Servo products have a wide range of applications and play a vital role in industries such as 3C electronics, semiconductors, machine tools, and laser cutting. As these industries continue to evolve, their automation equipment places higher demands on servo software functionality and ease of use, motor dynamic tracking capabilities, and rapid tuning.
Motion Studio, a flexible and easy-to-use servo debugging software
MotionStudio 2.0 debugging software is the latest generation of servo product debugging software independently developed by Leadshine Intelligent. It can solve customers' servo debugging needs, and is powerful, efficient and easy to use, helping equipment manufacturers reduce costs and increase efficiency.
This issue will be the first in a series of tutorials on using MS debugging software, helping customers quickly familiarize themselves with the main interface and function navigation bar of MotionStudio 2.0.
Main Interface Introduction
Quick Access Bar
The motor can be stopped or de-stopped.
Clicking the link will connect to the driver system and allow you to view driver system information.
Access the "File" to send or open parameters.
Click the save button to save the existing parameters and send them to the driver operation.
Click "Quick Access" - "Driver Reset" to perform a soft reset of the driver.
Function bar
Refer to or operate the parameter summary table, I/O, oscilloscope, motor configuration, trial operation, PR, self-tuning, mechanical analysis, condition monitoring, fault alarm, etc.
toolbar
Quick configuration of parameter settings: such as current loop, speed loop, position loop operation, etc.
bottom left status bar
Click on the alarm log to view information such as the current alarm, historical alarms, and reasons for the failure to rotate.
Function Navigation
Function settings
The function settings include quick access to the parameter summary table and operation settings, I/O settings, oscilloscope, and motor configuration.
Trial operation, PR, self-tuning, mechanical analysis, condition monitoring, fault alarm
Trial run functions: position trial run via JOG and speed trial run via speed control.
PR function: Primarily used in pulse drivers, PR is a trial run function.
Self-tuning function: includes one-click self-tuning function and single-parameter self-tuning function.
Mechanical analysis: Enables mechanical characteristic analysis of servo systems.
Status monitoring: Monitoring the operational status of the servo system.
Fault Alarm: Monitor servo system fault alarms
toolbar
The system allows for auxiliary settings of drive system parameters, including inertia identification, host computer command settings, brake settings, electronic gear ratio, gain adjustment, position loop, speed loop, current loop, limit settings, alarm limit settings, black box functions, position comparison functions, and gantry functions.
