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Topic: Analysis of resistive circuits

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	Analysis of resistive circuits Information - Analysis of resistive circuits
		The analysis of a circuit refers to the process of solving for the voltages and currents present in the circuit.
		To summarize, for planar circuits, either nodal or mesh analysis may be used; generally, the method with the least unknowns to solve for is selected.
		AC cuircuits Analysis of resistive circuits involving multiple frequencies can be analysed by transforming to the frequency domain, treating each frequency seperately and superimposing the results.
	www.inanot.com /Ina-Electronics_Topics_Num_-_A-/Analysis_of_resistive_circuits.html (659 words)

	Electrical network - Wikipedia, the free encyclopedia
		To design any electrical circuits, electrical engineers need to be able to predict the voltages and currents in the circuit.
		Linear circuits can be analysed to a certain extent by hand because complex number theory gives engineers the ability to treat all linear elements using a single mathematical representation.
		Kirchhoff's current law: the sum of all currents entering a node is equal to the sum of all currents leaving the node.
	en.wikipedia.org /wiki/Electrical_network (696 words)

	Electronic Technology - NDSCS (Site not responding. Last check: 2007-10-08)
		Analysis of DC resistive circuits using Ohm’s Law and Kirchoff’s Laws with advanced analysis utilizing various circuit theorems and conversions will be studied.
		This analysis is primarily concerned with determining magnitude and phase of voltage and current.
		A continuation of ELEC 140 Semiconductor Circuit Analysis I. This lecture/lab course familiarizes the student with the operating principles of various transistor and thyristor circuits including bipolar transistors in amplifiers, voltage regulator circuits, and thyristor applications.
	www.ndscs.nodak.edu /onlinecatalog/descriptions/elec.html (663 words)

	Analysis of Resistive Circuits
		Circuits discussed herein are simple resistive circuits with independent voltage and current sources.
		While floating current sources tended to complicate the formulation of circuit equations when using the node voltage method, neither the presence of current sources or voltage sources complicates the loop current method.
		The choice between the node voltage method and the loop current method is often made on the basis of the circuit at hand.
	www.swarthmore.edu /NatSci/echeeve1/Ref/mna/MNA1.html (839 words)

	William Rainey Harper College
		Circuit properties and their applications to significant circuit configurations are examined.
		In addition, double tuned circuits, ringing and transient response of RLC circuits are discussed.
		Introduces laboratory instruments, circuit components, basic measuring techniques and basic circuits used as building blocks in any electronic system.
	www.harpercollege.edu /catalog/2000/course/elt.htm (715 words)

	Lessons In Electric Circuits -- Volume II (AC) - Chapter 5
		Resistance is mathematically symbolized by the letter “R” and is measured in the unit of ohms (Ω).
		Now that we've seen how series and parallel AC circuit analysis is not fundamentally different than DC circuit analysis, it should come as no surprise that series-parallel analysis would be the same as well, just using complex numbers instead of scalar to represent voltage, current, and impedance.
		Resistance is the measure of how much a circuit resists current, while conductance is the measure of how much a circuit conducts current.
	www.ibiblio.org /obp/electricCircuits/AC/AC_5.html (3899 words)

	Modified Nodal Analysis
		To use modified nodal analysis you write one equation for each node not attached to a voltage source (as in standard nodal analysis), and you augment these equations with an equation for each voltage source.
		Now all that is left is to solve the 5x5 set of equations (recall that the nodal analysis method resulted in just 1 equation, though we did some substitutions along the way).
		If you'll recall, the nodal analysis method became a bit more difficult when one or more of the voltage sources was not connect to ground.
	www.swarthmore.edu /NatSci/echeeve1/Ref/mna/MNA2.html (1009 words)

	SMU School of Engineering
		Circuit Analysis I. Analysis of resistive electrical circuits, basic theorems governing electrical circuits, power consideration, analysis of circuits with energy storage elements.
		Transientand sinusoidal steady-state analysis of circuits with inductors and capacitors.
		The course is designed to provide the student with a background for understanding modern electronic circuits such as digital-to-analog and analog-to-digital converters, active filters, switched-capacitor circuits and phase-locked loops.
	engr.smu.edu /ee/courses.html (5035 words)

	Electrical circuits 1 - 2006
		Fundamental is the knowledge of basic principles of electrical circuits analysis and its use with specific circuits including numerical solution within the scope of lectures agenda.
		Classification of circuits, linear and non-linear circuits, circuits with lumped elements and circuits with distributed elements.
		Two problems are related to resistive circuits analysis and another two problems are related to sinusoidal steady state analysis.
	amber.feld.cvut.cz /vyu/eo1/english (665 words)

