Product Characteristics
Position feedback closed-loop, real-time error correction to prevent loss of steps
Our stepper motors are built with incremental encoders or magnetic encoders to transmit rotor positions in real-time. They compare these positions with the commanded positions and dynamically adjust the stator current phase, fundamentally eliminating the common step loss problem in open-loop systems. The positioning accuracy can reach ±0.01mm, making them suitable for precision positioning scenarios.
Load-adaptive current, dynamic optimization of torque and efficiency
Our stepper motors adopt vector control. They automatically reduce the current to the minimum required to maintain torque under light loads and instantly increase the current to supplement torque under heavy loads. The torque reserve coefficient is ≥1.8, and the torque attenuation at high speeds (2000–3000RPM) is 40%–50% lower than that of open-loop systems, effectively expanding the stable operating speed range.
Stable at low speeds, smooth at high speeds, suitable for complex working conditions
Our stepper motors feature optimized torque angle control, ensuring no jitter at low speeds (≤100RPM). They support frequent start-stop operations, rapid acceleration and deceleration, and large inertia loads (such as conveyor belts and precision platforms). Stable operation can be achieved without complex gain debugging, resulting in low installation and debugging thresholds.
Product advantages
Reliable positioning with zero cumulative error
Our motors can perform real-time position verification and active error correction, achieving a positioning repeatability of ±30 arcseconds. They are suitable for scenarios with high requirements for positioning consistency such as medical equipment, 3D printing, and electronic assembly, avoiding waste products and rework caused by step loss.
High efficiency and low heat, with low long-term operating costs
Our dynamic current control reduces motor temperature rise by 30%–50%, extending service life by more than twice; efficiency is 20%–40% higher than that of open-loop systems, resulting in significant annual electricity savings during continuous operation (S1), making it suitable for 24/7 continuous production equipment.
High cost performance, more economical than replacing with servos
Our motors combine the simple control of stepper motors with the precise closed-loop of servos, eliminating the need for complex parameter setting and gain debugging of servos; the cost is 30%–50% lower than that of servos with the same power, and they are maintenance-free (brushless), making them suitable for upgrading precision equipment with budget sensitivity.
Product detail photos
Product Description
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Stepper Drive |
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Dimensions |
Nema 8(20mm), 11(28mm), 14(35mm), 16(39mm), 17(42mm), 23(57mm), 24(60mm), 34(86mm) |
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Step Angle |
Degree 0.9, 1.2, 1.8(Optional or Customized) |
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Torque |
Up to 350mNm without gearbox |
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Rated Current |
0.1A~10A (A/Phase) |
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Gear type |
Planetary gear motor, worm gear motor, helical gear motor |
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Can be used with |
Planetary gearbox, worm gearbox, helical gearbox |
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Package |
carton/wooden box |
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HS codes |
8501109190 |
Partial drawing display
Our advantages
Eight reasons to choose us
We have our own factory
Multiple certificate certifications
Customizationand selection Steps
Payment and Price Terms
Production and testing
Packaging and transportation
Signing for receipt and after-sales service
FAQ
Q: Do your motor products have a warranty? How long is the warranty period?
A: Yes, our product has a one-year warranty.
Q: What is the difference between a three-phase motor and a single-phase motor? How to choose?
A: Three-phase motors have a wide power range, stable operation, and high efficiency, making them suitable for large industrial equipment; single-phase motors have lower power, are suitable for household or small equipment, and require a 220V single-phase power supply; you can choose according to the equipment power and on-site power supply conditions.
Q: Is it normal for a motor to heat up during operation? What temperature is considered excessive?
A: When the motor is running, the windings will generate a certain amount of heat. If the temperature of the housing is too high, or if it is accompanied by an unusual smell or noise, the motor must be shut down immediately for inspection to check for issues such as overload and poor heat dissipation.
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