Skip to product information
1 of 6

HEMM

NEMA14 Round Flat 40 mNm 4.8V Stepper Motor HEMM-14R0408-05

NEMA14 Round Flat 40 mNm 4.8V Stepper Motor HEMM-14R0408-05

Regular price $8.57 USD
Regular price $15.00 USD Sale price $8.57 USD
Sale Sold out

Product Description

NEMA 14 Stepper Motor - Model HEMM-14R0408-05

This high-performance NEMA 14 stepper motor is designed for precision motion control in a variety of applications. With its compact size and reliable operation, it is an excellent choice for engineers and designers seeking accurate and efficient performance.

Key Features:

  • Precise Step Angle: 0.9° ±5%, ensuring smooth and accurate motion.
  • Two-Phase Operation: Reliable 2-phase design for consistent performance.
  • Rated Voltage and Current: Operates at 4.8V and 0.3A, ideal for low-power applications.
  • Strong Holding Torque: 40mN·m (5.6oz·in), providing excellent stability.
  • Durable Construction: Insulation Class B with a temperature rise of up to 80K max.
  • Long Lifespan: Engineered to last 5,000 operational hours.
  • Compact and Lightweight: Weighs approximately 60g (2.1oz), suitable for space-limited applications.
  • Operational Versatility:
    • Ambient Temperature: -20°C to +50°C
    • Ambient Humidity: 15% to 90%
  • High Load Capacity:
    • Allowable Thrust Load: 10N
    • Allowable Radial Load: 21N at shaft end

Electrical Specifications:

  • Resistance: 16Ω ±10% at 25°C
  • Inductance: 9mH ±20% at 1kHz, 1Vrms
  • Dielectric Strength: 500V A.C for 1 minute
  • Insulation Resistance: Minimum 100MΩ

Mechanical Specifications:

  • Rotor Inertia: 4g·cm² (0.02oz·in²), enhancing dynamic performance.

Applications:
This motor is ideal for use in 3D printers, robotics, CNC machines, precision instruments, and other motion control systems requiring high accuracy and reliability.

Choose NEMA 14 Stepper Motor for Your Precision Needs!
Experience unparalleled performance and dependability with the HEMM-14R0408-05 stepper motor. Perfect for demanding environments where accuracy and longevity are crucial.

View full details