.be/Qu3zm8G6XR4 • LINAX® Lxs F60S – Compact Precision Drive → https://youtu.be/SyFWXBQiTzA • How To Update Firmware & WebMotion on XENAX® Controller → https://youtu.be/bc6KesSkGfg #JennyScience #SwissEngineering #Automation #LinearMotor #ServoController #Forceteq #PrecisionEngineering #MotionControl #SimplifyMotion © Jenny Science AG – Simplify Motion via Jenny Science AG https://www.youtube.com/channel/UCjWsIm0BVRObYMt9nmyn6ww March 6, 2026 at 02:00PM