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Actual experience of automatic control
In association with automatic control, most of you must recall the hard-tounderstand terms and theories such as transient response, frequency transfer function, Laplace transform, etc. Even though it is important to mathematically analyze and understand about P control, PI control, etc., it may be also a fact that many of us drops off from this subject by regarding it hard to follow. In this "Temperature Control Course" , on the contrary, you may be able to keep up the course through actual experience of automatic control. Selectively applying the most popular control method such as ON-OFF control, P control, PI control and PID control, you can actually check each effect in the changes of the temperature.
Feature
- Selective application of ON-OFF control, P control, PI control, PID control
- Changes in response upon disturbance input
- Worksheet plotting of temperature to see the effect of each control
- Inference method based on human rule of thumb
Experiment Summary
- Purpose & Usage
- About Temperature Control
- Temperature Control Mechanism
- Temperature Sensing Element
- Temperature Regulator
- Control Output
- Temperature Alarm
- Heater Burnout Alarm
- Control Method
- Installation & Setting
- Practice-1 (ON-OFF control)
- Practice-2 (P control)
- Practice-3 (PI control / I motion)
- Practice-4 (D motion)
- Practice-5 (Auto-Tuning)
- Practice-6 (PID control)
- Review of Practice
- Appendix-1: Trouble-Shooting
- Appendix-2: Q & A
- Appendix-3: Grocery
Component
- Temperature Automatic Control Training kit
- Textbook (w/ Worksheet)
 (C) 2006 ADWIN Corp.
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