	Lessons In Electric Circuits -- Volume II (AC) - Chapter 11
		Power factor can be an important aspect to consider in an AC circuit, because any power factor less than 1 means that the circuit's wiring has to carry more current than what would be necessary with zero reactance in the circuit to deliver the same amount of (true) power to the resistive load.
		If our last example circuit had been purely resistive, we would have been able to deliver a full 169.256 watts to the load with the same 1.410 amps of current, rather than the mere 119.365 watts that it is presently dissipating with that same current quantity.
		Poor power factor in an AC circuit may be “corrected”, or re-established at a value close to 1, by adding a parallel reactance opposite the effect of the load's reactance.
	www.ibiblio.org /obp/electricCircuits/AC/AC_11.html (3514 words)

	UA Undergraduate Catalog: COURSE LISTINGS
		DC, transient, and sinusoidal steady-state analysis of circuits.
		Introduction to circuit analysis, methods, resistive circuits, AC circuits, first-order transients, AC power, operational amplifiers, and machines.
		Response of circuits to periodic, step, and impulse functions; use of Laplace transforms in circuit solutions; frequency response and representation of circuits and systems; coupled circuits.
	www.ua.edu /catalogs/catalog00/24800.html (1406 words)

	EE-ELECTRICAL ENGINEERING
		Application of fundamental circuit laws and theorems to the analysis of DC, and steady-state single-phase and three-phase circuits.
		Analysis, performance characterization, and design of power electronics converters such as: rectifiers, DC choppers, AC voltage controllers, and single-phase inverters.
		Prerequisite: EE 409/449 (or concurrent) and EE 255/295, or EE 321 and consent of instructor.
	www.calpoly.edu /~acadprog/2003depts/cengr/ee_dept/eecrs2003.html (2958 words)

	Circuit Analysis Techniques
		However, for resistors in parallel, the reciprocal of the equivalent resistance equals the sum of the reciprocals of the resistors.
		Therefore, in a parallel circuit, the current is split up at the node where the parallel branch starts and combined when the branch comes back together.
		The water pressure corresponds to voltage, the current is the flow rate, and the resistance is shown by constrictions in the pipes.
	www.cs.wright.edu /egr190/kvlkcl/kvlkcl.htm (793 words)

	MWCC College Catalog 2006-2007 — Electronic Communications Technology (Site not responding. Last check: 2007-10-08)
		This course is an introduction to the analysis of resistive circuits with D.C. or sinusoidal inputs.
		Semiconductor Circuits I is an introduction to the principles of operation and application of discrete semiconductor devices.
		This course is a continuation of the study of discrete semiconductor devices and circuits including the bipolar and junction field effect transistor amplifiers, four-layer devices, and the unijunction transistor.
	www.mwcc.mass.edu /catalog/electron.html (570 words)

	Circuits Course: Circuits I
		This course presents the fundamentals of circuit analysis.
		These methods are first applied to resistive circuits and later to circuits with more complex elements such as capacitors and inductors.
		Circuits with DC sources as well as those with sinusoidal sources are analyzed.
	coel.ecgf.uakron.edu /durkin/circuits1.htm (305 words)

	EGR 214: Circuit Analysis I
		Gain pragmatic experiences in using electric/electronic measurement instruments to characterize electric devices and circuits to verify theoretical circuit laws.
		Electric circuit variables, circuit elements, resistive circuits, methods of analysis of resistive circuits, circuit theorems, the operational amplifier, energy storage elements, sinusoidal steady-state analysis, AC steady-state power and introduction to the use of computer-aided circuit design software.
		The student is to design and build a useful operational amplifier circuit of interest.
	claymore.engineer.gvsu.edu /~bidap/syllabus.html (774 words)

	ENEE 204 Syllabus (Site not responding. Last check: 2007-10-08)
		Phasors, node and mesh analysis, superposition, theorems of Thevenin and Norton.
		Principles of circuit and system theory are used in almost all major disciplines of electrical engineering.
		The objective of this course is to introduce the basic concepts, fundamental theorems, and analysis methods related to electrical circuits and systems.
	antoine.frostburg.edu /engr/soysal/courses/enee204/syllabus.htm (429 words)

	Complex number methods for op. amp. circuits
		circuits in terms of the complex number representation of voltage, current and impedance, one finds that the rules are the same as before or translate easily in to say the complex expressions for impedance.
		The circuit diagram on the left is an application of the previous discussion.
		But then the circuit on the right is a different case.
	www.physics.uq.edu.au /people/jones/phys2810/ph248tutes/circuits/sol1/node4.html (285 words)

	EE 321 - Electrical Circuits II (Site not responding. Last check: 2007-10-08)
		By topic: Node and mesh analysis, resistive circuits, energy storage elements, simple RL and RC circuits, second order circuits, sinusoidal excitation and phasors, AC steady-state analysis and AC steady-state power.
		Perform time domain analysis of linear, lumped parameter circuits using state variable methods.
		Perform complex-frequency domain analysis of linear, lumped parameter circuits using Laplace transform techniques.
	www.eecs.wsu.edu /~syllabus/eeungrad/321.html (262 words)

