ABSTRACT
Electronic circuit simulation uses mathematical models to replicate the behavior of an actual electronic device or circuit. Simulation software allows for modeling of circuit operation and is an invaluable analysis tool. Due to its highly accurate modeling capability, many Colleges and Universities use this type of software for the teaching of electronics technician and electronics engineering programs. Electronics simulation software engages the user by integrating them into the learning experience. These kinds of interactions actively engage learners to analyze, synthesize, organize, and evaluate content and result in learners constructing their own knowledge.
Simulating a circuit’s behavior before actually building it can greatly improve design efficiency by making faulty designs known as such, and providing insight into the behavior of electronics circuit designs. In particular, for integrated circuits, the tooling (photomasks) is expensive, breadboards are impractical, and probing the behavior of internal signals is extremely difficult. Therefore almost all IC design relies heavily on simulation. The most well known analog simulator is SPICE. Probably the best known digital simulators are those based on Verilog and VHDL.
TABLE OF CONTENTS
TITLE PAGE
CERTIFICATION
DEDICATION
ACKNOWLEDGEMENT
ORGANIZATION OF WORK
ABSTRACT
TABLE OF CONTENT
CHAPTER ONE
1.0 INTRODUCTION
1.1 STATEMENT OF THE PROBLEM
1.2 PURPOSE OF THE STUDY
1.3 AIM AND OBJECTIVES
1.4 SCOPE OF STUDY
1.5 CONSTRAINTS
1.6 ASSUMPTION
1.7 DEFINITION OF TERMS
CHAPTER TWO
2.0 LITERATURE REVIEW
CHAPTER THREE
3.0 DESCRIPTION AND ANALYSIS OF THE EXISTING SYSTEM
3.1 FACT FINDING METHODS USED
3.11 REFERENCES TO WRITTEN DOCUMENT
3.1.2 BROWSING OF INTERNET
3.2 INPUT, PROCESS, OUTPUT ANALYSIS
3.2.1 INPUT, ANALYSIS
3.2.2 INPUT FORMAT
3.2.3 PROCESS, ANALYSIS
3.2.4 OUTPUT, ANALYSIS
3.2.5 INPUT FORMAT
3.3 PROBLEM OF THE EXISTING SYSTEM
3.4 OBJECTIVE OF THE EXISTING SYSTEM
3.5 JUSTIFICATION OF THE NEW EXISTING SYSTEM
CHAPTER FOUR
4.0 THE DESIGN OF THE NEW SYSTEM
4.1 OUTPUT SPECIFICATION AND DESIGN
4.2 INPUT SPECIFICATION AND DESIGN
4.3 FILE DESIGN
4.4 FILE STRUCTURE
4.5 PROCEDURE CHART
4.6 SYSTEM FLOWCHART
4.7 SYSTEM REQUIREMENT
4.71 HARDWARE REQUIREMENT
4.72 SOFT WARE REQUIREMENT
5.0 IMPLEMENTATION
5.1 PROGRAM DESIGN
5.2 PSEUDO CODE
5.3 PROGRAM FLOWCHART
6.0 DOCUMENTATION
6.1 CHOICE OF LANGUAGE
6.2 LANGUAGE INTRODUCTION
6.3 CHANGE OVER METHOD
7.0 CHAPTER FIVE
8.0 CONCLUSION
7.1 RECOMMENDATION
BIBLIOGRAPHY