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12mm Diameter N20 Micro Brushed DC Motor

This 12mm N20 micro brushed DC motor is designed for compact, low-voltage mechanisms that need fast response and simple DC drive on 3V–6V power in a Φ12×15.2mm envelope.

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Specs

Key Features

This model is a low-voltage N20-format drive focused on quick integration and predictable small-load performance where space and power budget are limited.

  • N20 form factor fits compact housings and standardized micro-drive layouts
  • 3V–6V operating range matches small battery packs and low-voltage control boards
  • High no-load speed supports fast actuation in lightweight mechanisms
  • Efficiency-point data helps you choose a stable working zone instead of sizing from no-load only
  • Stall current and stall torque provide boundaries for protection and overload planning
technical Specs

Motors Specifications

Model Voltage No Load Max Efficiency Max Output Stall
Current (A) Speed (rpm) Current (A) Speed (rpm) Torque (g.cm) Current (A) Speed (rpm) Torque (g.cm) Current (A) Torque (g.cm)
SLW-FFN20-10180 3 0.033 13026 0.129 10369 1.9 0.268 6513 4.6 0.502 9.2

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

Why Choose us

SLW Motor Highlights

  • N20 Low-Voltage Drive for Space-Limited Products

    A Φ12×15.2mm motor size helps you fit compact layouts where actuator length and power budget are constrained.

  • Efficiency-Point Data for Real Working Selection

    Max-efficiency current/speed/torque gives a practical operating zone for continuous duty, instead of relying on no-load speed numbers.

  • Max Output Point for Short Bursts

    Max output values help when your mechanism needs brief push force for acceleration or short movement bursts.

  • Stall Boundary for Protection Settings

    Stall current and stall torque define the upper boundary for current limiting and fault handling, especially on small battery systems.

Custom

Beyond the Standard: Performance Customized

  • 01
    Low-Voltage Supply Match for Battery Systems
    We confirm your battery type and voltage drop behavior so the motor runs in the intended range under real load.
  • 02
    Operating Point Selection by Efficiency vs Burst Output
    We help you choose whether to size around the max-efficiency region for continuous running or the max-output region for short bursts.
  • 03
    Current Limit Planning to Protect Small Drivers
    We map stall current to driver limits so startup and jam events do not overstress the controller or battery.
  • 04
    Speed-to-Mechanism Matching for Fast Motion
    We translate motor speed into your mechanism travel or rotation target so you avoid overspeed and reduce noise.
  • 05
    Duty Cycle Review for Heat Control in Tiny Envelopes
    We evaluate run time and rest time so the motor stays stable thermally in compact housings.
  • Low-Voltage Supply Match for Battery Systems
  • Operating Point Selection by Efficiency vs Burst Output
  • Current Limit Planning to Protect Small Drivers
  • Speed-to-Mechanism Matching for Fast Motion
  • Duty Cycle Review for Heat Control in Tiny Envelopes

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.

What does “max efficiency” mean in this table?
It is the operating point where the motor delivers power most efficiently, useful for selecting a stable continuous working region.
When should I use the “max output” point?
Use it when your mechanism needs short bursts of higher output, such as quick acceleration or brief push events.
Why should I care about stall current on a small motor?
Stall current defines the worst-case electrical load during jams or hard starts, which is critical for protecting small drivers and batteries.
Is this motor suitable for 3V products?
Yes. The table includes a 3.0V reference, and the operating range supports 3V–6V systems.
What information helps confirm fit quickly?
Share your supply voltage, load type, target speed, and duty cycle.
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