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Analog Design is at the heart of every electronic system that interacts with the real world. From sensing temperature, sound, light, and voltage to processing signals in communication, power management, automotive, and consumer electronics—analog circuits are everywhere.
This program is designed for students and engineers who want to build a strong, industry-relevant foundation in analog circuit design, starting from semiconductor physics and basic circuit theory, and progressing all the way to complex CMOS analog blocks used in real chips.
Unlike purely theoretical learning, this program focuses on how circuits actually behave in silicon, helping students understand trade-offs between gain, bandwidth, noise, power, stability, and layout constraints—the exact thinking expected from analog design engineers in the industry.
The curriculum gradually builds your understanding across multiple abstraction levels:
Core Analog Fundamentals
You’ll develop strong intuition in time-domain and frequency-domain behavior of circuits, second-order systems, filters, Bode plots, and stability concepts—essential for analyzing real-world analog systems.
Semiconductor Device Understanding
Learn how diodes, BJTs, and MOSFETs actually work, including second-order effects, short-channel behavior, threshold voltage variations, and why devices behave differently in silicon than in textbooks.
Operational Amplifiers & Building Blocks
From basic op-amp configurations to multistage CMOS op-amps, you’ll understand how amplifiers are designed, compensated, and stabilized for real applications.
Core Analog Circuit Blocks
Design and analyze single-stage amplifiers, current mirrors, differential amplifiers, multivibrators, oscillators, bandgap references, LDOs, charge pumps, and PLL sub-blocks.
Advanced Analog Concepts
Gain hands-on insight into noise, non-linearity, mismatch, offset, frequency compensation, feedback theory, and multi-pole system behavior—critical for high-performance analog design.
Layout-Aware Analog Design
Learn why layout can make or break an analog circuit. Topics like matching, symmetry, IR drop, electromigration, latch-up, substrate coupling, and antenna effects are covered to align your designs with fabrication realities.
Builds strong analog intuition, not just equations
Bridges the gap between theory and silicon behavior
Prepares students for analog design, mixed-signal, and circuit design roles
Helps freshers understand how industry-grade analog IPs are built
Provides exposure to industry-standard projects and design approaches
Electronics / ECE students interested in Analog or Mixed-Signal Design
Fresh graduates aiming for core semiconductor roles
Engineers transitioning from digital or verification into analog
Anyone who wants to understand how real chips interact with the physical world
Module 1: Ohm’s Law and Network Theory
Ohm’s law
Resistance, Capacitance, Inductance
Network reduction
Thevenin and Norton, Superposition
Kirchhoff’s current & voltage law
Charge-current relation
Power-energy relation
Module 2: RLC Filters
Capacitor charging and discharging
Low pass filter, High pass filter
Integrator, Differentiator
Second order systems
Band pass filters, Stop band filters
All pass filters
Frequency domain analysis & bode plot
Time domain analysis
Thevenin’s equivalent voltage and resistance
Open circuit time constant method
Charge conservation and sharing
Module 3: Operational amplifiers and its derivative circuit
Open loop opamp
Inverting mode
Non-inverting mode
Differential mode
Current to voltage convertor
Voltage to current convertor
Voltage follower
Module 4: Multivibrators
Schmitt triger
Bistable
Monostable
Astable
Module 5: Physics of semiconductor
Section 1: Fundamental
Working of diode
Working of BJT
Rectifiers
Clipper and clampers
Voltage doubler
Section 2: Advance
Working of MOSFETs
Second order effects
Threshold voltage
MOSFET as a switch
Long channel vs short channels
IV characteristics
MOSFET as a cap
CMOS invertors and switching characteristics.
Module 6: Single stage amplifiers
Basics of Single Stage Amplifiers
Common source & Common gate stage
Source degeneration
Source follower
Cascode stage
Frequency analysis
Module 7: Current mirrors
Basic current mirror
Cascode current mirror
Wide swing current mirror
Self-bias current mirror
Wilson current mirror
Mismatch in current mirrors
Module 8: Differential amplifiers
Single ended and differential operation
Common mode response
Active load diff amp
Mismatch in diff amp
Module 9: CMOS operational amplifier and frequency compensation
One stage amplifier,
Two-stage amplifier
Folded cascade amplifier
Telescopic amplifier
Gain boosting.
Common mode feedback
Input common mode range.
Slew rate.
Power supply rejection
Multi-pole systems
Compensation techniques
Miller compensation
Two stage amplifier compensation
Module 10: Complex Analog circuits and feedback theory
Types of feedback
Bandgap circuit
LDOs
Voltage to current converters
Oscillators
Charge pumps
Equalizers
Active inductors
Phase and frequency detectors
Phase lock loops
Samplers/Slicers
Pole zero analysis for all circuits
Module 11: Non-linearity, Noise and Mismatch
Noise in single stage
Noise in differential stage
Non-linearity in differential circuits
Offset cancellation.
Module 12: Layouts
Fabrication steps
Interconnects, Design rules
Antenna effect, Electro-migration
IR drops.
Symmetry
Latch up
Substrate coupling
Module 13: Industry Standard Projects
Trainer Details:
Industry Expert 1 (As a Subject Matter Expert) - 10+ years of Industry Experience and expertise in Memory Circuit and layout Design. BITS Pilani Alumni - Highest Education M.Tech
Q- Who is giving this training?
ANS: This training is being conducted by "VLSI EXPERT PVT. LTD.".
Q:- What is going to be the mode of delivery of this training?
ANS: This is an Instructor-Led Online Training.
Q: - What if I miss a session?
ANS: No issues, if you miss a session the same will be available on our online platform and you can go through it as many times as possible, though the instructor won’t be available to solve your queries.
Q: - Is it a Certification Course?
ANS: - Yes this is a certification Course.
Q: - Who will give the training Certificate?
ANS: - The training Certificate will be given by "VLSI EXPERT PRIVATE LIMITED".
Q: - Is it a Placement Oriented Program?
ANS: - No, This is not a placement-oriented program. This program is a Level 2 Program which is to upskill candidates.
