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FULLING MOTOR Stepping Motors(Holding torque (classification):~1)

FULLING MOTOR offers products Stepping Motors specified by Holding torque (classification) ~1 from Automation Components product category. There are a total of 1 items. Search and select detailed specifications of parts for your machine with free CAD downloads. FULLING MOTOR products are available to order through MISUMI online 24 hours a day. Free shipping, no minimum order.

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    57 series 3-phase hybrid type stepping motor with a step angle of 1.2°

    57 series 3-phase hybrid type stepping motor with a step angle of 1.2°

    FULLING MOTOR

    - 57 series 3-phase hybrid type stepping motor with 1.2° step from FULLING MOTOR.
    - Step angle: 1.2°
    - Step angle accuracy: ± 5% (full step, no load)
    - Resistance accuracy: ± 10% (20℃)
    - Inductance accuracy: ± 20% (1kHz)
    - Temperature Rise: 80℃ Max.
    - Ambient Temperature: -20℃~+50℃
    - Insulation Resistance: 100MΩ Min. ,500VDC
    - Dielectric Strength: 500VAC for one minute
    - Max. radial force: 75N (20mm from the flange)
    - Max. axial force: 15N

    CAD :
    2D / 3D
    Type Details Square Flange Size A(mm) Power Supply Voltage Specifications Control Method Step Angle(°) Reducer Drive Method Backlash(°) Holding torque (classification)(N·m)
    Motor Only 57 3-phase DC Specification Open Loop 1.2 Not Provided Unipolar - ~1
    From: ₹ 4,388.00
    Days to Ship: 6 Day(s) or more
    day to ship 6 Day(s) or more
Brand
Product Series
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From
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Type Details
Square Flange Size A(mm)
Power Supply
Voltage Specifications
Control Method
Step Angle(°)
Reducer
Drive Method
Backlash(°)
Holding torque (classification)(N·m)

You can add up to 6 items per a category to the compare list.

57 series 3-phase hybrid type stepping motor with a step angle of 1.2°
    Brand

    FULLING MOTOR

    Product Series

    57 series 3-phase hybrid type stepping motor with a step angle of 1.2°

    CAD
    • 2D / 3D
    From

    ₹ 4,388.00

    Days to Ship 6 Day(s) or more
    Type DetailsMotor Only
    Square Flange Size A(mm)57
    Power Supply3-phase
    Voltage SpecificationsDC Specification
    Control MethodOpen Loop
    Step Angle(°)1.2
    ReducerNot Provided
    Drive MethodUnipolar
    Backlash(°)-
    Holding torque (classification)(N·m)~1

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    1. 1

    Related Categories to Stepping Motors

    FAQ Stepper Motor

    Question: For what purposes is a stepper motor typically utilized?
    Answer: Stepper motors are typically utilized in applications that require precise and accurate positioning, such as in robotics, automation systems, CNC machines, telescope mounts, and 3D printing. They are ideal for situations where the motor needs to move in small increments, rather than rotating continuously.
    Question: What are the differences between a stepper motor and a regular motor?
    Answer: The main difference between a stepper motor and a regular motor is that a stepper motor moves in small, precise steps, while a regular motor rotates continuously. stepper motors are designed to move in discrete steps, making them ideal for applications that require precise positioning, whereas regular motors are designed to rotate continuously, making them ideal for applications that require continuous motion, such as driving a fan or a conveyor belt. stepper motors also typically have higher torque at low speeds and are more expensive than regular motors.
    Question: What are the main types of stepper motors?
    Answer: The main types of stepper motors include:
    Permanent Magnet (PM) Stepper Motors: Have a permanent magnet rotor and are commonly used in low-cost applications.
    Variable Reluctance (VR) Stepper Motors: Have a rotor with no permanent magnets and rely on the principle of magnetic reluctance for operation.
    Hybrid Stepper Motors: Combine features of both PM and VR motors, offering higher performance and holding torque.
    Question: Is a stepper motor categorized as AC or DC?
    Answer: Stepper motors can be categorized as either AC or DC depending on the type of motor. Some stepper motors are designed to operate on AC voltage, while others are designed to operate on DC voltage. However, the most common type of stepper motor used in industrial and commercial applications is the bipolar DC stepper motor. This type of motor is designed to operate on DC voltage and is widely used in robotics, automation systems, and other applications that require precise positioning.
    Question: What are some common applications for stepper motors, and what are the advantages of using them in these applications?
    Answer: Some common applications for stepper motors include robotics, automation systems, CNC machines, telescope mounts, and 3D printing. The advantages of using stepper motors in these applications include precise and accurate positioning, excellent repeatability, high torque at low speeds, and the ability to hold a position without power. These advantages make stepper motors ideal for applications that require precise control of movement and positioning.
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