APPLIED MOTION 150278 Stepping Motor Volt Lv 3.6

( Brand: Applied Motion ), ( Manufacturer Part Number: 150278 ), ( Part Type: Motor ), ( Country Of Origin: Japan )

Review APPLIED MOTION Used Products Stepping Motor 3.6 Volt Dc Lv

The **Applied Motion 150278 Stepping Motor (3.6V LV)** is a high-performance, low-voltage hybrid stepping motor designed for precision motion control applications where compact size, reliability, and efficiency are critical. This motor belongs to the **NEMA 17** series, offering a robust yet space-saving solution for engineers and designers working in robotics, CNC machining, 3D printing, automated assembly lines, and other motion-driven systems. With a **3.6V low-voltage operation**, it is particularly well-suited for battery-powered or low-power systems where traditional 12V or 24V motors would be impractical, making it an excellent choice for portable or energy-conscious applications.

The **150278 model** features a **hybrid construction**, combining the benefits of both permanent magnet and variable reluctance designs to deliver smooth, accurate motion with minimal vibration and noise. Its **2-phase construction** ensures precise positioning and smooth operation, ideal for applications requiring high resolution and repeatability. The motor s **1.8 step angle** (200 steps per revolution) provides fine control, allowing for intricate movements in applications such as automated testing equipment, medical devices, or high-precision positioning systems. Additionally, its **low inductance** and **high torque-to-inertia ratio** enable rapid acceleration and deceleration, reducing settling time and improving overall system responsiveness.

Built for durability, this stepping motor is constructed with high-quality materials, including a **stainless steel shaft** that resists corrosion and wear, ensuring long-term reliability even in demanding environments. The **low-voltage (3.6V) design** is paired with a **low-profile frame**, making it an excellent fit for compact enclosures where space is at a premium. The motor s **bipolar winding** allows for full-step, half-step, or microstepping operation, further enhancing its versatility across a wide range of motion control scenarios. Whether integrated into a small-scale industrial robot, a custom CNC milling machine, or a portable automation system, this motor delivers consistent performance with minimal heat generation, thanks to its optimized winding and efficient magnetic design.

For ease of integration, the **150278** is compatible with a variety of **Applied Motion drivers**, including the **DMC-2400 series**, which supports microstepping for even smoother motion. Its **standard NEMA 17 mounting footprint** ensures compatibility with existing mounts and brackets, simplifying retrofitting into existing systems. The motor s **low-voltage operation** also reduces the need for complex voltage conversion circuitry, lowering overall system complexity and cost. Whether used in research and development, educational prototyping, or production automation, this stepping motor offers a balance of precision, efficiency, and compactness that makes it a standout choice for motion control engineers seeking a reliable, high-performance solution.

### **Pros and Cons of buying a Applied Motion 150278 Stepping Motor (3.6V LV)**

1. **High Precision and Positioning Accuracy** Stepping motors provide precise control over movement, making them ideal for applications requiring exact positioning, such as CNC machines, 3D printers, and automated systems.

2. **No External Sensors Needed** Unlike servo motors, stepping motors do not require encoders or feedback devices, simplifying system design and reducing costs.

3. **Holding Torque Without Power** The motor retains its position even when power is removed, which is useful in applications where stability is critical.

4. **Wide Range of Compatibility** The 3.6V low-voltage version is suitable for low-power applications, such as small drones, hobbyist robotics, or lightweight automation projects.

5. **Reliability in Open-Loop Systems** Since they operate in open-loop mode, they are less prone to failure from sensor malfunctions compared to servo systems.

6. **Quiet Operation** Stepping motors generally produce less noise than brushed DC motors, making them preferable in applications where silence is important.

7. **Modular and Easy to Integrate** The motor can be paired with standard drivers (e.g., ULN2003, DRV8825) for easy implementation in DIY or commercial projects.

8. **Long Lifespan** With proper maintenance, stepping motors can last for thousands of hours, making them cost-effective in the long run.

1. **Limited Torque at High Speeds** Stepping motors lose torque as speed increases, which can be a limitation in high-speed applications.

2. **Resonance Issues** At certain speeds, stepping motors can experience resonance, leading to vibrations or missed steps if not properly tuned.

3. **Heat Generation** Continuous operation at high currents can cause overheating, requiring cooling solutions (e.g., heat sinks, proper driver selection).

4. **Higher Current Draw** Compared to some servo motors, stepping motors may require more current, especially in microstepping applications, which can strain power supplies.

5. **Microstepping Required for Smooth Motion** Without microstepping, the motor moves in discrete steps, which can result in jerky motion. Microstepping drivers add complexity and cost.

6. **Limited to Open-Loop Control** Without feedback, the system cannot correct for missed steps or external disturbances, which can lead to inaccuracies.

7. **Higher Initial Cost for High-Performance Models** While budget-friendly, high-performance stepping motors (especially with advanced drivers) can be more expensive than basic alternatives.

8. **Potential for Step Loss** If the motor is overloaded or the driver is poorly configured, it may skip steps, leading to positioning errors.

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The **Applied Motion 150278 stepping motor (3.6V LV)** is a solid choice for applications requiring precise, low-power motion control, such as small-scale automation, hobbyist robotics, or lightweight CNC setups. Its open-loop operation, reliability, and ease of integration make it a practical option for beginners and professionals alike. However, its limitations in high-speed torque, resonance sensitivity, and the need for microstepping for smooth operation must be carefully considered.

If your project demands **high precision, low voltage compatibility, and simplicity in control**, this motor is well-suited. However, if **high-speed torque, closed-loop feedback, or extreme durability** are critical, alternatives like servo motors or brushless DC motors may be more appropriate.

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- You need **precise, low-power positioning** (e.g., 3D printing, small CNC, robotics).

- Your application operates at **moderate speeds** and does not require extreme torque.

- You prefer **open-loop simplicity** and do not need feedback correction.

- You are working with **limited voltage (3.6V)** and need a compact, efficient solution.

- Your project requires **high-speed, high-torque performance** (e.g., industrial automation, fast CNC milling).

- You need **closed-loop feedback** for accuracy (servo motors may be better).

- You are working with **higher voltages** (e.g., 12V 24V) and need more torque.

- Your application involves **continuous high-load operation**, where heat dissipation is a concern.

For most **low-to-moderate power applications**, this motor is a **strong, cost-effective choice** when paired with the right driver (e.g., a microstepping driver for smoother motion). Ensure proper cooling and current limiting to maximize longevity.

Details:

9 TIMES OUT OF 10, IF YOU PAY BEFORE 3:30 PM EST. USED - Applied Motion Products 150278 Stepping Motor 3.6 Volt Dc, FAST FREE SHIPPING. USUALLY SAME DAY IF PAID BEFORE 3 PM.

part #: 150278 prices

• $17.77-$50.00

specifications oelemot:

• brand: Applied Motion
• mpn: 150278
• part type: Motor
• country of origin: Japan

payments oelemot:

• other
• credit card: Visa
• wallet: Google-pay

offer oelemot:

• started: April 1, 2026
• options: Ship-to-home
• availability: In Stock
• sold: 0
• quantity: 1

seller oelemot:

• # reviews: 50597
• rating: 100.0%
• city: Johnstown, Pennsylvania

shipping oelemot:

• class: Standard
• cost: $0.00
• type: Fixed
• transit: 3-7 Days
• service: Standard

general oelemot:

• Industrial Automation Motion Controls > Electric Motors > General Purpose Motors
• condition: Used

returns oelemot:

• policy: Returns Accepted
• method: Money back
• paid by: Seller
• time: 30 Days

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