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LSC Faculty/Staff Directory
Michael Hladilek
Faculty Department/Office: Business And Industry
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Michael's courses at LSC
Subject
Course Number
Title/Description
Subject: CADE
Course Number: 1468
Solidworks I This course covers the basic areas of Computer Aided Design using SolidWorks three-dimensional design software. Students will design and draw model components and subassemblies of mechanical and industrial products in animation. SolidWorks has become widely used in the manufacturing industry. (Prerequisites: ENGL0950 or ENGL0955 or READ0950 or READ0955, or equivalent, or 78 or higher on the reading comprehension portion of the CPT and MATH0520; or concurrent enrollment) (2 hrs lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1406
DC Electricity This course covers essential entry-level topics in DC electricity, electronic devices, and associated circuit analysis techniques. The lab portion of this course teaches the use of electronic test equipment to test components and measure circuit values to determine performance. In doing so, the student will verify the laws and theorems presented in the lectures. (Prerequisites: MATH 0950/0955 and college-level reading) (2.5 hrs lec/3 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1408
AC Electricity This course covers essential entry-level topics in AC electricity, electronic devices, and associated circuit analysis techniques. The lab portion of this course teaches the use of electronic test equipment to test components and measure circuit values to determine performance. In doing so, the student will verify the laws and theorems presented in the lectures. (Prerequisites: ELTN 1406) (2.5 hrs lec/3 hrs lab/0 hrs OJT).
Subject: ELTN
Course Number: 1412
Digital Electronics In this course the student will study basic logic gates and flip-flops and learn to use them in simple digital circuits. Number systems used in digital electronics will be studied. Truth tables and Boolean algebra will be used to analyze, design, and manipulate digital logic circuits. In the lab, students will learn to build digital circuits which will serve to reinforce the material covered in lecture. (Prerequisites: None) (1 hr lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1422
Media and Cabling In this course, the student will learn various wiring strategies using various types of cables and connectors. The student will learn to run and terminate cables in accordance with industry standards and will learn to use cable testing equipment to troubleshoot faulty installations. (Prerequisite: None) (1 hr lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1428
Electrical Safety This course is designed to familiarize students with safety practices and procedures necessary while working in the electrical field. Students will identify potential hazards, identify and use proper Personal Protective Equipment (PPE). This course will also cover safety practices including lock out tag out (LOTO) and safety data sheets (SDS). (Prerequisites: None) (0 hr lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1432
Solid-State Devices
Subject: ELTN
Course Number: 1452
Microcontrollers This microcontroller's course covers the practical aspects of how a microcontroller can be programmed and used as an embedded control device. In doing so, the student learns the basic internal architecture of a microcontroller, as well as its instruction set and how to interface it with various external input and output devices. The student will also learn to use microcontroller software and hardware development tools to write assembly language code, assemble, link, and download it into the microcontroller memory thus enabling the microcontroller to function independently as an embedded controller. In the lab, students will interface a microcontroller with devices such as LED's, stepper motors, temperature and optical sensors, and digital displays. (Prerequisites: ELTN 1406, ELTN 1412 (may be concurrent)) (2 hrs lec/4 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1480
Fluid Power On completion of this course the student will understand the basic laws of physics as they apply to fluid power, as well as understand schematics and basic system design. The student will also study the various components found in typical pneumatic and hydraulic systems and how these components function and interact with each other. (Prerequisites: ELTN 1408) (2 hrs lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1510
Basic Mechanical Systems This course covers the study of mechanical power transmission systems and components. Students will demonstrate working knowledge of basic hand tools, measurement tools, fasteners, gear, belt, chain, and screw drive systems. Lab experiments include the selection, installation, and maintenance of mechanical power transmission components and systems. (1 hr lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 1635
PLT Control Systems Lab In conjunction with the PLT Control Systems course, the objective of the lab is to focus on proper device terminations, input/output states of the device and the appropriate interface to set an alarm or initiate a remedy within the premise. (Prerequisites: ELTN 1422) (0 hrs lec/6 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 2400
CET Exam Preparation This course prepares the student for the Certified Electronics Technician examination. This nationally recognized certification exam covers a wide range of electronic theory and applications. (Prerequisites: ELTN 1432) (2 hrs lec/0 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 2430
Introduction to Instrumentation This course covers instrumentation concepts including theory of instrumentation loops, common symbols, acronyms, input/output devices, controllers, and troubleshooting. (Prerequisites: ELTN1408) (1 hr lec/4 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 2440
Motor Speed Controllers This course covers the basic methods of DC, AC, magnetic, and mechanical speed control. Installation and testing methods will be practiced. (Prerequisites: ELTN 1442) (2 hr lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 2442
Automation Controllers In this course, the student will learn the basics of industrial automation controllers. The student will learn the fundamentals of how these devices operate and how to program them to perform simple control functions. To do this the student will learn Ladder Logic programming using the Allen Bradley RSLogix software and interface simple I/O devices to the PLC. (Prerequisites: ELTN 1408, ELTN 1412) (2 hrs lec/2 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 2450
Automation Controller Applications In this course, the student will apply and expand on what they have previously learned in the Automation Controllers and Process Control Theory courses. They will use Automation Controllers to control real-life processes and investigate and observe process control theory in action. (Prerequisites: ELTN2442 and concurrent enrollment in ELTN2452) (1 hr lec/8 hrs lab/0 hrs OJT)
Subject: ELTN
Course Number: 2452
Process Control Theory The student will learn about basic process control principles including the differences between open and closed loop systems, concepts such as process load, lag, stability, and dynamic response as well as various control modes such as on-off, proportional, integral, and derivative control. The student will also be exposed to various transducers and sensors commonly used in industrial control systems. (Prerequisites: ELTN 2442 and concurrent enrollment in ELTN 2450) (3 hrs lec/0 hrs lab/0 hrs OJT)
Subject: INMG
Course Number: 1422
Design Application Concepts II This course covers the design and production of a complex assembly using manual and CNC machines. Geometric Design and Tolerance (GD&T) principles will be incorporated into the design and inspection of the part. A team approach will be used to design and manufacture the assembly. Industrial and Engineering standards will be utilized in the design process. (Prerequisites: INMG1420) (1 hr lec/4 hrs lab/0 hrs OJT)
