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. Special Purpose Amplifiers

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Special Purpose Amplifiers. Differential Amplifier. Schematic Diagram * + VCC RC (1) RC (2) RB (1) RB (2) VOUT VIN (1) VIN (2) Q1 Q2 RE - VEE * . Operation + 0 + VCC ... – PowerPoint PPT presentation

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Title: . Special Purpose Amplifiers


1
  • . Special Purpose Amplifiers
  • . Differential Amplifier
  • . Schematic Diagram

2
  • . Operation


0
3
  • . With the polarities shown previously
  • . On positive going signal, Base of Q1 becomes
    more () with respect to emitter gt FB Q1 ? gt
    ICQ1 ? gt VRC1 ? gt VCQ1 ? (less ). Since ICQ1
    ? gt IEQ1 ? (IE ? IC ? IB) gt VRE ? gt
    Emitter of Q2 becomes less (-) with respect to
    Base gt FBQ2 ? gt ICQ2 ? gt VRC2 ? gt VCQ2 ?
    (more ). Due to the polarities assigned by our
    voltmeter, the difference between Q1 and Q2 is
    becoming less gt VOUT ? (Negative Going).
  • . On negative going signal, Base of Q1 becomes
    less () with respect to emitter gt FB Q1 ? gt
    ICQ1 ? gt VRC1 ? gt VCQ1 ? (more ). Since ICQ1
    ? gt IEQ1 ? (IE ? IC ? IB) gt VRE ? gt
    Emitter of Q2 becomes more (-) with respect to
    Base gt FBQ2 ? gt ICQ2 ? gt VRC2 ? gt VCQ2 ?
    (less ). Due to the polarities assigned by our
    voltmeter, the difference between Q1 and Q2 is
    becoming larger gt VOUT ? (Positive Going).

4
  • . With the resulting output achieved, it can be
    said that a positive going input on the base of
    Q1 caused VCQ1 to be inverted gt the base of Q1
    is called the Inverting Terminal. Since the
    positive going input caused VCQ2 to increase in a
    positive direction, the base of Q2 is called the
    Non-Inverting Terminal.
  • . If my voltmeter leads were changed, the output
    of the amplifier would also change. The Inverting
    and Non-Inverting terminals would also change.

5
  • . Operational Amplifiers (OPAMPS)
  • .Block Diagram (Basic)

OUTPUT
6
  • . Ideal OPAMP Characteristics
  • . Infinite (?) Input Impedance
  • Draws little or no current from source.
  • . Zero Output Impedance
  • . Infinite (?) Gain
  • . Infinite (?) Frequency Response
  • Constant gain over any range of input signal
    frequencies.

7
  • . Types of OPAMPS
  • . Linear (Output is Proportional to Input)
  • . Inverting

8
  • . Non - Inverting

9
  • . Summing

10
  • . Difference

11
  • . Non - Linear (Output is not Proportional to
    Input)
  • . Comparator

VREF ATTACHED TO EITHER OR - TERMINALS
(EXAMPLE SHOWS OUTPUT WITH VREF CONNECTED TO THE
NON-INVERTING TERMINAL.) (WAVEFORM WOULD BE
INVERTED IF VREF WAS ATTACHED TO THE INVERTING
TERMINAL)
VOUT
12
  • . Differentiator

13
  • . Integrator
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