1. Introducing Model 86, a cutting-edge digital stepping motor driver that stands at the forefront of innovation. This marvel utilizes the latest 32-bit DSP digital processing technology, incorporating current-converting and frequency-converting mechanisms for superior control. With the ability to customize subdivisions from 200 to 51200 and set any current within the rated range, it caters to a myriad of applications. Thanks to an integrated micro-division technology, even at lower settings, it promises impressive high subdivision performance with exceptionally stable operation at low, medium, and high speeds, all while maintaining minimal noise. Additionally, the driver features an auto-tuning function, optimizing running parameters automatically to elevate motor performance to its peak potential.
Characteristics
Harnessing the power of advanced 32-bit DSP technology, this system adeptly drives 4, 6, and 8-wire two-phase stepper motors, boasting a built-in high subdivision pulse response frequency of up to 500KHz, with a factory default of 200KHz. Flexibility in current control is a given, with adjustable settings ranging from 0.1 to 5.6A.
Areas of application
Engineered for excellence, this product is ideal for a wide range of small- to medium-sized automation systems and devices. It finds its perfect fit in tools such as engraving machines, marking machines, cutting machines, laser photo-setting equipment, plotters, CNC machines, and automated assembly equipment. Particularly in environments demanding low noise and high-speed operations, its application delivers exceptional results.
working (dynamic) current setting
subdivision setting
Driver Interface and Wiring Introduction
1. Interface description
1) Control Signal Interface Wiring Overview
2) Ferroelectric interface
Attention:
1) Each motor type corresponds to a specific color coding. When utilizing the motor, follow the color guide, as variations exist between types such as the 57 and 86 motors.
Phases are relative; however, windings of different phases must not connect to the same phase terminals of the actuator. For example, A+, A- constitute one phase, while B+, B- form another. Below is a depiction of the 57HS22 motor lead definitions and methods for series and parallel connections.
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