Lecture #4 BJT AC Analysis

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November 2014 Ahmad El-Banna Integrated Technical Education Cluster At AlAmeeria J-601-1448 Electronic Principals Lecture #4 BJT AC Analysis Instructor: Dr. Ahmad El-Banna

Agenda BJT transistor Modeling The r e Transistor Model (small signal analysis) Effect of R L and R s & determining the Current Gain Two-Port Systems Approach Cascaded Systems The Hybrid Equivalent Model (Approximate & Complete ) Troubleshooting and Practical Applications J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna 2

BJT TRANSISTOR MODELING 3 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

BJT Transistor Modeling A model is a combination of circuit elements, properly chosen, that best approximates the actual behavior of a semiconductor device under specific operating conditions. Ac analysis Defining the important parameters of any system. 4

BJT Transistor Modeling the ac equivalent of a transistor network is obtained by: 1. Setting all dc sources to zero and replacing them by a short-circuit equivalent 2. Replacing all capacitors by a short-circuit equivalent 3. Removing all elements bypassed by the short-circuit equivalents introduced by steps 1 and 2 4. Redrawing the network in a more convenient and logical form 5

Common Emitter Configuration Common Base Configuration Common Collector Configuration r e Model in Different Bias Circuits THE r e TRANSISTOR MODEL 6

The r e Transistor Model (CE) 7

The r e Transistor Model (CB) 8

The r e Transistor Model (CC) For the common-collector configuration, the model defined for the common-emitter configuration of is normally applied rather than defining a model for the common-collector configuration. npn versus pnp The dc analysis of npn and pnp configurations is quite different in the sense that the currents will have opposite directions and the voltages opposite polarities. However, for an ac analysis where the signal will progress between positive and negative values, the ac equivalent circuit will be the same. J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna 9

C.E. Fixed Bias Configuration 10

Voltage-Divider Bias 11

EFFECT OF R L AND R S (SYSTEM APPROACH) 12

Effect of R L and R s The loaded voltage gain of an amplifier is always less than the no-load gain. The gain obtained with a source resistance in place will always be less than that obtained under loaded or unloaded conditions due to the drop in applied voltage across the source resistance. For the same configuration A vnl >A vl > A vs. For a particular design, the larger the level of R L, the greater is the level of ac gain. For a particular amplifier, the smaller the internal resistance of the signal source, the greater is the overall gain. For any network that have coupling capacitors, the source and load resistance do not affect the dc biasing levels. J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna 13

Effect of R L and R s.. Voltage-divider ct. 14

DETERMINING THE CURRENT GAIN 15 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

Determining the Current gain For each transistor configuration, the current gain can be determined directly from the voltage gain, the defined load, and the input impedance. 16

SUMMARY TABLE 17 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

18

19

20

TWO PORT SYSTEMS APPROACH 21 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

2-Port System 22

2-Port System.. 23

CASCADED SYSTEMS 24 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna Cascaded Systems Examples: RC Coupled ct & Cascode ct Check Examples: 5.15 & 5.16 25

THE HYBRID EQUIVALENT MODEL 26 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna The Hybrid Equivalent Model The r e model has the advantage that the parameters are defined by the actual operating conditions, the parameters of the hybrid equivalent circuit are defined in general terms for any operating conditions. short-circuit input-impedance parameter open-circuit reverse transfer voltage ratio parameter short-circuit forward transfer current ratio parameter short-circuit forward transfer current ratio parameter 27

J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna Transistor Hybrid Equivalent ct For Transistor: 28

Hybrid vs. r e model 29

APPROXIMATE & COMPLETE H-MODEL 30 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna Approximate h-model Fixed Bias ct 31 Check other configurations!!

Complete h-model 32

HYBRID Π MODEL 33 J-601-1448, Lec#4, Nov 2014 Ahmad El-Banna

Hybrid π Model 34

VARIATIONS OF TRANSISTOR PARAMETERS 35

TROUBLESHOOTING & PRACTICAL APPLICATIONS 36

Troubleshooting In general, therefore, if a system is not working properly, first disconnect the ac source and check the dc biasing levels. 37

PRACTICAL APPLICATIONS Audio Mixer Preamplifier 38

For more details, refer to: Chapter 5, Electronic Devices and Circuits, Boylestad. The lecture is available online at: https://speakerdeck.com/ahmad_elbanna For inquires, send to: ahmad.elbanna@feng.bu.edu.eg 39

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