Tài liệu miễn phí Điện - Điện tử
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Lecture Introduction to Circuits for ECE - Lesson 14: Implementing linear and non-linear functions using op-amps
Lecture Introduction to Circuits for ECE - Lesson 14: Implementing linear and non-linear functions using op-amps. The main topics covered in this chapter include: ideal op-amp, op-amp amplifiers, another linear operation with op-amp, yet another linear operation with op-amp,...
4/8/2023 2:35:45 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 13: Op-amps and Op-amp amplifiers
Lecture Introduction to Circuits for ECE - Lesson 13: Op-amps and Op-amp amplifiers. The main topics covered in this chapter include: MOSFET amplifier, operational amplifier, simple op-amp model, real op-amp behavior, practical amplifier design, non-inverting amplifier,...
4/8/2023 2:35:34 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 12: Large and small signal analysis of Transistor circuits
Lecture Introduction to Circuits for ECE - Lesson 12: Large and small signal analysis of Transistor circuits. The main topics covered in this chapter include: MOSFET i-v characteristics, MOSFET as a controlled current source, MOSFET circuit – large-signal analysis,...
4/8/2023 2:35:27 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 11: Circuits with dependent sources
Lecture Introduction to Circuits for ECE - Lesson 11: Circuits with dependent sources. The main topics covered in this chapter include: circuit elements covered so far, independent sources, resistive elements, voltage-controlled voltage source, current-controlled voltage source,...
4/8/2023 2:35:21 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 10: Small-signal analysis of Nonlinear circuits and Transistors and Dependent sources
Lecture Introduction to Circuits for ECE - Lesson 10: Small-signal analysis of Nonlinear circuits and Transistors and Dependent sources. The main topics covered in this chapter include: small-signal application, large-signal and small-signal notation, circuit laws for small-signals, constitutive relationships for small-signals,...
4/8/2023 2:35:14 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 9: Large-signal analysis of nonlinear circuits
Lecture Introduction to Circuits for ECE - Lesson 9: Large-signal analysis of nonlinear circuits. The main topics covered in this chapter include: examples of two-terminal nonlinear devices, analysis of circuits with nonlinear devices, nonlinear device circuit, graphical analysis using load line,...
4/8/2023 2:35:08 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 8: Source transformation and Mesh analysis
Lecture Introduction to Circuits for ECE - Lesson 8: Source transformation and Mesh analysis. The main topics covered in this chapter include: thevenin and norton equivalent summary, source transformation, circuit analysis utilizing source transformations,...
4/8/2023 2:35:01 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 7: Thevenin and Norton equivalent circuits
Lecture Introduction to Circuits for ECE - Lesson 7: Thevenin and Norton equivalent circuits. The main topics covered in this chapter include: i-v relationship of a subcircuit, i-v relationship of arbitrary linear subcircuit, port model of arbitrary linear subcircuit, thevenin equivalent circuit,...
4/8/2023 2:34:55 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 6: Linearity and Superposition
Lecture Introduction to Circuits for ECE - Lesson 6: Linearity and Superposition. The main topics covered in this chapter include: node analysis example, node analysis – circuit with more nodes, properties of linear circuits, circuit inputs, circuit analysis using superposition,...
4/8/2023 2:34:47 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 4: Node analysis
Lecture Introduction to Circuits for ECE - Lesson 4: Node analysis. The main topics covered in this chapter include: circuits analysis techniques, circuits simplification techniques/tricks do not always work, node analysis always works, selection of reference node,...
4/8/2023 2:34:40 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 3: Circuit analysis using Simplification techniques and Voltage and Current dividers
Lecture Introduction to Circuits for ECE - Lesson 3: Circuit analysis using Simplification techniques and Voltage and Current dividers. The main topics covered in this chapter include: another circuit analysis example, circuit simplification by combining elements, series combination of resistors,...
4/8/2023 2:34:32 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 2: Circuit laws and Circuit analysis
Lecture Introduction to Circuits for ECE - Lesson 2: Circuit laws and Circuit analysis. The main topics covered in this chapter include: constitutive relationships of basic circuit elements, Kirchhoff’s Current Law, Kirchhoff’s Voltage Law, our first circuit analysis,...
4/8/2023 2:34:24 AM +00:00
Lecture Introduction to Circuits for ECE - Lesson 1: Electrical quantities and Constitutive relationships
Lecture Introduction to Circuits for ECE - Lesson 1: Electrical quantities and Constitutive relationships. The main topics covered in this chapter include: electromagnetic theory, Maxwell’s equations, circuit theory, voltage and energy, associated variables convention,...
4/8/2023 2:34:14 AM +00:00
Lecture Embedded systems - Lesson 15: Resource access protocols
Lecture Embedded systems - Lesson 15: Resource access protocols. The main topics covered in this chapter include: scheduling algorithms with restrictions on shared resources (mutual exclusion), problem: priority inversion, algorithms: non-preemptive protocol (NPP), highest locker priority (HLP),...
4/8/2023 2:34:08 AM +00:00
Lecture Embedded systems - Lesson 14: Real-time scheduling algorithms for periodic tasks
Lecture Embedded systems - Lesson 14: Real-time scheduling algorithms for periodic tasks. The main topics covered in this chapter include: scheduling algorithms for periodic real-time tasks, timeline scheduling, Rate monotonic (RM) scheduling, multiple periodic tasks with different periods need to run,...
