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PSPICE?????

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PSPICE Simulation Program with Integrated Circuit Emphasis CH5 OPERATIONAL AMPLIFIER 5.1 Modeling OP Amps with Resistors and Dependent ... – PowerPoint PPT presentation

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Title: PSPICE?????


1
PSPICE?????
  • Simulation Program with Integrated Circuit
    Emphasis

2
CH5
  • OPERATIONAL AMPLIFIER
  • ?????

3
5.1 Modeling OP Amps with Resistors and Dependent
Sources
  • How to use PSpice to analyze a circuit containing
    an operational amplifier?

4
Fig.53
5
Example7
  • The parameters for the operational amplifier in
    the circuit shown in Fig.53 are Ri200k?, A10E4,
    and Ro5k?.
  • 1)Use PSpice to find Vi and Vo when Vg1V(dc).
  • 2)Compare the PSpice solution with the analytic
    solution for Vi and Vo.

6
????
  • An equivalent circuit for an operational
    amplifier (Fig. 52)

7
Fig. 52 ex7_pre_ddb
8
Solution
  • Analog lib R, E(VCVS)
  • Source lib VDC

9
Fig. 54 ex7_sch
10
Fig. 55 output file
11
  • 1)We used simple bias point analysis, therefore,
  • V(in) -0.0028V(??0.0027V--?)
  • V(out) -10.03V(??-9.9697V--?)

12
Ideal operational amplifer
  • If we assume that the operational amplifer in the
    circuit shown in Fig. 53 is ideal, we can altera
    the PSpice op amp schematic representation by
    making Ri and A very large and Ro0.

13
  • To illustrate, we modify the schematic in Fig.
    54, with R2200 M?, A10E8, and R4 removed from
    the schematic entirely. (Fig. 54a)

14
Fig. 54a
15
  • The resulting PSpice output file after bias point
    analysis is shown in Fig. 56.
  • The values of vi and vo from this simulation are
  • Viv(in)-10E-9V (??100E-9V--?)
  • Vov(out)-10V

16
Fig. 56 output file
17
  • 2)We obtain the analytic solution for Vi and Vo
    by solving the following simultaneous
    node-voltage equations

18
  • You should verify that the solutions for Vi and
    Vo are
  • Vi2.742mV
  • Vo-9.970V

19
5.2 Using OP Amps Library Models
20
Example8
  • Repeat the analysis of the circuit shown in
    Fig.53, but this time use the uA741 model from
    the PSpice model library.

21
Solution
  • uA741?EVAL??
  • ???Place Part???,?Add Library??,???????

22
Fig. 57a Add EVAL Library
23
Fig. 57b EVAL Path
24
Fig. 57 ex8_sch
25
Fig. 58 output file
26
5.3 Modifying OP Amp Models
  • Place the model of the uA741 from the Eval
    Library in your circuit schematic.
  • Highlight the op amp component, select
    Edit/PSpice Model from the Capture menu. (Fig.
    59a)

27
Fig. 59a
28
Fig. 59 Model Editor
29
  • You define a subcircuit by inserting a .SUBCKT
    control statement
  • .SUBCKT SUBNAME N1 N2 N3
  • You terminate the subcircuit description by
    inserting an .ENDS control statement
  • .ENDS ltSUBNAMEgt

30
  • Now we create a new subcircuit based on the ideal
    op amp, consisting of a 1M? input resistor, a
    voltage-controlled voltage source with a gain of
    10E6, and a 200 ? output resistor.

31
Fig. 60 Model Editor for IdealOpAmp
32
  • Highlight the IdealOpAmp component
  • Select Edit/Part from the Capture menu
  • The result should look like the part shown in
    Fig. 61.

33
Fig. 61 Edit model
34
  • Highlight the new IdealOpAmp component
  • Select Edit/Properties from the Capture menu.
  • The modified template is shown in Fig. 62.

35
Fig. 62 Edit Property
36
example9
  • Repeat the analysis of the circuit shown in
    Fig.53, but this time use the IdealOpAmp model we
    have just created.

37
Solution
38
Fig. 63 ex9_sch
39
Fig. 64 output file
40
  • From Fig. 64, we can see that the output voltage
    is -10 V.
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