The latest Ultraleap Leap Motion Controller is here for the 2nd GEN! In Today's Episode, I will show you the Unboxing of this great Leap Motion Controller, and how this Gen compared to the previous Gen. And ofc, I will also show you how it performs in different Ultraleap Leap Motion demo apps :)

Sanyo Denki's Advanced Motion Control Solutions

Sanyo Denki designs and manufactures a comprehensive range of motion control solutions, including AC and DC servo motors, motion controllers, and stepping motors. These systems are engineered to deliver high precision, high torque, and high-speed positioning capabilities, making them ideal for various applications that demand superior performance.

TMC2209 stepper motor driver board testing 🤖⚙️🔋

We've been testing the Trinamic/Maxim/Analog/WeylandYutani TMC2209 (https://www.digikey.com/short/8r5m38h8) breakout we designed, and it's working great - the step/dir interface plus the micro-step select allows a microcontroller to control a stepper with just GPIO and true-to-its-name it is a very silent stepper driver, much quieter than the A4988 (https://www.digikey.com/short/tfjt88dd)! There are a few different I/O pins on the TMC: Index tells you when a full step is completed, which is handy to know when you want to change stepper modes on the fly. Diag lets you know when a power or motor failure has occurred. It can also tell when the motor has stalled if it's configured to. Finally, and most interestingly, is the UART interface: this unidirectional pin lets you read and write configuration registers, set 1-128 microsteps, change current limiting, and detect stalls for 'auto homing'. So far, everything works; we're just going to swap the direction of the potentiometer so it twists clockwise to increase the current limit and book PCBs!

Precision Without Contact: The Role of Inductive Linear Position Sensors in Modern Machinery

In the world of modern machinery, precision and reliability aren’t luxuries—they’re the baseline. Whether it’s a robotic arm, a CNC system, or a hydraulic actuator, every millimeter of movement matters. That’s why more engineers are turning to inductive linear position sensors for accurate, contactless feedback.

At THM Huade, we specialize in supplying advanced hydraulic and motion control components, and inductive sensors are a crucial part of that ecosystem.

What Is an Inductive Linear Position Sensor?

An inductive linear position sensor detects the position of a moving object—typically a piston, rod, or machine component—using non-contact electromagnetic technology. Unlike potentiometers or mechanical sensors, inductive sensors don’t require direct contact with the target, eliminating wear and increasing reliability.

They work by generating an alternating magnetic field and sensing changes in inductance as a metallic target moves within range. The result is a precise, linear signal that translates directly into position data.

Where Do They Make a Difference?

Inductive linear position sensors are the go-to choice for applications where:

High-frequency or continuous movement occurs

Harsh environmental conditions (dust, oil, vibration) are common

Mechanical wear from contact sensors is a concern

Space constraints require slim or embedded sensor designs

You’ll often find them in:

Hydraulic cylinders

Mobile equipment (cranes, lifts, dump trucks)

Factory automation systems

Metal stamping and press machines

Renewable energy installations (like wind turbine pitch control)

Why Engineers Prefer Inductive Sensing

What makes inductive sensors stand out?

Non-contact design = no mechanical wear, longer service life

Resistant to shock, oil, and temperature changes

High repeatability and linearity for precision control

Compact and robust housings suited for embedded systems

In short, these sensors are built for rugged reliability and long-term accuracy, even in environments where traditional sensors would fail.

THM Huade’s Expertise

At THM Huade, we supply inductive linear sensors that are:

Customizable in stroke length and output format

Compatible with analog and digital systems (voltage, current, PWM)

Sealed to withstand industrial environments

Designed for seamless integration into hydraulic and mechanical systems

We understand that the sensor is only as good as the system it serves. That’s why our team works with engineers to ensure proper sensor alignment, signal compatibility, and mounting precision. Whether you're integrating into a cylinder, robotic assembly, or automated press, our sensors offer plug-and-play performance with long-term stability.

A Key Component in Industry 4.0

In today’s push toward smart factories and connected systems, real-time position feedback is essential. Inductive linear sensors support this shift by offering precise data that can be fed into PLCs, monitoring systems, or predictive maintenance tools.

They’re more than components—they’re enablers of smarter control, better diagnostics, and increased automation.

Need Reliable Position Feedback? Trust THM Huade to deliver inductive sensor solutions that meet your performance and durability needs. We combine technical know-how with high-quality engineering—ensuring your systems move with confidence and control.

