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22mm Diameter DC Brushless Coreless Motor

This 22mm brushless coreless DC motor is designed for 6–48V systems where you anchor selection to a defined 24V speed point and explicit “MAX” current limits, while sizing protection around the listed stall boundary.

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  • 22mm Diameter DC Brushless Coreless Motor Featured Image
Specs

Key Features

This model is a brushless coreless motor platform defined by a fixed Φ22×L32 envelope and a 24V performance baseline, making selection straightforward when speed targets and current ceilings drive the design.

  • 6V–48V applied range supports broad system voltage architectures while the data anchors at 24V
  • Rated speed is listed as 5700±10%rpm, providing a working-speed target under load
  • No-load and rated currents are specified as MAX values, defining ceiling behavior for driver and thermal planning
  • Stall torque and stall current set jam/fault boundary conditions for protection logic
technical Specs

Motors Specifications

Motor Model

Rated voltage

No-load speed

No-load current

Rated speed

Rated current

Stall torque

Stall current

VDC

r/min

mA

r/min

mA

g.cm

mA

DM2232001

24V

7150±10%rpm

14mA MAX.

5700±10%rpm

380mA MAX.

465g.cm

2000mA

For additional customization or reference configurations, please feel free to contact us.

Why Choose us

SLW Motor Highlights

  • 24V Working-Speed Anchor for BLDC Coreless Control

    Rated speed at 5700±10%rpm gives a practical working-speed target for closed-loop speed control and consistent output behavior.

  • “MAX” Current Ceilings for Electrical Planning

    No-load and rated currents are defined as MAX values, which supports conservative driver sizing and thermal margin planning.

  • Stall Boundary for Fault Handling

    Stall current at 2000mA and stall torque at 465g.cm define what your system must survive during jams and hard stops.

  • Compact Φ22×L32 Envelope for Packaging Control

    The fixed motor size helps keep installation consistent when you standardize the platform across projects.

Custom

Beyond the Standard: Performance Customized

  • 01
    Voltage Architecture Fit Across 6–48V Systems
    We confirm your supply range and control method first, then align the configuration so you do not rely on overdriving to meet speed targets.
  • 02
    “MAX Current” Budget Lock-In
    We lock driver current ceilings early and confirm the motor stays inside your allowable current budget under your real duty cycle.
  • 03
    Rated-Speed Mapping for Output Behavior
    We select based on rated speed rather than no-load speed so the motor hits your working RPM under load.
  • 04
    Stall-Event Containment Strategy
    We define current limit, timeout, and recovery behavior around the stall boundary to prevent repeated overheating during jams.
  • 05
    Variant Strategy Using One Mechanical Platform
    If you build multiple SKUs, we keep the Φ22×L32 mechanical platform constant and manage variants primarily through voltage and control configuration.
  • Voltage Architecture Fit Across 6–48V Systems
  • “MAX Current” Budget Lock-In
  • Rated-Speed Mapping for Output Behavior
  • Stall-Event Containment Strategy
  • Variant Strategy Using One Mechanical Platform

Custom Now

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FAQ

Frequently Asked Questions

If you share your available space and the driven load type, we can help narrow the most suitable configuration quickly.

How do I choose this motor quickly?
Match your supply first, use rated speed to confirm your target RPM, then validate driver protection around the stall boundary.
What does “MAX” current mean in the table?
It defines an upper-limit current value under that condition, so you should size the driver and wiring with margin.
Why is rated speed more important than no-load speed?
Rated speed reflects behavior under load, while no-load speed is only a free-run reference.
What should I share so you can shortlist suitability faster?
Share your supply voltage, target RPM, load estimate, duty cycle, and driver current limit settings.
Is it suitable for repeat production?
Yes. A single defined configuration with explicit current ceilings supports consistent integration and protection design.
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Tell us your project or application requirements, and our team will get back to you with technical support, product recommendations, or a customized motor solution.

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