Electronic Circuits Assignment Help, Electronic Circuits Homework Help

We at My Assignment helpers with excellent team of Electronic Circuits experts offer assistance for Electronic Circuits Assignment Help & Electronic Circuits Homework Help.

Our Online Electronic Circuits tutors offer instant support for Electronic Circuits weekly assignments. Send your assignments at This email address is being protected from spambots. You need JavaScript enabled to view it. for instant help or speak to us on the website chat.

Topics For  Electronic Circuits

• Analogue CMOS integrated circuits,MOS device physics ,CMOS and bipolar analogue circuits,Single-stage MOS amplifiers
• Differential MOS amplifiers,MOS current mirrors,Frequency response of MOS amplifiers,High speed techniques
• Phase-locked loops (PLLs),Frequency synthesis,Integer and fractional loops,Frequency translation loops
• PLL design and analysis fundamentals,Loop stability,Single and two-point modulation,Noise performance
• Acquisition,Intermodulation in RF circuits

Few Topics are:

• discrete circuit design
  
• System, signal, circuit
  
• chip design, medical implantable devices,
  
• integrated sensory systems
  
• wireless sensors
• Semiconductors and Integrated-Circuit Devices
  
• Semiconductors and pn-Junctions
  
• MOS Transistors and Bipolar Devices
  
• Device Model Summary
• SPICE Modelling Parameters
  
• Passive Devices
  
• CMOS Processing
  
• Layout and Rules
• Variability and Mismatch
  
• Basic Current Mirrors
  
• Single-Stage Amplifiers
  
• CMOS and BJT Current Mirrors and Gain Stages
  
• Common-Source Amplifier
  
• Source-Follower or Common-Drain Amplifier
  
• Common-Gate Amplifier
  
• Source-Degenerated Current Mirrors
  
• Cascode Current Mirrors
  
• Cascode Gain Stage
  
• MOS Differential Pair and Gain Stage
  
• Basic Operational Amplifier Design, Compensation and Feedback
  
• Two-Stage CMOS Opamp
  
• Opamp Compensation
  
• Advanced Current Mirrors
  
• Folded-Cascode Opamp
  
• Current Mirror Opamp
  
• Fully Differential Opamp
  
• Comparators, Comparator Specifications,
  
• Feedback Amplifiers
  
• Ideal Model of Negative Feedback
  
• Dynamic Response of Feedback Amplifiers,
  
• Common Feedback Amplifiers
  
• Power Amplifiers
  
• Biasing, References and Regulators
  
• Analog Integrated Circuit Biasing
  
• Establishing Constant Voltages and Currents
  
• Frequency Response
  
• Voltage Regulation
  
• Linear Regulator
  
• Elementary Transistor Circuits
  
• Cascode Gain Stage
  
• Source-Follower Amplifier
  
• Noise and Linearity Analysis and Modelling
  
• Time-Domain Analysis
  
• Frequency-Domain Analysis
  
• Noise Models for Circuit Elements
  
• Dynamic Range Performance

Linear Ciruits

• Lumped circuit elements
  
• network equations
  
• zero-input and zerostate responses
  
• sinusoidal steady-state analysis
  
• impedance; resonance
  
• network functions
• power concepts
  
• transformers
  
• Laplace transforms

Complex Topics are:

• Fundamentals of charge, voltage, current and power
  
• current-voltage relationships for basic components
  
• modelling of real components
  
• Kirchhoff’s voltage and current laws
  
• series and parallel combinations
  
• nodal and mesh analysis
  
• properties of linear networks
  
• Thévenin’s theorem, Norton’s theorem, maximum power transfer theorem
  
• superposition
  
• capacitor and inductor modeling
  
• source-free response of RLC circuits
  
• 1st and 2nd order RLC circuits, initial conditions, forced response, complete response
  
• phasors
  
• the Laplace transform
  
• frequency response
  
• high pass, low pass, bandpass, and bandstop filters
  
• complex frequency, pole-zero and Bode plots, resonance
• trigonometric form of Fourier series
  
• complex form of Fourier series, Fourier transform techniques