FAN 200 FANUC R-30iA/R-30iB Series Operational Troubleshooting
Sign up now via phone, email, or contact form:
Phone: 248-484-5500
BUS_Training@bizlinktech.com
Course Information
- Code ID: FAN 200 R-30iA/R-30iB
- Course Type: Instructor led, taught with a 40/60 theory to hands-on approach. Theory portions will be followed by lab exercises to ensure an in-depth understanding of all key topics
- Course Length: 2 days
- Student Profile: Operators, Jobsetters, Team Leads, Supervisory Staff
- Prerequisites: None
Course Profile
This 2-day core program is designed to prepare each student with the skills necessary for operations and basic operational troubleshooting of the FANUC R-30iA and/or R-30iB robot system.
Topics Covered
BizLink Robotic Solutions USA, Inc. offers flexibility in training curriculum. Please ask the instructor for any system-specific information relating to specific applications.
- Overview and identification of control panel, teach pendant, and basic system components
- Safe operation of robot while operating in manual and auto modes
- Understanding and correcting robot operational errors and error message screens
- Using Joint, World, Tool and User Frame coordinate systems to jog the robot free from collisions
- Recognizing common robot program commands
- Program flow using instructions and subroutines
- Executing programs in Step, Continuous, and Low Speed modes to recover to home and other known positions
- Understanding inputs and outputs for end effector recovery
Course Objectives
Upon successful completion of this course, participants will be able to demonstrate the ability to:
- Locate, identify and operate the robot control panel and teach pendant buttons.
- Interpret teach pendant messages and operator interface.
- Safely use the teach pendant to move robot within different coordinate systems.
- Access recovery and home programs.
- Step and cycle through key motion programs and positions for recovery purposes.
- Interpret and manipulate I/O signals for end effector recovery.
- Determine simplest recovery techniques for various robot downtime events.