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HomeProductsIndustrial Control EquipmentAnalog Control System

Analog Control System

ACS-1000

      ACS-1000, covered with many technical disciplines, explicates the central significance of Analog Control System. It applies particularly in mechanical and electrical engineering, and as well in production and process technology . It is indispensable to plant and system technology. 
      In the automation field, important optimization tasks would be quite impossible to be accomplished without closed-loop control technology. In line with its increasing importance, closed-loop control has become an essential subject in professional training and further education for many professions.
      In the newly formulated training curriculum, this technology plays an important role covering a number of subjects in syllabuses for training in industry and the crafts.

 

Features:

1. Control engineering is an exciting discipline. It offers the most expedite in way to learn system
    control for improving production processes. Electronic analog control and simulation have become
    the cornerstone of technological advancement.
    K&H provides ACS-1000 for students to observe the testing result of Proportional-Integral-
    Derivative (PID) controllers as well as phase-lag and phase-lead controllers.

2. Modularized ACS-1000 is flexible enough to cater to the needs of all level learners to make related
    experiments.

3. The whole control modules help students to understand control theory and application of hands-on
    motor control through our comprehensive and step-by-step teaching curriculums.

4. We also provide PC based data acquisition device as interface to facilitate data storage from
    computer.

  

List of Experiments:

  1. Laplace Transform
  2. System Simulation
  3. Steady-State Error
  4. First-Order System
  5. Second-Order System
  6. Transient Response Specifications
  7. Effects of Zero on First-Order System
  8. Effects of Zero on Second-Order System
  9. Dominant Pole of Second-Order System 
10. Characteristics of PM DC Servo Motor
11. Proportional Controller
12. P Controller Used in DC Servo Motor Speed and Position Control
13. Integral Controller
14. I Controller Used in DC Servo Motor Speed and Position Control
15. Derivative Controller
16. D Controller Used in DC Servo Motor Speed and Position Control
17. PI Controller
18. PI Controller Used in DC Servo Motor Speed and Position Control
19. PD Controller
20. PD Controller Used in DC Servo Motor Speed and Position Control
21. PID Controller (I) - Ziegler-nichols Method (1)
22. PID Controller (II) - Ziegler-nichols Method (2)
23. PID Controller (III) - DC Motor Position Control
24. PID Controller (IV) - DC Motor Speed Control
25. PID Controller Used in DC Servo Motor Speed and Position Control
26. Inner-Loop Feedback Control
27. Phase Lead Compensator (I) - Root Locus Method
28. Phase Lead Compensator (II) - Frequency Domain Method
29. Phase Lag Compensator (I) - Root Locus Method
30. Phase Lag Compensator (II) - Frequency Domain Method
31. Phase Lead-lag Compensator (I) - Time Domain Method
32. Phase Lead-lag Compensator (II) - Time Domain Method
33. Phase Lead-lag Compensator (III) - Frequency Domain Method
34. Pole-Zero Cancellation
35. State Feedback / Pole Assignment

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