OrCAD PSpice - Tutorial. TA: 黃玉龍

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1 OrCAD PSpice - Tutorial TA: 黃玉龍 r @ntu.edu.tw

2 Outline 2 Introduction Preparation Schematic Simulation Conclusion

3 Introduction 3 OrCAD PSpice is developed by Cadence Analog circuit simulation tool Graphical User Interface (GUI) Fast, intuitive and used widely Provide Demo limited version

4 Outline 4 Introduction Preparation Download Launch Schematic Simulation Conclusion

5 Download (/4) 5. Key word 2. Enter this website

6 Download (2/4) 6 3. Find this product 4. Click this

7 Download (3/4) must be correct 7. Check the 6. Submit the request

8 Download (4/4) 8 0. Download 8. Select this option 9. Click this

9 Launch (/3) 9 3. File New Project 2. Click this. Start

10 Launch (2/3) 0 4. Name 7. Click OK 5. Select this 6. Path 9. OK 8. Blank project

11 Launch (3/3) 3. Simulation 2. Tool bar. Schematic

12 Outline 2 Introduction Preparation Schematic Library Placement Wiring Ground Simulation Conclusion

13 Schematic 3 Add library paths for components Place components onto the schematic Connect each components Add system ground into the circuit

14 Library (/3) 4. Click Place part 2. Click Add Library

$Library (2/3) 5 3. Path:~\OrCAD_6.$

15 Library (2/3) 5 3. Path:~\OrCAD_6.5_Lite\tools\capture\library\pspice\* 4. Select all 5. Open

16 Library (3/3) 6 7. Part List 6. Libraries

17 Placement (/3) 7 3. Click this and Place part 2. Type element. Select all 4. Move mouse for location and Click Left bottom 5. Finish

18 Placement (2/3) 8 6. Click Left Bottom of mouse 7. Modify Orientation

19 Placement (3/3) 9 8. Double click Left Bottom of mouse 9. Change value 0. OK

20 Wiring (/) 20. Click Place wire 2. Use mouse for Connection 3. Finish

21 Ground (/) 2 2. Select Ground. Click Place ground 3. Finish

22 Outline 22 Introduction Preparation Schematic Simulation Overview Profile - Bias Point Profile 2 - DC Sweep Profile 3 - Time Domain Profile 4 - AC Sweep Conclusion

23 Simulation 23 PSpice provide four analysis mode Each simulation profile use different sources/components Each simulation profile generates different results User has to display the curve manually after simulation

24 24 Bias Point (/6)

25 Bias Point (2/6) 25 Frequently used element VDC : DC Voltage Supply. VSIN : Sinusoidal Wave Voltage Source VPULSE : Square Wave Voltage Source IDC : DC Current Source ISIN : Sinusoidal Wave Current Source IPULSE : Square Wave Current Source R : Resistor C : Capacitor L : Inductor DN448 : Diode DC Bias Analysis AC or Small-Signal Analysis

26 Bias Point (3/6) 26. PSpice New Simulation Profile 2. Click Create 3. Select the Bias Point 4. Click OK!

27 Bias Point (4/6) Run 6. Click Yes

28 Bias Point (5/6) 28 Display window (not used in Bias Point) Indicates successfully simulated

29 Bias Point (6/6) Click the bottom to display

30 DC Sweep (/7) 30 Note: VSRC / ISRC are used!

31 DC Sweep (2/7) 3. PSpice New Simulation Profile 2. Click Create 3. Select the DC Sweep 4.Voltage Source Name 6. Voltage Range 5. Scale 7. OK!

32 DC Sweep (3/7) Pspice Run Display Window Successful message

33 DC Sweep (4/7) Click right bottom of mouse Choose Add Trace 0. Select observed signal or type in this tab. OK

34 34 DC Sweep (5/7)

35 DC Sweep (6/7) Plot Axis Settings 3. Click this 4. Select voltage across Diode 6. OK 5. OK

36 36 DC Sweep (7/7)

37 Transient Analysis (/5) 37 Note: VSIN/ISIN or VPULSE/IPULSE are used!!! (No VSRC/ISRC)

38 Transient Analysis (2/5) 38 V dv dt RC t R C R C dv dt V V R C t R C dv V ( e ) ( e ) ( e dt R C V t R C V ) R C t R C d( e V ) e t R C V V V R C t R C V V e Ce t R C t RC V V ( e ) e t R C C dt V R C V dv dt dv dt R C 0 V V e t R C ln V V ce t R C t R C C

39 Transient Analysis (3/5) 39. PSpice New Simulation Profile 2. Click Create 3. Select the Time Domain 4.Time Interval 5. OK!

