9th November 2024
5 Months / 20 Weeks
Instructor-Led Live Online Classes
The Analog circuit design field has myriad opportunities in various fields-Data converter signal conditioning, Power Management, High-speed interfaces, Instrumentation, etc. job opportunities are available for engineers with a passion for Analog design, strong analytical problem-solving capability, and strong work discipline/commitment. This course is designed for working professionals with at least 1+ years of work experience in the VLSI / Electronics Industry, who want to learn and possibly switch to the Analog Circuit Design field.
We provide placement support as a complimentary service. Interested candidates need to register with the placement desk for further assistance. For more information, please speak to our Learning Advisor.
1. What is design ?
2. Design process
3. Discrete vs integrated circuit design
4. Analog IC design steps
5. Integrated circuit components
6. Amplifier , Amplifier gain, Two MOSFET amplifiers,
7. MOSFET, MOSFET V-I Characteristics, MOSFET current equations, MOSFET transconductance, MOSFET drain to source (output resistance)
8. MOSFET amplifier
1. Bias Point and Small Signal Analysis
2. Common Source Amplifier with Resistive Load
3. Common Source Amplifier with Current Source Load
4. Common Source Amplifier with Diode Connected Load
5. Commin Source/Source Follower
6. CS Amplifier with Active PMOS Load
7. Operating point Analysis
1. Disadvantage with Single Ended Signalling,
2. Differential Signaling,
3. CMOS Differential Amplifier with Single Ended Output,
4. PMOS input pair Differential Amplifier, Small signal Model
1. RC Filters – Basics, Frequency Response and Bandwidth
2. Gain and Bandwidth, Gain and Phase Margin, Why do we want good stability ?
3. Amplifiers in Series (Cascade Amp), Freq Response,
4. Introduction to OPAMP
5. How Single Pole is achieved ?-Miller Compensation
6. Usage of OTA within an IC & design methodology
7. Designing OpAmp- 1st Stage, 2nd stage, 2nd stage adding Miller Componsetion
8. OpAmp Applications- 7 transistor Opamp, Unit Gain Buffer, Unit Gain Buffer Experiment
1. Current Generator circuit, Current Generator circuit Experiment, Independent Current Generator circuit
2. Bandgap Reference Circuit: Requirement of Voltage Reference, Voltage Reference : Temperature Dependency, Diode as Voltage Reference, PTAT and CTAT Circuit, PTAT Voltage Reference, PTAT with Current Mirror, Reference Voltage Generation, Adding PTAT and CTAT, Vref Circuit, Voltage Reference α calculation
3. Lab exercise PTAT Circuit
1. What is Analog Comparator ? Application Areas
2. Specifications of Comparator
3. Parameters of Comparator
4. 2 stage OpAmp as Comparator
5. Opamp as Comparator
6. Comparator with Inverter Output
7. Advanced features of comparator-Offset and offset cancellation, Offset cancellation Scheme, Comparator with Hysteresis, Latched comparator or comparator with Latch
1. Oscillator Basics
2. 3 Stage Oscillator – Ring Oscillator
3. Ring Oscillator Using Digital Inverters
4. Propagation delay of Inverter
5. Limitations of Inverter based Ring Osc
6. Differential Delay cell based RO
7. Designing differential delay cell
1. Phase Locked Loop: What is PLL ?, Block Diagram, PLL as Frequency Multiplier, Building Blocks of PLL, PFD + CP, Parameters of PLL
2. Digital to Analog Converter: What is a DAC?, Binary Weighted Resistor, R-2R Ladder, Advanced DAC : Current Steering DAC,
Analog Circuit Design is the process of designing and developing circuits that process analog signals, such as voltage or current, using components like resistors, capacitors, inductors, and transistors. This field plays a crucial role in creating electronic devices that involve audio, radio frequency, and sensor systems, among others.
The Online Analog Circuit Design Course is ideal for working professionals in the electronics or electrical engineering fields who wish to enhance their skills in analog circuit design. Fresh graduates or individuals looking to shift their careers into VLSI (Very-Large-Scale Integration) can also benefit from this course.
The Online Analog Circuit Design Program at ChipEdge Technologies is a 5-month weekend-only course. This format allows professionals to upskill without disrupting their full-time jobs.
The Analog Circuit Design Course covers essential topics like the fundamentals of analog circuits, operational amplifiers, CMOS circuits, filters, and oscillators. It also includes hands-on practice with industry-standard tools, enabling participants to design, simulate, and verify their circuits effectively.
Yes, upon successful completion of the course, participants will receive a certificate from ChipEdge Technologies. This certification validates their skills in Analog Circuit Design and can enhance their career prospects in the semiconductor industry.
Yes, ChipEdge Technologies provides placement assistance to course graduates. Our dedicated placement team helps connect you with leading VLSI companies, and we also offer guidance on resume preparation and interview skills to improve your employability.
To get started, visit the ChipEdge Technologies website and fill out the enrollment form for the Analog Circuit Design Course. Once registered, our team will guide you through the next steps, including course schedules, payment options, and access to the learning platform.
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