0
Upcoming SlideShare
×

Thanks for flagging this SlideShare!

Oops! An error has occurred.

×
Saving this for later? Get the SlideShare app to save on your phone or tablet. Read anywhere, anytime – even offline.
Standard text messaging rates apply

# Introduction to PSPICE

4,314

Published on

The course was developed to introduce PSPICE to first time users. Content includes detailed step by step instructions on how to use PSPICE software.

The course was developed to introduce PSPICE to first time users. Content includes detailed step by step instructions on how to use PSPICE software.

Published in: Design, Technology, Business
9 Likes
Statistics
Notes
• Full Name
Comment goes here.

Are you sure you want to Yes No
Your message goes here
• Be the first to comment

Views
Total Views
4,314
On Slideshare
0
From Embeds
0
Number of Embeds
3
Actions
Shares
0
0
0
Likes
9
Embeds 0
No embeds

No notes for slide

### Transcript

• 1. VLSI Design Lab A Short Course on PSPICE Dates: August 25, 2008 (1.30 &#x2013; 4.30 PM) and August 26, 2008 (9 AM &#x2013; Noon) Room: EE125 VLSI Design Laboratory By Siva Yellampalli, Ph.D. Fall F ll 2008
• 2. VLSI Design Lab Course C C Coordinators di t Prof. Prof Jorge Aravena Interim Chairman Aravena, Prof. Ashok Srivastava Prof. Pratul K. Ajmera (Electronics Area Coordinator)
• 3. VLSI Design Lab Acknowledgments g The VLSI Design Laboratory has been upgraded with supports from Louisiana Board of Regents (LaBoR) , College of Engineering and the Department of Electrical &amp; Computer Engineering (Principal Investigator: Prof. Ashok Srivastava and co-Principal Investigator: Prof. Clive Woods). Technical Assistance Richard Capone Computer Manager Capone, Saied Andalib, Computer Analyst James Breedlove, Shop Manager
• 4. VLSI Design Lab Introduction SPICE can do several types of circuit analyses Here are the most analyses. important ones: &#x2022; Non-linear DC analysis: calculates the DC transfer curve. &#x2022; Non-linear transient analysis: calculates the voltage and current as a function of time when a large signal is applied. &#x2022; Linear AC Analysis: calculates the output as a function of frequency. A bode plot is generated. &#x2022; Noise analysis &#x2022; Sensitivity analysis &#x2022; Distortion analysis &#x2022; Fourier analysis: calculates and plots the frequency spectrum. &#x2022; Monte Carlo Analysis
• 5. VLSI Design Lab Introduction &#x2022; SPICE- Simulation SPICE Sim lation Program for Integrated Circ its Emphasis Circuits SPICE Text PSPICE Capture CIS (Schematic)
• 6. VLSI Design Lab CAPTURE CIS
• 7. VLSI Design Lab
• 8. VLSI Design Lab
• 9. VLSI Design Lab
• 10. VLSI Design Lab
• 11. VLSI Design Lab
• 12. VLSI Design Lab
• 13. VLSI Design Lab
• 14. VLSI Design Lab
• 15. VLSI Design Lab
• 16. VLSI Design Lab
• 17. VLSI Design Lab
• 18. VLSI Design Lab IDC C VDC
• 19. VLSI Design Lab
• 20. VLSI Design Lab
• 21. VLSI Design Lab
• 22. VLSI Design Lab
• 23. VLSI Design Lab
• 24. VLSI Design Lab
• 25. VLSI Design Lab
• 26. VLSI Design Lab
• 27. VLSI Design Lab
• 28. VLSI Design Lab
• 29. VLSI Design Lab
• 30. VLSI Design Lab
• 31. VLSI Design Lab
• 32. VLSI Design Lab
• 33. VLSI Design Lab
• 34. VLSI Design Lab
• 35. VLSI Design Lab Text File
• 36. VLSI Design Lab
• 37. VLSI Design Lab
• 38. VLSI Design Lab
• 39. VLSI Design Lab
• 40. VLSI Design Lab
• 41. VLSI Design Lab &#x2022;.tran Start_value Stop_value
• 42. VLSI Design Lab
• 43. VLSI Design Lab
• 44. VLSI Design Lab
• 45. VLSI Design Lab
• 46. VLSI Design Lab
• 47. VLSI Design Lab &#x2022;.DC Sweep_Variable Starting_Value Stopping_Value Increment
• 48. VLSI Design Lab
• 49. VLSI Design Lab Diode 1 1 2 VSIN 0
• 50. VLSI Design Lab Transient Operation
• 51. VLSI Design Lab
• 52. VLSI Design Lab
• 53. VLSI Design Lab Transient Analysis
• 54. VLSI Design Lab Output Waveform
• 55. VLSI Design Lab DC Analysis
• 56. VLSI Design Lab DC Sweep
• 57. VLSI Design Lab Output Waveform
• 58. VLSI Design Lab Changing Device Properties
• 59. VLSI Design Lab
• 60. VLSI Design Lab
• 61. VLSI Design Lab Properties to Change &#x2022; IS= 100E-15 IS 100E 15 &#x2022; RS= 16 &#x2022; BV= 100 &#x2022; IBV=100E-15
• 62. VLSI Design Lab Output Waveform
• 63. VLSI Design Lab Text File
• 64. VLSI Design Lab Simulation
• 65. VLSI Design Lab DC Analysis
• 66. VLSI Design Lab Transient Analysis
• 67. VLSI Design Lab BJT Circuit 4 7 5 3 2 1 6 0
• 68. VLSI Design Lab Transient Analysis
• 69. VLSI Design Lab Transient Analysis
• 70. VLSI Design Lab AC Analysis
• 71. VLSI Design Lab
• 72. VLSI Design Lab Text File
• 73. VLSI Design Lab Transient Analysis T i tA l i
• 74. VLSI Design Lab AC Analysis
• 75. VLSI Design Lab Inverter 1 2 3 0
• 76. VLSI Design Lab Transient Analysis
• 77. VLSI Design Lab Output Waveform
• 78. VLSI Design Lab DC Sweep
• 79. VLSI Design Lab Output Waveform
• 80. VLSI Design Lab Text File
• 81. VLSI Design Lab Transient Analysis
• 82. VLSI Design Lab DC Analysis
• 83. VLSI Design Lab Circuit HW