👉 Learn more or request a custom solution at https://thmhuade.com

Why Custom Motor Gearboxes Are Driving the Future of Industry

In the world of industrial automation, motor gearboxes are no longer just hidden components—they’re strategic tools that directly impact performance, reliability, and competitiveness.

Each industry demands something different: Compact collaborative robots need high torque in small spaces. Logistics robots require long-lasting durability. Medical devices focus on smooth, precise motion, while construction or defense systems need toughness and power. A one-size-fits-all gearbox simply can’t meet these diverse needs.

That’s why customization is key.

At BonSystems, we design and manufacture custom motor gearboxes based on the exact needs of each client. With advanced cycloidal reduction technology, we deliver strong torque, flexible gear ratios, and compact designs that fit even the tightest spaces—all while ensuring smooth integration with your system.

From concept to prototype, testing to mass production, we work closely with you at every step. Our gearboxes are more than components—they’re the core of your industrial solution.

Want to learn how customized gearboxes can boost your system’s performance?

LINK: Industry-Specific Motor Gearboxes: A Strategic Choice to Boost Performance

What’s the secret to smooth industrial automation? ⚙️

If you work with manufacturing or automation, you know how crucial it is to maintain precision and efficiency. That’s where inverters, motors, and gearboxes come in! These essential components ensure reliable motion control, reducing energy waste and improving system performance. Whether you need torque regulation, speed control, or a complete automation setup, these solutions help maximize productivity.

With motion control systems, industries can optimize energy use while keeping operations smooth and reliable. Thinking of upgrading your setup? Discover how these advanced solutions can take your automation to the next level! 🚀

SMD Harmonic Gearbox: SCSG Series - High-Accuracy & Space-Saving Solution

Strain wave gearboxes, also known as harmonic drives, are renowned for their high precision and compact design. They enable smooth motion control with minimal to zero backlash, achieving high reduction ratios in a lightweight package.

Achieve unparalleled motion control with SMD's Harmonic Gearbox

Enhance Precision with drylin® Linear Guides from igus®

Achieve smooth and precise motion with drylin® linear guides from igus®. Engineered for reliability, these guides offer frictionless movement and long-lasting performance, even in harsh conditions. Their maintenance-free design reduces costs while providing excellent durability and efficiency. Ideal for a range of industries, drylin® linear guides ensure high performance and minimal wear, making them the perfect choice for demanding applications.

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How Meta Quest 2 VR headset can be working with Ultraleap Leap Motion Controller 2?

In today's Episode, I'm going to walk you guys through step by step on how to set everything up.

Credit Source:

Fully Supported XR Device from Ultraleap:

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Sanyo Denki produces different AC and DC Servo Motors, Motion controllers, and Stepper Motors. SANMOTION G is a compact, lightweight, and energy-efficient AC servo system. This series offers a user-friendly interface for easy configuration and monitoring.

Some of the features include:

High Precision Control

Fast Response Time

Smooth Motion Profiles

User-Friendly Interface

Visit: https://www.seimitsu.in/sanyo-denki-servo-motor-price.html#dcmotor

Motion Control Market: Trends to Watch in 2024 & Beyond

Motion control systems are pivotal components in automation, enabling the precise control of movements in machines across various industries. As industries increasingly lean towards automation, the global motion control market is projected to witness significant growth at a CAGR of 5.21% during 2024-2032, reaching $26,569.12 million by 2032. This substantial expansion is driven by the rising demand for motion control solutions and technologies, particularly in response to the growing adoption of robotics and automation technologies.

The increasing focus on operational efficiency and accuracy fuels the need for advanced motion control products. Businesses are striving to optimize their operations and reduce labor costs, leading to a surge in demand for these systems. This trend is especially pronounced in fast-growing regions like Asia-Pacific, where motion control manufacturers and enterprises are rapidly expanding their offerings to meet the evolving needs of the industry.

Explore in detail about this market in our FREE sample

Automation, Robotics, and Industry 4.0: Driving Growth in the Motion Control Market

The rapid integration of automation, driven by Industry 4.0, has placed the motion control industry at the heart of technological transformation. Advanced robotics and automation are revolutionizing manufacturing processes globally. According to the International Federation of Robotics (IFR), global industrial robot installations rose by 10% in 2023, with the Asia-Pacific region dominating the landscape, accounting for nearly 70% of these installations.

China, in particular, has emerged as a leader in this domain. In 2023, 276,288 industrial robots were installed, representing 51% of global installations, marking the second-highest level ever recorded. Domestic manufacturers have significantly increased their market share, capturing 47% of the Chinese market. This growth reflects China’s strategic focus on enhancing its position as a global manufacturing powerhouse. The World Bank reports that manufacturing contributed 28% to China’s GDP in 2022, underscoring the importance of industrial automation in its economic framework.

