The Y07-20D1-1007-ZK32 is a compact and efficient stepper motor designed for precision control in a variety of applications. With a step angle of 1.8°, this motor delivers accurate and reliable positioning, making it suitable for use in robotics, automated machinery, and other demanding environments.
This stepper motor operates at a rated voltage of 24V DC and features a rated current of 0.4A, which ensures energy-efficient operation while maintaining optimal performance. The motor's resistance is rated at 12Ω ±15%, and its inductance measures 3.7mH ±20%, allowing for smooth and responsive control in various configurations.
Safety and durability are key aspects of the Y07-20D1-1007-ZK32’s design. It boasts an impressive insulation resistance of 100MΩ minimum at 500V DC, significantly reducing the risk of electrical failure. The insulation level is classified as Class B, ensuring that the motor can withstand temperatures up to 130°C, making it suitable for a wide range of operating conditions.
With a holding torque of 25mN·m, this motor provides the necessary strength to maintain its position against external loads. Additionally, its braking torque of 4mN·m allows for efficient stopping power, ensuring precise control during operation. The moment of inertia is approximately 3g·cm², which contributes to quick acceleration and deceleration, ideal for dynamic applications.
Weighing around 80g, the Y07-20D1-1007-ZK32 is designed for applications where space and weight are critical considerations. Its lightweight and compact design enable easy integration into tight spaces, making it an excellent choice for compact machinery and devices.
In conclusion, the Y07-20D1-1007-ZK32 stepper motor combines precision, reliability, and compactness, making it an ideal solution for a wide range of applications that require accurate motion control.