What is the Norton equivalent current in?

What is the Norton equivalent current in?

Any collection of batteries and resistances with two terminals is electrically equivalent to an ideal current source i in parallel with a single resistor r. The value of r is the same as that in the Thevenin equivalent and the current i can be found by dividing the open circuit voltage by r.

How do I use Norton equivalent?

Steps to Analyze an Electric Circuit using Norton’s Theorem

  1. Short the load resistor.
  2. Calculate / measure the Short Circuit Current.
  3. Open Current Sources, Short Voltage Sources and Open Load Resistor.
  4. Calculate /measure the Open Circuit Resistance.

What are the applications of Norton’s theorem?

Applications of Norton’s Theorem

  • It is used to reduce a complex circuit into a simple circuit.
  • Norton’s theorem is useful to solve problems on parallel generators with unequal emf’s and unequal impedances.
  • Norton’s theorem can be interchangeably used with thevenin’s theorem through proper source transformations.

How to calculate Thevenin resistance?

Remove the 5 kΩ from the circuit.

  • Measure the open-circuit voltage. This will give you the Thevenin’s voltage (V TH ).
  • resistors.
  • Short the voltage sources as shown in the figure below:
  • How to calculate Thevenin voltage?

    load resistor (Fig 2).

  • measure the open circuit voltage. This is the Thevenin Voltage (VTH).
  • Open current sources and short voltage sources as shown below.
  • measure the open circuit resistance.
  • Connect the RTH in series with Voltage Source VTH and re-connect the load resistor.
  • What is a Thevenin’s theorem?

    Thevenin’s Theorem. Thevenin’s theorem is a procedure by which we change a complex network in to simple network called thevenin’s equivalent circuit. Thevenin’s equivalent circuit of an open circuit voltage, thevenin voltage, V th and the total resistance from the open terminals side, thevenin’s equivalent resistance, R th.