The government has implemented policies aimed at fostering the adoption of automation technologies, with a particular focus on motion control systems. These systems ensure precision, efficiency, and scalability in production, key elements in the shift towards smart manufacturing under Industry 4.0. This substantially supports the fast growth of the Asia-Pacific motion control market.

Open-Loop vs. Closed-Loop Systems: The Backbone of Motion Control

In the motion control market, two dominant system types underpin industry operations: open-loop systems and closed-loop systems. Each system offers distinct advantages tailored to the application’s precision requirements and cost considerations.

Open-Loop Systems: Known for their simplicity and cost-effectiveness, open-loop systems operate without feedback mechanisms. The control signal sent to the motor remains unadjusted regardless of the outcome, making them ideal for applications where precision is not the top priority. While this lack of feedback limits accuracy, open-loop systems continue to be favored in cost-sensitive industries, where ease of maintenance and lower expenses outweigh the need for precise control.

Closed-Loop Systems: In contrast, closed-loop systems incorporate feedback loops that continuously adjust motor movements, ensuring superior accuracy and reliability. These systems are crucial in high-precision applications, such as robotics, CNC machinery, and advanced medical devices, where exact positioning and velocity control are essential. According to industry sources, the adoption of closed-loop systems is expected to grow, driven by the escalating demand for accuracy in automation processes.

Connect with our experts for a simplified analysis!

Recent Innovations by Key Players in Motion Control Technology

Latest advancements in motion control technologies have focused on enhancing performance, efficiency, and connectivity. Several leading manufacturers have introduced innovative products in 2023 and 2024, marking significant strides in the motion control market.

In March 2024, FANUC America unveiled its Power Motion i-MODEL A Plus (PMi-A Plus) at MODEX 2024. This PLC/CNC motion controller is designed to support general motion control equipment, expanding the versatility and functionality of FANUC’s product lineup.

In April 2024, Rockwell Automation Inc launched the FLEXLINE™ 3500, a low-voltage motor control center (MCC) for IEC markets. This solution enables manufacturers to unlock production data and improve productivity through smart, connected devices.

In November 2023, Siemens introduced the latest version of the Totally Integrated Automation (TIA) portal. This update simplifies motion control operations, offering flexible production solutions and addressing the skilled worker shortages prevalent in the industry.

Robert Bosch GmbH and Mazda collaborated in October 2023 to develop DSC-TRACK, ESP® control for motorsports, which features Vehicle Dynamics Control 2.0. This advanced system improves safety, agility, and comfort, providing enhanced performance for motorsport applications.

Future of Motion Control: AI, Cobots, and Industry Growth

The motion control market is set for transformative growth, driven by advancements in artificial intelligence (AI) and machine learning. AI-powered motion control systems will enable manufacturers to dynamically optimize processes, particularly benefiting precision-dependent industries like pharmaceuticals and electronics.

Additionally, the rise of collaborative robots (cobots), designed to work alongside humans, presents a major growth opportunity. With a projected CAGR of 31.13% through 2028, cobots are expected to become an essential component in manufacturing, boosting demand for motion control technologies.

In conclusion, the integration of automation, robotics, and AI is shaping the future of the motion control industry, opening new avenues for innovation and investment across sectors.

Explore Our Latest Release for the 2024-2032 Market Analysis

FAQs:

Q1) What is motor control in motion control systems?

Answer: Motor control refers to the methods and technologies used to regulate the movement of motors in a machine. In motion control systems, motor control ensures that motors function precisely to achieve the desired position, velocity, or torque.

Q2) What are the primary benefits of using motion control systems in automation?

Answer: Motion control systems offer improved precision, efficiency, and scalability in automation processes. They are critical for industries that require high-speed, accurate movements, such as automotive manufacturing, electronics assembly, and medical device production.

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Revolutionizing Motion with Igus Motion Plastic Cable Carriers

Experience seamless movement and durability with Igus Motion Plastic cable carriers. These innovative solutions redefine motion control, offering unparalleled reliability in diverse applications. With their lightweight design and low-friction materials, Igus cable carriers ensure smooth operation, reducing wear and extending service life. Say goodbye to maintenance hassles as these carriers require minimal upkeep, maximizing uptime for your systems. From industrial automation to robotics, Igus Motion Plastic cable carriers deliver superior performance, driving efficiency and productivity. Embrace the future of motion control with Igus, where innovation meets reliability.