1. THEVENIN-NORTON THEOREM
Title of the concept

2. Definitions and Keywords
Thevenin Theorem : Any two terminals of a network composed of linear passive and active circuit elements may be replaced by an equivalent voltage source and an equivalent series resistance. The voltage source is equal to the potential difference between the two terminals connected to these terminals. The series resistance is the equivalent resistance looking into the two terminal ports with all the power sources within the terminal pair inactive.
Norton Theorem : Any two terminals of a network composed of linear passive and active circuit elements may be replaced by an equivalent current source and a parallel resistance. The current of the source is the current measured in the short circuit placed across the terminal-pair. The parallel resistance is the equivalent resistance looking into the terminal-pair with all the independent power sources inactive.

3. CALCULATING THE THEVENIN EQUIVALENT
To calculate the equivalent circuit, the resistance and voltage are needed, so two equations are required. These two equations are usually obtained by using the following steps, but any conditions placed on the terminals of the circuit should also work:
1. Calculate the output voltage, VAB, when in open circuit condition (no load resistor -meaning infinite resistance). This is VTh.
2.(a) Now replace voltage sources with short circuits and current sources with open circuits.
(b) Replace the load circuit with an imaginary ohmmeter and measure the total resistance, R, "looking back" into the circuit. This is RTh.

4. CALCULATING THE NORTON EQUIVALENT
To calculate the equivalent circuit, the resistance and voltage are needed, so two equations are required. These two equations are usually obtained by using the following steps, but any conditions placed on the terminals of the circuit should also work:
1. Find the Norton current INo. Calculate the output current, IAB, with a short circuit as the load (meaning 0 resistance between A and B). This is INo.
2. Find the Norton resistance RNo. When there are no dependent sources (i.e., all current and voltage sources are independent), there are two methods of determining the Norton impedance RNo.
Calculate the output voltage, VAB, when in open circuit condition (i.e., no load resistor — meaning infinite load resistance). RNo equals this VAB divided by INo.
or Replace independent voltage sources with short circuits and independent current sources with open circuits. The total resistance across the output port is the Norton impedance Rno .

5. Concept details
The circuit consists of resistors and a voltage source. Terminals A and B are the terminals across which Thevenin equivalent circuit is to be determined.
The diagram will be morphed into the next equivalent circuit diagram which is the circuit for calculating the equivalent output voltage.
A typical Circuit diagram. 1
Current, using an arrow tip, will be circulated across the loop as well as voltage drop across each resistor will be displayed in parallelism. After 1 complete circulation it’s value will be determined and from there the voltage across terminals A and B.
Equivalent circuit for determining equivalent output voltage. 2
Equivalent circuit for determining equivalent resistance.
Req=R1+[(R2+R3)||R4]
The previous circuit will be morphed into the circuit for determining equivalent resistance. Next the voltage source will be converted into a short. And, equivalent resistance will be calculated using the formula provided. 3

6. The previous circuit will be morphed into original circuit
The previous circuit will be morphed into original circuit . Next, all the resistances will be combined together and the equivalent resistance will be displayed in parallelism of changing the value of 15V to 7.5V .
The final equivalent circuit of the original circuit.
The Thevenin equivalent circuit. 4
The circuit consists of resistors and a voltage source. Terminals A and B are the terminals across which Norton equivalent circuit is to be determined.
The diagram will be morphed into the next equivalent circuit diagram which is the circuit for calculating the equivalent output voltage.
A typical Circuit diagram. 5
Itotal
=V1/[R4+{R1||(R2+R3)}]
Itotal will be calculated using Kirchhoff's laws . And, finally using the current divider rule I will be calculated.
Equivalent circuit for determining equivalent output voltage. 6
Using current divider rule:
I=[(R2+R3)/(R1+R2+R3)]*
Itotal

7. Req= R1+R4||(R2+R3)
The previous circuit will be morphed into the circuit for determining equivalent resistance. Next the voltage source will be converted into a short. And, equivalent resistance will be calculated using the formula provided. 7
Equivalent circuit for determining equivalent resistance.
The previous circuit will be morphed into original circuit . Next, all the resistances will be combined together and the equivalent resistance will be displayed in parallelism of changing the value of voltage source from 15V to current source of 3.75mA .
The Norton
equivalent circuit. 8
The final equivalent circuit of the original circuit.

8. Interactivity and Boundary limits
While determining the Thevenin equivalent of a given circuit the user can alter the value of resistances and sources and observe the changes.
Changing the values of the inputs changes the equivalent outputs.
None of the resistances or sources should be zero or infinity.
While determining the Thevenin equivalent of a given circuit the user can alter the value of resistances and sources and observe the changes.
Changing the values of the inputs changes the equivalent outputs.
None of the resistances or sources should be zero or infinity.

9. Questionnaire
1. The relation between Thevenin equivalent resistance(RTH) and that of Norton’s (RN) is given by:
Answers: a) RTH>RN
b) RTH=RN
c)RTH<RN
d)RTH>>RN

10. 2.In the Thevenin equivalent circuit, the equivalent voltage source is _______ with the equivalent Thevenin resistance.
Answer: a)in Parallel
b)not connected.
c)in series.
d)None of them.

11. 3.In the Norton equivalent circuit, the equivalent Norton resistance is _______ with the equivalent Norton current source.
Answer: a)in Parallel
b)not connected.
c)in series.
d)None of them.

12. 4. A network has the configuration shown in the figure
4.A network has the configuration shown in the figure. All resistance values are expressed in ohms. Find the current through RL when it takes on values of 10, 50 and 200 ohms.
Answer: a)0.324A, 0.481A and 0.146A respectively
b)0.481A, 0.146A and 0.324A respectively
c)0.481A, 0.324A and 0.146A respectively
d)None of these.

13. 5.The small signal equivalent of a vacuum-tube amplifier has the configuration depicted in the figure. The indicated circuit parameters have the following values: µ=99, R1=147,000 ohms ,rp =66,000 ohms and R2 =100,000 ohms. Find the value of the voltage for Eg=0.4 volt.
Answer: a)1.872V
b)18.72V
c)11.42V
d)15.78V

14. Links for further reading
[1] “Electrical Engineering Fundamentals”, by Vincent Del Toro, Prentice-hall Of India Pvt. Ltd.
[2] “Basic Electrical Engineering”, by D.P. Kothari and I.J. Nagrath, Tata McGraw-Hill Publishing Pvt. Ltd.

15. Thank you
Made by:- Rutesh Chavda