Fundamentals of PID Control (Ohio T&M)

Course Number: IC-2003TM
Credit: 2 PDH
Subject Matter Expert: Anthony K. Ho, P.E.

Price: $59.90 Purchase using Reward Tokens. Details

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Overview

This course is specifically designed for Ohio-licensed engineers to qualify as a "timed and monitored" online course. The course contains an automatic timer that prevents the user from accessing the quiz and earning a certificate of completion until the minimum amount of study time has been met. This achieves the Ohio Board's intent that an online course should be "paced" by the provider. For more information, please see the Ohio state requirements. This course may also be accepted in other states (see the "Board Acceptance" tab above). However, if you are not licensed in Ohio, it is suggested that you purchase the self-paced version of the course.

In Fundamentals of PID Control, you'll learn ...

History and Background of PID Control
Theory of PID Control
Function Block Diagram and Pseudo Code of PID Algorithm
Open-loop vs. Closed-loop Control

Overview

To meet the Ohio Board's intent that online courses be "paced" by the provider, a timer will be used to record your study time. You will be unable to access the quiz until the required study time of 100 minutes has been met.

Credit: 2 PDH

Length: 21 pages

This course examines a particular control structure that has become commonly used in industrial control. It is based on a particular fixed structure controller, the Proportional, Integral, Derivative (PID) control. These controllers have proven to be robust and extremely beneficial in the control of many process applications. Applications include variable-frequency drive, temperature, pressure, flow, and level controls which are widely used in modern industry. The method is most useful when a mathematical model of the process or control is not available.

The course starts by introducing the basic theory behind PID control. Then, it is followed by two major types of controls: open-loop and close loop controls. Tuning the three constants in the PID controller algorithm is a very important concept of any PID application; therefore, PID tuning will be focused. Examples will be used throughout the course for engineers to understand the steps to implement and tune PID controllers.

It is my intention that this course will help you understand how most PID controllers work, which will provide you the basic knowledge to perform the task.

Specific Knowledge or Skill Obtained

This course teaches the following specific knowledge and skills:

History and Background of PID Control
Theory of PID Control
Function Block Diagram and Pseudo Code of PID Algorithm
Open-loop vs. Closed-loop Control
Different Methods of PID Tuning
How to Implement PID Control
Example - PID Controller for DC Motor
Cascaded PID control

Certificate of Completion

You will be able to immediately print a certificate of completion after passing a multiple-choice quiz consisting of 20 questions. PDH credits are not awarded until the course is completed and quiz is passed.

Board Acceptance

This course is applicable to professional engineers in:
Alabama (P.E.)	Alaska (P.E.)	Arkansas (P.E.)
Delaware (P.E.)	District of Columbia (P.E.)	Florida (P.E. Area of Practice)
Georgia (P.E.)	Idaho (P.E.)	Illinois (P.E.)
Illinois (S.E.)	Indiana (P.E.)	Iowa (P.E.)
Kansas (P.E.)	Kentucky (P.E.)	Louisiana (P.E.)
Maine (P.E.)	Maryland (P.E.)	Michigan (P.E.)
Minnesota (P.E.)	Mississippi (P.E.)	Missouri (P.E.)
Montana (P.E.)	Nebraska (P.E.)	Nevada (P.E.)
New Hampshire (P.E.)	New Jersey (P.E.)	New Mexico (P.E.)
New York (P.E.)	North Carolina (P.E.)	North Dakota (P.E.)
Ohio (P.E. Timed & Monitored)	Oklahoma (P.E.)	Oregon (P.E.)
Pennsylvania (P.E.)	South Carolina (P.E.)	South Dakota (P.E.)
Tennessee (P.E.)	Texas (P.E.)	Utah (P.E.)
Vermont (P.E.)	Virginia (P.E.)	West Virginia (P.E.)
Wisconsin (P.E.)	Wyoming (P.E.)