codientu org chapter44

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codientu org chapter44

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Chapter BJT BIASING CIRCUIT Introduction – Biasing The analysis or design of a transistor amplifier requires knowledge of both the dc and ac response of the system In fact, the amplifier increases the strength of a weak signal by transferring the energy from the applied DC source to the weak input ac signal The analysis or design of any electronic amplifier therefore has two components: •The dc portion and •The ac portion During the design stage, the choice of parameters for the required dc levels will affect the ac response What is biasing circuit? Biasing: Application of dc voltages to establish a fixed level of current and voltage Purpose of the DC biasing circuit • To turn the device “ON” • To place it in operation in the region of its characteristic where the device operates most linearly •Proper biasing circuit which it operate in linear region and circuit have centered Q-point or midpoint biased •Improper biasing cause Improper biasing cause •„Distortion in the output signal •„Produce limited or clipped at output signal Important basic relationship I= IC + I B E IC β = IB I E  = ( β + 1)I B ≅ I C V= V CE −V BE CB Operating Point •Active or Linear Region Operation Base – Emitter junction is forward biased Base – Collector junction is reverse biased Good operating point •Saturation Region Operation Base – Emitter junction is forward biased Base – Collector junction is forward biased •Cutoff Region Operation Base – Emitter junction is reverse biased BJT Analysis DC analysis AC analysis Calculate the DC Q-point Calculate gains of the amplifier solving input and output loops Graphical Method DC Biasing Circuits •Fixed-bias circuit •Emitter-stabilized bias circuit •Collector-emitter loop •Voltage divider bias circuit •DC bias with voltage feedback FIXED BIAS CIRCUIT  This is common emitter (CE) configuration  1st step: Locate capacitors and replace them with an open circuit  2nd step: Locate main loops which;  BE loop (input loop)  CE loop(output loop) FIXED BIAS CIRCUIT  1st step: Locate capacitors and replace them with an open circuit FIXED BIAS CIRCUIT  2nd step: Locate main loops BE Loop CE Loop 1 2 FIXED BIAS CIRCUIT  BE Loop Analysis ■ From KVL; IB −V CC + I B R B +V BE = V CC −V BE ∴I B = RB A FIXED BIAS CIRCUIT  CE Loop Analysis ■ From KVL; −V CC + I C RC +V CE = ∴V CE = V CC − I C RC ■ As we known; IC ■ I C = βI B B Substituting A with  V − VBE   I C = β DC  CC RB   Note that RC does not affect the value of Ic B Approximate Analysis When βRE > 10R2 , Then IB

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  • chapter4

    • Chapter 4 BJT BIASING CIRCUIT

    • Slide Number 2

    • Slide Number 3

    • Slide Number 4

    • Slide Number 5

    • FIXED BIAS CIRCUIT

    • FIXED BIAS CIRCUIT

    • FIXED BIAS CIRCUIT

    • FIXED BIAS CIRCUIT

    • FIXED BIAS CIRCUIT

    • FIXED BIAS CIRCUIT

    • Load line analysis

    • Slide Number 13

    • Slide Number 14

    • EMITTER-STABILIZED BIAS CIRCUIT

    • EMITTER-STABILIZED BIAS CIRCUIT

    • EMITTER-STABILIZED BIAS CIRCUIT

    • EMITTER-STABILIZED BIAS CIRCUIT

    • EMITTER-STABILIZED BIAS CIRCUIT

    • Slide Number 20

    • VOLTAGE DIVIDER BIAS CIRCUIT

    • VOLTAGE DIVIDER BIAS CIRCUIT

    • VOLTAGE DIVIDER BIAS CIRCUIT

    • VOLTAGE DIVIDER BIAS CIRCUIT

    • VOLTAGE DIVIDER BIAS CIRCUIT

    • Slide Number 26

    • Slide Number 27

    • Slide Number 28

    • Slide Number 29

    • Slide Number 30

  • Binder1

    • 1

    • 2

    • 3

    • 4

    • 5

    • 6

    • 7

    • 8

    • 9

    • 10

    • 11

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