presentation for NEC course to defend for NEP 2020
1. Dr. Vikas Mahor
AN AUDIT PRESENTATION ON NEC COURSE:
LT-SPICE TUTORIAL FOR CIRCUIT SIMULATION
(2000110)
Dr. Vikas Mahor
Assistant Professor,
Department of Electronics Engineering
MADHAV INSTITUTE OF TECHNOLOGY & SCIENCE, GWALIOR
3/14/2024 1/8
Department of Electronics
2. Dr. Vikas Mahor
COURSE OBJECTIVES & CONTENT
3/14/2024
Department of Electronics 2/8
Objectives of Course: To make the students learn about the usage of CAD
tools for analyzing microelectronic circuits.
Content:
Installation of LT-SPICE software tool. Historical Context , The SPICE
Algorithm, Device Models , Netlists , LT-SPICE, Device Parameter Models
Creating a Circuit in the Schematic Editor The Schematic Editor, The Toolbar,
Manipulating the Canvas, Placing Components, Placing a Resistor, an
Inductor or a Capacitor, Searching for a Component, Voltage Reference,
Moving Components Around, Connecting Components, Assigni ng
Parameter Values, Naming Components, Labelling Nets, Printing your Circuit
Running Analyses, DC Operating Point Analyses, DC Sweep Analyses,
Transient Analyses, AC Analyses, Printing your Plots Using Simulator
Directives
3. Dr. Vikas Mahor
OUTCOMES OF THE COURSE:
3/14/2024 3/8
Upon completion of the course students should be able to:
Department of Electronics
1. Use basic electrical DC concepts and theorems to analyze circuits.
2. Build and simulate electrical DC circuits and perform measurements with
electronic test equipment.
3. Write technical reports using collected data
4. Dr. Vikas Mahor 3/14/2024 4/8
Department of Electronics
Need For Electronic Circuits Computer Simulator
NEED OF THIS COURSE
It is extensively significant to use SPICE simulators for testing before
constructing a new circuit in hardware because simulating and analyzing the
designed circuit using the software is easier, time-saving, and less expensive.
Testing with SPICE simulators reduces the wastage of hardware resources. This
is because hardware implementation is executed only when accurate simulation
results are obtained.
5. Dr. Vikas Mahor 3/14/2024 5/8
Department of Electronics
LIST OF ACTIVITIES CONDUCTED:
1. Half Wave Rectifier:
Simulate a basic half-wave rectifier circuit using a diode and a resistor.
Analyze the output waveform across the load resistor.
2. Bridge Type Full-Wave Rectifier:
Design and simulate a bridge rectifier circuit using four diodes.
Analyze the rectified output waveform across the load resistor.
3. Clippers:
Implement different types of clipping circuits such as positive/negative voltage clippers
using diodes.
Observe the effect of clipping on input signals.
4. Clampers:
Simulate a positive or negative clamper circuit using diodes and capacitors.
Study the effect of clamping on input signals.
5. CMOS Logic Gates:
Implement basic CMOS logic gates such as AND, OR, NAND, NOR, XOR, and XNOR
gates.
Analyze the input-output characteristics of these gates.
6. RC Filters:
Design and simulate RC low-pass, high-pass, band-pass, and band-stop filters.
Analyze frequency response and filter characteristics.
6. Dr. Vikas Mahor
COURSE MANAGEMENT VIA MOODLE & ASSIGNMENT REPORTS
3/14/2024 6/8
Department of Electronics
Link to Assignments (July-Dec 2023):
https://drive.google.com/drive/folders/19w9wvkkSONt713HZu3gizM1vuapekhQi?usp=sh
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