Micromotors that Move the World and Change Common Sense

In manufacturing sites and industrial equipment, precise motor control and speed management are essential elements that determine product quality. Crucial to achieving this is a position sensor called encoders. Encoders measure rotational angles or linear displacement with high precision and output this data as electrical signals, enabling precise control of motors and actuators. This article explains the basic mechanism, types, and selection criteria of encoders from an engineer's perspective, providing information useful for your equipment development and product improvement. Development engineers seeking to achieve high-precision position control should read on.   ENCODERS FUNDAMENTALS AND ROLE: THE IMPORTANCE OF POSITION DETECTION IN MOTOR CONTROL Encoders are sensors that detect a machine's rotational angle or displacement distance, converting it into digital or...

Brushed motors are widely adopted across diverse fields such as industrial equipment, medical equipment, and security equipment. Their simple structure and ease of control make them a preferred choice for many product development engineers. However, many engineers also have specific needs: "I want to accurately understand the operating principle of a brushed motor," "I want to perform motor selection for my company's products," or "I want to clearly grasp the differences between brushed motors and Brushless motors." This article comprehensively explains Brushed motors from an engineer's perspective, covering everything from their basic structure and rotation principle to their power generation principle and practical characteristics. We also introduce selection points useful for product development, suitable for everyone from new engineers to...

Motors are devices that convert electrical energy into mechanical rotational motion. They are utilized across a wide range of fields, including medical equipment, industrial tools, optical equipment, and security equipment. Correctly understanding the principle of motor operation is essential for product development and equipment selection. This article provides a detailed explanation, accessible to both new engineers and seasoned professionals, covering everything from the fundamental principles of motor operation to the differences between DC motors and AC motors, and the structural variations between Coreless motors and Iron-core motors. If you are struggling with motor selection or seeking higher precision, smaller size, or more energy-efficient motors, please read on to the end.   BASIC PRINCIPLES AND ROTATION MECHANISM OF MOTORS The mechanism...