|
EEE 307: NETWORK ANALYSIS AND SYNTHESIS
|
| bet | 14/48 | | Sana | 02.01.2024 | | Hajmi | 327 Kb. | | #129611 |
Bog'liq BACHELOR OF SCIENCE ELECTRICAL ELECTRONICS ENGINEERING
Network Concepts: Network Topology, Graph Theory: Incidence matrix; mesh, loop, and tree; cut-set, directed graph; circuit matrix, cut-set matrix; fundamental circuits and cut-sets: Network Functions: Driving-point functions; driving point impedance; two-port parameter matrices; transfer polynomials, polynomial composition of network parameters: Passive network synthesis: Introduction to concept of positive realness; test for positive realness; Huruwitz polynomials, Cauer synthesis; Foster synthesis: Filter Concepts: filter parameters and approximation techniques: Butterworth, Chebyshev, Elliptical, Bessel approximations: Filter design using image parameters and other appropriate methods: Frequency and impedance transformation: Normalization: Introduction to active filter design.
EEE 303: POWER SYSTEMS I
Introduction to electrical power systems, Sources of electrical energy, Generation, transmission and distribution of electrical power. Transformers. Three phase transmission system. Steady-state operations. Single line equivalent circuit of star-and delta connected loads. Application of per unit quantities. Tariffs. Power Factor and power factor correction.
EEE 306: DIGITAL ELECTRONICS II
Medium-Scale-Integrated (MSI) devices and their applications: Decoders, Encoders, Multiplexers, Demultiplexers, Adders and Subtractors, Magnitude Comparators: HDL for MSI circuits: Memory devices: Semiconductor memories: ROMs, PROMs, EPROMs, EEPROMs, Flash memories, PLAs and PALs, static RAM, dynamic RAM, CCD memories, FPGAs and ASICs: Expanding word size and capacity: Applications of different memory devices: Sequential logic circuits: Analysis of sequential logic circuits using state equations, state tables and state diagrams: State reduction: Design of sequential circuits: HDL for sequential logic circuits: Timing circuits; Astable and monostable multivibrator circuits and their applications, crystal oscillator circuits: Analogue-to-Digital (A/D) and Digital-to-Analogue (D/A) conversion: Basic concepts, D/A conversion: weighted resistor DAC, R-2R ladder DAC. A/D conversion: Digital ramp DAC, successive approximation DAC, dual-slope ADC, Flash ADC: General ADC and DAC specifications and applications: Introduction to microcomputers and microcomputer organization: Microcomputer components and the working of a microcomputer, working of a microprocessor, types of microprocessors, programming model of a microprocessor, basic concepts of microprocessor interfacing.
|
| |
