Motor|Basic
Structure of Stepping Motors
2022.09.21
Points of this article
・A stepping motor, also called a pulse motor, is a motor that enables accurate control of the rotation angle and rotation speed in sync with a pulse signal.
・The basic structure is characterized by coils that are fixed in place and a permanent magnet that can rotate.
table of contents
In this new section on “Stepping Motors”, we will explain the structure, principles of operation, characteristics, and driving methods of stepping motors.
About Stepping Motors
These are motors that can accurately control the rotation angle and rotation speed in sync with a pulse signal, and are also called pulse motors. They use open-loop control to achieve accurate positioning without relying on a position sensor, and so these motors are widely used in devices and systems where positioning is necessary.
Structure of Stepping Motor (Two-phase bipolar)
The images below illustrate, from the left, examples of the outer appearance of stepping motors, structural diagrams of the interiors, and schematic diagrams of the motor structures.
In the outer appearance examples, HB (hybrid) type and PM (permanent magnet) type stepping motors are shown. The structure diagrams in the center similarly show HB type and PM type motors.
In a stepping motor, coils are fixed in place and a permanent magnet is able to rotate. The internal structural diagram on the right side is an example of a PM motor using two-phase (two sets of) coils. In the example of the basic structure, the coils are positioned on the outside and the permanent magnet is on the inside. In addition to two-phase coils, there are also tree-phase, five-phase, and other types with many phases.
There exist stepping motors with other structures as well, but for the purpose of explaining the principles of operation (in the next article), we have presented the basic motor structure. It is important to understand that in this structure, in essence, the coils are fixed in place and the permanent magnet can rotate.
※Image sources
Photo_1: https://www.monotaro.com/ Monotaro, stepping motor
Photo_2: Asakusagiken, servo actuator
Fig_1: Commercialization of a compact, high-resolution, high-rigidity hybrid type stepping motor (external dimensions 25×25 mm, step angle 1.8°)
Fig_2: https://www.nidec.com/ 2-4-2 claw pole type PM motor
【Download Documents】 Basics of Stepping Motors and Driving Methods
Stepping motors are used in various devices and equipment, and there are many types of equipment that cannot function without stepping motors. This handbook presents the fundamentals of stepping motors, explaining their structure, principles of operation, characteristics, and driving methods.
Motor
Basic
-
Brushed DC Motor
- Construction of Brushed Motors
- Principle of Rotation
- Power Generation Principle
- Short Braking
- Characteristics of Brushed DC Motors
- Driving Brushed DC Motors with an H-Bridge:Principles
- Driving Brushed DC Motors with an H-Bridge:Switching Output States
- Driving Brushed DC Motors with an H-Bridge:High-Side Voltage Linear Control
- Driving of Brushed DC Motors Using BTL Amplifier Circuits: Linear Voltage Driving
- Driving of Brushed DC Motors Using BTL Amplifier Circuits: Linear Current Driving
- Driving Brushed DC Motors Using PWM Output: Principles of PWM Driving
- Driving Brushed DC Motors Using PWM Output: Current Regeneration Methods in PWM Driving
- Driving Brushed DC Motors Using PWM Output: Losses and Points to be Noted
- Driving Brushed DC Motors Using PWM Output: PWM Driving with an H-Bridge Circuit
- Driving Brushed DC Motors Using PWM Output: H Bridge Constant-Current Driving
- Driving Brushed DC Motors Using PWM Output: Driving in the Form of BTL Amplifier Input
- Single-Switch Circuit Driving and Half-Bridge Circuit Driving
- Driving Circuits for Brushed DC Motors – Summary
-
Stepping Motors
- Structure of Stepping Motors
- Basic Operating Principles of Stepping Motors
- Stepping Motors: Microstep Operation Principles
- Basic Characteristics of Stepping Motors
- Structure and Operating Principles of Hybrid Type Stepping Motors
- Stepping Motor Driving: Bipolar Connections and Unipolar Connections
- Driving 2-Phase Bipolar Stepping Motors: Part 1
- Driving 2-Phase Bipolar Stepping Motors: Part 2
- Driving 2-Phase Unipolar Stepping Motors
- Stepping Motors – Summary
-
3-Phase Brushless Motors
- Structure of 3-Phase Full-Wave Brushless Motors
- Principles of Rotation of 3-Phase Full-Wave Brushless Motors
- Position Detection in 3-Phase Full-Wave Brushless Motors
- Driving 3-Phase Full-Wave Brushless Motors: 120° Commutation Linear-Current Driving with Sensors
- Driving 3-Phase Full-Wave Brushless Motors: Sinusoidal Commutation PWM Driving with Sensors
- Driving 3-Phase Full-Wave Brushless Motors: Advance Angle Control
- Driving 3-Phase Full-Wave Brushless Motors: Maximization of Motor-Applied Voltage
- Driving 3-Phase Full-Wave Brushless Motors: Sensorless 120° Commutation Driving
- Methods of Sensorless 120° Commutation Driving Startup 1: Startup on Detection of Induced Voltage from Synchronous Operation
- Methods of Sensorless 120° Commutation Driving Startup 2: Startup on Detection of Permanent Magnet Stopped Position
- Features and Applications of 3-Phase Full-Wave Brushless Motors ーSummaryー
- What is a Motor?