Coursework
My education at Iowa State University has been a life changing experience. Through the wonderful people I have met and worked with, I have been shaped into a focused individual and a promising engineer. Below is a summary of my educational background at ISU. Please view my lab reports by clicking on the links in red:
EE 330: Integrated ElectronicsProfessor: Dr. Randy Geiger
Semiconductor technology for integrated circuits. Modeling of integrated devices including diodes, BJTs, and MOSFETs. Physical layout. Circuit simulation. Digital building blocks and digital circuit synthesis. Lab 1: Cadence Design Environment Lab 2: Basic Boolean Circuits Lab 3: Layout & LVS Lab 4: From Boolean Function to Silicon Lab 9: Semiconductor Applications Lab 10: Bipolar Devices and Applications Final Project: Final Lab Project Report EE 230: Electronic Circuits & SystemsProfessor: Dr. Santosh Pandey
Frequency domain characterization of electronic circuits and systems, transfer functions, sinusoidal steady state response. Time domain models of linear and nonlinear electronic circuits, linearization, small signal analysis. Lab 3: RC Circuits, High-pass and Low-pass Lab 5: Frequency Response of Operational Amplifiers Lab 6: Operational Amplifier Circuits Final Project: Optical Signaling Circuit EE 311: Elements of ElectromagneticsProfessor: Mani Mina
Fundamentals and applications of electric and magnetic fields and materials. Electrostatics and magentostatics, potentials, capacitance and inductance, energy, force, torque. Uniform plane electromagnetic waves, Poynting vector. Transmission lines: transient and sinusoidal steady-state conditions, reflection coefficient. CprE 288: Embedded SystemsEmbedded C programming. Interrupt handling. Memory mapped I/O in the context of an application. Elementary embedded design flow/methodology. Timers, scheduling, resource allocation, optimization, state machine based controllers, real time constraints within the context of an application. Applications laboratory exercises with embedded devices.
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EE 332: Semiconductor MaterialsProfessor: Dr. Meng Lu
Introduction to semiconductor material and device physics. Quantum mechanics and band theory of semiconductors. Charge carrier distributions, generation/recombination, transport properties. Physical and electrical properties and fabrication of semiconductor devices such as MOSFETs, bipolar transistors, laser diodes and LEDs. EE 224: Signals & Systems IProfessor: Dr. Zhengdao Wang
Introduction to signals and systems. Signal manipulations. System properties. LTI systems, impulse response and convolution. Fourier Series representation and properties. Continuous and discrete-time Fourier Transforms and properties. Sampling and reconstruction. Modulation and demodulation. Applications and demonstrations using Matlab. Lab 1: Function Design and Simulation Lab 2: Tuning Fork Synthesis of Sinusoidal Signals Lab 3: Beat Notes & Time-Varying Signals Lab 4: Fourier Analysis & Synthesis EE 324: Signals and Systems IIProfessor: Ratnesh KumarLaplace and z-Transforms, properties and inverses. Applications to LTI systems and analog/digital filters. Feedback systems and stability. State-space representation and analysis.
Lab 1: Simulink Overview Lab 3: Transfer Function, Poles, Zeros Lab 5: Applied Discrete-Time Systems Lab 7: EE 322: Probabilistic Methods for Electrical EngineersThe course covers descriptions of discrete and continuous random variables (probability mass function, cumulative distribution function and probability density function); mean and variance computation; conditioning and Bayes rule; statistical independence; and joint, conditional and marginal pdf and cdf. Bernoulli, Binomial, Geometric, Poisson, Uniform, Exponential, Gaussian and other distributions of interest to EE students will be discussed. Moment generating functions, PMF, PDF of sums or random variables will also be covered. Covariance, correlation and Bayesian least squares (and linear least squares) estimation will be covered. Markov and Chebyshev inequality, law of large numbers, central limit theorem.
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