40 Transient Analysis (4/5) Pspice Run 7. Click left mouse and select Add Trace 8. Select the two signals 9. OK

41 4 Transient Analysis (5/5)

42 AC Sweep (/5) 42 Note: VSRC / ISRC are used!

AC Sweep (2/5) 43 When f f 0 338 Hz V c 2 V V j 2 0.7075 3.

43 AC Sweep (2/5) 43 When f f Hz V c 2 V V j Volts V c jc R jc V V c V V V c j 0 j f f 0 - Low-Pass Filter (LPF) - V c jr C V 0 R C f 0 2R C 338 Hz - Cut-off Frequency -

44 AC Sweep (3/5) 44. PSpice New Simulation Profile 2. Click Create 3. Select the AC Sweep 5. Analysis range 4. Logarithmic scale 6. OK

45 AC Sweep (4/5) PSpice Run 8. Click right mouse and Add Trace 9. Choose signal 0. OK!

46 46 AC Sweep (5/5)

47 Outline 47 Introduction Preparation Schematic Simulation Conclusion

48 Conclusion 48 Draw the circuit Simulate Display curve Choose the appropriate voltage/current source VDC/IDC(Bias Point) VSRC/ISRC(DC AC Sweep) VSIN/ISIN(Time Domain) VPULSE/VPULSE(Time Domain) Select the simulation profile & parameters Bias Point DC bias point (DC voltage/current/waltz) DC Sweep Different DC conditional analysis Time Domain Transient voltage/current in the time domain AC Sweep Frequency response (frequency v.s. voltage/current) Modify Axis/Trace to display result Modify the x-axis variable if necessary Add trace into y-axis for observation Select the proper signals shown in the window

49 Appendix: Notes (/) 49 A filename/folder/directory with Chinese is not accepted V(C:) means the voltage on the pin of C element V(C:2) means the voltage on the pin2 of C element Units Abbr. Number Giga g 0 9 Mega meg 0 6 Kilo k 0 3 Milli m 0-3 Micro u 0-6 Nano n 0-9 Pico p 0-2 Famto f 0-5

50 50 Appendix: Diode Curve (/6)

51 Diode Curve (2/6) 5 Besides DC Sweep, we can also use the model in Lab #2 In this case, we select Time Domain analysis instead. PSpice New Simulation Profile 2. Click Create 3. Select the Time Domain 4. Smaller Step Size 5. OK

52 Diode Curve (3/6) PSpice Run 7. Click right mouse and choose Add Trace 8. Select signal 9. OK!

53 53 Diode Curve (4/6)

Diode Curve (5/6) 54 0. Plot Axis Settings.

54 Diode Curve (5/6) Plot Axis Settings. Click this 2. Choose signal 4. Press OK! 3. Press OK!

55 55 Diode Curve (6/6)

56 56 Appendix: Lissajous curve (/6)

57 Lissajous curve (2/6) 57. PSpice New Simulation Profile 2. Click Create 3. Select the Time Domain 4. Avoid initial 5. Smaller Step Size 6. OK

58 Lissajous curve (3/6) PSpice Run 8. Plot Axis Settings

59 Lissajous curve (4/6) Click this 2. Press OK! 0. Choose V. Press OK!

60 Lissajous curve (5/6) Add Trace 4. Choose Vc 5. Press OK!

61 6 Lissajous curve (6/6)

Introduction to PSpice

Electric Circuit I Lab Manual 4 Session # 5 Introduction to PSpice 1 PART A INTRODUCTION TO PSPICE Objective: The objective of this experiment is to be familiar with Pspice (learn how to connect circuits,