4/8/2023 2:33:57 AM +00:00
Lecture Embedded systems - Lesson 13: (Aperiodic) Real-time scheduling algorithms
Lecture Embedded systems - Lesson 13: (Aperiodic) Real-time scheduling algorithms. The main topics covered in this chapter include: scheduling algorithms for real-time systems, real-time scheduling problem, maximum lateness (metric), earliest due date (EDD), earliest Deadline First (EDF),...
4/8/2023 2:33:50 AM +00:00
Lecture Embedded systems - Lesson 12: Conventional scheduling algorithms
Lecture Embedded systems - Lesson 12: Conventional scheduling algorithms. The main topics covered in this chapter include: scheduling algorithms for non-real-time systems, a metric: average response time, first come first served (FCFS), shortest job first (SJF),...
4/8/2023 2:33:44 AM +00:00
Lecture Embedded systems - Lesson 11: Introduction to Real-Time scheduling
Lecture Embedded systems - Lesson 11: Introduction to Real-Time scheduling. The main topics covered in this chapter include: real-time systems, terminologies, scheduling, precise timing constraints, hard real-time tasks, soft real-time tasks,...
4/8/2023 2:33:38 AM +00:00
Lecture Embedded systems - Lesson 10: Condition variables and Semaphores
Lecture Embedded systems - Lesson 10: Condition variables and Semaphores. The main topics covered in this chapter include: condition variables and usage patterns and examples, semaphores and producer-consumer example,
4/8/2023 2:33:32 AM +00:00
Lecture Embedded systems - Lesson 9: Locks
Lecture Embedded systems - Lesson 9: Locks. The main topics covered in this chapter include: Dekker’s algorithm, lock: a synchronization primitive to efficiently support mutual exclusion, definition and usage example, atomic read-modify-write instructions, building higher-level constructions using locks,...
4/8/2023 2:33:23 AM +00:00
Lecture Embedded systems - Lesson 7: Time sharing
Lecture Embedded systems - Lesson 7: Time sharing. The main topics covered in this chapter include: high-level operation, process state, OS/scheduler data structures, context switch example in ARM, memory protection, reference for basic concepts,...
4/8/2023 2:33:17 AM +00:00
Lecture Embedded systems - Lesson 6: Embedded bus protocols
Lecture Embedded systems - Lesson 6: Embedded bus protocols. The main topics covered in this chapter include: IO interfaces beyond GPIO, design space for bus communication protocols, CAN bus protocol, I2C (Inter-Integrated Circuit) bus protocol,...
4/8/2023 2:33:07 AM +00:00
Lecture Embedded systems - Lesson 4: Input/Output
Lecture Embedded systems - Lesson 4: Input/Output. The main topics covered in this chapter include: general I/O concepts, interrupt/exception handling, handling multiple input sources, references (ARM specific), K64-sub-family reference manual,...
4/8/2023 2:32:56 AM +00:00
Lecture Embedded systems - Lesson 3: Implementing C language constructs
Lecture Embedded systems - Lesson 3: Implementing C language constructs. The main topics covered in this chapter include: control flow: if-then-else, control flow: switch, control flow: for, code reuse, problem: ARM vs. thumb modes,...
4/8/2023 2:32:50 AM +00:00
Lecture Embedded systems - Lesson 2: Introduction to Assembly Language
Lecture Embedded systems - Lesson 2: Introduction to Assembly Language. The main topics covered in this chapter include: human-readable, quasi-isomorphic translation of machine code; binary-encoded instructions describing a program; machine code example; assembly equivalent;...
4/8/2023 2:32:43 AM +00:00
Lecture Embedded systems - Lesson 1: Introduction
Lecture Embedded systems - Lesson 1: Introduction. The main topics covered in this chapter include: embedded systems attributes, abstraction layers, hardware-software integration, programming languages for embedded systems, assembly language programming,...
4/8/2023 2:32:37 AM +00:00
Lecture Design and Implementation of VLSI systems - Lesson 6: Performance estimation
Lecture Design and Implementation of VLSI systems - Lesson 6: Performance estimation provide students with knowledge about performance estimation; power in circuit element; source of power dissipation; charging a capacitor; switching waveforms; switching power;...
4/8/2023 2:28:16 AM +00:00
Lecture Design and Implementation of VLSI systems - Lesson 5: Delay
Lecture Design and Implementation of VLSI systems - Lesson 5: Delay provide students with knowledge about introduction and delay definitions; delay estimation; logical effort for delay estimation; how to calculate delay; transistor resistance; switch level RC models;...
4/8/2023 2:28:09 AM +00:00
Lecture Design and Implementation of VLSI systems - Lesson 4: MOSFET
Lecture Design and Implementation of VLSI systems - Lesson 4: MOSFET provide students with knowledge about MOSFET; MOS transistor theory; gate-oxide-body sandwich = capacitor; gate capacitance as a function of Vgs; the MOS transistor has three regions of operation;...
4/8/2023 2:28:02 AM +00:00
Lecture Design and Implementation of VLSI systems - Lesson 3: CMOS fabrication
Lecture Design and Implementation of VLSI systems - Lesson 3: CMOS fabrication provide students with knowledge about CMOS fabrication; fabricating one transistor; wafer preparation; expose N well mask; develop resist; implant N well; remove resist;...
4/8/2023 2:27:55 AM +00:00