Second order networks are important because of the fact that these are the simplest networks that produce the complete range of transient response – from over damping to near oscillations. Although theoretical discussions are normally ...
SPECIFICATION
Second order networks are important because of the fact that these are the simplest networks that produce the complete range of transient response – from over damping to near oscillations. Although theoretical discussions are normally confined to passive RLC networks, such networks are limited in their performance due to the rather large resistance of any reasonable value inductance that might be constructed to operate at frequencies of few kHz. In the present unit active RC-network has been designed which span the complete behavior of an equivalent passive RLC network. The user thus has the experience of studying a near ideal passive second order network complete with all theoretical computations and their experimental verifications.
Features & Specification
Active second order network
Damping control – over-, critical, and under-damping
Built-in square wave signal
Built-in sine wave signal
Needs an external CRO for response study
Operates with 220V/50 Hz
Detailed technical literature and experiment results supplied
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