Presentation is loading. Please wait.

Presentation is loading. Please wait.

SABIKA FATIMA EEE NETWORK THEORY B.TECH II YR I SEM

Published byDomenic Preston Modified over 5 years ago

Similar presentations

Presentation on theme: "SABIKA FATIMA EEE NETWORK THEORY B.TECH II YR I SEM"— Presentation transcript:

1 SABIKA FATIMA EEE NETWORK THEORY B.TECH II YR I SEM

2 On topic Two-Port Networks

3 Port A port of a network consists of two terminals — one for the entry of current and other for its exit. The currents in the two terminals of a port are equal. ‘Porte’ in French means ‘door’.

4 Two-Port Network The port variables are port currents I1 and I2 and the port voltages V1 and V2. Note the reference directions of currents and voltages.

5 Assume linear time-invariant elements.
May contain dependent sources but not independent sources. We need two linear equations in port-variables to characterize such a two-port network. Two can be taken as the independent variables and the remaining two as the dependent variables. The choice is just a matter of convenience for a given applications.

6 Six Possibilities Open-circuit, impedance, or z-parameters.
Short-circuit, admittance, or y-parameters. Hybrid, or h-parameters. Inverse hybrid, or g-parameters. Transmission, or ABCD-parameters. Inverse transmission, or abcd-parameters

7

8 OPEN-CIRCUIT, IMPEDANCE, OR z-PARAMTERS
Impedance Matrix

9 1. Input driving point impedance,
2. Reverse transfer impedance,

10 3. Forward transfer impedance,
4. Output driving point impedance,

11 Equivalent Circuit Using z-parameters
It is just a picturization of the defining equations.

12 Alternate way of drawing the equivalent circuit.

13 Conditions for Reciprocity
A network is said to be reciprocal, if

14 Condition for Symmetry
A two-port network is said to be symmetrical if its ports can be interchanged without changing the port voltages and currents.

15 SHORT-CIRCUIT, ADMITTANCE, OR y-PARAMTERS
Admittance Matrix

16 1. Input driving point admittance,
2. Reverse transfer admittance ,

17 3. Forward transfer admittance
4. Output driving point admittance

18 Equivalent Circuit Using y-Parameters
Picturizing the defining equations,

19 Alternatively,

20 Conditions for Reciprocity and Symmetry

21 Review Multi-Port Networks. Two-Port Network.
Six Possibilities of Characterization. open-circuit, impedance, or z-paramters. Equivalent Circuit Using z-parameters . Conditions for Reciprocity and Symmetry. Short-circuit, admittance, or y-paramters. Equivalent Circuit Using y-Parameters.

Download ppt "SABIKA FATIMA EEE NETWORK THEORY B.TECH II YR I SEM"

Similar presentations

NETWORK MODELS OF TRANSMISSION LINES AND WAVE BEHAVIOR M OTIVATION : Ideal junction elements are power-continuous. Power out = power out instantaneously.

NETWORK MODELS OF TRANSMISSION LINES AND WAVE BEHAVIOR M OTIVATION : Ideal junction elements are power-continuous. Power out = power out instantaneously.
Ref:080130HKNEE3110 Feedback Amplifiers1 Lecture 2 Feedback Amplifier Introduction of Two-Port Network Negative Feedback (Uni-lateral Case) Feedback Topology.

Ref:080130HKNEE3110 Feedback Amplifiers1 Lecture 2 Feedback Amplifier Introduction of Two-Port Network Negative Feedback (Uni-lateral Case) Feedback Topology.
RF Communication Circuits

RF Communication Circuits
The University of Tennessee Electrical and Computer Engineering

The University of Tennessee Electrical and Computer Engineering
TWO-PORT NETWORKS In many situations one is not interested in the internal organization of a network. A description relating input and output variables.

TWO-PORT NETWORKS In many situations one is not interested in the internal organization of a network. A description relating input and output variables.
Circuits II EE221 Unit 8 Instructor: Kevin D. Donohue 2 Port Networks –Impedance/Admittance, Transmission, and Hybird Parameters.

Circuits II EE221 Unit 8 Instructor: Kevin D. Donohue 2 Port Networks –Impedance/Admittance, Transmission, and Hybird Parameters.
دو قطبي ها-1 مدار 2 پائيز 86 دكتر توحيدخواه.

دو قطبي ها-1 مدار 2 پائيز 86 دكتر توحيدخواه.
Two-port networks Review of one ports Various two-port descriptions

Two-port networks Review of one ports Various two-port descriptions
CHAPTER 6 TWO PORT NETWORKS.

CHAPTER 6 TWO PORT NETWORKS.
Lecture 6. Chapter 3 Microwave Network Analysis 3.1 Impedance and Equivalent Voltages and Currents 3.2 Impedance and Admittance Matrices 3.3 The Scattering.

Lecture 6. Chapter 3 Microwave Network Analysis 3.1 Impedance and Equivalent Voltages and Currents 3.2 Impedance and Admittance Matrices 3.3 The Scattering.
Chapter 9 – Network Theorems

Chapter 9 – Network Theorems
Fundamentals of Electric Circuits Chapter 19 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Fundamentals of Electric Circuits Chapter 19 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
EKT 441 MICROWAVE COMMUNICATIONS

EKT 441 MICROWAVE COMMUNICATIONS
Microwave Engineering

Microwave Engineering
Electrical Systems 100 Lecture 3 (Network Theorems) Dr Kelvin.

Electrical Systems 100 Lecture 3 (Network Theorems) Dr Kelvin.
Chapter 18 Two-port Networks.

Chapter 18 Two-port Networks.
ENE 490 Applied Communication Systems Lecture 3 Stub matching, single- and two-port networks DATE: 27/11/06.

ENE 490 Applied Communication Systems Lecture 3 Stub matching, single- and two-port networks DATE: 27/11/06.
EE212 Passive AC Circuits Lecture Notes 2a 2010-20111EE 212.

EE212 Passive AC Circuits Lecture Notes 2a EE 212.
Block A Unit 3 outline One port network Two port network

Block A Unit 3 outline One port network Two port network
Fundamentals of Electric Circuits Chapter 19

Fundamentals of Electric Circuits Chapter 19

Similar presentations

Ads by Google