Brochure
Enquire
- Why do we need Circuit Designs and SPICE Simulations?
- Introduction to basic element in circuit design - NMOS
- Strong inversion and threshold voltage
- Threshold voltage with positive substrate potential
Quick Facts
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Medium of instructions
English
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Mode of learning
Self study
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Mode of Delivery
Video and Text Based
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Course and certificate fees
Fees information
₹ 2,299
certificate availability
Yes
certificate providing authority
Udemy
The syllabus
Introduction to Circuit Designs and SPICE Simulations
NMOS Resistive region and saturation region of operation
- Resistive region of operation with small drain-source voltage
- Drift Current Theory
- Drain current model for linear region of operation
- SPICE conclusion to resistive operation
- Pinch-off region condition
- Drain current model for saturation region of operation
Introduction to SPICE
- Basic SPICE Setup
- Circuit description in SPICE syntax
- Define technology parameters
- Standard Technology File
- First SPICE Simulation
- SPICE desk for 1.2u Technology Mode
SPICE simulation for lower nodes and Velocity Saturation Effect
- SPICE simulation for lower nodes (250nm)
- SPICE Deck for 250nm Technology node
- Drain current vs gate voltage for long and short channel device
- Id-Vgs SPICE desk for 1.2u Technology Mode
- Id-Vgs SPICE desk for 250nm Technology Mode
- Velocity variation at lower and higher electric fields
- Velocity saturation drain current model
CMOS Voltage Transfer Characteristics
- MOSFET as a switch
- Introduction to standard MOS voltage current parameters
- PMOS NMOS drain current v/s drain voltage
- Step1 - Convert PMOS gate-source-voltage to Vin
- Step 2 and Step 3- Convert PMOS and NMOS drain-source-voltage to vout
- Step4 - Merge PMOS - NMOS load curves and plot VTC
Conclusion and Next Steps
- Conclusion and Next Steps
Quiz
- Threshold voltage
Instructors
Mr Kunal Ghosh
Director, instructors
Freelancer
M.E /M.Tech.
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