SALIENT FEATURES :
? Design and test cascade compensator.
? Simulated system for accurate results.
? Built – in compensator gain – only passive external components needed.
? Built – in signal sources.
TECHNICAL SPECIFICATIONS :
? Simulated ?uncompensated? system having adjustable damping. Peak percent overshoot MP, variable from 20% to 50%, and steady state error variables from 50% to 0.5%
? Compensation network implementation through built-in variable gain amplifier. Gain is adjustable from 1 to 11.
? Built – in square and sine wave generators for transient and frequency response studies. Frequency adjustable from 25Hz – 800Hz (approx).
? 220V + 10%, 50Hz mains operation.
? Complete in all respects, except a measuring CRO.
? The unit is housed in a elegant cabinet with a well spread intelligently designed circuit layout on front panel.
? Multi coloured test points are provided at various stages in the circuit to observe the waveforms and voltages.
? A comprehensive instruction manual complete with theory and operating details is provided.
EXPERIMENTS :
? Lag compensation in the frequency domain.
? Lead compensation in the frequency domain.
? Lag compensation in the s – plane.
? Lead compensation in the s – plane.
To start with, a suitable ?uncompensated system is chosen, either by an arbitrary setting of the gain control potentiometer or by setting it to result in a given value of overshoot as seen by step response test. Next a set of specifications – both transient and steady state – are prescribed as an objective by the teacher. The design may then be carried out by one of the above techniques and the results verified by a step response or frequency response testing All the above design problems may be undertaken for a very wide range of design specifications. Notice that the implementation of the compensation network has been made very convenient by a pre-wired amplifier with calibrated gain
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