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6 Months
Offline Classes
Analog Circuit Design is the heart of the semiconductor industry. From power management to high-speed communication interfaces, the demand for skilled Analog Layout and Design Engineers is at an all-time high.
Course Fee
No Cost EMI Option
Pay After Placement Option
Merit Based Discount Option Upto 50%
By the end of this course, you will be able to:
Analog vs Digital vs Mixed Signal
Role of Analog in SoCs
IC design flow overview
Foundry process basics
PN junction behavior
Diodes and BJTs basics
Carrier transport
Temperature effects
MOS structure and operation
Regions of operation
I–V characteristics
Threshold voltage and body effect
Small signal parameters (gm, gds, ro)
Channel length modulation
Short channel effects
Frequency response basics
Simple current mirror
Cascode current mirror
Wilson current mirror
Accuracy and mismatch analysis
Biasing requirements
Voltage and current bias circuits
Bandgap reference introduction
Temperature compensation
Common Source amplifier
Common Gate amplifier
Common Drain (Source Follower)
Gain, bandwidth, and output resistance
Differential pair operation
Common-mode vs differential-mode
CMRR
Tail current source design
PMOS/NMOS active loads
Cascode amplifiers
Gain boosting techniques
Output swing limitations
Two-stage op-amp architecture
Gain and bandwidth trade-offs
Slew rate analysis
Power dissipation considerations
Poles and zeros
Miller compensation
Stability criteria
Phase margin and gain margin
Op-amp specifications
Input offset and bias currents
Noise considerations
Practical op-amp design flow
Thermal noise
Flicker (1/f) noise
Noise modeling in MOSFETs
Noise reduction techniques
Passive vs active filters
Low-pass, high-pass, band-pass
Gm-C and switched-capacitor filters
Filter design examples
Static vs dynamic comparators
Offset and speed trade-offs
Hysteresis concepts
Applications in ADCs
ADC architectures overview
DAC architectures overview
Performance metrics (INL, DNL, SNR)
Sampling theory basics
LDO regulators
Voltage references
Startup circuits
Protection circuits
Matching concepts
Common centroid layout
Parasitics and routing
Guard rings and shielding
DC, AC, transient analysis
Corner and Monte Carlo simulations
PVT variations
Silicon validation basics
End-to-end analog block design
Specification to schematic
Simulation and optimization
Layout and post-layout analysis
At ChipXpert VLSI Training Institute, our Placement Desk is dedicated to bridging the gap between skilled engineers and top-tier VLSI companies. We work closely with both multinational corporations (MNCs) and service companies in the semiconductor industry to fulfill their entry-level hiring needs. Our strong industry collaborations ensure that our trained engineers have access to a wide range of job opportunities.
We offer comprehensive placement assistance as part of our training package. From resume building and interview preparation to arranging direct interviews with hiring companies, our support continues until candidates secure their desired positions. Additionally, we stay in constant touch with recruiters to ensure our students are matched with roles that best suit their skills and aspirations.
Our placement desk also offers personalized guidance for job seekers, including industry-specific tips and insights to help them excel during interviews. Candidates are encouraged to register with the placement desk for dedicated support throughout their job search. For further details or to start the placement process, please reach out to our Learning Advisor.
Analog Circuit Design focuses on building circuits that handle continuous signals such as voltage and current. It involves designing components like amplifiers, oscillators, and filters while ensuring stability, low noise, and reliable performance across different operating conditions.
This course helps you understand how real analog circuits are designed at the transistor level. You will learn concepts such as CMOS behavior, biasing techniques, gain calculation, frequency response, and how to design circuits like amplifiers and current mirrors used in modern chips.
This course is suitable for ECE/EEE students, graduates, and professionals who want to build strong fundamentals in analog electronics. It is ideal for those aiming to enter core VLSI domains such as analog or mixed-signal design.
After completing this course, you can pursue roles such as Analog Design Engineer, Circuit Design Engineer, or Mixed-Signal Engineer. These roles are critical in semiconductor companies working on power management, RF systems, and high-performance chips.
The course emphasizes practical understanding of circuit behavior along with real-world design approaches. By learning how circuits are designed, analyzed, and optimized, you gain the skills required to handle industry-level challenges and technical interviews confidently.
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