	Electrical Engineering Lower and Upper Division Courses (via CobWeb/3.1 planetlab2.tamu.edu) (Site not responding. Last check: 2007-10-08)
		Resistive circuits, Kirchhoff laws, operational amplifiers, node and loop analysis, Thevenin and Norton theorem, capacitors and inductors, duality, first-order circuits, step response, second-order circuits, natural response, forced response.
		Sinusoidal excitation and phasors, AC steady state analysis, AC steady state power, network functions, poles and zeros, frequency response, mutual inductance, ideal transformer, application of Laplace transforms to circuit analysis.
		Microwave integrated circuit design from a wireless system perspective, with focus on (1) use of microwave circuit simulation tools, (2) design of wireless frontend circuits including low noise amplifier, mixer, and power amplifier, (3) knowledge and skills required in wireless integrated circuit characterization and implementation.
	www.seasoasa.ucla.edu.cob-web.org:8888 /2003-04curric.html/electlowerupper.html (2350 words)

	EE Öğrenci Temsilciliği
		Basic components and principles of electrical circuits: circuit elements variables and measuring devices.
		Analysis of linear control systems by differential equations and transfer function methods using Laplace transforms.
		Types of integrated circuits, physical process employed in the design of integrated circuits, impurity diffusion and diffusion junction properties, oxidation and surface statesthin film deposition and properties; epitaxial growth; passive and active components for integrated electronics; integrated circuit design principles.
	www.eeotk.boun.edu.tr /EE/derskatologu.html (3256 words)

	EE-ELECTRICAL ENGINEERING
		Analysis of SCR circuits in inverters and cycloconverters; modeling of inverter-induction motor drive system; regenerative braking; electric propulsion; digital computer study of motor control system.
		Prerequisite: EE 319/EE 359, EE 307/EE 347 and EE 308/EE 348 or consent of instructor.
		Analysis and design of digital filters using time-domain and transform techniques.
	www.calpoly.edu /~acadprog/98depts/98ee/eecrs.html (2416 words)

	College of Engineering and Applied Science
		Circuit Laws and Analysis, Resistive Circuits, Energy Storage, AC Circuits and Power, Three-Phase Circuits, Computer-Aided Analysis.
		Analysis techniques for signals and systems in both continuous and discrete time, signal representation including Fourier and Laplace transforms, system definitions and properties.
		U/G. Differential and operational amplifier circuits, input signal conditioning, noise protection, system level offset and gain, non-ideal dc noise errors of analog subsystems, multiplexers, analog to digital conversion, digital to analog conversion, sample and hold amplifier circuits, sensitivity, robust design heuristics.
	www.uwm.edu /CEAS/academicsUndergraduateEE.html (926 words)

	[No title] (Site not responding. Last check: 2007-10-08)
		After stating the fundamentals of the Circuits Theory, a rigurous treatement of linear circuits analysis methods and, most of all, of their applications will be done.
		Finally, techniques of frequency response are applyied to analysis and systhesis of analog filters.
		To experimentally verify circuits analysis techniques studied in theoretical lectures.
	www.tinet.org /~jbesora/tcir.html (212 words)

	Finite element analysis
		Visualization of how a car deforms in an asymmetrical crash using finite element analysis Finite Element Analysis (FEA) is a computer simulation technique used in engineering analysis.
		It was first developed in 1943 by Richard Courant, who utilized the Ritz method of numerical analysis and minimization of variational calculus to obtain approximate solutions to vibration systems.
		However, it is also routinely used in the analysis of many other types of problems, including those in heat transfer, fluid dynamics and electromagnetism.
	www.kiwipedia.com /finite-element-analysis.html (447 words)

	AHC Catalog 2005-2006
		The subject matter of the course is basic to the understanding of all problems where vector analysis is involved.
		Basic circuit analysis emphasizing resistive circuits, network theorems, natural and forced response of RL, RC, and RLC circuits, steady state AC analysis and phasors.
		A continuation of circuit analysis and an introduction to electronic devices.
	www.hancockcollege.edu /catalog-05/page128.html (510 words)

	[No title] (Site not responding. Last check: 2007-10-08)
		This would imply that the source has no internal shunt resistance (impedance) and that it is capable of providing as much voltage as required by the load.
		The equations are written thus: The sum of the resistances in the loop multiplied by the loop current under consideration minus the sum of all resistancescurrent products of all resistances* in the path of other loop currents is equal to the sum of all the constant voltage sources in the loop under consideration.
		The value of voltages across each of the resistors for each of these circuits should be available before beginning the remainder of the experiment for the sake of comparison to the measured data.
	www.coe.uncc.edu /~jcarter/etee3153/3153-1dl.doc (2447 words)

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