ELEN E3081

<-- Return to the previous page

Circuit Analysis Laboratory

Experiment 1: Resistive Circuits (Hspice simulations)

  • The main goals of this experiment are:
  • To learn linear circuit analysis with Hspice.
  • To practice netlist generation and DC analysis in Hspice
  • To introduce the Wheatstone bridge.
  • To practice the Thevenin equivalent circuit.
  • To verify the superposition theorem.

Experiment 2: Inverting amplifier (Hspice simulations).

  • The main goals of this experiment are:
  • To introduce the linear controlled sources of Hspice.
  • To introduce parameterization and subcircuits in Hspice.
  • To introduce equations and behavioral modeling in Hspice.
  • To introduce a simple non-linear opamp simulation model.
  • To simulate several opamp configurations including the inverting amplifier.

Experiment 3: Memoryless opamp circuits

  • The main goals of this experiment are:
  • To review basic memoryless opamp circuits.
  • To verify the basic memoryless opamp circuits by Hspice simulation including linear and nonlinear regions of operation.
  • To design, simulate, build a non-inverting amplifier, an inverting current amplifier and a voltage-to-current convertor and measure them in the lab.
  • To compare calculations, simulations, and measurements.

Experiment 4: First order circuits-Lossy integrators using opamp

  • The main goals of this experiment are:
  • To learn about forced, natural and total response of first order systems.
  • To analyze and simulate integrators in the time domain.
  • To build an opamp based integrators.
  • To measure the response circuit with a DC input, a sinusoidal input and a periodic pulse input.
  • To measure the frequency response of the lossy integrator.
  • To compare calculations, simulations, and measurements.

Experiment 5: Second order circuits.

  • The main goals of this experiment are:
  • To learn about general characterization of second order systems.
  • To learn about, simulate, and measure Lissajous-figures.
  • To learn about resonance and related figures of merit.
  • To learn about, simulate and measure filtering by second order bandpass circuits.
  • To learn about AC steady state simulation using Hspice.
  • To learn about the types of the natural response of second order systems.
  • To calculate, simulate and measure pulse response of an overdamped, critically damped and underdamped circuit.
  • To learn about and practice the basics of soldering and desoldering.
  • To build and carry out transient and AC steady state measurements.
  • To compare measurements with simulations and calculations.