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Thevenin and Norton “Equivalent” Circuits

Thevenin and Norton “Equivalent” Circuits. Voltage Source Model Current Source Model. Why do we need them?. Circuit “simplification”. Reduce the complicated circuit on the left to a voltage source in series with a resistor. Conditions for the Thevenin Equivalent.

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Thevenin and Norton “Equivalent” Circuits

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  1. Thevenin and Norton “Equivalent” Circuits Voltage Source Model Current Source Model ECE 201 Circuit Theory I

  2. Why do we need them? • Circuit “simplification” Reduce the complicated circuit on the left to a voltage source in series with a resistor. ECE 201 Circuit Theory I

  3. Conditions for the Thevenin Equivalent • The Thevenin circuit must be “equivalent” from the terminal point of view, that is, it must provide the same voltage and current to the “load” as the original circuit. • This “equivalence” must hold for all values of load resistance. ECE 201 Circuit Theory I

  4. Open-Circuit Consideration • When the load resistance on the original circuit tends towards infinity, the current goes to zero, but there is still an “open-circuit” voltage at the load terminals. • This “open-circuit” voltage must be provided by the Thevenin equivalent circuit. ECE 201 Circuit Theory I

  5. Open-Circuit Conditions • There is an open-circuit voltage at the a-b terminals in the original circuit. • The open-circuit voltage is provided by the voltage source in the Thevenin equivalent circuit. ECE 201 Circuit Theory I

  6. Short-Circuit Considerations • When the load resistance on the original circuit tends towards a short circuit, the circuit provides a “short-circuit” current to the load. • This “short-circuit” current must also be provided by the Thevenin equivalent circuit. ECE 201 Circuit Theory I

  7. Short-Circuit Conditions • The short-circuit current that flows in the Thevenin equivalent must be identical to the current that flows in the original circuit. isc isc ECE 201 Circuit Theory I

  8. Finding an Equivalent Circuit • Find the Thevenin equivalent circuit for ECE 201 Circuit Theory I

  9. Determine the voltage at a-b ECE 201 Circuit Theory I

  10. Determine the short-circuit current ECE 201 Circuit Theory I

  11. The Thevenin Equivalent Circuit • By Ohm’s Law, ECE 201 Circuit Theory I

  12. Summary ECE 201 Circuit Theory I

  13. The Norton Equivalent Circuit • Get the Norton Equivalent Circuit from the Thevenin by Source Transformation. ECE 201 Circuit Theory I

  14. Alternate Way to Determine the Thevenin Resistance If the sources are all Independent ECE 201 Circuit Theory I

  15. If the Sources Are All Independent • Look into the a-b terminals with all sources set equal to 0. • Voltage Sources go to Short Circuits • Current Sources go to Open Circuits • Determine the resistance ECE 201 Circuit Theory I

  16. For our Example ECE 201 Circuit Theory I

  17. Looking into the a-b terminals ECE 201 Circuit Theory I

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