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42mm Diameter 35 Brushless DC Motor BLDC Motors

This 42mm BLDC motor is designed for 6–48V systems where selection is driven by the maximum-efficiency working point and stall limits, keeping output capability and driver risk explicit at the planning stage.

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Specs

Key Features

This model is a 42mm BLDC motor platform defined by its maximum-efficiency operating data and clearly bounded stall behavior, making selection straightforward when higher output and current exposure must be evaluated early.

  • 6V–48V applied range supports broad low-voltage industrial and battery-powered systems
  • Multi-voltage configurations (12V / 18V / 24V) shift the speed and output window without changing the motor envelope
  • Maximum-efficiency point is fully specified per configuration, enabling selection by real working speed, torque, and output
  • Output at maximum efficiency spans 10.13–27.53 W, providing a direct filter for usable mechanical power
  • Stall current varies by configuration (6.38–7.84 A), which directly defines driver current limits, wiring margin, and fault handling strategy
technical Specs

Motors Specifications

Motor model Voltage No-load At Maximum Efficiency Stall
Current Speed Current Speed Torque Output Efficiency Torque Current
V A r/min A r/min g.cm    mN.m W % g.cm    mN.m A
BL4250M-01 12 0.24 3100 1.33 2600 380.0    37.28 10.13 68.5 2353    230.8 6.38
BL4250M-02 18 0.22 6400 1.18 5400 270.0    26.49 14.98 70.5 1743    170.9 6.42
BL4250M-03 24 0.35 8600 1.52 7250 370.0    36.30 27.53 75.3 2365    232.0 7.84

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

Why Choose us

SLW Motor Highlights

  • Selection by the Maximum-Efficiency Working Point

    Each configuration lists the real operating speed, torque, output, and efficiency at maximum efficiency, so selection aligns with where the motor will actually run.

  • Output Planning Becomes a First-Order Filter

    With output ranging from 10.13 to 27.53 W, you can immediately screen configurations by the mechanical power your system requires at realistic speed.

  • Stall Current Defines Electrical Risk

    Stall current between 6.38 and 7.84 A sets the boundary for driver sizing, current limiting, and wiring design before mechanical decisions are finalized.

  • Voltage Choice Shifts Speed Without Frame Changes

    No-load speed spans 3100–8600 r/min, letting you tune RPM class through voltage configuration while keeping the 42mm mechanical envelope unchanged.

Custom

Beyond the Standard: Performance Customized

  • 01
    Working-Point Lock-In Using Maximum-Efficiency Data
    We start from your target operating RPM and load, then choose the configuration whose maximum-efficiency point best matches that region.
  • 02
    Output Floor Definition Before Mechanical Commitment
    We confirm the minimum output your application needs, then shortlist only configurations that meet that requirement at maximum efficiency.
  • 03
    Stall-Current Exposure Control
    We evaluate how much stall current your driver and wiring can tolerate, because differences between 6.38 A and 7.84 A materially affect protection strategy.
  • 04
    Efficiency-Loss Planning for Duty-Cycle Stability
    We use the listed efficiency values to estimate loss and heat generation so continuous or intermittent duty cycles remain stable.
  • 05
    Multi-Voltage Product Strategy on One Platform
    For multi-SKU product lines, we map 12V / 18V / 24V configurations onto a single mechanical platform while separating variants by working-point and stall behavior.
  • Working-Point Lock-In Using Maximum-Efficiency Data
  • Output Floor Definition Before Mechanical Commitment
  • Stall-Current Exposure Control
  • Efficiency-Loss Planning for Duty-Cycle Stability
  • Multi-Voltage Product Strategy on One 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 between 12V, 18V, and 24V versions quickly?
Match your target working RPM to the maximum-efficiency speed first, then confirm output meets your requirement and stall current fits your driver limits.
Why focus on maximum-efficiency data instead of no-load speed?
No-load speed does not represent real operating conditions. Maximum-efficiency data reflects usable speed, torque, output, and loss together.
Which configuration provides the highest listed output?
BL4250M-03 (24.0V) lists the highest output at 27.53 W.
What should I provide to shortlist the best option?
Share your target RPM, estimated load torque, duty cycle, supply voltage range, and driver current-limit constraints.
Is this suitable for repeat production across variants?
Yes. You can keep the same motor envelope and separate variants by voltage configuration while controlling behavior through the efficiency and stall data.
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