ISE 370 Industrial Automation and Control

ISE 370 – Industrial Automation

Industrial and Systems Engineering Fall 2013 4 credits CRN 10756

Description: Industrial automation is a major field in the application of computer controls and the many advances in computer systems. The objectives of this course are to: demonstrate the ability to design systems for automating processes in manufacturing, demonstrate problem-solving skills in automation, and to “safely” use the machines in the engineering laboratory to complete designated experiments. Lectures and laboratories include exploring the use of sensors, industrial robotics, numerical control, programmable logic controllers, machine vision, electrical circuits and the fundamentals of common electrical devices, the implementation of online computer control, and the ability to use industrial technical software including Pro-Engineer and AutoCAD. Laboratory work and technical reports are required. Prerequisites: junior standing in ISE or consent of department chair.

Lecture & Lab Times: Tuesday & Thursday 6:00 to 7:30 PM Lecture Room FA 212 Labs Watson E-2, B-7/9 4:25 to 5:50 PM

Class Web Site: www.ws.binghamton.edu/ise370

Instructor: Thomas Koon Office: R 14 Watson Engineering Building Office Hours: T/Th. 2:45 to 4:10PM TA Michael Gonfiantini e_mail: [email protected]

Text: ISE370 Binghamton University, Pearson, 2010. ISBN 10: 0-558-61014-5. Manuals, notes, and demonstrations will be supplied for laboratory assignments.

Grade: This course will be graded based on the laboratory experiments & Exams. Class lectures and machine demonstrations will be tailored to provide the necessary information for students to execute and complete their laboratory assignments. Grade Dependence Labs & Homework 300 points Mid-term Exam 100 points Final Exam 100 points Total: 500 points

Unless you are told to work in teams all work is expected to be of your own achievement. Team members will receive the same grade on shared projects and are not allowed to share designs or completed materials with other teams. Laboratory Topics: AutoCAD to design (1) mechanical parts and (2) manufacturing floor plans. Pro-Engineer to design 3D part assemblies. CNC milling machine to produce specialized parts. Electronic Packaging (MPM stencil printer & Camalot liquid adhesive dispensing system). Heller Reflow Oven to study the heating stages of circuit boards in electronic packaging. Brown & Sharpe Co-ordinate Inspection System to measure print parameters. Allen-Bradley Micrologix 1000 PLC for programming PLCs to control machines and processes. National Instruments IMAQ Vision for developing and analyzing machine vision systems. Adept Cartesian Robot to understand basic robotics and their main components. NI DAQ system to introduce the basics of data acquisition using LabVIEW.