| Hands-on Experiments where Students Learn by Modeling Block Diagrams. |
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Features
- Control engineering is an exciting discipline. It offers the quickest and best way to learn system control to improve production processes. Electronic analog control and simulation systems 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.
- Modularized ACS-1000 is flexible enough to cater to the needs of all level learners to make related experiments.
- 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.
- We also provide PC based digital storage oscilloscope module as interface to facilitate data storage and analysis by using computer.
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For Teaching
ACS-1000, covered with many technical disciplines, explicates the central significance of Analog Control System. This applies particularly in mechanical and electrical engineering, in production and process technology. It is indipensable to plant and system technology.
LIST OF EXPERIMENTS
Laplace transform experiment
System simulation experiment
Steady-state error experiment
First-order system experiment
Second-order system experiment
Transient response specifications experiment
Effects of zeros on first-order system experiment
Effects of zeros on second-order system experiment
Dominant pole of second-order system experiment
DC Servo motor characteristics experiment
Proportional controller experiment
P controller in DC servo motor speed/position control experiment
Integral controller experiment
I controller in DC servo motor speed/position control experiment
Derivative controller experiment
D controller in DC servo motor speed/position control experiment
Proportional-integral (PI) controller experiment
PI controller in DC servo motor speed/position control experiment
Proportional-derivative (PD) controller experiment
PD controller in DC servo motor speed/position control experiment
PID controller experiment (1) Ziegler-nichols method (1)
PID controller experiment (2) Ziegler-nichols method (2)
PID controller experiment (3) Position control
PID controller experiment (4) Speed control
Closed loop DC servo motor speed/position control with PID controller experiment
Inner-loop feedback control experiment
Phase lead compensators experiment (1) Root locus technique
Phase lead compensators experiment (2) Frequency domain design
Phase lag compensators experiment (1) Root locus technique
Phase lag compensators experiment (2) Frequency domain design
Phase lead-lag compensators experiment (1) Root locus technique
Phase lead-lag compensators experiment (2) Root locus technique
Phase lead-lag compensators experiment (3) Frequency domain design
Pole-zero cancellation experiment
State feedback pole assignment experiment
ACCESSORIES
1 set connect plug and leads
1 set experiment manual
Power Cable
Dust cover
Module Storage Device
CD for the programming download
GENERAL CHARACTERISTIC
Power Source : AC 110V/220V ±10 %, 50/60Hz
Operation Temperature : 0∘C ~ 50∘C
Humidity : <90% RH
Dimension : 330 x 265 x 100 mm ±10 %
Weight : Approx. 2.5Kg
