Basic Matrix Algebra and Transistor Circuits

Name: Basic Matrix Algebra and Transistor Circuits
Brand: Elsevier
Price: 24.95 EUR
Availability: OnlineOnly

G. Zelinger(Author)

Elsevier (Publisher)

Published on 22. October 2013

132 pages

E-Book

PDF with digital watermarking

System requirements

978-1-4831-5124-3 (ISBN)

€24.95incl. 7% vat

System requirements

for PDF with digital watermarking

E-Book Single Licence

Available for download

Description

More details

Other editions

Content

PrefaceI. Basic Matrix Algebra of Four-terminal Networks 1. Why Matrix Algebra 2. Matrices and Determinants: Fundamental Similarities and Differences 3. Matrix Representation of Networks (a) The Transmission Matrix and General Parameters (b) The Z Matrix (c) The Y Matrix (d) The h Matrix 4. Basic Operations with Matrices (a) Addition and Subtraction (b) Multiplication (c) Inversion 5. Simple Network Elements and their Associated Transmission Matrices (a) Series Impedance Element (b) Parallel Admittance Element 6. More Complex Network Configurations and Associated Transmission Matrices (a) L Network with Series Input Element (b) L Network with Shunt Input Element (c) T Network (d) p Network (e) Series Connection of Impedances (f) Parallel Connection of Admittances 7. Alternative Methods of Deriving the Transmission Matrix by Kirchhoff's Law (a) The T Network (b) The p Network 8. Networks Containing Mutual Inductance (a) Inductively Coupled Circuits, General (b) Ideal Transformer (c) Series Tuned Inductively Coupled Circuits (d) Parallel Tuned Inductively Coupled Circuits 9. Reciprocal and non-reciprocal Networks, Characterized by the Determinant of Matrix (a) Passive or Reciprocal Networks (b) Active or non-reciprocal Networks 10. Transformation of Matrices (a) Inversion of the Transmission Matrix in Terms of General Parameters (b) Transformation of the Z Matrix into Y matrix in Terms of Z Parameters (c) Tables of Transformations List of ReferencesII. Introduction to Matrix Analysis of Transistor Circuits Summary Introduction 1. The Common-base Connection Derivation of Transmission Matrix Determinant of Transmission Matrix Short-circuit Current Gain Open-circuit Voltage Gain Simplified Resistive Parameters Modification of Resistive Model for High Frequencies Amplifier with Generalized Load Impedance Amplifier with Tuned LC Load 2. The Common-emitter Connection Derivation of Transmission Matrix Determinant of Transmission Matrix Short-circuit Current Gain Open-circuit Voltage Gain Simplified Resistive Parameters Amplifier with Generalized Load Impedance Amplifier with Tuned LG Load 3. The Common-collector Connection Derivation of Transmission Matrix Determinant of Transmission Matrix Simplified Resistive Parameters Short-circuit Current Gain Open-circuit Voltage Gain Conclusion List of ReferencesIII. Application of Matrix Algebra to Design Topics of Single-stage Transistor Amplifiers Introduction 1. Impedance and Admittance (a) Input Impedance, General Definition (b) Output Impedance, General Definition (c) Reverse Transfer Admittance, General Definition 2. The Common-base Amplifier (a) Input Impedance (b) Output Impedance (c) Reverse Transfer Admittance 3. The Common-emitter Amplifier (a) Input Impedance (b) Output Impedance (c) Reverse Transfer Admittance 4. The Common-collector Amplifier (a) Input Impedance (b) Output Impedance (c) Reverse Transfer Admittance Conclusion List of RreferencesSupplementary ReferencesIndex

System requirements

Save as PDF Copy link into clipboard

Schweitzer Fachinformationen

Basic Matrix Algebra and Transistor Circuits

Description

More details

Other editions

Additional editions

Content

System requirements