A new family of arc-resistant Siemens tiastar Motor Control Centers (MCC) offers innovative feature sets tailored to general construction, water and wastewater, oil and gas, and process industries.

Both software and hardware are parts of all motor control systems such as IGBTs, WBG semiconductors and MCUs. Industry 4.0 strongly relies on motor control for its development but energy consumption ...

The Flexline 3500 low-voltage motor control center delivers real-time operation and diagnostic data by integrating with smart motor control devices. The modular motor control center design is ...

MCCs consolidate electrical components, providing centralized control and protection for multiple motors, which enhances safety and operational efficiency. Key factors in selecting an MCC include ...

The DC motor is widely used in the field of servo automation and robotics. The operating principle of an electric motor is based on the interaction of two magnetic fields that attract and repel each ...

Energy conversion efficiency has always played an important role in electronics design, and in the case of electric motors, the conversion takes place twice: first to create the electricity needed to ...

How the challenges of electric-motor control design can be overcome using digital twins in all design and test phases. How automated testing within a continuous and integrated toolchain is able to ...

The topic of motors and motor control techniques is wide and varied. Part one of this two-part article will cover the principles of alternating-current (AC) motor operation and control. Part two will ...

Enter “motion control” or “motor control” into your favorite search engine, and you’ll be rewarded with links to an ad-hoc encyclopedia of solid design ...

The Centerline 2100 motor-control center (MCC) ArcShield option helps reduce arc-flash hazards while protecting users against internal electrical arcs in a low-voltage MCC (up to 600 V). ArcShield ...